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Title:
EXIT DEVICE DOGGING USING A COMBINATION LOCK
Document Type and Number:
WIPO Patent Application WO/2017/173253
Kind Code:
A1
Abstract:
An exit device for a door includes an elongate housing, a latch, a touch bar assembly, a panel, and a dogging assembly. The elongate housing is configured to be mounted to the door. The touch bar assembly is attached to the elongate housing. The touch bar assembly includes a touch bar that is movable relative to the elongate housing and has a linkage that operably connects the touch bar to the latch. The panel is connected to the elongate housing. The dogging assembly has a combination lock dogging operator and a dogging mechanism. The dogging mechanism is rotatably coupled to the elongate housing. The combination lock dogging operator is mounted to the panel, and is drivably engaged with the dogging mechanism.

Inventors:
GINTER MARK (US)
MCCOY MICHAEL E (US)
DAVIDSON GARY W (US)
Application Number:
PCT/US2017/025348
Publication Date:
October 05, 2017
Filing Date:
March 31, 2017
Export Citation:
Click for automatic bibliography generation   Help
Assignee:
BEST ACCESS SOLUTIONS INC (US)
International Classes:
E05B63/18; E05B37/00; E05B65/10
Foreign References:
US20010005996A12001-07-05
US3099150A1963-07-30
US20160083978A12016-03-24
US6820905B12004-11-23
US20130298616A12013-11-14
US20140109479A12014-04-24
US20050104381A12005-05-19
Attorney, Agent or Firm:
AUST, Ronald, K. (US)
Download PDF:
Claims:
Claims

What is claimed is:

1. An exit device for a door, comprising:

an elongate housing configured to be mounted to the door;

a latch;

a touch bar assembly attached to the elongate housing, the touch bar assembly including a touch bar that is movable relative to the elongate housing, and having a linkage that operably connects the touch bar to the latch;

a panel connected to the elongate housing; and

a dogging assembly having a combination lock dogging operator and a dogging mechanism, the dogging mechanism being rotatably coupled to the elongate housing, and the combination lock dogging operator being mounted to the panel, the combination lock dogging operator being drivably engaged with the dogging mechanism.

2. The exit device of claim 1, wherein the elongate housing is configured to slidably receive the panel, the combination lock dogging operator being drivably engaged with the dogging mechanism when the panel is in a first position in which the dogging mechanism is covered by the panel, and when the panel is moved from the first position in a first direction relative to the elongate housing, the combination lock dogging operator is disengaged from the dogging mechanism and the dogging mechanism is not covered by the panel.

3. The exit device of claim 1, wherein the combination lock dogging operator includes a stationary base, a combination lock hub, a rotatable shaft, and a dogging arm, the combination lock hub having a combination lock, the combination lock hub being rotatably attached to the stationary base, the stationary base being attached to the panel, the combination lock hub being connected to the rotatable shaft for rotation with the combination lock hub, and the dogging arm being fixedly attached to the rotatable shaft for rotation with the rotatable shaft, the dogging arm being drivably engaged with the dogging mechanism.

4. The exit device of claim 3, wherein the combination lock is a mechanical combination lock.

5. The exit device of claim 3, wherein the combination lock is an

electromechanical lock.

6. The exit device of claim 3, wherein the combination lock hub, the rotatable shaft, and the dogging arm are configured for unitary rotation about a rotational axis relative to the stationary base when the combination lock is in an unlocked state.

7. The exit device of claim 6, wherein the unitary rotation is in a range of 90 degrees, plus or minus 5 degrees.

8. The exit device of claim 6, wherein the combination lock hub, the rotatable shaft, and the dogging arm are blocked from rotation about the rotational axis relative to the stationary base when the combination lock is in a locked state.

9. The exit device of claim 1, wherein the touch bar assembly is configured to prevent operation of the dogging mechanism to a dogged state until the touch bar is depressed relative to the elongate housing to a depressed position.

10. The exit device of claim 9, wherein:

the dogging mechanism includes a touch bar engagement plate and a dogging plate, the touch bar engagement plate having a first cam and a touch bar engagement arm, and the dogging plate having a dogging cam; and the dogging mechanism configured such that with the touch bar in the depressed position, the dogging mechanism is positioned in the dogged state by rotating the dogging plate about a first rotational axis, wherein the dogging cam of the dogging plate engages the first cam of the touch bar engagement plate, thereby rotating the touch bar engagement plate about a second rotational axis to cause the touch bar engagement arm to lock the touch bar down in the depressed position.

11. The exit device of claim 10, wherein the touch bar engagement plate is biased to an un-dogged position.

12. The exit device of claim 10, wherein the combination lock dogging operator includes a stationary base, a combination lock hub having a combination lock, a rotatable shaft, and a dogging arm, the combination lock hub being rotatably attached to the stationary base, the stationary base being attached to the panel, the combination lock hub being connected to the rotatable shaft for rotation with the combination lock hub, and the dogging arm being fixedly attached to the rotatable shaft for rotation with the rotatable shaft; and

the dogging plate of the dogging mechanism having a pair of protrusions, a distal portion of the dogging arm of the combination lock dogging operator being positioned between the pair of protrusions of the dogging plate of the dogging mechanism,

wherein with the touch bar depressed to a depressed position, a rotation of the combination lock hub in a first rotational direction effects a corresponding rotation of the dogging arm to rotate the dogging plate of the dogging mechanism to effect a state change of the dogging assembly from an un-dogged state to a dogged state.

13. The exit device of claim 12, wherein a rotation of the combination lock hub in a second rotational direction opposite the first rotational direction effects a corresponding rotation of the dogging arm to rotate the dogging plate of the dogging mechanism to effect a state change of the dogging assembly from a dogged state to an un-dogged state.

14. The exit device of claim 12, wherein the combination lock is a mechanical combination lock.

15. The exit device of claim 12, wherein the combination lock is an

electromechanical lock.

16. A method for operating an exit device for a door, comprising:

providing an elongate housing configured to be mounted to an inside surface of the door; a latch; a touch bar assembly attached to the elongate housing, the touch bar assembly including a touch bar that is movable relative to the elongate housing, and having a linkage that operably connects the touch bar to the latch; a panel connected to the elongate housing; and a dogging assembly having a combination lock dogging operator and a dogging mechanism, the dogging mechanism being rotatably coupled to the elongate housing, and the combination lock dogging operator being mounted to the panel, the combination lock dogging operator being drivably engaged with the dogging mechanism, the combination lock dogging operator including a combination lock hub having a combination lock;

operating the combination lock to achieve an unlocked state; and

operating the combination lock hub to selectively change the operating state of the dogging mechanism from an un-dogged state to a dogged state or from the dogged state to the un-dogged state.

Description:
RXTT DEVICE DOGGTNG USTNG A COMBTNATTON LOCK

Cross-Reference To Related Applications

[0001] This application claims priority to U.S. provisional patent application serial no.

62/316,295 filed March 31, 2016, which is incorporated herein by reference.

Technical Field

[0002] The present invention relates to door operating devices, and, more particularly, to an exit device having dogging using a combination lock.

Background Art

[0003] Fig. 1 (prior art) shows one version of an Apex 2000 series exit device 10 available from BEST Access Solutions, Inc. located in Indianapolis, Indiana. Exit device 10 includes an elongate housing 12 to which a touch bar 14 is movably attached. Elongate housing 12 is configured to be mounted to an inside surface of a door (not shown). Touch bar 14 is operably connected by a linkage to a latch 16 (sometimes also referred to in the art as a latch bolt) that is configured to engage a corresponding strike located on a door frame (not shown). By depressing touch bar 14 relative to elongate housing 12, the latch 16 is retracted, and the door may be opened from the inside of a room, thus facilitating egress of a person through the door. An exterior pull grip 18 may optionally be installed on the exterior of the door, which in some implementations may be in the form of a lockable lever operably coupled to latch 16.

[0004] In order to facilitate both free ingress and egress through the door, exit device 10 includes a dogging mechanism which is configured to selectively latch touch bar 14 in the depressed state, and which in turn holds latch 16 in the retracted position. As used herein, "dogging", and variations thereof, is the use of a mechanical device to hold the latch in a retracted position for non-fire rated applications. [0005] As a matter of security, exit device 10 is both dogged and un-dogged using a removable dogging key. The removable dogging key may be in the form of a hex tool, or alternatively, a standard key. Thus, in the present state of the art, the removable dogging key is necessary to both place the dogging mechanism in the dogged state so as to hold latch 16 in the retracted position, and to return to the un-dogged state from the dogged state.

[0006] A potential limitation of exit device 10 is that the removable dogging key may not be readily available to the operator charged with dogging and un-dogging exit device 10. For example, the operator may simply not have the removable dogging key on their person, or the removable dogging key may have been misplaced. Also, it has been observed that a lack of knowledge of the proper use of the removable dogging key may result in damage to exit device 10.

[0007] What is needed in the art is an exit device configured to retain the security of using a lockable dogging mechanism, but which also provides for the convenience of an immediate change of the exit device state, e.g., from un-dogged to dogged, or vice-versa, and which reduces the risk of periodic damage that occurs from improper dogging of the exit device. The present invention provides such a solution.

Summary of Invention

[0008] The invention, in one form, is directed to an exit device for a door. The exit device includes an elongate housing, a latch, a touch bar assembly, a panel, and a dogging assembly. The elongate housing is configured to be mounted to the door. The touch bar assembly is attached to the elongate housing. The touch bar assembly includes a touch bar that is movable relative to the elongate housing and has a linkage that operably connects the touch bar to the latch. The panel is connected to the elongate housing. The dogging assembly has a combination lock dogging operator and a dogging mechanism. The dogging mechanism is rotatably coupled to the elongate housing. The combination lock dogging operator is mounted to the panel, and is drivably engaged with the dogging mechanism.

[0009] A method for operating the exit device includes operating a combination lock of the combination lock dogging operator to achieve an unlocked state; and operating a combination lock hub of the combination lock dogging operator to selectively change the operating state of the dogging mechanism from an un-dogged state to a dogged state or from the dogged state to the un-dogged state.

[0010] An advantage of the present invention is that the exit device may be dogged, or un-dogged, locally by an authorized person without the need to retrieve a dogging key from a remote location.

[0011] Another advantage of the present invention is that there is no insertion of a removable dogging key into the exit device, thus reducing the possibility of damage to the dogging mechanism by using an improper dogging or un-dogging technique.

Brief Description of Drawings

[0012] The above-mentioned and other features and advantages of this invention, and the manner of attaining them, will become more apparent and the invention will be better understood by reference to the following description of an embodiment of the invention taken in conjunction with the accompanying drawings, wherein:

[0013] Fig. 1 is a perspective view of a prior art exit device and optional exterior pull grip.

[0014] Fig. 2 is a side view of an exit device of the present invention having a combination lock dogging operator, and shown in a left-hand configuration. [0015] Fig. 3 is a side view of the exit device of Fig. 2 having the combination lock dogging operator, and is shown in a right-hand configuration. [0016] Fig. 4 is an enlarged view of a portion of the exit device of Fig. 2 having the combination lock dogging operator.

[0017] Fig. 5 is an enlarged view of a portion of the exit device of Fig. 2 having a slide panel that mounts the combination lock dogging operator, which is moved to the right to expose the dogging mechanism.

[0018] Fig. 6 is a further enlarged view of the dogging mechanism of Fig. 5, with the dogging mechanism in the un-dogged state.

[0019] Fig. 7 is an interior end view of the slide panel that mounts the combination lock dogging operator, and shows the dogging arm of the combination lock dogging operator in the un-dogged state.

[0020] Fig. 8 is a back side view of the slide panel and combination lock dogging operator as depicted in Fig. 7, showing the dogging arm of the combination lock dogging operator in the un-dogged state.

[0021] Fig. 9 is an interior end view of the slide panel that mounts the combination lock dogging operator, and shows the dogging arm of the combination lock dogging operator in the dogged state.

[0022] Fig. 10 is a back side view of the slide panel and combination lock dogging operator as depicted in Fig. 9, showing the dogging arm of the combination lock dogging operator in the dogged state.

[0023] Corresponding reference characters indicate corresponding parts throughout the several views. The exemplifications set out herein illustrate an embodiment of the invention, and such exemplifications are not to be construed as limiting the scope of the invention in any manner. Description of Embodiments

[0024] Referring now to the drawings, and particularly to Figs. 2-10, there is shown an exit device 20 in accordance with an aspect of the present invention.

[0025] Referring to Figs. 2 and 3, exit device 20 is mounted to a door 21. Exit device 20 includes an elongate housing 22, a touch bar assembly 24, a slide panel 26, an end cap 28, and a dogging assembly 30 (see Fig. 5) having combination lock dogging operator 30-1.

Elongate housing 22 is configured to be mounted to an inside surface of door 21.

[0026] Touch bar assembly 24 is attached to elongate housing 22, and includes a touch bar 24-1 that is movable relative to elongate housing 22. Touch bar assembly 24 includes a linkage 24-3 that operably connects touch bar 24- 1 to a latch, such as a horizontal latch

16 shown in Figs. 1 and 2, or alternatively, to a vertical latch mechanism, in a

conventional manner as is well known in the art. By depressing touch bar 24-1 relative to elongate housing 22, the latch 16 is retracted, and the door may be opened from the inside of a room, thus facilitating egress of a person through the door. As used herein, the term

"assembly" refers to structure having two or more components that are connected.

[0027] Referring also to Figs. 4 and 5, slide panel 26 is slidably connected to elongate housing 22. Fig. 4 shows slide panel 26 in a closed position and Fig. 5 shows slide panel

26 in an open position. Slide panel 26 is configured to mount combination lock dogging operator 30-1, so as to form a slide assembly. Elongate housing 22 is configured to slidably receive slide panel 26, such that when end cap 28 is removed from elongate housing 22, slide panel 26 may be moved in a longitudinal direction relative to elongate housing 22. In particular, as shown in Fig. 5, elongate housing 22 defines a longitudinal

U-shaped channel 22-1 that includes a pair of opposed upper rails 22-2, 22-3 and a base wall 22-4. Slide panel 26 includes a pair of opposed lower rails 26-1, 26-2 sized and spaced to be slidably received by the pair of opposed upper rails 22-2, 22-3 of elongate housing 22.

[0028] As shown in Fig. 5, with slide panel 26 in the open position, a dogging mechanism 30-2 of dogging assembly 30 is exposed, and more particularly, the combination lock dogging operator 30-1 mounted to slide panel 26 is disengaged from dogging mechanism 30-2. Conversely, when slide panel 26 is in the closed position depicted in Fig. 4, combination lock dogging operator 30-1 is drivably engaged with dogging mechanism 30-2.

[0029] Referring also to Fig. 6, touch bar assembly 24 includes a base mount 24-2. Base mount 24-2 is attached to base wall 22-4 of longitudinal U-shaped channel 22-1 of elongate housing 22. In the present embodiment, dogging mechanism 30-2 is rotatably mounted to base mount 24-2 of touch bar assembly 24, and thus, also is rotatably coupled to base wall 22-4 of elongate housing 22.

[0030] Dogging mechanism 30-2 includes a touch bar engagement plate 32 and a dogging plate 34.

[0031] Touch bar engagement plate 32 includes a rotational axis 32-1, a cam 32-2, a touch bar engagement arm 32-3, and cam 32-4, with cam 32-4 being angularly separated from cam 32-2. Each of cam 32-2 and 32-4 is located on the opposite side of rotational axis 32-1 from touch bar engagement arm 32-3. In some implementations, touch bar engagement plate 32 may be biased, e.g., by a spring, to the un-dogged position shown in Fig. 6.

[0032] Dogging plate 34 includes a rotational axis 34-1, a dogging cam 34-2, an operator engagement arm 34-3, and a dogging cam 34-8, with dogging cams 34-2, 34-8 being located on an opposite side of rotational axis 34-1 from operator engagement arm 34-3. Operator engagement arm 34-3 of dogging plate 34 includes an offset portion 34-4 and a pair of protrusions 34-5, 34-6. The pair of protrusions 34-5, 34-6 are oriented to be substantially perpendicular to offset portion 34-4, and are spaced apart to define an engagement opening 34-7 between protrusion 34-5 and protrusion 34-6. As used herein, the term "substantially perpendicular" defines a range of plus or minus 5 degrees from perpendicular.

[0033] In the orientation of components shown in Fig. 6, dogging mechanism 30-2 is in its un-dogged state. Touch bar assembly 24 is configured to prevent operation of dogging mechanism 30-2 to the dogged state until touch bar 24-1 is depressed relative to elongate housing 22. With touch bar 24-1 in the depressed position, dogging mechanism 30-2 may be positioned in its dogged state by rotating dogging plate 34 counterclockwise about rotational axis 34-1, wherein dogging cam 34-2 of dogging plate 34 engages cam 32-2 of touch bar engagement plate 32, thereby rotating touch bar engagement plate 32 clockwise about rotational axis 32-1. The rotation of touch bar engagement plate 32 clockwise about rotational axis 32-1 causes an angular rotation of touch bar engagement arm 32-3 to engage a slot, or other opening, in touch bar 24-1 or its depression linkage, so as to lock touch bar 24-1 down in the depressed position. With touch bar 24-1 in the depressed position, the associated latch, e.g., latch 16 of Fig. 1, is in the retracted position.

[0034] Referring now also to Figs. 7-10, combination lock dogging operator 30-1 includes a stationary base 36, a combination lock hub 38, a rotatable shaft 40, and a dogging arm 42. Combination lock hub 38 is rotatably attached to stationary base 36. A threaded portion of stationary base 36 is received through a hole in slide panel 26, and a hex nut is used to attach stationary base 36 of combination lock dogging operator 30-1 to slide panel 26. Combination lock hub 38 is connected to rotatable shaft 40. Dogging arm 42 is fixedly attached to rotatable shaft 40 for rotation therewith.

[0035] In the present embodiment, combination lock hub 38 includes a combination lock 44 that may be in the form of a mechanical combination lock having a plurality of combination lock dial tumblers 44-1, 44-2, 44-3, as shown in Figs. 2, 3, and 4.

Alternatively, however, it is contemplated that combination lock 44 may have other mechanical locking operator configurations, such as for example, a combination lock having a single axial rotating dial for activating lock tumblers, or a combination lock having a plurality of pushbuttons for operating lock tumblers.

[0036] Combination lock hub 38, rotatable shaft 40, and dogging arm 42 are configured for unitary rotation, e.g., approximately one-quarter turn, about a rotational axis 38-1 relative to stationary base 36 when combination lock 44 is in an unlocked state, i.e., when the combination lock tumblers of combination lock 44 are in an unlocked position. As used herein, the term "about one-quarter turn" is a rotational range of 90 degrees, plus or minus 5 degrees. When combination lock 44 is in a locked state, i.e., the combination lock tumblers of combination lock 44 are in a locked position, the combination lock hub 38, and in turn rotatable shaft 40 and dogging arm 42, are blocked from rotation. Dogging arm 42 extends in a direction that is substantially perpendicular to rotational axis 38-1, and is rotatable in a range of 90 degrees, plus or minus 5 degrees, from the un-dogged orientation shown in Figs. 7 and 8, to the dogged orientation shown in Figs. 9 and 10.

[0037] With both the combination lock dogging operator 30-1 and dogging mechanism 30-2 in the un-dogged position, as shown in Figs. 5-8, slide panel 26 may be moved to the closed position depicted in Fig. 4. During movement of slide panel 26 from the open position depicted in Fig. 5 to the closed position depicted in Fig. 4, dogging arm 42 of combination lock dogging operator 30-1 freely passes between the pair of protrusions 34- 5, 34-6 of dogging plate 34 of dogging mechanism 30-2. Thus, when slide panel 26 is in the closed position depicted in Fig. 4, a distal portion 42-1 of dogging arm 42 (see Figs. 7 and 8) of combination lock dogging operator 30-1 is positioned between the pair of protrusions 34-5, 34-6 of dogging plate 34 of dogging mechanism 30-2 (see Fig. 6).

Accordingly, an engagement edge 42-2 of distal portion 42- 1 of dogging arm 42 is positioned to engage protrusion 34-5 of dogging plate 34 of dogging mechanism 30-2 upon rotation of combination lock hub 38 in the counterclockwise direction, and an engagement edge 42-3 of distal portion 42-1 of dogging arm 42 is positioned to engage protrusion 34-6 of dogging plate 34 of dogging mechanism 30-2 upon rotation of combination lock hub 38 in the clockwise direction.

[0038] Touch bar assembly 24 is configured to prevent a change of state of dogging assembly 30 from the un-dogged state to the dogged state until touch bar 24-1 is depressed relative to elongate housing 22. This helps prevent periodic damage that occurs from improper dogging. With touch bar 24-1 depressed to the depressed position, dogging assembly 30 may be operated to achieve the dogged state. In a direction facing

combination lock hub 38 in the orientation shown in Fig. 4, a counterclockwise rotation of combination lock hub 38 effects a corresponding rotation of rotatable shaft 40 and dogging arm 42 about rotational axis 38-1 to effect a state change of dogging assembly 30 from the un-dogged state to the dogged state.

[0039] In particular, referring also to Figs. 5-10, the counterclockwise rotation of combination lock hub 38, and in turn rotatable shaft 40 and dogging arm 42, about rotational axis 38-1 causes engagement edge 42-2 of distal portion 42-1 of dogging arm 42 to engage protrusion 34-5 of dogging plate 34 of dogging mechanism 30-2, which in turn rotates dogging plate 34 counterclockwise about rotational axis 34-1 (see Figs. 5 and 6) from the un-dogged state as shown, to the dogged state. It is noted that the dashed-curved arrow shown in Fig. 10 depicts the counterclockwise rotation of combination lock hub 38 as viewed from the outside of exit device 20. The counterclockwise rotation of dogging plate 34 about rotational axis 34-1 causes dogging cam 34-2 of dogging plate 34 to engage cam 32-2 of touch bar engagement plate 32, thereby rotating touch bar engagement plate 32 clockwise about rotational axis 32-1. The rotation of touch bar engagement plate 32 clockwise about rotational axis 32-1 causes an angular rotation of touch bar engagement arm 32-3 to engage a slot, or other opening, in touch bar 24-1 or its depression linkage so as to lock touch bar 24-1 down in the depressed position, so as to achieve the dogged state.

[0040] Conversely, un-dogging is achieved by a clockwise rotation of combination lock hub 38, and in turn rotatable shaft 40 and dogging arm 42, about rotational axis 38-1, which causes engagement edge 42-3 of distal portion 42-1 of dogging arm 42 (see Figs. 8- 10) to engage protrusion 34-6 of dogging plate 34 of dogging mechanism 30-2, which in turn rotates dogging plate 34 clockwise about rotational axis 34-1 (see Figs. 5 and 6) from the dogged state, to the un-dogged state. Again, it is noted that the dashed-curved arrow shown in Fig. 10 depicts a counterclockwise rotational direction of combination lock hub 38 as viewed from the outside of exit device 20. The clockwise rotation of dogging plate 34 about rotational axis 34-1 causes dogging cam 34-8 of dogging plate 34 to engage cam 32-4 of touch bar engagement plate 32, thereby rotating touch bar engagement plate 32 counterclockwise about rotational axis 32-1. The rotation of touch bar engagement plate 32 counterclockwise about rotational axis 32-1 causes an angular rotation of touch bar engagement arm 32-3 to disengage the slot, or other opening, in touch bar 24-1 or its depression linkage so as to release touch bar 24-1 from the depressed position, so as to achieve the un-dogged state.

[0041] Since the slide assembly is formed by attaching combination lock dogging operator 30-1 to slide panel 26, the slide assembly can be quickly and easily changed out by placing dogging assembly 30 in the un-dogged state, removing end cap 28, sliding the present slide assembly out of elongate housing 12, and then reversing the procedure while using a different slide assembly.

[0042] It is contemplated that the combination lock dogging operator 30-1 may have other mechanical locking configurations for the combination lock 44 incorporated into combination lock hub 38 to provide security for the dogging operation other than the plurality of combination lock tumblers, e.g., dial tumblers 44-1, 44-2, 44-3, as described in the embodiment above, such as a combination lock having a single axial rotating dial or a combination lock having pushbutton operators for operating lock tumblers. Also, it is contemplated that combination lock 44 may be in the form of an electromechanical combination lock that may be incorporated into combination lock hub 38, e.g., as a substitution for a mechanical combination lock, to provide security for the dogging operation, such as an electronic lock having pushbutton code entry.

[0043] While this invention has been described with respect to at least one embodiment, the present invention can be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this invention pertains and which fall within the limits of the appended claims.