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Title:
ATTACHABLE AND EXTENDABLE SAW AND METHODS FOR USING THE SAME
Document Type and Number:
WIPO Patent Application WO/2018/067189
Kind Code:
A1
Abstract:
An extendable saw can include a blade housing coupled to a main body by at least one extendable member, the blade housing at least partially covers a saw blade and the extendable member can be configured to move the blade housing and the saw blade between a retracted position and an extended position relative to the main body. The extendable saw can also include a motorized unit coupled to the saw blade and configured to rotate or provide other blade movement to the saw blade and a switchable device or unit disposed on the main body and having at least one contact surface that is switchable between a magnetized or vacuum state and a non- magnetized state or non-vacuum state, respectively. The saw blade can be attached to or coupled to a base plate, shaft or arbor with fasteners that are flush or countersunk below a surface of the blade.

Inventors:
HARRIS WILLARD (US)
Application Number:
PCT/US2016/061358
Publication Date:
April 12, 2018
Filing Date:
November 10, 2016
Export Citation:
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Assignee:
MECH & ELECTRICAL CONCEPTS INC (US)
International Classes:
B23D45/00; B28D1/04
Domestic Patent References:
WO2015157457A12015-10-15
Foreign References:
US4870946A1989-10-03
US20140133900A12014-05-15
US8739378B22014-06-03
US5038473A1991-08-13
US20110277612A12011-11-17
US8696245B22014-04-15
Attorney, Agent or Firm:
SHAKULA, Peter, J. et al. (US)
Download PDF:
Claims:
CLAIMS:

What is claimed is:

1. An attachable and extendable saw comprising: a main body; a blade housing coupled to the main body by an extendable member, wherein the blade housing at least partially covers a saw blade and the extendable member is configured to move the saw blade with or without the blade housing between a retracted position and an extended position relative to the main body; a motorized unit coupled to the saw blade and configured to drive the saw blade by a base plate coupled to the motorized unit, the saw blade having an outer side panel surface and an inner side panel surface, the outer side panel surface facing away from the base plate, the base plate connected to the saw blade with at least one fastener, wherein the at least one fastener does not protrude beyond the surface of the outer side panel; actuator means coupled to the extendable member and configured to drive the extendable member by extendable member driving means; attaching means disposed on the main body for attaching the attachable and extendable saw to a work surface; and a control system operatively coupled to one or more of the extendable member, the motorized unit, the actuator unit means, and the attaching means.

2. The attachable and extendable saw of Claim 1 wherein the extendable member is configured to move the saw blade with or without the blade housing in a linear direction or a non-linear direction between the retracted position and the extended position relative to the main body.

3. The attachable and extendable saw of Claim 1 wherein the attaching means comprises one or more magnets disposed on the main body and comprising at least one contact surface.

4. The attachable and extendable saw of Claim 1 wherein the attaching means comprises one or more switchable permanent magnets disposed on the main body and comprising at least one contact surface that is switchable between a magnetized state and a non-magnetized state.

5. The attachable and extendable saw of Claim 1 wherein the attaching means comprises one or more electro-magnets disposed on the main body and comprising at least one contact surface that is switchable between a magnetized state and a non-magnetized state.

6. The attachable and extendable saw of Claim 1 wherein the attaching means comprises one or more hybrid electro-permanent magnets disposed on the main body and comprising at least one contact surface that is switchable between a magnetized state and a non- magnetized state.

7. The attachable and extendable saw of Claim 3, wherein the one or more magnets comprises a magnet housing, one or more permanent magnets disposed within the magnet housing, and a lever extending from the magnet housing(s) for causing relative rotation of the permanent magnet or permanent magnets.

8. The attachable and extendable saw of Claim 1 wherein the attaching means comprises vacuum means.

9. The attachable and extendable saw of Claim 1 wherein said motorized unit coupled to the saw blade is selected from the group consisting of an electric motor, a hydraulic motor, a pneumatic motor, a fuel-powered motor, and a fuel-powered engine.

10. The attachable and extendable saw of Claim 1 wherein the saw blade further includes orifices for receiving at least one keeper, the at least one keeper not extending beyond the plane defined by a set of the teeth about the saw blade, the teeth angled away from the base plate.

11. The attachable and extendable saw of Claim 10 wherein the orifices are at least four in number and each is arranged more or less orthogonally from an adjacent orifice.

12. The attachable and extendable saw of Claim 1 wherein the extendable member driving means comprises manual operation, an electric motor, a hydraulic motor, a pneumatic motor, a fuel-powered motor, a fuel-powered engine, a combination thereof, or other similar extendable member driving means.

13. The attachable and extendable saw of Claim 1 wherein the extendable member comprises: a first segment coupled to the main body; a second segment coupled to the blade housing; and a guide track at least partially or fully disposed in the first segment or the second segment of the extendable member and configured to provide directional guidance to the blade housing and the saw blade between the retracted position and the extended position.

14. The attachable and extendable saw of Claim 3 wherein the one or more switchable permanent magnets comprises one or more pole conduits, one or more core elements, or one or more combination carrier platter/core element assemblies.

15. The attachable and extendable saw of Claim 1 wherein the control system means is configured to move or maintain the extendable member in the retracted position and stop or prevent the motorized unit from driving the saw blade if the attachable and extendable saw becomes detached from the work surface.

16. A method for using an attachable and extendable saw comprising the steps of: positioning the attachable or extendable saw on or adjacent to a work surface, the extendable saw comprising: a main body; a blade housing coupled to the main body by an extendable member, wherein the blade housing at least partially covers a saw blade and the extendable member is configured to move the saw blade with or without the blade housing between a retracted position and an extended position relative to the main body;

a motorized unit coupled to the saw blade by a base plate and configured to drive the saw blade; actuator unit means coupled to the extendable member and configured to drive the extendable member by extendable member driving means; attaching means disposed on the main body for attaching the attachable and extendable saw to a work surface; and control system means operatively coupled to the extendable member, the motorized unit, and the attaching means; attaching the extendable saw to the work surface by activating the attaching means; driving the saw blade; driving the extendable member via extendable member driving means, wherein the saw blade without or without the blade housing are moved from the retracted position to the extended position towards an object protruding from the work surface; controlling cutting through the object with the saw blade with control system means operatively coupled to the extendable member, the motorized unit, the actuator unit means, and the attaching means; and cutting through the object with the saw blade to separate the object from the work surface.

17. A circular saw blade for attachment to a base plate coupled to a motorized unit to drive the saw blade, the saw blade having an inner side panel surface and an outer side panel surface, both side panel surfaces extending radially inwardly from teeth, the outer side panel surface facing away from the base plate when the sawblade is mounted on the base plate, at least one hole arranged between a center of the saw blade and the teeth, the hole including a countersink, and at least one orifice arranged between the center of the saw blade and the teeth.

18. The circular saw blade of claim 16, wherein the at least one orifice is located

approximately orthogonally from an adjacent second orifice.

19. The circular saw blade of claim 16 wherein the at least one hole is located orthogonally from an adjacent second hole.

20. The circular saw blade of claim 17 wherein the at least one orifice is further from the center of the saw blade than the at least one hole is from the center of the saw blade.

Description:
ATTACHABLE AND EXTENDABLE SAW

AND METHODS FOR USING THE SAME

CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] This application claims priority to U.S. Patent Application 15/301,867 winch is a nationalization of PCT/US2015/024986 filed on April 8, 2015, which claims priority to U.S. Provisional Patent Application No. 61/977,447, filed on April 9, 2014, all of which are incorporated by reference herein.

BACKGROUND

Field

[0002] Embodiments generally relate to apparatus and methods for metal working. More particularly, such embodiments relate to an attachable and extendable saw and methods for using same.

Description of the- Related Art

[0003] In the course of metal working or fabrication, metal objects, such as key plates, angle irons, and handrails, are often cut from a metal deck or surface. Such cuts are rarely flush with the metal deck or surface and further processing must be undertaken in order to produce a surface free of the remnants from the metal object. The task of later smoothing out the deck or surface is generally difficult and time consuming or may leave an unsafe environment until the adequate time, tools, and/or skilled worker are available to smooth the surface.

[0004] There is a need, therefore, for an attachable and extendable saw and methods for using same..

SUMMARY

[0005] A magnetically attachable and extendable saw and methods for using same are provided. In one or more embodiments, the magnetically attachable and extendable saw can include a main body, a blade housing coupled to the main body by at least one extendable member, the blade housing at least partially covers a saw blade and the extendable member can be configured to move the blade housing and the saw blade between a retracted position and an extended position relative to the main body. The extendable saw can also include a motorized unit coupled to the saw blade and configured to rotate or provide other blade movement to the saw blade and a switchable magnet disposed on the main body that can include at least one contact surface that can be adjustable or switchable between a magnetized state and a non-magnetized state. In other embodiments the magnets on the main body are not switchable, requiring the user to overcome the magnetic force attaching the main body to the work surface when the user desires to remove or reposition the main body on the work surface. In other embodiments a vacuum is used to attach the main body to the work surface.

[0006] In some embodiments, the switchable magnet can be an electromagnet in electrical communication with a switch and configured to control the magnetized state and the non- magnetized state of the contact surface. In some examples, a control system can be operatively coupled to at least the motorized unit and the switchable magnet. The control system can be configured to activate the magnetized state of the contact surface prior to activating the rotation or other blade movement of the saw blade via the motorized unit. The control system can also be configured to deactivate the rotation or other blade movement of the saw blade prior to deactivating the magnetized state (or activating the de-magnetized state).

[0007] In other embodiments, the switchable magnet can include a magnet housing, permanent magnets disposed within the magnet housing and configured to provide the magnetized state and the non-magnetized state of the contact surface, and a switch or a lever extending from the magnet housing and configured to cause relative rotation of the permanent magnets for controlling the magnetized state and the non-magnetized state of the contact surface.

[0008] In one or more embodiments, a method for removing an object protruding from a work surface with an extendable saw can include positioning the extendable saw on or adjacent to the work surface, the extendable saw can include a blade housing coupled to a main body by at least one extendable member, where the blade housing at least partially covers a saw blade and the extendable member can be configured to move the blade housing and the saw blade between a retracted position and an extended position relative to the main body, a motorized unit coupled to the saw blade and configured to rotate or provide other blade movement to the saw blade, and a switchable magnet disposed on the main body and having at least one contact surface that can be adjustable or switchable between a magnetized state and a non-magnetized state. The method can further include attaching the extendable saw to the work surface by activating the switchable magnet to provide the magnetized state of the contact surface. The method can further include rotating or providing other blade movement to the saw blade via the motorized unit and extending or otherwise moving the blade housing and the saw blade from the retracted position toward the object protruding from the work surface, where the object can be disposed to, from, and/or between the retracted and extended positions. The method can further include cutting through the object with the saw blade to separate the object from the work surface.

[0009] In some embodiments, the method can also include maintaining a blade guard in a stationary position as the blade housing and the saw blade extend from the retracted position so that the saw blade can be at least partially revealed within a cutting window of the blade housing as the saw blade moves away from the blade guard and the main body. In other embodiments, the method can also include retracting or otherwise moving the blade housing and the saw blade to the retracted position subsequent to cutting through the object. In some embodiments, the method can also include mamtaining a blade guard in a stationary position as the blade housing and the saw blade move towards the retracted position so that the saw blade can be at least partially concealed by the blade guard within the cutting window as the saw blade moves towards the blade guard and the main body.

[0010] In one or more embodiments, the magnetically attachable and extendable saw can include a blade housing coupled to a main body by an extendable member, where the blade housing at least partially covers a saw blade and the extendable member can be configured to move the blade housing and the saw blade between a retracted position and an extended position relative to the main body. A motorized unit can be coupled to the saw blade and can be configured to drive the saw blade. A switchable magnet can be disposed on the main body and can include at least one contact surface that can be switchable between a magnetized state and a non-magnetized state. A control system can be operatively coupled to the extendable member, the motorized unit, and the switchable magnet.

[0011] In other embodiments, the magnetically attachable and extendable saw can include an extendable member coupled to and between a main body and a blade housing. The extendable member can be configured to move the blade housing and a saw blade between a retracted position and an extended position relative to the main body. The extendable member can include a first segment coupled to the main body and a second segment coupled to the blade housing. The extendable saw can also include an actuator unit configured to drive the extendable member for moving the blade housing and the saw blade between the retracted position and the extended position. The actuator unit can also include a pinion gear coupled to the first segment of the extendable member, a rack gear coupled to the second segment of the extendable member, and an actuator motor operatively coupled to the rack gear and the pinion gear and configured to drive the extendable member. The extendable member can also include a motorized unit coupled to the saw blade and configured to drive the saw blade and a switchable magnet disposed on the main body and having at least one contact surface that can be switchable between a magnetized state and a non-magnetized state.

[0012] In some embodiments, the magnetically attachable and extendable saw can include a blade housing coupled to a main body by an extendable member, where the blade housing at least partially covers a circular saw blade and the extendable member can be configured to move the blade housing and the circular saw blade between a retracted position and an extended position relative to the main body. The extendable saw can include a motorized unit coupled to the circular saw blade and configured to drive the circular saw blade and a switchable magnet disposed on the main body and having at least one contact surface that can be switchable between a magnetized state and a non-magnetized state. The extendable saw can also include a control system operatively coupled to the extendable member, the motorized unit, and the switchable magnet, where the control system can be configured to maintain the extendable member in the retracted position and maintain the motorized unit from driving the circular saw blade if the at least one contact surface of the switchable magnet can be in the non-magnetized state. BRIEF DESCRIPTION OF THE DRAWINGS

[0013] So that the manner in which the above recited features can be understood in detail, a more particular description, briefly summarized above, may be had by reference to embodiments, some of which are illustrated in the appended drawings. It is to be noted, however, that the appended drawings illustrate only typical embodiments and are therefore not to be considered limiting of its scope, for the invention may admit to other equally effective embodiments.

[0014] Figures 1A-1C depict perspective views of an illustrative magnetically attachable and extendable saw, according to one or more embodiments described.

[0015] Figures 2A-2B depict other perspective views of portions of the illustrative magnetically attachable and extendable saw depicted in Figures 1 A-1C, according to one or more embodiments described.

[0016] Figure 3 depicts another perspective view of a portion of the illustrative magnetically attachable and extendable saw depicted in Figures 1 A-2B, according to one or more embodiments described.

[0017] Figures 4A-4B depict perspective views of another illustrative magnetically attachable and extendable saw, according to one or more embodiments described.

[0018] Figures SA-SG depict perspective views of another illustrative magnetically attachable and extendable saw, according to one or more embodiments described.

[0019] Figures 6A-6D depict other perspective views of portions of the illustrative magnetically attachable and extendable saw depicted in Figures SA-SG, according to one or more embodiments described.

[0020] Figures 7A-7B depict perspective views of an illustrative vacuum-attachable and extendable saw, according to one or more embodiments described.

[0021] Figure 8 depicts a side view of a circular saw blade according to one or more embodiments described. [0022] Figure 9A depicts a saw drive side view of an illustrative base plate according to one or more embodiments described.

[0023] Figure 9B depicts a side view of an illustrative base plate according to one or more embodiments described.

[0024] Figure 9C depicts a blade side view of an illustrative base plate according to one or more embodiments described.

[0025] Figure 9D depicts a cross-sectional side view of an illustrative base plate according to one or more embodiments described.

[0026] Figure 10 depicts a side view of a circular saw blade according to one or more embodiments described.

[0027] Figure 11 A depicts a saw drive side view of an illustrative base plate according to one or more embodiments described.

[0028] Figure 11B depicts a side view of an illustrative base plate according to one or more embodiments described.

[0029] Figure 11 C depicts a blade side view of an illustrative base plate according to one or more embodiments described.

[0030] Figure 1 ID depicts a cross-sectional side view of an illustrative base plate according to one or more embodiments described.

DETAILED DESCRIPTION

[0031] Figures 1A-1C depict perspective views of an illustrative magnetically attachable and extendable saw 100, according to one or more embodiments. The extendable saw 100 can include a main body 102 and a blade housing 110 which can be coupled together by at least one extendable member 120. The blade housing 110 can at least partially cover a saw blade 130 and the extendable member 120 can be configured to move the blade housing 110 and the saw blade 130 to, from, and/or between a retracted position and an extended position relative to the main body 102. A motorized unit 140 can be coupled to the saw blade 130 and configured to rotate, drive, or otherwise provide blade movement to the saw blade 130.

[0032] The main body 102 can include at least one switchable magnet 150 having at least one contact surface 152 that can be adjustable or switchable between a magnetized state and a non- magnetized state. In some embodiments, the switchable magnet 150 can be an electromagnet configured to provide the magnetized state and the non-magnetized state from a power source (not shown). For example, the switchable magnet 150 can be an electromagnet in electrical communication with the power source via an electrical control switch, such as a switch 156. The switch 156 can be configured to control the magnetized state and the non-magnetized state of the contact surface 152 by providing an electrical contact in the circuit or by breaking the electrical contact in the circuit. In other embodiments, the switchable magnet 150 can include one or more permanent magnets configured to provide the magnetized state and the non-magnetized state of the contact surface 152. Depending on the type of magnets utilized in the switchable magnet 150, a magnet housing 154 can include various magnets (e.g., electromagnet and/or permanent magnets) and/or be a structural portion of the switchable magnet 150. For example, the switchable magnet 150 can include one or more electromagnets at least partially within the magnet housing 154 and the contact surface 152 of the electromagnet can be a lower surface of the magnet housing 154. In another example, the magnet housing 154 can be the outer surface of or other portion of one or more electromagnets that can form the switchable magnet 150 and the outer surface of the magnet housing 154 can be the contact surface 152.

[0033] In some embodiments, a control system 158 and/or the switch 156 can be operatively coupled to at least the motorized unit 140, the switchable magnet 150, and/or the extendable member 120. In one example, the control system 158 can be configured to activate the magnetized state of the contact surface 152 prior to activating the rotation or other movement of the saw blade 130 via the motorized unit 140 and/or extending or otherwise moving the blade housing 110 and the saw blade 130 via the extendable member 120 to the extended position. In other embodiments, the control system 158 can be configured to cease the rotation or other blade movement of the saw blade 130 via the motorized unit 140 and/or retract or otherwise move the blade housing 110 and the saw blade 130 via the extendable member 120 to the retracted position prior to deactivating the magnetized state (or activating the non-magnetized state) of the contact surface 152. In other embodiments, the control system 158 can be configured to cease the rotation or other blade movement of the saw blade 130 via the motorized unit 140 if the magnetized state of the contact surface 152 changes to the non-magnetized state.

[0034] The control system 158 can include one or more microprocessors, one or more controllers, one or more switches, software, and/or other equipment that can control one or more of the various aspects and systems of the extendable saw 100, including, but not limited to, the activation and subsequent control of the magnetized state and the non-magnetized state of the contact surface 152, the powering and the rotational speed or other blade movement speed of the saw blade 130, and/or the movement of the blade housing 110 and the saw blade 130. In one example, a single engagement of the switch 156 can activate the control system 158 to activate and maintain the magnetized state of the contact surface 152, power-up and rotate the saw blade 130, and extend the blade housing 110 and the saw blade 130 to the desired object to be cut. In another example, a single engagement of the switch 156 can activate the control system 158 to retract the blade housing 110 and the saw blade 130 to the retracted position, power-down the saw blade 130, and finally deactivate the magnetized state (or active the non-magnetized state) of the contact surface 152.

[0035] In other embodiments, the extendable member 120 can be configured to move the blade housing 110 and the saw blade 130 in a linear direction or a non-linear (e.g., curved or angular) direction to, from, and/or between the retracted and extended positions. In one embodiment, the extendable member 120 can include an actuator unit 122 coupled to and configured to be driven by a motor 124. As depicted in Figures 1A-1C, the actuator unit 122 can include a linear actuator and the motor 124 can include an electric motor. However, other types of actuators, actuating devices, motors, and/or devices can be used within the extendable member 120. The motor 124 can include an electric motor (e.g., direct current or alternating current), a hydraulic motor, a pneumatic motor (e.g., gas or air), and/or other similar device.

[0036] In another embodiment, a hinge impingement 128 can be coupled to the main body 102 and the blade housing 110. The hinge impingement 128 can be utilized to assist moving or pivoting the blade housing 110 and the saw blade 130 in non-linear or curved directions. For example, the hinge impingement 128 and the actuator unit 122 (e.g. , a linear actuator) can be configured to pivot the blade housing 110 and the saw blade 130 forward and in a non-linear direction (e.g., a curved direction or an angular direction) to, from, and/or between the retracted and extended positions. Also, the hinge impingement 128 can be utilized to stabilize or support the blade housing 110 against rotational kick-back while in a cutting operation.

[0037] In another embodiment, the blade housing 1 10 can include one or more upper faces or upper portions 112 and one or more side walls or side portions 114. The upper portion can be disposed about or above the saw blade 130 and the side portion 114 can be at least partially circumferentially disposed around the saw blade 130 and can be extending downwardly from the upper portion 112. An opening or a cutting window 118 can be disposed within or otherwise defined by the upper portion 112 and the side portion 114 of the blade housing 110. The cutting window 118 can provide the saw blade 130 exposure or access to objects that are to be cut by the extendable saw 100 during the cutting operations. The blade housing 110 can be made from or contain one or more non-magnetic materials, such as, for example, aluminum, an aluminum alloy, magnesium, non-magnetic stainless steel, or alloys thereof.

[0038] In another embodiment, the extendable saw 100 can include a blade guard 180 coupled to the main body 102 and disposed between the saw blade 130 and the upper portion 112 of the blade housing 110. The blade guard 180 can include at least one support member 182, but generally, can include two or more support members 182 coupled to the main body 102. As depicted in Figure IB, each of the support members 182 can pass through the blade housing 110, such as the side portion 114, and attach to a mount 184 disposed on the main body 102. Therefore, the blade guard 180 can be stationary relative to the main body 102 when the blade housing 110 and the saw blade 130 are moved between the retracted and extended positions. [0039] Figures 1A-1C depict the blade housing 110 and the saw blade 130 in the retracted position, while Figures 2A-2B depict the blade housing 110 and the saw blade 130 in the extended position. The main body 102, the blade housing 110, the saw blade 130, and the blade guard 180 are depicted by an above perspective view illustrated in Figure 2A and a below perspective view illustrated in Figure 2B. The blade guard 180 can be configured to at least partially, substantially, or completely conceal or cover the saw blade 130 within the cutting window 118 of the blade housing 110, such as when the blade housing 110 and the saw blade 130 are at the retracted position, as depicted in Figures 1A-1C. Also, the blade guard 180 can be configured to at least partially, substantially, or completely reveal or expose the saw blade 130 within the cutting window 118 once the blade housing 110 and the saw blade 130 are at or near the extended position, as depicted in Figures 2A-2B.

[0040] The extendable member 120 can be configured to move the saw blade 130 by a predetermined maximum cut distance, also known as a stroke. The stroke can be the distance measured from the retracted position to the extended position. In some examples, the stroke of the extendable saw 100 can be of about 0.5 inches, about 1 inch, about 1.25 inches, about 1.5 inches, about 1.75 inches, about 2 inches, about 2.25 inches, about 2.5 inches, about 2.75 inches, about 3 inches, about 3.25 inches, about 3.5 inches, about 3.75 inches, about 4 inches, about 4.25 inches, about 4.5 inches, about 4.75 inches, about 5 inches, about 5.25 inches, about 5.5 inches, about 5.75 inches, about 6 inches, about 6.25 inches, about 6.5 inches, about 6.75 inches, about 7 inches, about 7.25 inches, about 7.5 inches, about 7.75 inches, about 8 inches, about 8.25 inches, about 8.5 inches, about 8.75 inches, about 9 inches, about 9.25 inches, about 9.5 inches, about 9.75 inches, about 10 inches, or greater. In other examples, the stroke of the extendable saw 100 can be of about 1 inch to about 6 inches, about 1 inch to about 5 inches, about 1 inch to about 4 inches, about 1 inch to about 3 inches, about 1 inch to about 2 inches, about 1.5 inches to about 5 inches, about 2 inches to about 4 inches, or about 2.5 inches to about 3 inches.

[0041] In another embodiment, the extendable saw 100 can include the motorized unit 140 coupled to or disposed on the blade housing 110. The motorized unit 140 can include an electric motor (e.g., direct current or alternating current), a hydraulic motor, a pneumatic motor (e.g., gas or air), and/or other similar device.

[0042] In some examples, the saw blade 130 can be configured to have a rotational speed or other blade movement speed of about 10 rpm, about SO rpm, about 75 rpm, about 100 rpm, about 125 rpm, about ISO rpm, about 175 rpm, about 200 rpm, about 225 rpm, about 250 rpm, about 275 rpm, about 300 rpm, about 325 rpm, about 350 rpm, about 375 rpm, about 400 rpm, about 425 rpm, about 450 rpm, about 475 rpm, about 500 rpm, about 525 rpm, about 550 rpm, about 575 rpm, about 600 rpm. In other examples, the saw blade 130 can be configured to have a rotational speed or other blade movement speed of about 100 rpm to about 500 rpm, about 150 rpm to about 400 rpm, or about 200 rpm to about 300 rpm.

[0043] In one or more embodiments, the motorized unit 140 can have a rotational speed of about 20 rpm to about 5,000 rpm, about 50 rpm to about 5,000 rpm, about 100 rpm to about 5,000 rpm, about 150 rpm to about 400 rpm, or about 200 rpm to about 300 rpm or about 1 ,000 rpm to about 4,000 rpm, or about 2,000 rpm to about 3,000 rpm. In some embodiments, the motorized unit 140 can have a lower rotational speed, such as, for example, of about 20 rpm to about 500 rpm, about 50 rpm to about 400 rpm, about 100 rpm to about 350 rpm, or about 200 rpm to about 300 rpm. In other embodiments, in order to have sufficient and/or constant torque, the motorized unit 140 can have a higher rotational speed, such as, for example, of about 1,000 rpm to about 5,000 rpm, and can also be coupled to a gear reducer or a gear reduction unit

[0044] In some examples, the motorized unit 140 can be an electric motor, such as a direct current, brush-type motor, and the saw blade 130 can be rotated, driven, or otherwise moved by the electric motor. The motorized unit 140 generally can be directly or indirectly coupled to the saw blade 130 by at least one or more components, such as, for example, shafts, arbors, gears (e.g., gear reducers), transmission, clutch, belts, a base plate, or any combination thereof.

[0045] In one or more embodiments, the motorized unit 140 can be directly or indirectly coupled to a gear unit 160 and the saw blade 130 can be directly or indirectly coupled to the gear unit 160. In some exemplary configurations, the gear unit 160 can be directly or indirectly coupled to a base plate 170 and the saw blade 130 can be directly or indirectly coupled to the base plate 170. In other exemplary configurations, the gear unit 160 can be directly or indirectly coupled to a shaft or arbor (not shown) and the saw blade 130 can be directly or indirectly coupled to the shaft or arbor. In other exemplary configurations, the gear unit 160 can be directly or indirectly coupled to the base plate 170 and/or the shaft or arbor and the saw blade 130 can be directly or indirectly coupled to the base plate 170 and/or the shaft or arbor.

[0046] The gear unit 160 that can include one or more gears (e.g., a plurality of varying sized gears), shafts and/or arbors, a transmission, a clutch (e.g., spring loaded clutch), belts, bearings, or any combination thereof. For example, the gear unit 160 can be a gear reducer configured to provide a rotational speed or other blade movement speed of the saw blade 130 at a reduced rate relative to the rotational speed of the motorized unit 140 by a predetermined ratio referred to as the motor/blade rotational speed ratio. In some examples, the gear unit 160 can provide a motor/blade rotational speed ratio of about 25 : 1 , about 50: 1 , about 75 : 1 , about 100: 1 , about 125 : 1 , about 150:1, about 175:1, about 200:1, about 225:1, about 250:1, about 275:1, about 300:1, about 325:1, about 350:1, about 375:1, about 400:1, about 425:1, about 450:1, about 475:1, or about 500: 1, or greater. In other examples, the gear unit 160 can provide a motor/blade rotational speed ratio of about 25:1 to about 400:1, about 50:1 to about 200:1, or about 75:1 to about 150:1, such as, for example, about 100:1. In some examples, the saw blade 130 can be configured to have a rotational speed or other blade movement speed of about 10 rpm, about 50 rpm, about 75 rpm, about 100 rpm, about 125 rpm, about 150 rpm, about 175 rpm, about 200 rpm, about 225 rpm, about 250 rpm, about 275 rpm, about 300 rpm, about 325 rpm, about 350 rpm, about 375 rpm, about 400 rpm, about 425 rpm, about 450 rpm, about 475 rpm, about 500 rpm, about 525 rpm, about 550 rpm, about 575 rpm, about 600 rpm. In other examples, the saw blade 130 can be configured to have a rotational speed or other blade movement speed of about 100 rpm to about 500 rpm, about 150 rpm to about 400 rpm, or about 200 rpm to about 300 rpm.

[0047] In some embodiments, the extendable saw 100 can be equipped with an electric motor as the motorized unit 140 and a gear reduction unit as the gear unit 160 that can reduce the rotational speed or other blade movement speed of the saw blade 130 while maintaining constant torque or substantially constant torque to the saw blade 130. In other embodiments, the extendable saw 200 can have a clutch (not shown) for providing slippage to the saw blade 130 while in operation. In one example, the extendable saw 200 can have a clutch (not shown) in the driving mechanism, such as the motorized unit 140, the gear unit 160, or any combination thereof.

[0048] In some embodiments, the saw blade 130 can be coupled to the base plate 170, a shaft or arbor (not shown), or a combination of the base plate 170 and the shaft or arbor by one or more fasteners 136, one or more keepers 172, one or more spindles (not shown), or any combination thereof, as depicted in Figures IB, 2B, and 3. In one embodiment, the fasteners 136 and/or the keepers 172 can be flush with or recessed from (e.g., countersunk) the lower surface or plane of the saw blade 130, as depicted in Figure IB. The fasteners 136 and/or the keepers 172 that are flush with or recessed from the lower surface or plane of the saw blade 130 can help provide a smooth and/or flush cut across the work surface. In another embodiment, the fasteners 136 and/or the keepers 172 can be flush with or protrude from the lower surface or plane of the saw blade 130.

[0049] Exemplary fasteners 136 can include, but not limited to, one or more bolts and screws (e.g., hex-heads), rivets, pins, spindles, or any combination thereof. Exemplary keepers 172 can include, but not limited to, spline sets and other male/female keeper sets for withstanding the torque generated by the saw blade 130, as well as one or more spindles. The one or more keepers 172 can be disposed on the base plate 170 and/or a shaft or arbor (not shown).

[0050] Figure 3 depicts the base plate 170 containing a male portion of a spline set as the keeper 172 and a plurality of threaded holes 174 for receiving the fasteners 136. The saw blade 130, as depicted in Figures IB and 2B, can include an orifice 132 or a female portion of the spline set for receiving the keeper 172 and a plurality of holes 134 in the saw blade 130 for receiving the fasteners 136. For example, the fasteners 136 can be configured to pass through the plurality of holes 134 in the saw blade 130 and thread-in, anchor to, or otherwise attach to the plurality of threaded holes 174 within the base plate 170 and/or a shaft or arbor (not shown). During a cutting process, the torque or load from the saw blade 130 can be placed on the base plate 170 and/or the shaft or arbor. Therefore, the saw blade 130 can be placed on the base plate 170 and/or the shaft or arbor without, or substantially without, slack, play, looseness, or movement. [0051] The saw blade 130 can include one or more orifices 132 or female portions of the spline set for receiving the one or more orifices keepers 172. The keepers 172 and the orifices 132 can have one or more different patterns, shapes, or geometries, such that each male/female keeper set respectively forms a locking set with a matching pattern and the saw blade 130 is secured to, attached to, or otherwise coupled to the base plate 170 and/or a shaft or arbor (not shown). Each of the keepers 172 and the orifices 132 can have one or more different shapes or geometries, such as stars, flowers, ellipses, triangular, rectangular, squares, pentagonal, hexagonal, heptagonal, octagonal, nonagonal, decagonal, or other polygonal shapes.

[0052] In some embodiments, the base plate 170 can be directly or indirectly coupled to a shaft or arbor (not shown) which is configured to drive the base plate 170 hence drive the saw blade 130. In other embodiments, the base plate 170 can be one end of the shaft or arbor, such that the keeper 172 can be a protruding portion of the end of the shaft or arbor and/or the plurality of threaded holes 174 can be formed within the end of the shaft or arbor.

[0053] In some embodiments, the saw blade 130 includes a side panel extending generally radially from a point of rotation. The side panel has at least two surfaces, an inner surface facing the base plate 170 and/or a shaft or arbor, and a second or outer surface facing away from the base plate 170 and/or a shaft or arbor. The side panel terminates with teeth. The thickness of the side panel may be thinner or thicker than the thickness of the saw blade 130 at the teeth. In the case where the thickness of the saw blade 130 at the teeth is thicker that the thickness of the side panel, the saw blade 130 will have a set or distance perpendicular to the surface of the side panel along a line to a plane defined by the farthest extent of the teeth to the side of the saw blade 130. This set may also be referred to as the distance the teeth extend above the side panel of the saw blade 130.

[0054] In some embodiments, as shown in Figures IB, 2B, 4B, 6B, 7A, 8, and 10, the saw blade 130 can include a plurality of holes 134 arranged radially outward from a central aperture 135, the holes 134 arranged 90 degrees apart and equidistant from the center of the saw blade 130. In some embodiments, a central aperture 135 is located at the center of the saw blade 130. The holes 134 can each include a countersink on the surface 730 of the saw blade 130 facing away from the base plate 170, the countersink being of sufficient depth to allow a fastener 136 to be flush with or below the surface of the saw blade 130 when the fastener 135 is attached to threaded holes 174 in the base plate 170, shaft, or arbor. The countersink on the surface 730 of the sawblade 130 may be tapered, or cylindrical. Such a cylindrical countersink may also be referred to as a counterbore, but the term countersink as used herein shall encompass any shaped countersink or counterbore. In such an arrangement, the baseplate 170, shaft, or arbor can include threaded holes 174 that are aligned or registered with the holes 134 of the sawblade 130.

[0055] In some embodiments, the countersink of the holes 134 in the saw blade 130 cooperate with the countersink of the threaded holes 174 of the base plate 170, shaft, or arbor to create a countersink that spans both the sawblade 130 and the base plate 170, shaft, or arbor. Such an arrangement allows the embodiment to accommodate a fastener head that his thicker than the thickness of the saw blade 130 at the holes 134. In such an embodiment, the threaded holes 174 include a countersink portion 274 that may not be threaded, and may be larger in diameter that the threaded hole 174. The countersink portions 274 are preferably axially aligned with the threaded holes 174. In the case of a countersink portion 274 that is tapered, the countersink portion may have a first diameter 275 at the surface of the base plate 170, and a second diameter 276 where the countersink portions 274 join the generally cylindrical portions of the threaded holes 174. Similarly, the holes 134 of the saw blade 130 may be tapered to create a countersink and have a first diameter 235, and a second diameter 236, the first diameter being larger than the second diameter 236. The first diameter 235 is located at the surface 730 of the saw blade 130 that is away from the base plate 170, shaft, or arbor when the saw blade 130 is mounted on the base plate 170, shaft, or arbor. The second diameter 236 of the holes 134 is located at the surface of the saw blade 130 that is placed against the opposing surface of the base plate 170, shaft, or arbor when the sawblade 130 is attached to the base plate 170, shaft, or arbor. The second diameter of the holes 134 is approximately the same diameter as the first diameter 275 of the tapered portion 274 of the threaded holes 174 of the base plate 170, shaft, or arbor.

[0056] In some embodiments the saw blade 130 can include a plurality of orifices 132 arranged radially outward from a central aperture 135, the orifices 132 arranged orthogonally or 90 degrees apart and equidistant from the center of the saw blade 130. In such an arrangement, the baseplate 170, shaft, or arbor can include holes 137 that are aligned or registered with the orifices 132 of the sawblade 130. In the most preferred embodiment, the orifices 132 are located at a distance from the center of the saw blade 130 that is greater than the distance from the center of the saw blade 130 of the holes 134, but can be placed at any distance desired. In embodiments with a plurality of orifices 132, all orifices 132 need not be equidistant from the center of the saw blade 130. In the most preferred embodiment, the centers of the orifices 132 are located 64 mm from the center of the saw blade 130 and the centers of the holes 134 are located 55 mm from the center of the saw blade 130. While four orifices 132 are shown in Figure 8, the saw blade 130 may have any number of orifices 132, including none, as shown in Figure 10. In an embodiment such as that shown in Figure 10, the rotational force from the base plate 170 is transferred to the saw blade 130 by the fasteners used to secure the sawblade 130 to the base plate 170 by threading the fasteners into the threaded holes 174. Thus the fasteners attach the saw blade 130 to the base plate 170, and transfer the rotational force from the base plate 170 to the saw blade 130. While four holes 134 for fasteners are shown in Figure 10, any number of holes 134 and fasteners greater than zero may be used.

[0057] In some embodiments the orifices 132 are preferably round, but may be of any shape that is convenient. The orifices 132 and holes 137 receive keepers 172 sized and shaped to fit into the orifices 132 and holes 134. In other embodiments, the keepers 172 may be a protrusion of or attached to the surface of the base plate 170, shaft, or arbor facing the surface of the sawblade 130, rather than being inserted into holes 137 in the base plate 170, shaft, or arbor. When the saw blade 130 coupled to the base plate 170, shaft, or arbor, the keepers 172 will not extend above the surface of the saw blade 130 that faces away from the base plate 170, shaft, or arbor.

[0058] In some embodiments, such as those where the fasteners both attach the saw blade 130 to the base plate 170, keepers 172 may not be utilized. Thus the saw blade 130 not having orifices 132 shown in Figure 10 may be used with a base plate 170 having holes 137, but without keepers 172. In other embodiments, as shown in Figures 11 A-l ID, the base plate 170 may not have holes 137 as there are no keepers to place in the holes 137. Similarly, the saw blade 130 having orifices 132 may be used with the base plate 170 that has no holes 137 as shown in Figures 1 lA-1 ID. [0059] In another embodiment, the extendable saw 100 can also include a blade offset ring or a blade height adjuster 168 coupled to the blade housing 110 and the base plate 170. The blade height adjuster 168 can be configured to adjust, such as to increase and/or decrease, a vertical blade height of the saw blade 130. The vertical blade heights can be measured as a minimum height and a maximum height for operating the saw blade 130. The minimum and maximum heights are exemplary heights and should not be construed to be limiting in a particular range or value. For example, the vertical blade height can be measured perpendicular from the work surface as a minimum height, such as when the lower surface of the saw blade 130 skims the work surface, to a maximum height of about 25 mm or less, about 20 mm or less, about IS mm or less, about 12 mm or less, about 10 mm or less, about 9 mm or less, about 8 mm or less, about 7 mm or less, about 6 mm or less, about S mm or less, about 4 mm or less, about 3 mm or less, about 2 mm or less, about 1 mm or less, about 0.9 mm or less, about 0.8 mm or less, about 0.7 mm or less, about 0.6 mm or less, about 0.5 mm or less, about 0.4 mm or less, about 0.3 mm or less, about 0.2 mm or less, about 0.1 mm or less, about 0.09 mm or less, about 0.08 mm or less, about 0.70 mm or less, about 0.06 mm or less, about 0.05 mm or less, about 0.04 mm or less, about 0.03 mm or less, about 0.02 mm or less, about 0.01 mm or less. In one embodiment, the blade height adjuster 168 can include a screw mechanism for adjusting the vertical blade height. For example, the blade height adjuster 168 can include a castle nut or a spinner nut and the respective wrench can be used to increase or decrease the vertical blade height of the saw blade 130 by adjusting the relative position of the base plate 170 to the blade housing 110.

[0060] A kerf width or a saw cut width (e.g. , the width of the cut) can generally depend on several factors including the width and thickness of a saw blade, the set and number of teeth on the saw blade, and the amount of slack or play available during cutting with the saw blade, as well as other factors. The kerf width and the thickness of the saw blade 130 can independently be of a predetermined value to provide a smooth and/or flush cut across the work surface. In one or more embodiments, the kerf width of the saw blade 130 can generally be proportional to the thickness of the saw blade 130. In some embodiments, the saw blade 130 can have a kerf width of about 0.01 inches or greater, about 0.02 inches or greater, about 0.03 inches or greater, about 0.04 inches or greater, about 0.05 inches or greater, about 0.06 inches or greater, about 0.07 inches or greater, about 0.08 inches or greater, about 0.09 inches or greater, about 0.1 inches or greater, about 0.2 inches or greater, about 0.3 inches or greater, about 0.4 inches or greater, about 0.S inches or greater. In some examples, the saw blade 130 can have a thickness of about 0.1 inches and can have a kerf width of about 0.05 inches to about 0.5 inches, about 0.05 inches to about 0.45 inches, about 0.05 inches to about 0.4 inches, about 0.05 inches to about 0.35 inches, about 0.05 inches to about 0.3 inches, about 0.05 inches to about 0.25 inches, about 0.05 inches to about 0.2 inches, about 0.1 inches to about 0.5 inches, about 0.1 inches to about 0.45 inches, about 0.1 inches to about 0.4 inches, about 0.1 inches to about 0.35 inches, about 0.1 inches to about 0.3 inches, about 0.1 inches to about 0.25 inches, about 0.1 inches to about 0.2 inches, about 0.11 inches to less than 0.2 inches, about 0.11 inches to about 0.19 inches, about 0.11 inches to about 0.18 inches, about 0.12 inches to about 0.19 inches, about 0.12 inches to about 0.18 inches, about 0.13 inches to about 0.19 inches, about 0.13 inches to about 0.18 inches, about 0.14 inches to about 0.19 inches, or about 0.14 inches to about 0.18 inches.

[0061] A set is generally the degree to which the teeth are bent or otherwise disposed outwardly from the plane of the blade in one or both directions. In one or more embodiments, the saw blade 130 can have a set so that every other tooth of the blade teeth are sequentially angled upward or downward relative to the plane of the saw blade 130. In other embodiments, the saw blade 130 can have a set so that every two teeth of the blade teeth are sequentially angled upward or downward relative to the plane of the saw blade 130. The set can provide the cut thickness of the saw blade 130 wider than the base thickness of the saw blade 130 itself. This additional cut thickness can provide clearance space between the base plate 170 and/or the shaft or arbor and the work surface (e.g., the base material being cut) so that the base plate 170 and/or the shaft or arbor can be kept from dragging or contacting work surface. The additional cut thickness can be provided because of the downwardly angled bent teeth of the saw blade 130 skimming the work surface during operation. [0062] In other embodiments, the blade housing 110 can include at least one roller 108, but generally, can include two rollers 108, three rollers 108, four rollers 108, or more rollers 108 disposed on the blade housing 110. In some embodiments, four rollers 108 are disposed on the blade housing 110, as depicted in Figure IB. The rollers 108 can be positioned on the blade housing 110 to extend below the side portion 114. The rollers 108 are configured to roll or otherwise move the blade housing 110 to, from, and/or between the retracted and extended positions. In some examples, the rollers 108 can be round rollers and configured to elevate the blade housing 110 off from a work surface. The blade housing 110 can be elevated off of a work surface by a minimum distance of about 0.1 mm or greater, about 0.2 mm or greater, about 0.3 mm or greater, about 0.4 mm or greater, about 0.S mm or greater, about 0.6 mm or greater, about 0.7 mm or greater, about 0.8 mm or greater, about 0.9 mm or greater. For example, the blade housing 110 can be elevated off of a work surface by a distance of about 0.2 mm to about 5 mm, about 0.4 mm to about 3 mm, about 0.6 mm to about 2 mm, about 0.8 mm to about 3.S mm, or about 1 mm to about 3 mm.

[0063] In exemplary embodiments, the saw blade 130 can be a circular, cold saw blade or chop saw blade, as depicted in Figures IB and 2A-2B. However, other types and geometries of the saw blade 130 can be utilized in embodiments, including blades from circular saws, cold saws, cut-off saws, chop saws, rip saws, hacksaws, hot saws, friction saws, band saws, scroll saws, jig saws, as well as other saws. In some embodiments, the saw blade 130 can include or be coated with tungsten, tungsten carbide, hardened steel, hardened tool steel, high speed steel, alloys thereof, or combinations thereof. In some examples, the saw blade 130 can be a hardened-tool steel circular saw blade, a high speed steel circular saw blade, or a tungsten carbide-tipped, circular saw blade.

[0064] In some examples, the saw blade 130 can have a thickness of about 0.S mm or greater, about 1 mm or greater, about 2 mm or greater, about 3 mm or greater, about 4 mm or greater, about 5 mm or greater, about 6 mm or greater, about 7 mm or greater, or about 8 mm or greater. In other examples, the saw blade 130 can have a thickness of about 0.S mm or greater, about 0.6 mm or greater, about 0.7 mm or greater, about 0.8 mm or greater, about 0.9 mm or greater, about 1 mm or greater, about 1.1 mm or greater, about 1.2 mm or greater, about 1.3 mm or greater, about 1.4 mm or greater, about 1.5 mm or greater, about 1.6 mm or greater, about 1.7 mm or greater, about 1.8 mm or greater, about 1.9 mm or greater, about 2 mm or greater, about 2.1 mm or greater, about 2.2 mm or greater, about 2.3 mm or greater, about 2.4 mm or greater, about 2.S mm or greater, about 2.6 mm or greater, about 2.7 mm or greater, about 2.8 mm or greater, about 2.9 mm or greater, about 3 mm or greater, about 3.1 mm or greater, about 3.2 mm or greater, about 3.3 mm or greater, about 3.4 mm or greater, about 3.5 mm or greater, about 3.6 mm or greater, about 3.7 mm or greater, about 3.8 mm or greater, about 3.9 mm or greater, about 4 mm or greater, about 4.1 mm or greater, about 4.2 mm or greater, about 4.3 mm or greater, about 4.4 mm or greater, about 4.5 mm or greater, about 4.6 mm or greater, about 4.7 mm or greater, about 4.8 mm or greater, about 4.9 mm or greater, about 5 mm or greater, about 5.1 mm or greater, about 5.2 mm or greater, about 5.3 mm or greater, about 5.4 mm or greater, about 5.5 mm or greater, about 5.6 mm or greater, about 5.7 mm or greater, about 5.8 mm or greater, about 5.9 mm or greater, about 6 mm or greater, about 6.1 mm or greater, about 6.2 mm or greater, about 6.3 mm or greater, about 6.4 mm or greater, about 6.5 mm or greater, about 6.6 mm or greater, about 6.7 mm or greater, about 6.8 mm or greater, about 6.9 mm or greater, about 7 mm or greater, about 7.1 mm or greater, about 7.2 mm or greater, about 7.3 mm or greater, about 7.4 mm or greater, about 7.5 mm or greater, about 7.6 mm or greater, about 7.7 mm or greater, about 7.8 mm or greater, about 7.9 mm or greater, about 8 mm or greater, about 8.1 mm or greater, about 8.2 mm or greater, about 8.3 mm or greater, about 8.4 mm or greater, about 8.5 mm or greater, about 8.6 mm or greater, about 8.7 mm or greater, about 8.8 mm or greater, about 8.9 mm or greater. In some specific examples, the saw blade 130 can have a thicknesses of about 2.38 mm (about 3/32"), about 2.54 mm (about 1/10"), about 3.18 mm (about 1/8"), about 3.97 mm (about 5/32"), about 4.76 mm (about 3/16"), about 5.56 mm (about 7/32"), and about 6.35 mm (about 1/4").

[0065] In other embodiments, since each of the motor 124 and/or the motorized unit 140 can include an electric motor (e.g. , direct current or alternating current), a hydraulic motor, a pneumatic motor (e.g., gas or air), a fuel-powered motor/engine (e.g., gasoline, diesel, or propane), or other similar device, then the extendable saw 100 can be powered by electricity, compressed fluids, or compressed gases. In some embodiments, the extendable saw 100 can be powered by electricity, such as direct current or alternating current. The extendable saw 100 can include a power source, such as a power pack, a battery, or a power cell and/or contain a power plug (not shown). Alternatively, in other embodiments, the extendable saw 100 can include hydraulic or pneumatic inlets (not shown) for powering the motor 124 and/or the motorized unit 140.

[0066] In some embodiments, a magnetically attachable and extendable saw 100 can include the blade housing 110 coupled to the main body 102 by at least one extendable member 120. The blade housing 110 can at least partially cover the saw blade 130 and the extendable member 120 can be configured to move the blade housing 110 and the saw blade 130 between a retracted position and an extended position relative to the main body 102. The motorized unit 140 can be coupled to the saw blade 130 and configured to rotate or provide other blade movement to the saw blade 130. An electromagnet or a switchable magnet ISO can be disposed on the main body 102 and can include at least one contact surface 152 that can be adjustable or switchable between a magnetized state and a non-magnetized state. The magnetically attachable and extendable saw 100 can include the switch 156 that can be in electrical communication with the electromagnet or the switchable magnet 150 and can be configured to control the magnetized state and the non- magnetized state of the contact surface 152. The control system 158 can be operatively coupled to at least the extendable member 120, the motorized unit 140, and the electromagnet or the switchable magnet 150. The control system 158 can be configured to activate the magnetized state of the contact surface 152 prior to activating the rotation or other movement of the saw blade 130 via the motorized unit 140. The control system 158 can have a programmed feed system for controlling or operating the magnetized and non-magnetized states of the contact surface 152, the extendable member 120 (e.g., actuator) to move the blade housing 110 and the saw blade 130 between a retracted position and an extended position relative to the main body 102, and the motorized unit 140 for to rotate, drive, or provide blade movement to the saw blade 130. Therefore, in some embodiments, the programmed feed system in the control system can be used to ensure that the magnetized state of the contact surface 152 must be on and/or the contact surface 152 is secured to the work surface prior to and during the use of operating the saw blade 130.

[0067] In one or more embodiments, once the switch 156 is activated, the motorized unit 140 can rotate the saw blade 130 with or without a preprogramed time delay, the extendable member 120 (e.g. , actuator) can drive the blade housing 110 and the saw blade 130 to the extended position (e.g., cut length), then can drive the blade housing 110 and the saw blade 130 to the retracted position, and then can cease operation (e.g. , stop rotation) of the saw blade 130. In some examples, the feed rate of the saw blade 130 can be programmed to not overload or over torque the saw blade 130.

[0068] Figures 4A-4B depict perspective views of an illustrative magnetically attachable and extendable saw 200, according to one or more embodiments. In one embodiment, the extendable saw 200 can include the main body 102, the blade housing 110, and the extendable member 120 as described for the extendable saw 100. The extendable saw 200 or portions thereof depicted in Figures 4A-4B and the extendable saw 100 or portions thereof depicted Figures 1 A-3 share many common components. It should be noted that like numerals shown in the Figures and discussed herein represent like components throughout the multiple embodiments disclosed herein.

[0069] In one or more embodiments, the main body 102 can include a switchable magnet 250 having at least one contact surface 252 that can be adjustable or switchable between a magnetized state ("on") and a non-magnetized state ("off'). The switchable magnet 250 can also include a magnet housing 254, one or more permanent magnets 262 disposed within the magnet housing 254, and a switch, a handle, a knob, or a lever 258 extending from the magnet housing 254. The permanent magnets 262 can be configured to provide the magnetized state and the non-magnetized state of the contact surface 252. The lever 258 can be configured to cause relative rotation of the permanent magnets 262 for controlling the magnetized state and the non-magnetized state of the contact surface 252. For example, the lever 258 can be pulled, pushed, switched, turned, rotated, twisted, and/or slid, in one or more directions to cause relative rotation of the permanent magnets 262 for controlling the magnetized state and the non-magnetized state of the contact surface 252. Figure 4A-4B depict the lever 258 extending from one side of the switchable magnet 250, but the lever 258 can be configured to extend from any of sides or surfaces of the switchable magnet 250, the magnet housing 254, and/or the main body 102. In some examples, the lever 258 can be a handle or a knob extending from the upper surface of the magnet housing 254 (not shown). [0070] For the extendable saw 200, the control system 158 can include a microprocessor, controllers, switches, software, and/or other equipment that can control the various aspects and systems of the extendable saw 100, including, but not limited to, the powering and the rotational speed or other blade movement speed of the saw blade 130 and the movement of the blade housing 110 and the saw blade 130. In one example, a single engagement of the switch 156 can activate the control system 158 to power-up and rotate or otherwise provide blade movement to the saw blade 130 and can also extend the blade housing 110 and the saw blade 130 to the desired object to be cut In another example, a single engagement of the switch 156 can activate the control system 158 to retract the blade housing 110 and the saw blade 130 to the retracted position and power-down the saw blade 130. In another example, a single engagement of the switch 156 can activate the control system 158 to power-up and rotate or otherwise provide blade movement to the saw blade 130, extend the blade housing 110 and the saw blade 130 to the desired object to be cut, cut the object, retract the blade housing 110 and the saw blade 130 to the retracted position, and power-down the saw blade 130.

[0071] In some exemplary embodiments, the magnetized state of the contact surface 252 can be activated via the lever 258 prior to engaging the switch 156 to activate the control system 158. In some embodiments, switches (e.g., kill switch or safety switch), sensors, locking mechanisms, and/or other electronic or mechanical devices (not shown) may be operatively coupled to the lever 258, the switch 156, the control system 158, the motorized unit 140, and/or other components of the extendable saw 200. The switches sensors, locking mechanisms, and/or other electronic or mechanical devices (not shown) may be configured to provide blade movement of the saw blade 130 once the magnetized state has been engaged and the contact surface 252 has been magnetically attached to the work surface and/or to cease blade movement of the saw blade 130 once the non- magnetized state has been engaged and the contact surface 252 has been magnetically detached from the work surface.

[0072] In some examples, the switch 156, the control system 158, and/or other components of the extendable saw 200 can be or include one or one kill switches, such as, for example, a torque kill switch. The kill switches (switch 156) can be operatively coupled to and in electrical communication with the motorized unit 140 and can be configured to cease blade movement of the saw blade 130. The one or more kill switches can be configured to disengage or break electrical communication between one or more power sources and the motorized unit 140 and/or the control system 158 upon sensing or registering a predetermined event occurrence, such as, for example, a maximum value of torque directly or indirectly exposed to or experienced by the saw blade 130, the gear unit 160, and/or the motorized unit 140. In other examples, the predetermined event occurrence for triggering the kill switch can be a partial, substantial, or complete loss of the magnetized state and/or a partial, substantial, or complete disengagement of the contact surface 252 from the work surface.

[0073] In one or more embodiments, the magnet housing 254 can be or include one or more materials having a low magnetic reluctance and/or a high magnetic reluctance. The low magnetic reluctance materials can be ferrimagnetic or ferromagnetic ("magnetically susceptible material"). The high magnetic reluctance materials can include, for example aluminum, magnesium, and/or carbon fiber. In one or more embodiments, within the magnet housing 254, a first magnet or "lower magnet" can be held in a fixed position beneath a second magnet or "upper magnet" that can be rotated about its axis. In one or more embodiments, the lower surface of the lower magnet can form part of the contact surface 252 of the switchable magnet 250. In one or more embodiments, the lower surface of the lower magnet can be recessed within the magnet housing 254, such that the sides of the magnet housing 254 provide a gap between a lower surface of the lower magnet and the contact surface 252 of the switchable magnet 250.

[0074] The switch or lever 258 can rotate the second magnet relative to the first magnet within the magnet housing 254. The second magnet can include a notch or groove configured to engage or receive a bar (not shown) in communication with the lever 258. The bar can be received inside a groove formed on a boss (not shown) that can be connected to the lever 258. The lever 258 can have two or more positions, at least one of which can be an "on" position and at least one of which can be an "off position.

[0075] In one or more embodiments, rotating the second magnet 180° about its axis can align the poles of both the first magnet and the second magnet in the "on" position to produce an external magnetic field. When so aligned, the north (positive) and south (negative) poles of the second magnet can substantially overlie the north and south poles of the first magnet, creating a strong external magnetic field about the magnet housing 254. In one or more embodiments, at least a portion of the strong external magnetic field can be directed towards the contact surface 252 of the switchable magnet 250. The extendable saw 200 can magnetically attach the contact surface 252 to a magnetically susceptible surface (not shown) when switched to the "on" position.

[0076] In one or more embodiments, the magnet housing 254 can be or include one, two, or more pole pieces that can enhance the magnetic functionality of the switchable magnet 250. The shape or wall thickness of the pole pieces forming the magnet housing 254 can increase or decrease the external magnetic field strength. For example, to provide a higher external magnetic field, the pole pieces can be shaped in such a way that they reflect the variation of the magnetic field strength around the perimeter of the permanently magnetized first and second magnets.

[0077] In one or more embodiments, the switchable magnet 250 can include one, two, three, four, five, or more independent switchable magnets. In one or more embodiments, a switchable magnet 250 that includes a plurality of switchable magnets disposed within the magnet housing 254 can be switched between the "on" and "off 1 positions via a single switch, handle, knob, or lever 258. In one or more embodiments, a switchable magnet 250 that includes a plurality of switchable magnets disposed within the magnet housing 254 can include two or more switches, handles, knobs, or levers 258 that can switch one or more of the switchable magnets between the "on" position and the "off 1 position.

[0078] In one or more embodiments, the magnet housing 254 can provide a waterproof and/or dustproof housing to protect the one or more switchable magnets disposed therein. The switchable magnet 250 can be suitable for use in harsh, dusty, and/or wet environments. Additional details of a suitable switchable magnet 250 is further discussed and described in U.S. Patent Nos. 6,707,360 and 7,012,495 and U.S. Patent Application Publication No. 2004/0239460, which are incorporated by reference herein to the extent such disclosure is not inconsistent with this application and for all jurisdictions in which such incorporation is permitted. [0079] In another embodiment, the switchable magnet 250 can include one, two, or more pole conduits, core elements, and/or combination carrier platter/core element assemblies (not shown) as one or more of the permanent magnets 262 disposed within the magnet housing 254 and forming the contact surface 252, as depicted in Figure 4B. The magnet housing 254 and/or the permanent magnets 262 can be or include one, two, or more pole conduits, core elements, and/or combination carrier platter/core element assemblies which can provide the contact surface 252 with a magnetized state ("on") and a non-magnetized state ("off") by the manipulation of the lever 258. In some examples, the lever 258 can be configured to cause relative rotation of the permanent magnets 262 (and/or any portion of or any one, two, or more pole conduits, core elements, and/or combination carrier platter/core element assemblies) for controlling the magnetized state and the non-magnetized state of the contact surface 252. In other examples, instead of the lever 258, a knob or a handle (not shown) can extend from the upper surface or other surface of the magnet housing 254 or the main body 102. The knob or the handle can be pulled, pushed, switched, turned, rotated, twisted, slid, in one or more directions to cause relative rotation of the permanent magnets 262 (and/or any portion of or any one, two, or more pole conduits, core elements, and/or combination carrier platter/core element assemblies) for controlling the magnetized state and the non-magnetized state of the contact surface 252.

[0080] In some embodiments, the contact surface 252 and/or each of the permanent magnets 262 can be or include a switchable core element-based permanent magnet apparatus, which contains two or more carrier platters having core elements. The core elements can be magnetically matched pole conduits attached to the north and south magnetic poles of one or more permanent magnets, inset into carrier platters. The pole conduits can include and redirect the magnetic field of the permanent magnets to the upper and lower faces of the carrier platters. By containing and redirecting the magnetic field within the pole conduits, like poles can have a simultaneous level of attraction and repulsion. Aligning upper core elements "in-phase" (e.g., north-north/south-south) with the lower core elements, can activate the apparatus and can provide the magnetized state ("on") by redirecting the combined magnetic fields of the pole conduits into the target. Anti- aligning upper core elements "out-of-phase" (e.g., north-south/south-north) with the lower core elements, can deactivate the apparatus and can provide the non-magnetized state ("off') resulting in pole conduits containing opposing fields.

[0081] In one or more embodiments, the switchable magnet 250 can include one, two, three, or more switchable core element-based permanent magnet apparatuses (not shown). Each switchable core element-based permanent magnet apparatus can include an upper carrier platter aligned above a lower carrier platter by a common axis. The upper carrier platter, the lower carrier platter, or both can be configured to be rotatable about the common axis for activating the magnetized and non-magnetized states of the at least one contact surface 252. The upper carrier platter can include two or more upper core elements having magnetically matched pole conduits and the lower carrier platters can include two or lower more core elements having magnetically matched pole conduits. The magnetically matched pole conduits of the upper core elements and the magnetically matched pole conduits of the lower core elements can be configured to be aligned, adjusted, or otherwise moved in phase to activate the magnetized state of the at least one contact surface 252 and configured to be anti-aligned, adjusted, or otherwise moved out of phase to activate the non- magnetized state of the at least one contact surface 252. Additional details of a suitable switchable magnet 250 is further discussed and described in U.S. Patent Nos. 8,183,965; 8,256,098; and 8,350,663, which are incorporated by reference herein to the extent such disclosure is not inconsistent with this application and for all jurisdictions in which such incorporation is permitted.

[0082] In some embodiments, the magnetically attachable and extendable saw 200 can include the blade housing 110 coupled to the main body 102 by at least one extendable member 120, where the blade housing 110 can at least partially cover the saw blade 130 and the extendable member 120 can be configured to move the blade housing 110 and the saw blade 130 between a retracted position and an extended position relative to the main body 102, the motorized unit 140 coupled to the saw blade 130 and configured to rotate or provide other blade movement to the saw blade 130, the switchable magnet 250 disposed on the main body 102, where the switchable magnet 250 can include a magnet housing 254, at least two permanent magnets 262 disposed within the magnet housing 254, at least one contact surface 252 that can be adjustable or switchable between a magnetized state and a non-magnetized state, and a switch, a handle, a knob, or the lever 258 extending from the magnet housing 254 for causing relative rotation of the permanent magnets 262 and configured to control the magnetized state and the non-magnetized state of the contact surface 252, and the control system 158 operatively coupled to at least the extendable member 120 and the motorized unit 140, where the control system 158 can be configured to activate the magnetized state of the contact surface 252 prior to activating the rotation or other movement of the saw blade 130 via the motorized unit 140.

[0083] Figures 5A-5G depict perspective views of an illustrative magnetically attachable and extendable saw 300, according to one or more embodiments. In one embodiment, the extendable saw 300 can include a main body 302 and the blade housing 110 which can be coupled together by one or more extendable members 320. Figures 6A-6D depict other perspective views of portions of the extendable saw 300, such as the extendable member 320 disposed between the main body 302 and the blade housing 110, according to one or more embodiments. The extendable saw 300 or portions thereof depicted in Figures 5 A-6D and the extendable saws 100 and 200 or portions thereof depicted Figures 1A-4B share many common components. It should be noted that like numerals shown in the Figures and discussed herein represent like components throughout the multiple embodiments disclosed herein.

[0084] The blade housing 110 can at least partially cover the saw blade 130 and the extendable member 320 can be configured to move the blade housing 110 and the saw blade 130 to, from, and/or between a retracted position and an extended position relative to the main body 302. Figures 5 A, 5C, 5E-5G, 6A, and 6C depict the extendable saw 300 with the blade housing 110 and the saw blade 130 in the retracted position, while Figures 5B, 5D, 6B, and 6D depict the extendable saw 300 with the blade housing 110 and the saw blade 130 in the extended position. The extendable member 320 disposed between the main body 302 and the blade housing 110 is depicted by above perspective views illustrated in Figures 6A and 6C and by below perspective views illustrated in Figures 6B and 6D.

[0085] The extendable member 320 can be configured to provide directional guidance to the blade housing 110 and the saw blade 130 to, from, and/or between the retracted and extended positions. Figure 5 A depicts that the extendable member 320 can include a first segment 312 coupled to the main body 302 and a second segment 314 coupled to the blade housing 110, according to one or more embodiments. The first segment 312 and the second segment 314 can be coupled together and configured to slide or otherwise move parallel relative to each other. A guide track 316 disposed in the first segment 312, as depicted in the extended position in Figure 5B, can be configured to receive a portion of the second segment 314 (not shown) for providing the extendable member 320 with the linear direction to, from, and/or between the retracted and extended positions. In other embodiments, not shown, the guide track 316 can be disposed in the second segment 314 and a portion of the first segment 312 can be configured to be receive by the guide track 136 for providing the extendable member 320 with the linear direction.

[0086] In some embodiments, as depicted in Figures SF and SG, a sliding male/female joint 330 can be disposed between the first segment 312 and the second segment 314 of the extendable member 320. The sliding male/female joint 330 can be configured to move the blade housing 110 and the saw blade 130 in a linear direction or a non-linear (e.g., curved or angular) direction to, from, and/or between the retracted and extended positions while the first segment 312 and the second segment 314 slide or otherwise move along sliding male/female joint 330. For example, the guide track 316 (depicted in Figure SB) can be a female portion 326 of the sliding male/female joint 330 disposed in the first segment 312 of the extendable member 320 and a male portion 328 of the sliding male/female joint 330 can be disposed on the second segment 314 of the extendable member 320, as depicted in Figures 5F and SG. In some exemplary configurations, the sliding male/female joint 330 can be or include a dovetail joint, a grooved dovetail joint, a tongue and groove joint, a pin and slot joint, derivatives thereof, or any combination thereof. In some examples, the sliding male/female joint 330 can be a grooved dovetail joint, such that the male portion 328 can include a tongue 327 and the female portion 326 can include a groove 329, as depicted in Figure SG.

[0087] In another embodiment, an actuator unit can include a forward drive gear motor or actuator motor 340 which can be disposed on the extendable saw 300, such as the main body 302. The actuator motor 340 can be configured to drive the extendable member 320 and can be operatively coupled to a rack gear 342 and a pinion gear 344 for driving the extendable member 320. The actuator motor 340 can include an electric motor (e.g., direct current or alternating current), a hydraulic motor, a pneumatic motor (e.g. , gas or air), a fuel-powered motor/engine (e.g. , gasoline, diesel, or propane), or other similar device. The actuator motor 340 can include the same type or a different type of motor as the motor 124 and/or the motorized unit 140.

[0088] In one embodiment, the actuator motor 340 can be disposed on the main body 302, the pinion gear 344 can be disposed on the first segment 312 of the extendable member 320, and the rack gear 342 can be disposed on the second segment 314 of the extendable member 320. In another embodiment, the actuator motor 340 can be disposed on the main body 302, the pinion gear 344 can be disposed on the second segment 314 of the extendable member 320, and the rack gear 342 can be disposed on the first segment 312 of the extendable member 320. In another embodiment, the actuator motor 340 and the pinion gear 344 can be disposed on the first segment 312 of the extendable member 320 and the rack gear 342 can be disposed on the second segment 314 of the extendable member 320. In another embodiment, the actuator motor 340 and the pinion gear 344 can be disposed on the second segment 314 of the extendable member 320 and the rack gear 342 can be disposed on the first segment 312 of the extendable member 320.

[0089] The main body 302 can include at least one switchable magnet 350 having at least one contact surface 352 that can be adjustable or switchable between a magnetized state and a non- magnetized state. In some embodiments, the switchable magnet 350 can be an electromagnet configured to provide the magnetized state and the non-magnetized state from a power source (not shown). For example, the switchable magnet 350 can be an electromagnet in electrical communication with the power source via an electrical control switch, such as the switch 156. The switch 156 can be configured to control the magnetized state and the non-magnetized state of the contact surface 352 by providing an electrical contact in the circuit or by breaking the electrical contact in the circuit. In other embodiments, the switchable magnet 350 can include permanent magnets configured to provide the magnetized state and the non-magnetized state of the contact surface 352. Depending on the type of magnets utilized in the switchable magnet 350, a magnet housing 354 can include various magnets (e.g., electromagnet or permanent magnets) and/or be a structural portion of the switchable magnet 350. For example, the switchable magnet 350 can include one or more electromagnets within the magnet housing 354 and the contact surface 352 of the electromagnet can be a lower surface of the magnet housing 354. In another example, the magnet housing 354 can be the outer surface of or other portion of one or more electromagnets that can form the switchable magnet 350 and the outer surface of the magnet housing 354 can be the contact surface 352.

[0090] In one or more embodiments, the magnet housing 354 can be or include one or more materials having a low magnetic reluctance and/or a high magnetic reluctance. The low magnetic reluctance materials can be ferrimagnetic or ferromagnetic ("magnetically susceptible material"). The high magnetic reluctance materials can include, for example aluminum, magnesium, and/or carbon fiber. In one or more embodiments, within the magnet housing 354, a first magnet or "lower magnet" can be held in a fixed position beneath a second magnet or "upper magnet" that can be rotated about its axis. In one or more embodiments, the lower surface of the lower magnet can form part of the contact surface 352 of the switchable magnet 350. In one or more embodiments, the lower surface of the lower magnet can be recessed within the magnet housing 354, such that the sides of the magnet housing 354 provide a gap between a lower surface of the lower magnet and the contact surface 352 of the switchable magnet 350.

[0091] The switch 156 or the lever (not shown) can rotate the second magnet relative to the first magnet within the magnet housing 354. The second magnet can include a notch or groove configured to engage or receive a bar (not shown) in communication with the switch 156 or the lever (not shown). The bar can be received inside a groove formed on a boss (not shown) that can be connected to the switch 156 or the lever (not shown). The switch 156 or the lever (not shown) can have two or more positions, at least one of which can be an "on" position and at least one of which can be an "off" position.

[0092] In one or more embodiments, rotating the second magnet 180° about its axis can align the poles of both the first magnet and the second magnet in the "on" position to produce an external magnetic field. When so aligned, the north (positive) and south (negative) poles of the second magnet can substantially overlie the north and south poles of the first magnet, creating a strong external magnetic field about the magnet housing 354. In one or more embodiments, at least a portion of the strong external magnetic field can be directed towards the contact surface 352 of the switchable magnet 350. The extendable saw 300 can magnetically attach the contact surface 352 to a magnetically susceptible surface (not shown) when switched to the "on" position.

[0093] In one or more embodiments, the magnet housing 354 can be or include one, two, or more pole pieces that can enhance the magnetic functionality of the switchable magnet 350. The shape or wall thickness of the pole pieces forming the magnet housing 354 can increase or decrease the external magnetic field strength. For example, to provide a higher external magnetic field, the pole pieces can be shaped in such a way that they reflect the variation of the magnetic field strength around the perimeter of the permanently magnetized first and second magnets.

[0094] In one or more embodiments, the switchable magnet 350 can include one, two, three, four, five, or more independent switchable magnets. In one or more embodiments, a switchable magnet 350 that includes a plurality of switchable magnets disposed within the magnet housing 354 can be switched between the "on" and "off' positions via a single handle, knob, lever, or switch 156. In one or more embodiments, a switchable magnet 350 that includes a plurality of switchable magnets disposed within the magnet housing 354 can include two or more switches, handles, knobs, levers, or switches 156 that can switch one or more of the switchable magnets between the "on" position and the "off' position.

[0095] In one or more embodiments, the magnet housing 354 can provide a waterproof and/or dustproof housing to protect the one or more switchable magnets disposed therein. The switchable magnet 350 can be suitable for use in harsh, dusty, and/or wet environments. Additional details of a suitable switchable magnet 350 is further discussed and described in U.S. Patent Nos. 6,707,360 and 7,012,495 and U.S. Patent Application Publication No. 2004/0239460, which are incorporated by reference herein to the extent such disclosure is not inconsistent with this application and for all jurisdictions in which such incorporation is permitted.

[0096] In another embodiment, the switchable magnet 350 can include one, two, or more pole conduits, core elements, and/or combination carrier platter/core element assemblies (not shown) as one or more of the permanent magnets disposed within the magnet housing 354 and forming the contact surface 352. The magnet housing 354 and/or the permanent magnets can be or include one, two, or more pole conduits, core elements, and/or combination carrier platter/core element assemblies which can provide the contact surface 3S2 with a magnetized state ("on") and a non- magnetized state ("off') by the manipulation of the switch 156 or the lever (not shown). In some examples, the switch 156 or the lever (not shown) can be configured to cause relative rotation of the permanent magnets (and/or any portion of or any one, two, or more pole conduits, core elements, and/or combination carrier platter/core element assemblies) for controlling the magnetized state and the non-magnetized state of the contact surface 352. In other examples, instead of the switch 156 or the lever (not shown), a knob or a handle (not shown) can extend from the upper surface or other surface of the magnet housing 354 or the main body 302. The knob or the handle can be pulled, pushed, switched, turned, rotated, twisted, slid, in one or more directions to cause relative rotation of the permanent magnets (and/or any portion of or any one, two, or more pole conduits, core elements, and/or combination carrier platter/core element assemblies) for controlling the magnetized state and the non-magnetized state of the contact surface 352.

[0097] In some embodiments, the contact surface 352 and/or each of the permanent magnets can be or include a switchable core element-based permanent magnet apparatus, which contains two or more carrier platters having core elements. The core elements can be magnetically matched pole conduits attached to the north and south magnetic poles of one or more permanent magnets, inset into carrier platters. The pole conduits can include and redirect the magnetic field of the permanent magnets to the upper and lower faces of the carrier platters. By containing and redirecting the magnetic field within the pole conduits, like poles can have a simultaneous level of attraction and repulsion. Aligning upper core elements "in-phase" (e.g., north-north/south-south) with the lower core elements, can activate the apparatus and can provide the magnetized state ("on") by redirecting the combined magnetic fields of the pole conduits into the target. Anti- aligning upper core elements "out-of-phase" (e.g., north-south/south-north) with the lower core elements, can deactivate the apparatus and can provide the non-magnetized state ("off") resulting in pole conduits containing opposing fields.

[0098] In one or more embodiments, the switchable magnet 350 can include one, two, three, or more switchable core element-based permanent magnet apparatuses (not shown). Each switchable core element-based permanent magnet apparatus can include an upper carrier platter aligned above a lower carrier platter by a common axis. The upper carrier platter, the lower carrier platter, or both can be configured to be rotatable about the common axis for activating the magnetized and non-magnetized states of the at least one contact surface 352. The upper carrier platter can include two or more upper core elements having magnetically matched pole conduits and the lower carrier platters can include two or lower more core elements having magnetically matched pole conduits. The magnetically matched pole conduits of the upper core elements and the magnetically matched pole conduits of the lower core elements can be configured to be aligned, adjusted, or otherwise moved in phase to activate the magnetized state of the at least one contact surface 352 and configured to be anti-aligned, adjusted, or otherwise moved out of phase to activate the non- magnetized state of the at least one contact surface 352. Additional details of a suitable switchable magnet 350 is further discussed and described in U.S. Patent Nos. 8,183,965; 8,256,098; and 8,350,663, which are incorporated by reference herein to the extent such disclosure is not inconsistent with this application and for all jurisdictions in which such incorporation is permitted.

[0099] In some embodiments, the magnetically attachable and extendable saw 300 can include the blade housing 110 coupled to the main body 302 by at least one extendable member 320, where the blade housing 110 can at least partially cover the saw blade 130 and the extendable member 320 can be configured to move the blade housing 110 and the saw blade 130 between a retracted position and an extended position relative to the main body 302, the motorized unit 140 coupled to the saw blade 130 and configured to rotate or provide other blade movement to the saw blade 130, the switchable magnet 350 disposed on the main body 302, where the switchable magnet 350 can include a magnet housing 354, at least two permanent magnets disposed within the magnet housing 354, at least one contact surface 352 that can be adjustable or switchable between a magnetized state and a non-magnetized state, and a switch, a handle, a knob, or the switch 156 or the lever (not shown) extending from the magnet housing 354 for causing relative rotation of the permanent magnets and configured to control the magnetized state and the non-magnetized state of the contact surface 352, and the control system 158 operatively coupled to at least the extendable member 320 and the motorized unit 140, where the control system 158 can be configured to activate the magnetized state of the contact surface 352 prior to activating the rotation or other movement of the saw blade 130 via the motorized unit 140.

[00100] In operation, the extendable saw 100, 200, 300 can be disposed one or more magnetically susceptible work surfaces (not shown) that contain one or more objects (not shown) to be cut and separated from the respective work surface. For example, the contact surface 152, 252, 352 of the switchable magnet 150, 250, 350 can be disposed on the work surface proximate to the object to be cut. The switchable magnet 150, 250, 350 can be switched from the "off' position to the "on" position via the switch 156 or the lever 258, thereby securing the extendable saw 100, 200, 300 to the work surface. Also, by actuating the switch 156 to activate the control system 158, the blade housing 110 and the saw blade 130 can be linearly or non-linearly advanced toward the object by the extendable member 120, 320 and/or activate the rotation or other blade movement of the saw blade 130 via the motorized unit 140. The extendable member 120, 320 can be linearly or non- linearly advanced horizontally along the work surface, such that the saw blade 130 contacts the object disposed on the work surface. The extendable member 120, 320 can apply the saw blade 130 with sufficient horizontal force directed towards the object so that the saw blade 130 can cut through the object via the combined horizontal force and the blade movement (e.g., rotation movement for circular blade) of the saw blade 130. The contact surface 152, 252, 352 of the switchable magnet 150, 250, 350 can remain in contact with the work surface while the extendable member 120, 320 exerts the horizontal force toward the object. The switch 156 can be actuated to retract the extendable member 120, 320 along with the blade housing 110 and the saw blade 130, as well as to deactivate the rotation or other blade movement of the saw blade 130.

[00101] In one or more embodiments, the switchable magnet 150, 250, 350 can be disposed on the work surface via the contact surface 152, 252, 352 by a magnetic strength or force of about 20 kilogram-force (kgf) or more, about 50 kgf or more, about 100 kgf or more, about 250 kgf or more, about 500 kgf or more, about 1 ,000 kgf or more, about 1 ,500 kgf or more, about 1 ,800 kgf or more, about 2,000 kgf or more, about 2,500 kgf or more, or about 2,700 kgf or more. In other embodiments, the extendable member 120, 320 can apply the saw blade 130 with horizontal force of about 20 kgf or more, about 50 kgf or more, about 100 kgf or more, about 250 kgf or more, about 500 kgf or more, about 1,000 kgf or more, about 1,500 kgf or more. In one example, the switchable magnet 150, 250, 350 can generate a magnetic strength or force of about 1,800 kgf (about 3,969 pound-force) and the extendable member 120, 320 can apply the saw blade 130 with horizontal force of about 275 kgf (about 606 pound-force).

[00102] Figures 7A-7B depict perspective views of a vacuum-attachable and extendable saw 400, according to one or more embodiments. In one embodiment, the extendable saw 400 can include the main body 102, the blade housing 110, and the extendable member 120 as described for the extendable saw 100. The extendable saw 400 or portions thereof depicted in Figures 7A-7B and the extendable saw 100 or portions thereof depicted Figures 1A-3 share many common components. It should be noted that like numerals shown in the Figures and discussed herein represent like components throughout the multiple embodiments disclosed herein.

[00103] In one or more embodiments, the main body 102 can include at least one vacuum- attachable unit 450 having at least one contact surface 452 that can be adjustable or switchable between an evacuated state and a non-evacuated state. In some examples, the evacuated state can be considered an attached state and the non-evacuated state can be considered a released state. The contact surface 452 can contain one or more openings 460 and one or more seals 462, such as a gasket or an O-ring, surrounding each the openings 460. The vacuum-attachable unit 450 can be disposed on and/or adhered to a work surface via the contact surface 452 by a generated vacuum.

[00104] In some embodiments, the vacuum-attachable unit 450 can also include a vacuum unit housing 454 having one or more vacuum ports 456 in fluid communication with the opening 460, as depicted in Figure 7A. One end of the vacuum port 456 can be configured to couple to a vacuum line or hose via a fitting, a nozzle, or another type of adaptor (not shown). Such vacuum line or hose can be in fluid communication with a vacuum system (e.g., in-house vacuum or an independent vacuum) configured to generate a vacuum. The other end of the vacuum port 456 can be directly or indirectly in fluid communication with one or more openings 460. In one embodiment, the vacuum port 456 can be directly coupled to one or more openings 460.

[00105] In other embodiments, the vacuum-attachable unit 450 can also include one or more passageways 457 and/or one or more one or more vacuum chambers 458 directly or indirectly in fluid communication with and disposed between one or more vacuum ports 456 and one or more openings 460. In one embodiment, as depicted in Figure 7A, the vacuum unit housing 454 can include the passageway 457 in fluid communication with and disposed between the vacuum port 456 and the vacuum chamber 458, and can include the vacuum chamber 458 in fluid communication with and disposed between the passageway 457 and the opening 460. The passageway 457 and/or the vacuum chamber 458 can independently be optional components which can be a single component or can be incorporated as a portion of the vacuum port 456 and/or the opening 460.

[00106] In some examples, the passageway 457 and/or the vacuum chamber 458 can independently be formed within the vacuum unit housing 454 or other portions of the vacuum- attachable unit 450. In other examples, the passageway 457 and/or the vacuum chamber 458 can independently be one or more pipes, hoses, lines, conduits, ducts, or the like. In another embodiment, a control valve 470 can be disposed between the vacuum port 456 and the opening 460 or can be disposed between the vacuum port 456 and the vacuum chamber 458. The control valve 470 can be configured to be placed in an opened-position and a closed-position and can be in operable communication with the control system 158 and/or the switch 156. In one embodiment, the control valve 470 can be placed in the opened-position to provide a static vacuum or placed in the closed-position to provide a non-static vacuum. Both static and non-static vacuums can be utilized to maintain the evacuated state and attached state.

[00107] In some embodiments, the control system 158 and/or the switch 156 can be operatively coupled to at least the motorized unit 140, the vacuum-attachable unit 450, and/or the extendable member 120. In one embodiment, the control system 158 and/or the switch 156 can be configured to control the evacuated/non-evacuated states and the attached/released states. In operation, the extendable saw 400 can be disposed one or more non-magnetically susceptible work surfaces and/or one or more magnetically susceptible work surfaces (not shown) that contain one or more objects (not shown) to be cut and separated from the respective work surface. For example, the contact surface 452 of the extendable saw 400 can be disposed on the work surface proximate to the object to be cut. The vacuum-attachable unit 450 can be switched from the "off' position to the "on" position via the switch 156, thereby securing the extendable saw 400 to the work surface. Also, by actuating the switch 1S6 to activate the control system 158, the blade housing 110 and the saw blade 130 can be linearly or non-linearly advanced toward the object by the extendable member 120 and/or activate the rotation or other blade movement of the saw blade 130 via the motorized unit 140. The extendable member 120 can be linearly or non-linearly advanced horizontally along the work surface, such that the saw blade 130 contacts the object disposed on the work surface. The extendable member 120 can apply the saw blade 130 with sufficient horizontal force directed towards the object so that the saw blade 130 can cut through the object via the combined horizontal force and the blade movement (e.g., rotation movement for circular blade) of the saw blade 130. The contact surface 452 of the vacuum-attachable unit 450 can remain in contact with the work surface while the extendable member 120 exerts the horizontal force toward the object. The switch 156 can be actuated to retract the extendable member 120 along with the blade housing 110 and the saw blade 130, as well as to deactivate the rotation or other blade movement of the saw blade 130.

[00108] In one or more embodiments, the vacuum-attachable unit 450 of the extendable saw 400 can be disposed on the work surface via the contact surface 452 by a vacuum strength or force of about 20 kgf or more, about 50 kgf or more, about 100 kgf or more, about 250 kgf or more, about 500 kgf or more, about 1 ,000 kgf or more, about 1 ,500 kgf or more, about 1 ,800 kgf or more, about 2,000 kgf or more, about 2,500 kgf or more, or about 2,700 kgf or more. In one example, the vacuum-attachable unit 450 can generate a magnetic strength or force of about 1,800 kgf (about 3,969 pound-force) and the extendable member 120 can apply the saw blade 130 with horizontal force of about 275 kgf (about 606 pound-force).

[00109] In another embodiment, a method for removing an object protruding from a work surface with an extendable saw can include positioning the extendable saw on or adjacent to the work surface, the extendable saw can include a main body, a blade housing coupled to the main body by at least one extendable member, where the blade housing at least partially covers a saw blade and the extendable member can be configured to move the blade housing and the saw blade between a retracted position and an extended position relative to the main body, a motorized unit coupled to the saw blade and configured to rotate or provide other blade movement to the saw blade, and a switchable magnet disposed on the main body and having at least one contact surface that can be adjustable or switchable between a magnetized state and a non-magnetized state, attaching the extendable saw to the work surface by activating the switchable magnet to provide the magnetized state of the contact surface, rotating or providing other blade movement to the saw blade via the motorized unit, extending or otherwise moving the blade housing and the saw blade from the retracted position towards the object protruding from the work surface, where the object can be disposed to, from, and/or between the retracted and extended positions, and cutting through the object with the saw blade to separate the object from the work surface.

[00110] In some embodiments, the method can include using a constant or continuous motion when retracting, extending, or otherwise moving the blade housing and the saw blade between the retracted position and the extended position. In some examples, a smoother or less rough work surface can be formed by the saw blade if the blade housing and the blade are moved with a constant or continuous motion between the retracted position and the extended position than if the blade housing and the blade are moved with an inconsistent or non-continuous motion between the retracted position and the extended position.

[00111] In some embodiments, the method can also include maintaining a blade guard in a stationary position as the blade housing and the saw blade extend from the retracted position so that the saw blade can be at least partially, substantially, or completely revealed or exposed within a cutting window of the blade housing as the saw blade moves away from the blade guard and the main body.

[00112] In other embodiments, the method can also include retracting or otherwise moving the blade housing and the saw blade to the retracted position subsequent to cutting through the object.

[00113] In some embodiments, the method can also include maintaining a blade guard in a stationary position as the blade housing and the saw blade move towards the retracted position so that the saw blade can be at least partially, substantially, or completely concealed or covered by the blade guard within the cutting window as the saw blade moves towards the blade guard and the main body. [00114] In some embodiments, the method can also include that the switchable magnet can include an electromagnet configured to provide the magnetized state and the non-magnetized state of the contact surface.

[00115] In other embodiments, the method can also include that the switchable magnet can include a magnet housing, permanent magnets disposed within the magnet housing and configured to provide the magnetized state and the non-magnetized state of the contact surface, and a switch or a lever extending from the magnet housing and configured to cause relative rotation of the permanent magnets for controlling the magnetized state and the non-magnetized state of the contact surface.

[00116] In some embodiments, the work surface described can contain or can be any suitable magnetically susceptible material, which can include, but is not limited to, iron, steel, magnetically susceptible stainless steel, other ferrous metals, ferrous alloys, and combinations thereof. The magnetically susceptible material can be a composite material having both magnetically susceptible and non-magnetically susceptible components. In one or more embodiments, a non- magnetically susceptible work surface can be disposed on the magnetically susceptible work surface. The non-magnetically susceptible work surface can be thin enough to allow at least one of the switchable magnets, when in the "on" position to magnetically attach to the magnetically susceptible work surface.

[00117] In other embodiments, the work surface described can contain or can be any suitable non- magnetically susceptible material, which can include, but is not limited to, aluminum and aluminum alloys, titanium and titanium alloys, non-magnetically susceptible stainless steel, other non-ferrous metals or alloys, plastic, polymeric, or oligomeric materials, carbon-based or carbon fiber materials, masonry materials (e.g., concrete, brick, or stone), or combinations thereof. The non-magnetically susceptible material can be a composite material having both magnetically susceptible and non-magnetically susceptible components. In one or more embodiments, the extendable saw 400 can be attached to a non-magnetically susceptible work surface and/or the magnetically susceptible work surface. [00118] The object to be cut by the extendable saw and the work surface can be made from the same material or different materials. The object to be cut can be metal, non-metal, or a combination thereof. The object to be cut and/or a non-magnetically susceptible work surface disposed on the magnetically susceptible work surface can be fiberglass, wood, plastic or polymeric materials, carbon-based or carbon fiber materials, and the like. In many embodiments, the object to be cut can be or include metal, such as steel pieces, angle irons, handrails, key plates, pipes, and other metal workpieces.

[00119] Other embodiments relate to any one or more of the following paragraphs:

[00120] 1. A magnetically attachable and extendable saw, comprising: a main body; a blade housing coupled to the main body by at least one extendable member, wherein the blade housing at least partially covers a saw blade and the extendable member is configured to move the blade housing and the saw blade between a retracted position and an extended position relative to the main body; a motorized unit coupled to the saw blade and configured to rotate or provide other blade movement to the saw blade; and a switchable magnet disposed on the main body and comprising at least one contact surface that is switchable between a magnetized state and a non- magnetized state.

[00121] 2. The magnetically attachable and extendable saw of paragraph 1, wherein the switchable magnet is an electromagnet in electrical communication with a switch and configured to control the magnetized state and the non-magnetized state of the contact surface.

[00122] 3. The magnetically attachable and extendable saw of paragraph 1 or 2, further comprising a control system operatively coupled to at least the motorized unit and the switchable magnet, wherein the control system is configured to activate the magnetized state of the contact surface prior to activating the rotation or other blade movement of the saw blade via the motorized unit.

[00123] 4. The magnetically attachable and extendable saw of paragraph 3, wherein the electromagnet magnet further comprises a magnet housing and the contact surface of the electromagnet magnet is a lower surface of the magnet housing. [00124] 5. The magnetically attachable and extendable saw of paragraph 4, wherein the control system is configured to cease rotation or other blade movement of the saw blade via the motorized unit if the magnetized state switches to the non-magnetized state.

[00125] 6. The magnetically attachable and extendable saw of paragraph 5, wherein the control system comprises a microprocessor.

[00126] 7. The magnetically attachable and extendable saw of paragraph 1, wherein the a switchable magnet further comprises a magnet housing, at least two permanent magnets disposed within the magnet housing, and a switch extending from the magnet housing for causing relative rotation of the permanent magnets.

[00127] 8. The magnetically attachable and extendable saw of any one of paragraphs 1 to 8, wherein the at least one extendable member is adapted to move the blade housing and the saw blade in a linear direction or a non-liner direction between the retracted position and the extended position.

[00128] 9. The magnetically attachable and extendable saw of paragraph 8, wherein the extendable member comprises an actuator unit coupled to and configured to be driven by a motor.

[00129] 10. The magnetically attachable and extendable saw of paragraph 9, wherein the actuator unit comprises a linear actuator.

[00130] 11. The magnetically attachable and extendable saw of paragraph 9 or 10, wherein the motor coupled to the actuator unit comprises an electric motor, a hydraulic motor, or a pneumatic motor.

[00131] 12. The magnetically attachable and extendable saw of any one of paragraphs 1, 8 to 11, further comprising a hinge impingement coupled to the main body and the blade housing, wherein the hinge impingement and the linear actuator are configured to pivot the blade housing and the saw blade in the non-linear direction between the retracted position and the extended position.

[00132] 13. The magnetically attachable and extendable saw of any one of paragraphs 1 to 12, wherein the extendable member can be configured to move the saw blade a predetermined cut distance or a stroke, such as, for example, within a range from about 1 inch to about 6 inches, more narrowly within a range from about 1.5 inches to about S inches, more narrowly within a range from about 2 inches to about 4 inches, and more narrowly within a range from about 2.5 inches to about 3 inches.

[00133] 14. The magnetically attachable and extendable saw of any one of paragraphs 1 to 13, wherein the extendable member further comprises: a first segment coupled to the main body; a second segment coupled to the blade housing; and a guide track disposed in the first segment or the second segment of the extendable member and configured to provide directional guidance to the blade housing and the saw blade between the retracted position and the extended position.

[00134] IS. The magnetically attachable and extendable saw of any one of paragraphs 1 to 14, wherein the extendable member comprises an actuator or a motor configured to extend or retract the blade housing and the saw blade.

[00135] 16. The magnetically attachable and extendable saw of any one of paragraphs 1 to IS, wherein the extendable member comprises a sliding dovetail joint adapted to move the blade housing and the saw blade in a linear direction between the retracted position and the extended position, wherein the guide track is a female portion of the sliding dovetail joint disposed in the first segment or the second segment of the extendable member, and a male portion of the sliding dovetail joint is disposed on the first segment or the second segment of the extendable member without the female portion.

[00136] 17. The magnetically attachable and extendable saw of any one of paragraphs 1 to 16, wherein the extendable member comprises a sliding male female joint adapted to move the blade housing and the saw blade in a linear direction or a non-linear direction between the retracted position and the extended position, wherein the guide track is a female portion of the sliding male/female joint disposed in the first segment or the second segment of the extendable member, and a male portion of the sliding male/female joint is disposed on the first segment or the second segment of the extendable member without the female portion.

[00137] 18. The magnetically attachable and extendable saw of paragraph 17, wherein the sliding male female joint is selected from the group consisting of a dovetail joint, a tongue and groove joint, a pin and slot joint, and derivatives thereof. [00138] 19. The magnetically attachable and extendable saw of any one of paragraphs 1 to 18, further comprising a blade guard coupled to the main body and disposed between the saw blade and an upper portion of the blade housing.

[00139] 20. The magnetically attachable and extendable saw of paragraph 19, wherein the blade guard is configured to at least partially conceal the saw blade within a cutting window of the blade housing when the blade housing and the saw blade are at the retracted position and configured to at least partially reveal the saw blade within the cutting window when the blade housing and the saw blade are at the extended position.

[00140] 21. The magnetically attachable and extendable saw of any one of paragraphs 1 to 20, wherein the blade housing further comprises an upper portion disposed above the saw blade and a side portion at least partially circumferentially disposed around the saw blade and extending downwardly from the upper portion.

[00141] 22. The magnetically attachable and extendable saw of any one of paragraphs 1 to 21, wherein the blade housing further comprises a cutting window is disposed or formed within the upper portion and the side portion.

[00142] 23. The magnetically attachable and extendable saw of any one of paragraphs 1 to 22, wherein the blade housing further comprises a cutting window.

[00143] 24. The magnetically attachable and extendable saw of any one of paragraphs 1 to 23, further comprising two or more rollers disposed on the blade housing, wherein the rollers extend below the side portion and are configured to roll the blade housing along a work surface as the blade housing moves between the retracted position and the extended position.

[00144] 25. The magnetically attachable and extendable saw of paragraph 24, wherein the two or more rollers disposed on the blade housing can include three rollers, four rollers, or more rollers.

[00145] 26. The magnetically attachable and extendable saw of paragraph 25, wherein the rollers are round roller configured to elevate the blade housing off from a work surface.

[00146] 27. The magnetically attachable and extendable saw of any one of paragraphs 1 to 26, wherein the motorized unit is coupled to or disposed on the blade housing. [00147] 28. The magnetically attachable and extendable saw of any one of paragraphs 1 to 27, wherein the blade housing comprises a non-magnetic material.

[00148] 29. The magnetically attachable and extendable saw of paragraph 28, wherein the nonmagnetic material is aluminum or an aluminum alloy.

[00149] 30. The magnetically attachable and extendable saw of any one of paragraphs 1 to 29, wherein the saw blade is a circular, cold saw blade or a circular, chop saw blade.

[00150] 31. The magnetically attachable and extendable saw of any one of paragraphs 1 to 30, wherein the motorized unit comprises an electric motor, a hydraulic motor, or a pneumatic motor.

[00151] 32. The magnetically attachable and extendable saw of paragraph 31, wherein the motorized unit is an electric motor (e.g., DC brush type motor) and the saw blade is rotatable by the electric motor.

[00152] 33. The magnetically attachable and extendable saw of any one of paragraphs 1 to 32, further comprising a power pack, a battery, or a power cell electrically coupled to the motorized unit.

[00153] 34. The magnetically attachable and extendable saw of any one of paragraphs 1 to 33, wherein the motorized unit is coupled to the saw blade by at least one or more components selected from the group consisting of shaft, gears, belt, base plate, and combinations thereof.

[00154] 35. The magnetically attachable and extendable saw of any one of paragraphs 1 to 34, wherein the motorized unit is coupled to a gear reducer, the gear reducer is coupled to a base plate, and the saw blade is coupled to the base plate.

[00155] 36. The magnetically attachable and extendable saw of any one of paragraphs 1 to 35, wherein a motor/blade rotational speed ratio within a range from about 25:1 to about 400:1, more narrowly within a range from about 50:1 to about 200:1, and more narrowly within a range from about 75:1 to about 150:1, such as, for example, about 100:1.

[00156] 37. The magnetically attachable and extendable saw of any one of paragraphs 1 to 36, further comprising a blade height adjuster coupled to the blade housing and the base plate, wherein the blade height adjuster is configured to adjust (e.g., increase or decrease) a vertical blade height of the saw blade.

[00157] 38. The magnetically attachable and extendable saw of paragraph 37, wherein the blade height adjuster comprises a screw mechanism for adjusting the vertical blade height.

[00158] 39. The magnetically attachable and extendable saw of any one of paragraphs 1 to 38, further comprising a base plate coupled to the motorized unit and the saw blade, wherein the motorized unit is configured to rotate or provide other blade movement to the base plate and the saw blade.

[00159] 40. The magnetically attachable and extendable saw of paragraph 39, wherein the saw blade is coupled to the base plate by one or more fasteners, one or more keepers, or a combination of one or more fasteners and one or more keepers that are flush with or recessed from a lower side surface of the saw blade, wherein the fasteners include bolts and screws and the keepers include spline sets.

[00160] 41. The magnetically attachable and extendable saw of paragraph 39, wherein the base plate comprises a male portion of a spline set and the saw blade comprises a female portion of the spline set.

[00161] 42. The magnetically attachable and extendable saw of any one of paragraphs 1 to 41, wherein the saw blade is configured to have a rotational speed within a range from about 100 rpm to about 500 rpm, more narrowly within a range from about ISO rpm to about 400 rpm, and more narrowly within a range from about 200 rpm to about 300 rpm.

[00162] 43. A magnetically attachable and extendable saw, comprising: a main body; a blade housing coupled to the main body by at least one extendable member, wherein the blade housing at least partially covers a saw blade and the extendable member is configured to move the blade housing and the saw blade between a retracted position and an extended position relative to the main body; a motorized unit coupled to the saw blade and configured to rotate or provide other blade movement to the saw blade; an electromagnet disposed on the main body, wherein the electromagnet comprises at least one contact surface that is adjustable or switchable between a magnetized state and a non-magnetized state and a switch in electrical communication with the electromagnet and configured to control the magnetized state and the non-magnetized state of the contact surface; and a control system operatively coupled to at least the extendable member, the motorized unit, and the electromagnet, wherein the control system is configured to activate the magnetized state of the contact surface prior to activating the rotation or other blade movement of the saw blade via the motorized unit or extending the extendable member.

[00163] 44. A method for removing an object protruding from a work surface with an extendable saw, comprising: positioning the extendable saw on or adjacent to the work surface, the extendable saw comprising: a main body; a blade housing coupled to the main body by at least one extendable member, wherein the blade housing at least partially covers a saw blade and the extendable member is configured to move the blade housing and the saw blade between a retracted position and an extended position relative to the main body; a motorized unit coupled to the saw blade and configured to rotate or provide other blade movement to the saw blade; and a switchable magnet disposed on the main body and comprising at least one contact surface that is switchable between a magnetized state and a non-magnetized state; attaching the extendable saw to the work surface by activating the switchable magnet to provide the magnetized state of the contact surface; rotating the saw blade via the motorized unit; extending the blade housing and the saw blade from the retracted position towards the object protruding from the work surface, wherein the object is disposed between the retracted position and the extended position; and cutting through the object with the saw blade to separate the object from the work surface.

[00164] 45. The method of paragraph 44, further comprising maintaining a blade guard in a stationary position as the blade housing and the saw blade extend from the retracted position, wherein the saw blade is revealed within a cutting window in the blade housing as the saw blade moves away from the blade guard.

[00165] 46. The method of paragraph 44, further comprising retracting the blade housing and the saw blade to the retracted position subsequent to cutting through the object.

[00166] 47. The method of paragraph 46, further comprising maintaining a blade guard in a stationary position as the blade housing and the saw blade move towards the retracted position, wherein the saw blade is concealed by the blade guard within a cutting window in the blade housing as the saw blade moves towards the blade guard.

[00167] 48. A magnetically attachable and extendable saw, comprising: a main body; a blade housing coupled to the main body by at least one extendable member, wherein the blade housing at least partially covers a saw blade and the extendable member is configured to move the blade housing and the saw blade between a retracted position and an extended position relative to the main body; a motorized unit coupled to the saw blade and configured to rotate or provide other blade movement to the saw blade; and a switchable magnet disposed on the main body and comprising at least one contact surface that is switchable between a magnetized state and a non- magnetized state, wherein the switchable magnet comprises one, two, or more pole conduits, core elements, combination carrier platter/core element assemblies disposed within a magnet housing and forming the contact surface.

[00168] 49. A vacuum-attachable and extendable saw, comprising: a main body; a blade housing coupled to the main body by at least one extendable member, wherein the blade housing at least partially covers a saw blade and the extendable member is configured to move the blade housing and the saw blade between a retracted position and an extended position relative to the main body; a motorized unit coupled to the saw blade and configured to rotate or provide other blade movement to the saw blade; and a vacuum-attachable unit disposed on the main body and comprising at least one contact surface that is switchable between a vacuum state and a non- vacuum state.

[00169] 50. An attachable and extendable saw, comprising: a main body; a blade housing coupled to the main body by at least one extendable member, wherein the blade housing at least partially covers a saw blade and the extendable member is configured to move the blade housing and the saw blade between a retracted position and an extended position relative to the main body; a motorized unit coupled to the saw blade and configured to provide blade movement to the saw blade; and a switchable device or unit disposed on the main body and comprising at least one contact surface that is switchable between a magnetized or vacuum state and a non-magnetized or non-vacuum state, respectively. [00170] SI. A magnetically attachable and extendable saw, comprising: a main body; a blade housing coupled to the main body by an extendable member, wherein the blade housing at least partially covers a saw blade and the extendable member is configured to move the blade housing and the saw blade between a retracted position and an extended position relative to the main body; a motorized unit coupled to the saw blade and configured to drive the saw blade; a switchable magnet disposed on the main body and comprising at least one contact surface that is switchable between a magnetized state and a non-magnetized state; and a control system operatively coupled to the extendable member, the motorized unit, and the switchable magnet.

[00171] 52. The magnetically attachable and extendable saw of paragraph 51, wherein the at least one extendable member is configured to move the blade housing and the saw blade in a linear direction or a non-linear direction between the retracted position and the extended position.

[00172] S3. The magnetically attachable and extendable saw of paragraph 51 or 52, wherein the extendable member comprises an actuator unit coupled to and configured to be driven by a motor.

[00173] 54. The magnetically attachable and extendable saw of paragraph 53, wherein the extendable member further comprises: a first segment coupled to the main body; a second segment coupled to the blade housing; and a guide track at least partially disposed in the first segment or the second segment of the extendable member and configured to provide directional guidance to the blade housing and the saw blade between the retracted position and the extended position.

[00174] 55. The magnetically attachable and extendable saw of paragraph 54, wherein the extendable member comprises a sliding dovetail joint configured to move the blade housing and the saw blade in a linear direction between the retracted position and the extended position, wherein the guide track is a female portion of the sliding dovetail joint disposed in the first segment or the second segment of the extendable member, and a male portion of the sliding dovetail joint is disposed on the first segment or the second segment of the extendable member without the female portion.

[00175] 56. The magnetically attachable and extendable saw of any one of paragraphs 51 to 55, wherein the at least one extendable member is configured to move the blade housing and the saw blade between the retracted position and the extended position. [00176] 57. The magnetically attachable and extendable saw of paragraph 56, further comprising an actuator unit configured to drive the extendable member between the retracted position and the extended position.

[00177] 58. The magnetically attachable and extendable saw of paragraph 57, wherein the actuator unit comprises an actuator motor, a rack gear, and a pinion gear.

[00178] 59. The magnetically attachable and extendable saw of paragraph 58, wherein the pinion gear is coupled to a first segment of the extendable member and the rack gear is coupled to a second segment of the extendable member.

[00179] 60. The magnetically attachable and extendable saw of any one of paragraphs 51 to 59, wherein the extendable member further comprises a first segment coupled to the main body and a second segment coupled to the blade housing.

[00180] 61. The magnetically attachable and extendable saw of paragraph 60, wherein a pinion gear is coupled to the first segment of the extendable member, a rack gear is coupled to the second segment of the extendable member, and an actuator motor is operatively coupled to the rack gear and the pinion gear for driving the extendable member.

[00181] 62. The magnetically attachable and extendable saw of any one of paragraphs 51 to 61, wherein the at least one extendable member comprises a first portion, a second portion, and a sliding dovetail joint disposed between the first and second portions of the extendable member.

[00182] 63. The magnetically attachable and extendable saw of any one of paragraphs 51 to 62, wherein the saw blade is a circular saw blade and the motorized unit is configured to rotate the circular saw blade.

[00183] 64. The magnetically attachable and extendable saw of any one of paragraphs 51 to 63, wherein the saw blade has a kerf width of about 0.1 inches to about 0.2 inches and a blade thickness of about 0.09 inches to about 0.11 inches.

[00184] 65. The magnetically attachable and extendable saw of paragraph 64, wherein the kerf width is about 0.14 inches to about 0.18 inches and the blade thickness of about 0.095 inches to about 0.105 inches. [00185] 66. The magnetically attachable and extendable saw of any one of paragraphs 51 to 65, wherein the switchable magnet comprises one or more pole conduits, one or more core elements, or one or more combination carrier platter/core element assemblies.

[00186] 67. The magnetically attachable and extendable saw of any one of paragraphs 51 to 66, wherein the switchable magnet comprises one or more switchable core element-based permanent magnet apparatuses.

[00187] 68. The magnetically attachable and extendable saw of paragraph 67, wherein each switchable core element-based permanent magnet apparatus comprises an upper carrier platter aligned above a lower carrier platter by a common axis.

[00188] 69. The magnetically attachable and extendable saw of paragraph 68, wherein the upper carrier platter, the lower carrier platter, or both are configured to be rotatable about the common axis for activating the magnetized state and the non-magnetized state of the at least one contact surface.

[00189] 70. The magnetically attachable and extendable saw of paragraph 68, wherein the upper carrier platter comprises two or more upper core elements having magnetically matched pole conduits and the lower carrier platters comprises two or lower more core elements having magnetically matched pole conduits.

[00190] 71. The magnetically attachable and extendable saw of paragraph 70, wherein the magnetically matched pole conduits of the upper core elements and the magnetically matched pole conduits of the lower core elements are configured to be aligned in phase to activate the magnetized state of the at least one contact surface and configured to be anti-aligned out of phase to activate the non-magnetized state of the at least one contact surface.

[00191] 72. The magnetically attachable and extendable saw of any one of paragraphs 51 to 71, wherein the control system is configured to maintain the extendable member in the retracted position and maintain the motorized unit from driving the saw blade if the at least one contact surface of the switchable magnet is in the non-magnetized state. [00192] 73. A magnetically attachable and extendable saw, comprising: a main body; a blade housing coupled to the main body by an extendable member, wherein the blade housing at least partially covers a circular saw blade and the extendable member is configured to move the blade housing and the circular saw blade between a retracted position and an extended position relative to the main body; a motorized unit coupled to the circular saw blade and configured to drive the circular saw blade; a switchable magnet disposed on the main body and comprising at least one contact surface that is switchable between a magnetized state and a non-magnetized state; and a control system operatively coupled to the extendable member, the motorized unit, and the switchable magnet, wherein the control system is configured to maintain the extendable member in the retracted position and maintain the motorized unit from driving the circular saw blade if the at least one contact surface of the switchable magnet is in the non-magnetized state.

[00193] 74. A magnetically attachable and extendable saw, comprising: a main body; an extendable member coupled to and between the main body and a blade housing, wherein the extendable member is configured to move the blade housing and a saw blade between a retracted position and an extended position relative to the main body, and wherein the extendable member comprises a first segment coupled to the main body and a second segment coupled to the blade housing; an actuator unit configured to drive the extendable member for moving the blade housing and the saw blade between the retracted position and the extended position, wherein the actuator unit further comprises: a pinion gear coupled to the first segment of the extendable member, a rack gear coupled to the second segment of the extendable member; and an actuator motor operatively coupled to the rack gear and the pinion gear and configured to drive the extendable member; a motorized unit coupled to the saw blade and configured to drive the saw blade; and a switchable magnet disposed on the main body and comprising at least one contact surface that is switchable between a magnetized state and a non-magnetized state.

[00194] 75. An attachable and extendable saw comprising: a main body; a blade housing coupled to the main body by an extendable member, wherein the blade housing at least partially covers a saw blade and the extendable member is configured to move the saw blade with or without the blade housing between a retracted position and an extended position relative to the main body; a motorized unit coupled to the saw blade and configured to drive the saw blade by a base plate coupled to the motorized unit, the saw blade having an outer side panel surface and an inner side panel surface, the outer side panel surface facing away from the base plate, the base plate connected to the saw blade with at least one fastener, wherein the at least one fastener does not protrude beyond the surface of the outer side panel; actuator means coupled to the extendable member and configured to drive the extendable member by extendable member driving means; attaching means disposed on the main body for attaching the attachable and extendable saw to a work surface; and control system [means] operatively coupled to one or more of the extendable member, the motorized unit, the actuator unit means, and the attaching means.

[00195] 76. The attachable and extendable saw of paragraph 75 wherein the extendable member is configured to move the saw blade with or without the blade housing in a linear direction or a non-linear direction between the retracted position and the extended position relative to the main body.

[00196] 77. The attachable and extendable saw of paragraph 75 wherein the attaching means comprises one or more magnets disposed on the main body and comprising at least one contact surface.

[00197] 78. The attachable and extendable saw of paragraph 75 wherein the attaching means comprises one or more switchable permanent magnets disposed on the main body and comprising at least one contact surface that is switchable between a magnetized state and a non-magnetized state.

[00198] 79. The attachable and extendable saw of paragraph 75 wherein the attaching means comprises one or more electro-magnets disposed on the main body and comprising at least one contact surface that is switchable between a magnetized state and a non-magnetized state.

[00199] 80. The attachable and extendable saw of paragraph 75 wherein the attaching means comprises one or more hybrid electro-permanent magnets disposed on the main body and comprising at least one contact surface that is s itchable between a magnetized state and a non- magnetized state.

[00200] 81. The attachable and extendable saw of paragraph 77, wherein the one or more magnets comprises a magnet housing, one or more permanent magnets disposed within the magnet housing, and a lever extending from the magnet housing(s) for causing relative rotation of the permanent magnet or permanent magnets.

[00201] 82. The attachable and extendable saw of paragraph 75 wherein the attaching means comprises vacuum means.

[00202] 83. The attachable and extendable saw of paragraph 75 wherein said motorized unit coupled to the saw blade is selected from the group consisting of an electric motor, a hydraulic motor, a pneumatic motor, a fuel-powered motor, and a fuel-powered engine.

[00203] 84. The attachable and extendable saw of paragraph 75 wherein the saw blade further includes orifices for receiving at least one keeper, the at least one keeper not extending beyond the plane defined by a set of the teeth about the saw blade, the teeth angled away from the base plate.

[00204] 85. The attachable and extendable saw of paragraph 84 wherein the orifices are at least four in number and each is arranged orthogonally from an adjacent orifice.

[00205] 86. The attachable and extendable saw of paragraph 75 wherein the extendable member driving means comprises manual operation, an electric motor, a hydraulic motor, a pneumatic motor, a fuel-powered motor, a fuel-powered engine, a combination thereof, or other similar extendable member driving means.

[00206] 87. The attachable and extendable saw of paragraph 75 wherein the extendable member comprises: a first segment coupled to the main body; a second segment coupled to the blade housing; and a guide track at least partially or fully disposed in the first segment or the second segment of the extendable member and configured to provide directional guidance to the blade housing and the saw blade between the retracted position and the extended position. [00207] 88. The attachable and extendable saw of paragraph 77 wherein the one or more switchable permanent magnets comprises one or more pole conduits, one or more core elements, or one or more combination carrier platter/core element assemblies.

[00208] 89. The attachable and extendable saw of paragraph 75 wherein the control system means is configured to move or maintain the extendable member in the retracted position and stop or prevent the motorized unit from driving the saw blade if the attachable and extendable saw becomes detached from the work surface.

[00209] 90. A method for using an attachable and extendable saw comprising the steps of: positioning the attachable or extendable saw on or adjacent to a work surface, the extendable saw comprising: a main body; a blade housing coupled to the main body by an extendable member, wherein the blade housing at least partially covers a saw blade and the extendable member is configured to move the saw blade with or without the blade housing between a retracted position and an extended position relative to the main body; a motorized unit coupled to the saw blade by a base plate and configured to drive the saw blade; actuator unit means coupled to the extendable member and configured to drive the extendable member by extendable member driving means; attaching means disposed on the main body for attaching the attachable and extendable saw to a work surface; and control system means operatively coupled to the extendable member, the motorized unit, and the attaching means; attaching the extendable saw to the work surface by activating the attaching means; driving the saw blade; driving the extendable member via extendable member driving means, wherein the saw blade without or without the blade housing are moved from the retracted position to the extended position towards an object protruding from the work surface; controlling cutting through the object with the saw blade with control system means operatively coupled to the extendable member, the motorized unit, the actuator unit means, and the attaching means; and cutting through the object with the saw blade to separate the object from the work surface.

[00210] 91. A circular saw blade for attachment to a base plate coupled to a motorized unit to drive the saw blade, the saw blade having an inner side panel surface and an outer side panel surface, both side panel surfaces extending radially inwardly from teeth, the outer side panel surface facing away from the base plate when the sawblade is mounted on the base plate, at least one hole arranged between a center of the saw blade and the teeth, the hole including a countersink, and at least one orifice arranged between the center of the saw blade and the teeth.

[00211] 92. The circular saw blade of paragraph 90, wherein the at least one orifice is located approximately orthogonally from an adjacent second orifice.

[00212] 93. The circular saw blade of paragraph 90 wherein the at least one hole is located orthogonally from an adjacent second hole.

[00213] 94. The circular saw blade of paragraph 91 wherein the at least one orifice is further from the center of the saw blade than the at least one hole is from the center of the saw blade.

[00214] Certain embodiments and features have been described using a set of numerical upper limits and a set of numerical lower limits. It should be appreciated that ranges including the combination of any two values, e.g., the combination of any lower value with any upper value, the combination of any two lower values, and/or the combination of any two upper values are contemplated unless otherwise indicated. Certain lower limits, upper limits and ranges appear in one or more claims below. All numerical values are "about" or "approximately" the indicated value, and take into account experimental error and variations that would be expected by a person having ordinary skill in the art.

[00215] Various terms have been defined above. To the extent a term used in a claim is not defined above, it should be given the broadest definition persons in the pertinent art have given that term as reflected in at least one printed publication or issued patent. Furthermore, all patents, test procedures, and other documents cited in this application are fully incorporated by reference to the extent such disclosure is not inconsistent with this application and for all jurisdictions in which such incorporation is permitted. [00216] While the foregoing is directed to embodiments of the present invention, other and further embodiments of the invention can be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.