CROSS-REFERENCE TO RELATED PATENT APPLICATIONS

[0001] This application claims priority to provisional patent application No.

61/574,054 filed on July 27, 2011, which is incorporated herein by reference in its entirety.

FIELD OF THE INVENTION

[0002] The present invention generally relates to fastening mechanisms for fastening elements in permanent fixing such as shear bolts.

BACKGROUND OF THE INVENTION

[0003] Shear bolts and shear pins are often used for permanent connecting of elements such as plates to one another in a non-removable manner. The shear bolt often includes a cylindrical often threaded pin portion configured for being inserted into a designated socket perforated between the elements held for being connected and a removable head portion configured for being used for inserting (e.g. screwing) the pin portion into the socket using a designated tool such as a screwdriver and then being removed therefrom (sheared) for preventing removing of the pin portion from the socket, thereby providing tamper proof fastening of the elements. The sear bolt head portion is commonly designed as a drive bolt head for allowing a corresponding screwdriver to be used for fastening the shear bolt for securing the designated elements to one another. The drive bolt head is designed to be sheared either by forcefully removing thereof or by unscrewing thereof from the pin portion.

[0004] Figures 1A-1C show a known in the art shear bolt 10 having a removable bolt head 11 (also known as drive flange) and pin portion 12 fastening two plate elements 21 and 22 to one another. The bolt head 11 is used for securing the pin portion 12, which includes a screw-thread thereover, into a designated threaded socket 23 perforated through the two plate elements 21 and 22 by using a suitable tool 30 (e.g. a wrench). Once the pin portion 12 is inside the socket 23, the bolt head 11 is sheared for preventing the pin portion 12 from being removed of the socket 23. To allow easy removal of the bolt head 11 the pin portion 12 often includes a widening part 12a and a pin part 12b, which may be threaded, where the widening part 12a has a funnel shape having a polygonal socket for receiving a corresponding polygonal connecting bit 11a of the bolt head 11. The bolt head 11 includes the polygonal connecting bit 11a as well as a head portion lib, in this case having a polygonal design for enabling a

corresponding polygonal wrench 30 to be used for securing the shear bolt 10 to the socket 23 by rotating thereof to a predefine rotation direction. Once the pin portion 12 is threaded into the designated threaded socket 23 of the elements 21 and 22, the interlocking of the polygonal connecting bit 11a of the bolt head 11 is easily pulled out from the corresponding polygonal socket 12c of the pin portion 12. The socket 23 between the plate elements 21 and 22 can include a narrower portion 23a and a wider portion 23b for allowing the edge of the pin portion 12 to better fit therein.

[0005] This shear bolt 10 only provides partial protection from disconnection of the elements 21 and 22 as the elements 21 and 22 can be disassembled by using special tools such as a saw, drill or mill tools. A toll having a corresponding polygonal protrusion can be used for interlocking with the remaining polygonal socket 12c of the pin portion 12, for example, and then rotated for removing the pin portion 12 from the socket 23 of the elements 21 and 22.

SUMMARY OF INVENTION

[0006] According to one aspect of the invention, there is provided a tamper-proof fastener for fastening at least two elements to one another that includes: a pin portion; and a head portion connected to the pin portion. The head portion is configured for allowing the fastening mechanism to connect the at least two elements to one another by using a designated fastening tool and for being sheared off from the pin portion once the pin portion is inserted to a socket perforated through the elements for connecting thereof, wherein the pin portion comprises an expansion mechanism allowing at least part of an outer surface thereof to expand once the pin portion is inserted into the socket perforated through the at least two elements.

[0007] Optionally, the pin portion and expansion mechanism thereof comprise a split edge portion comprising multiple pins, each respective pin is made of a material of an elasticity level that allows it to bend inwardly towards a respective main central axis of the fastening mechanism during insertion of the pin portion into the socket and to retract to an open position by moving away from the central axis once already inserted in said socket, thereby applying pressure upon a receiving inner wall of the socket when the pin portion is inside thereof for securing the pin portion in the socket.

[0008] The pin portion may further comprise an inner channel perforated along a central axis thereof for allowing using a reinforcement member configured for being inserted through the channel for opening the split edge portion. The reinforcement member may be left inside the channel after insertion thereof for maintaining reinforcement.

[0009] Optionally, the socket perforated between the elements is configured in a shape of a longitudinal channel having a bottom part that widens for allowing the split edge portion to open therein. Each pin of the split edge portion may include a protruding part configured for being inserted into the bottom part of the channel of the socket for preventing the pin portion from being removed therefrom.

[0010] According to some embodiments, the expansion mechanism comprises a guiding member made from an elastic material, configured for enveloping a pin of the pin portion, wherein the guiding member is configured for being inserted into the socket separately and the pin is forcefully inserted into the guiding member to strengthen a pressure applied by the pin portion over inner walls of the socket coupled thereto, thereby enhancing a grip of the pin portion to the socket inner walls.

[0011] Optionally, the pin portion includes a threaded portion and the socket has a threaded portion configured to receive and fasten to the threaded portion of the pin portion for securing the pin portion to the elements in the socket by screwing thereof.

[0012] The elements may form a casing when fastened by the at least one fastening mechanism, for casing at least one vital component of a vehicle.

[0013] According to other aspects of the invention, there is provided a tamper- proof fastening mechanism for fastening at least two elements to one another comprising a pin portion that comprises an expansion mechanism allowing at least part of an outer surface thereof to expand once the pin portion is inserted into a socket perforated through the at least two elements.

[0014] Optionally, the pin portion comprises a split edge portion comprising multiple pins, each respective pin of the split portion is made of a material of an elasticity level that allows it to bend inwardly towards a respective main central axis of said fastening mechanism during insertion of the pin portion into the socket and retract to an open position from the central axis once already inserted in the socket. [0015] The pin portion optionally further comprises an inner channel perforated along its central axis for allowing using a reinforcement member configured for being inserted through the channel for opening the split edge portion.

[0016] The reinforcement member may be left inside the channel after insertion thereof for maintaining the split edge portion in the open position.

[0017] The socket perforated between the elements may be configured in a shape of a longitudinal channel having a bottom part that widens for allowing the split edge portion to open therein. Each pin of the split edge portion optionally includes a protruding part configured for being inserted into the bottom part of the socket channel for preventing the pin portion from being removed therefrom.

[0018] Additionally or alternatively, the elements form a casing when fastened by the at least one fastening mechanism, for casing at least one vital component of a vehicle.

[0019] According to yet another aspect of the present invention, there is provided a tamper-proof fastening mechanism for fastening at least two elements to one another comprising: a pin portion; and a head portion connected to the pin portion, wherein the head portion is configured for allowing the fastening mechanism to connect the at least two elements to one another by using a designated fastening tool and for being sheared off from the pin portion once the pin portion is inserted to a socket perforated through the at least two elements for connecting thereof, wherein at least part of the pin portion is telescopic comprising multiple parts overlapping one another for enabling to slide one into the other for compression of the pin portion.

[0020] According to another aspect of the present invention, there is provided a safety mechanism comprising: at least two elements having a plurality of sockets perforated thereover, each of the sockets is perforated through the at least two elements for receiving a fastener portion therein for connecting the elements to one another; a plurality of fasteners each having a threaded portion and a head portion that allows using a rotating tool for fastening the fastener by rotating thereof to a predefined direction and removing thereof by rotating it to an opposite rotating direction, the plurality of fasteners comprise at least one fastener of a first type and at least one fastener of a second type. The first type fastener is configured to fasten the elements by rotating it to a first rotation direction and removing thereof by rotating it to a second rotating direction opposite to the first rotation direction, wherein the second type fastener is configured to fasten the elements by rotating it to the second rotation direction and removing thereof by rotating it to the first rotating direction opposite thereto. Each of the plurality of fasteners regardless of its particular type is designed to appear the same from at least one side thereof that is configured for being exposed to a viewer once the respective fastener is secured to the elements for preventing a respective viewer from visually distinguishing the type and therefore the rotation direction of each respective fastener.

[0021] Optionally, each the fastener is a shear bolt having a pin portion and a head portion connected to the pin portion, the head portion is configured for allowing the fastening mechanism to connect said at least two elements to one another by using a designated fastening tool and for being sheared off from the pin portion once the pin portion is inserted to a respective socket perforated through the at least two elements for connecting thereof.

[0022] Additionally or alternatively, the plurality of elements form a casing for at least one vital component of a vehicle when fastened to one another using the plurality of fasteners, encasing the at least one vital component therein.

[0023] According to yet another aspect of the invention, there is provided a safety mechanism comprising: at least two elements having at least one socket perforated therethrough; and at least one shear bolt for fastening the elements to one another.The shear bolt comprises: a pin portion comprising a bottom threaded portion; and a head portion connected to the pin portion, the head portion is configured for allowing the fastening mechanism to connect the at least two elements to one another by using a designated fastening tool and for being sheared off from the pin portion once the pin portion is inserted to a socket perforated through the at least two elements for connecting thereof, wherein the socket comprises a longitudinal section and a widening bottom section , wherein once rotating the pin portion further into the socket, the threaded portion of the pin portion reaches the widening edge section, which is not threaded and therefore the pin portion is unable to be unscrewed therefrom.

BRIEF DESCRIPTION OF DRAWINGS

[0024] Fig. 1A shows a prior art hexagonal shear bolt used for connecting two elements before the bolt head is removed. [0025] Fig. IB shows the prior art shear bolt used for connecting two elements after the bolt has been inserted through the elements and while the bolt head is sheared by using a hexagonal screwdriver.

[0026] Fig. 1C shows the shear bolt of the prior art fastening the two elements after the head has been sheared off.

[0027] Figures 2A, 2B and 2C schematically illustrate a shear bolt fastener rotatable to one direction, according to a first embodiment of the present invention, where Fig. 2A is a side view of the shear bolt; Fig. 2B is a bottom view of the shear bolt; and Fig. 2C is an elevated view of the shear bolt.

[0028] Figures 3A, 3B and 3C schematically illustrate another shear bolt fastener rotatable to an opposite direction to that of the bolt illustrated in Fig. 2B, , where Fig. 3A is a side view of the shear bolt; Fig. 3B is a bottom view of the shear bolt; and Fig. 3C is an elevated view of the shear bolt.

[0029] Figures 4A, 4B, 4C, 4D, 4E and 4F schematically illustrate a fastener having a hard plate connected thereto for permanent fixing by rotation prevention of the fastener once inside the socket, according to another embodiment of the present invention, where Fig. 4A is an exploded side view of the fastener; Fig. 4B shows the fastener and socket thereof for connecting two elements, where the fastener is out of the socket; Fig. 4C shows the fastener half way through the socket; Fig. 4D shows the fastener fully inside the socket; Fig. 4E shows a cross section of a pin portion of the fastener showing how before inserted into the socket the hard plate is straight allowing rotation thereof; and Fig. 4F shows a cross section of the pin portion of the fastener showing how after inserted into the socket the hard plate is deformed thereby preventing rotation thereof.

[0030] Fig. 5 shows a shear bolt permanent fix fastener having a widening lower edge, according to another embodiment of the invention.

[0031] Fig. 6 shows a shear bolt permanent fix fastener having a lower edge covered with adhesive material, according to yet another embodiment of the invention.

[0032] Fig. 7A shows a permanent fix shear bolt fastener having a pin portion with a threaded widening bottom part for allowing permanent fixing thereof, according to other embodiments of the invention.

[0033] Fig. 7B shows two elements having a socket perforated therethrough configured for receiving the shear bolt of Fig. 7A. [0034] Fig. 7C shows the shear bolt of Fig. 7A inside the designated socket shown in Fig. 7B having the head of the shear bolt being removed by using a hammer.

[0035] Fig. 7D shows the shear bolt inside the socket having the head of the bolt removed (sheared) therefrom.

[0036] Fig. 8A shows a permanent fix fastener having a pin portion with a threaded bottom part for allowing permanent fixing thereof, according to other embodiments of the invention.

[0037] Fig. 8B shows a fastening mechanism using the fastener of fig. 8A for connecting two elements having a socket perforated therethrough configured for receiving the fastener of Fig. 8A.

[0038] Fig. 8C shows the fastener of Fig. 8A fully inside the designated socket shown in Fig. 8B.

[0039] Fig. 9 shows a fastening mechanism including a permanent fix fastener, a socket perforated in elements and a multiplicity of stoppers that are configured in material and/or shape for holding the fastener inside the socket for enhancing permanent fixation thereof, according to embodiments of the invention.

[0040] Fig. 10A shows a permanent fix fastener having a split pin portion, according to one embodiment of the invention.

[0041] Fig. 10B shows the permanent fix fastener with the split pin portion inside a designated socket perforated between two elements for fastening thereof.

[0042] Fig. 11A shows a permanent fix fastener having a split pin portion and a separate reinforcing member, according to one embodiment of the invention.

[0043] Fig. 11B shows the permanent fix fastener of Fig. 11A inside the socket, where the reinforcing member is not yet inserted therethrough for reinforcing the hold of the fastener to the walls of the socket.

[0044] Fig. llC shows the permanent fix fastener of Fig. 11A-11B inside the socket, where the reinforcing member is inserted therethrough for reinforcing the hold of the fastener to the walls of the socket by pushing the split edges of the pin portion of the fastener towards the inner socket walls.

[0045] Fig. 12A shows a tamper proof fastener having a split lower edge, according to another embodiment of the present invention.

[0046] Fig. 12B is a cross sectional view of the tamper proof fastener of Fig. 12A being inserted into a socket perforated in two elements for connecting thereof and a separate reinforcement member for enhancing fastening of the fastener, according to some embodiments of the present invention.

[0047] Fig. 12C is a cross sectional view of the tamper proof fastener of Fig. 12A being inserted into a socket and the reinforcement member inserted therethrough.

[0048] Fig. 13A is a cross sectional view of a tamper proof fastening mechanism including an elastic guiding member, according to some embodiments of the invention.

[0049] Fig. 13B is a cross sectional view of the taper proof mechanism of Fig. 13A being inserted into a socket in elements for connecting thereof.

[0050] Fig. 14A is a cross sectional view of a fastening mechanism including a shear bolt fastener having a tubular pin portion, according to some embodiments of the present invention, wherein the fastener is not yet inserted into a designated socket.

[0051] Fig. 14B is a cross sectional view of the fastener of Fig. 14A inside the socket before its head portion is removed.

[0052] Fig. 14C is a cross sectional view of the fastener of Fig. 14A inside the socket after its head portion has been removed.

[0053] Fig. 15A is a cross sectional view of a fastening mechanism including a collapsing fastener, according to some embodiments of the present invention, wherein the fastener is right after being inserted into a designated socket.

[0054] Fig. 15B is a cross sectional view of the collapsing fastener of Fig. 15A inside the socket in a collapsed position.

[0055] Fig. 16A is a side view of a shear bolt fastener having a conical shaped pin portion upper part, according to some embodiments of the invention.

[0056] Fig. 16B is a cross sectional sided view of the shear bolt fastener of Fig. 16A having the conical shaped pin portion upper part, inserted into a socket perforated between two elements for allowing the fastener to connect these elements, where the head portion of the fastener is removed (sheared), wherein the conical shape of the pin portion allows filling a space created inside the socket with filling materials.

[0057] Fig. 17A is a side view of a shear bolt fastener having a conical shaped pin portion upper part and having a coating material coating at least parts of the pin portion thereof, according to other embodiments of the invention.

[0058] Fig. 17B is a cross sectional sided view of the shear bolt fastener of Fig. 17A having the conical shaped pin portion upper part, inserted into a socket perforated between two elements for allowing the fastener to connect these elements, where the head portion of the fastener is removed (sheared), wherein the conical shape of the pin portion allows filling a space created inside the socket with filling materials.

[0059] Fig. 18 is a side view of a shear bolt fastener having a conical shaped pin portion upper part, according to yet another embodiment of the invention.

[0060] Fig. 19 is a side view of a shear bolt fastener having an irregular shape of a pin portion upper part including a protruding section that is located off-center to a main central axis of the fastener, according to another embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

[0061] In the following detailed description of various embodiments, reference is made to the accompanying drawings that form a part thereof, and in which are shown by way of illustration specific embodiments in which the invention may be practiced. It is understood that other embodiments may be utilized and structural changes may be made without departing from the scope of the present invention.

[0062] The present invention, in some embodiments thereof, provides tamper proof fasteners, fastening mechanisms and fastening methods for using thereof for allowing permanently fixing multiple elements (at least two) to one another. The fasteners, fastening mechanisms and methods provided, allow improving currently used permanent fixes such as prior art shear pins or bolts and the like for improving prevention of disconnecting elements that they are fastened together.

[0063] Reference is now made to Figures 2A- 2C schematically illustrating a shear bolt fastener 10 that can be fastened (closed) by rotating to a first rotational direction (e.g. counterclockwise), and Figures 3A- 3C schematically illustrate another shear bolt fastener designed for rotating to an opposite direction (e.g. clockwise) to that of the bolt illustrated in Figures 2A-2C, for fastening. Each shear bolt 100/200 includes a pin portion 112/212 having a widening part 112a/212a and a threaded part 112b/212b; and a bolt head portion 111/211 having a polygonal head part 11 la/21 la and a connecting bit lllb/211b, which may also be polygonal. The head part llla/211a can be removed by disconnecting the bit 11 lb/21 lb from the pin portion 112/212 by unscrewing thereof (e.g. by using a corresponding polygonal wrench) or by forcefully hitting it off (e.g. by using a hammer). To fasten each shear bolt 100/200 a polygonal wrench may be used for screwing thereof into a respective female threaded socket in the respective two or more elements that are to be connected. The head part 11 lb/21 lb of each shear bolt 100/200 may include a marking indicating the shear bolt's rotational direction for fastening thereof. A multiplicity of mixed types of shear bolts 100b and b200 may be used for fastening elements to one another for enhancing the permanent fix fastening.

[0064] Once the bolt head of the respective shear bolt 111/211 is removed, there is no indication as to the rotational direction for unfastening the respective shear bolt 100/200 and therefore, an unauthorized attempt to open the screwing of the respective shear bolt 100/200 by unscrewing thereof may work for one or more of the shear bolts 100/200 but may damage the tool used for unscrewing when attempting to unscrew the other type of shear bolt 200/100 using the same rotation direction. This may confuse the unauthorized person attempting to tamper with the fastening and convince this person to leave the attempt due to the time it will require him/her for removing the bolts 100/200.

[0065] Reference is now made to Fig. 3D, schematically illustrating a casing 900 for protecting one or more components of a vehicle that includes several elements such as elements 910 and 920 that should be permanently affixed together after the component(s) are encased thereby in a non-removable manner. Shear bolts 100 and 200 are used to fasten the elements 910 and 920, where the shear bolts 100 and 200 are scattered in no particular order throughout the casing 900.

[0066] Figures 4A- 4F schematically illustrate a tamper proof fastener 300 having a hard plate 313 made of hard material(s) such as steel or ceramics according to some embodiments of the invention. The fastener 300 includes a widening head portion 311 and a pin portion 312, which may be threaded. The pin portion 312 includes a slit 314 for receiving the hard plate 313 therein. The width "D" of the hard plate 313 (see Fig. 4E) is slightly larger than the diameter "d" of the pin portion 312 and therefore can deform (e.g. bend) once the pin portion 312 is forced/threaded into the socket 23'. Fig. 4E shows the plate 313 inside the pin portion 312 before it was inserted into the socket 23' and Fig. 4F shows how the hard plate 313 can be deformed once inserted into the socket 23'.

[0067] The hard plate 313 prevents the fastener 300 from being pooled out by rotation thereof e.g. by using a rotating tool 31 since the deforming of the protruding plate 313 enhances the grip it has onto the inner walls of the socket 23' and therefore enhances the fastening of the elements 21' and 22' to one another.

[0068] As illustrated in Figures 4B-4D, the socket 23' may be configured to fit the design of the fastener 300 as well as to optimize the fastener's 300 hold of the elements 21' and 22' once threaded/inserted into the socket 23'. In this case, the socket 23' has three sections: a first section 23a' having a funnel shape fitting the widening funnel shape of the fastener's head 311; a second section 23b' having a tubular shape; and a third section 23c' which may be threaded as a female thread to receive a male thread section of the pin portion 312 of the fastener 300.

[0069] According to some embodiments of the invention, there is provided a tamper-proof fastener for fastening elements to one another that includes a head portion and a pin portion, where the pin portion includes an expansion mechanism allowing at least part of an outer surface thereof to expand once the pin portion is inserted into a socket perforated through the elements to be fastened to one another. The expansion mechanism may include, for instance a widening lower edge of a pin portion of a fastener of any design such as a regular screw design, a shear bolt design and the like, where the widening edge is made from the same material as the fastener of is an attachment thereto made from softer materials for allowing squeezing into the socket and then widening when inside for applying more pressure over the socket's inner walls for enhancing fastening of the pin portion thereto.

[0070] Fig. 5 shows a shear bolt permanent fix fastener 40 having a head portion 41 with a polygonal had part 41b and a connecting part 41a and a pin portion 42 having a pin part 42a and a widening lower edge by including an attachment 42b, according to one embodiment of the invention. The attachment 42b is made from a much flexible and softer material such as rubber, polymeric and/or silicon based flexible materials and the like to improve the hold of this pin portion part to the inner walls of a socket to which it is inserted to fasten elements.

[0071] Fig. 6 shows a shear bolt permanent fix fastener 50 having a head portion 51 with a polygonal had part 51b and a connecting part 51a; and a pin portion 52 having a pin part 52a and a lower edge that has an adhesive attachment 52b, according to one embodiment of the invention, the adhesive attachment 52b may simply be an adhesive material attached to the lower edge of the pin portion 52 or a sticker attachment having an adhesive material on both sides thereof to allow both adhering to the pin portion 52 lower edge as well as to the socket inner walls.

[0072] Fig. 7A-7D show a fastening mechanism including a tamper proof fastener 60 having a pin portion 62 with a widening threaded bottom part 62c and a non- threaded middle part 62c for allowing permanent fixing thereof, according to other embodiments of the invention. The fastener 60 has a shear bolt head portion 61 including a polygonal head part 61b and a connecting bit 61a; and the pin portion 62 having a widening upper part 62a a middle tubular part 62b and a widening threaded lower part 62c. The fastening mechanism depends also on the configuration of a designated socket 93 perforated between elements 91 and 92, where the socket 93 is configured of three sections: an upper first section 93a configured to receive and hold the funnel shaped upper part 62a of the pin portion 62; a second section 93b having a threaded part for receiving the screw thread of the lower part 62c of the pin portion 62 on its way through the socket 93; and a non-threaded third section 93. The treaded lower part 62b of the pin portion 62 is threaded through the threaded portion of the second section 93b of the socket 93 when fastened therethrough and then further inserted and designed to completely be inserted into the non-threaded third section 93c. In this way, once the fastener 60 is fully inserted into the socket 93 for connecting the elements 91 and 92, the male-screw threaded portion thereof is not in the female-screw threaded portion of the socket 93 enhancing tamper proof characteristics of the fastening mechanism since it prevents the fastener 60 from being unscrewed from the socket 93. Since in this example, the fastener 60 is a shear bolt, the head portion 61 thereof can be removed by using a tool 32 such as a hammer, a wrench or a screwdriver for removing thereof to further enhance tamper proof characteristics of the fastening mechanism.

[0073] Other types of fasteners may be used for this mechanism that are not necessarily shear bolt based by can also be standard screws having only a very limited lower threaded portion, where the design of the socket corresponds to the pin portion threaded edge length to allow fastener unscrewing/removal prevention.

[0074]

[0075] Fig. 8A-8C show a permanent fix fastener 70 having a head portion 70c a threaded pin portion 70a and a non-threaded pin portion 70b for allowing permanent fixing thereof, according to other embodiments of the invention. Similarly to the fastening mechanism described in respect to Figures 8A-8C, tis fastener 70 does not include the shear bolt head design and also requires the same socket 93 configuration.

[0076] Fig. 9 shows a fastening mechanism including; (i) a permanent fix shear bolt fastener 80 having a head portion 81 and a pin portion 82; (ii) a rotating nut 95 fastened to the fastener's 80 threaded lower part 82b; (iii) and a socket 93' perforated in elements 91' and b92' and a multiplicity of stoppers such as stoppers 94a and 94b that are made from material and/or shape designated for improving the hold of the fastener 80 to the inner walls of the socket 93' for enhancing permanent fixation thereof, according to embodiments of the invention. The fastener 80 pin portion 82 includes a tubular non-threaded part 82a and a threaded part 82b, which is screwed to the nut 95. The stoppers 94a and 94b are located inside the socket 93' or may be attached to the nut 95. When the fastener 80 (attached to the nut 95) is rotated (e.g. by a polygonal wrench 30) to be inserted into the socket 93', the stoppers 94a and 94b, made of resilient, flexible and/or soft materials such as rubber, polymeric/silicon based elastic materials and the like, widen and deform and/or adhere to the nut 95 thereby improving and enhancing the attachment between the fastener 80 and the elements 91' and 92' via the socket 93' perforated therethrough.

[0077] Fig. 10A-10B show a permanent fix fastener 400 having a split pin portion 420 and a mechanism utilizing thereof, according to one embodiment of the invention.

[0078] According to these embodiments, the fastener 400 includes a head portion 410 and the pin portion 420, where the pin portion 420 includes multiple pins such as pins 421a and 421b. The split edge serves as a spring that allows contracting the pin portion 420 for inserting thereof into a socket 26 perforated through elements 24 and 25 for connecting thereof, and then applying pressure outwardly towards the inner walls of the socket 26b due to their design for enhancing the grip of the pin portion 420 onto the elements 24 and 25 for enhancing fastening characteristics of the mechanism.

[0079] As illustrated in fig. 10A, the socket 26 includes: a widening lower section 26a; a second tubular section 26b and a third widening funnel shaped section 26c. Additionally, as illustrated in Figures 10A-10B, each pin 421a/421b includes a protruding edge 425a/425b respectively, for being inserted into the designated widening space 26a in the socket 26.

[0080] Figures 11A-11C illustrate a fastener 400' and fastening mechanism that is very similar to fastener 400 and fastening mechanism described in Figures 10A-10B. these embodiments of the present invention, include a mechanism that uses the fastener 400' having a head portion 410' and a split pin portion 420', where the split portion 420' includes pins 421a' and 421b' each having a protrusion 425a' and 452b'

respectively. The socket 26 is designed in the same manner as described in relation to Figures 10A-10B. The only difference is that the fastener 400' also includes a channel 401 located along a coaxial axis of the fastener 400' for receiving a reinforcement member 430' therethrough once the fastener 400' is fully inserted in the socket 26. The reinforcement member 430' allows further pushing the pins 421a' and 421b' towards the walls of the socket 26 for enhancing the grip of the fastener 400' thereto.

[0081] Fig. 12A shows a tamper proof fastener 500 having a head portion 510; and a split lower edge of its respective pin portion 520 including protrusions 521a and 521b, according to another embodiment of the present invention.

[0082] Fig. 12B-12C show the tamper proof fastener 500 being inserted into a socket 26' perforated in two elements 24' and 25' for connecting thereof and a separate reinforcement member 530 for enhancing fastening of the fastener 500, according to some embodiments of the present invention, the fastener 500 includes a hollowed channel 501 along its main vertical axis into which a lower rod like part of the reinforcement member 530 is to be inserted. The reinforcement member 530 has a diameter that is close to the diameter aperture of the channel 501 for allowing thereof to apply pressure over the inner walls of the channel 501 towards the inner walls of the socket 26' for enhancing the fastening of the fastener 500 to the elements 24' and 25'.

[0083] Figures 13A-13B show a tamper proof fastening mechanism including a spring pin fastener 600 having an elastic guiding member 610 and a reinforcement member 630, according to some embodiments of the invention. The guiding member 610 has an elongated channel 612 for receiving the reinforcement member 630 therein once the guiding member 610 is inside a designated socket 29 of elements 27 and 28 that are to be connected thereby. To enhance fastening characteristics, the outward surface of the guiding member 610 includes an elastic cover (e.g. made of elastic materials such as rubber, polymeric/silicon based elastic solids and the like) and optionally has a non-uniform surface such as a wiggly or wrinkly surface made of elastic materials that can be squeezed (compressed) for entering the socket 29 that may have a smaller diameter than that of the fastener 600 and then naturally decompress and thereby apply force outwardly over the inner walls of the socket 29 for improving hold of the fastener 600 to the socket walls 29. The reinforcement member 630 may further enhance those very same qualities.

[0084] Figures 14A-14C show a fastening mechanism including a shear bolt fastener 700 having a head portion 710 and a tubular pin portion 720, according to some embodiments of the present invention. The socket 266 perforated through elements 277 and 288 into which the fastener 700 is configured to receive the tubular pin portion 720 such that the surface of the pin portion will not protrude from the element 288.

[0085] Figures 15A-15B show a fastening mechanism including a collapsing fastener 800, according to some embodiments of the present invention. The collapsing fastener 800 may have multiple sections 810, 820 and 830 that can telescopically connect to each other for collapsing and thereby shortening the length of the fastener 800 once inside the socket 266.

[0086] Figures 16A-16B illustrate a shear bolt fastener 801, according to some embodiments of the invention. The shear bolt fastener 801 includes a head portion 805 and a pin portion 802, where the pin portion 802 includes a pin and a conical upper part 803 creating a shape of a protrusion 804 at the upper edge thereof. The protrusion 804 connects to the head portion 805 before the head portion 805 is removed. The head portion 805 has a corresponding receiving shape that is conical to fit the upper part 803 of the pin portion 802 such that they create a space 807 between the lower part of the head portion 805 and the upper part 803 of the pin portion 802. The space 807 can be filled with materials that enhance fastening or proof tamper prevention characteristics of the mechanism such as plastic, adhesive and/or ceramic materials or steel that are much harder than the material from which the fastener is made (such as aluminum) for deforming a drill/screwdriver bit on attempt to rotate the fastener 801 once affixed to the elements 271 and 272; or other materials that can create smoke upon friction with a tool used for rotation of the pin portion 802.

[0087] Figures 17A -17B show a similar fastening mechanism and fastener 811 to the fastener 801 described in Figures 16A-16B having the same shape of a shear bolt head portion 815; and pin portion 812 having a similar conical upper part 813 and protrusion 814 creating similar space 817 therebetween. This fastener 811, however, also includes one or more coated areas 812a and 812b that include the same materials as filled in space 817 such as ceramic, adhesive and/or plastic materials. [0088] Fig. 18 shows a shear bolt fastener 821 having a head portion 825 and a pin portion 822 having a conical shaped upper part 823, according to yet another embodiment of the invention. In this embodiment, the head portion 825 does not have a compatible conical receiving shape as in embodiments illustrated in Figures 15A-15B. The conical shape creates a protrusion 824 and a space 827 between the head portion 825 and the upper part 823. In this embodiment the protrusion 825 is located centrally in respect to a main vertical axis "z" of the fastener 821.

[0089] Fig. 19 shows a shear bolt fastener 831 having a head portion b835 and a pin portion 832, where the pin portion 832 includes an upper part 833 having an irregular shape creating an off-centered protrusion 834 in respect to a main vertical axis "z" of the fastener 831.

[0090] Many alterations and modifications may be made by those having ordinary skill in the art without departing from the spirit and scope of the invention. Therefore, it must be understood that the illustrated embodiment has been set forth only for the purposes of example and that it should not be taken as limiting the invention as defined by the following invention and its various embodiments.

[0091] Therefore, it must be understood that the illustrated embodiment has been set forth only for the purposes of example and that it should not be taken as limiting the invention as defined by the following claims. For example, notwithstanding the fact that the elements of a claim are set forth below in a certain combination, it must be expressly understood that the invention includes other combinations of fewer, more or different elements, which are disclosed in above even when not initially claimed in such combinations. A teaching that two elements are combined in a claimed

combination is further to be understood as also allowing for a claimed combination in which the two elements are not combined with each other, but may be used alone or combined in other combinations. The excision of any disclosed element of the invention is explicitly contemplated as within the scope of the invention.

[0092] The words used in this specification to describe the invention and its various embodiments are to be understood not only in the sense of their commonly defined meanings, but to include by special definition in this specification structure, material or acts beyond the scope of the commonly defined meanings. Thus if an element can be understood in the context of this specification as including more than one meaning, then its use in a claim must be understood as being generic to all possible meanings supported by the specification and by the word itself.

[0093] The definitions of the words or elements of the following claims are, therefore, defined in this specification to include not only the combination of elements which are literally set forth, but all equivalent structure, material or acts for performing substantially the same function in substantially the same way to obtain substantially the same result. In this sense it is therefore contemplated that an equivalent substitution of two or more elements may be made for any one of the elements in the claims below or that a single element may be substituted for two or more elements in a claim. Although elements may be described above as acting in certain combinations and even initially claimed as such, it is to be expressly understood that one or more elements from a claimed combination can in some cases be excised from the combination and that the claimed combination may be directed to a sub-combination or variation of a subcombination.

[0094] Insubstantial changes from the claimed subject matter as viewed by a person with ordinary skill in the art, now known or later devised, are expressly contemplated as being equivalently within the scope of the claims. Therefore, obvious substitutions now or later known to one with ordinary skill in the art are defined to be within the scope of the defined elements.

[0095] The claims are thus to be understood to include what is specifically illustrated and described above, what is conceptually equivalent, what can be obviously substituted and also what essentially incorporates the essential idea of the invention.

[0096] Although the invention has been described in detail, nevertheless changes and modifications, which do not depart from the teachings of the present invention, will be evident to those skilled in the art. Such changes and modifications are deemed to come within the purview of the present invention and the appended claims.