Electronic rim cylinder cabinet door and drawer lock

Abstract

An electronic rim cylinder door or cabinet door and drawer lock utilizes third party electronic rim cylinders to drive a dead bolt or latch bolt cabinet door or drawer lock. The lock portion is in kit form and may be adapted to a variety of third party electronic rim cylinders.

Claims

1. A cabinet door and drawer lock conversion kit for electronic mortise lock rim cylinders, comprising: a substantially circular bolt driver having a radially extending circumferential disk portion forming a peripheral bearing surface, the disk portion supporting a rearwardly and axially directed bolt driver pin, and a central, forwardly and axially directed arbor adapted for receipt of a cam driving spade; a bolt having means for receiving the drive pin; a main housing having a substantially closed front side and substantially open back side, the front side defining an axially directed central aperture for rotary receipt of the bolt driver bearing surface, the main body further having upper and lower transverse rebates for reciprocal receipt of the bolt and a plurality of peripheral, axially directed mounting apertures; a back plate adapted for closing the back side of the housing, and defining at least an upper transverse slot positioned for registration with one of the rebates on the main housing for reciprocal receipt of the bolt, and axially directed mounting apertures in registration with the main housing mounting apertures; and, an adapter plate defining mounting apertures in registration with the main body and back plate mounting apertures, configured to cover the front of the main housing and defining a centrally located bearing for the bolt driver arbor, the adapter plate further having means for axially mounting the electronic rim cylinder thereto.

2. The conversion kit of claim 1 wherein the bolt is a dead bolt, and the back plate includes a lower transverse slot positioned for registration with one of the rebates on the main housing for reciprocal receipt of the bolt.

3. The conversion kit of claim 1 wherein the bolt is a spring biased dead latch.

4. The conversion kit of claim 1 including a pair of set screws selected in length to secure the back plate to the main housing.

5. The conversion kit of claim 1 including a spacer plate defining a central aperture for receipt of the rim cylinder for matching a length of the rim cylinder to a thickness of a cabinet door or drawer, and an annular rotary bezel sized to cover a lip portion of the rim cylinder.

6. The conversion kit of claim 5 including a pair of pan head screws having a length selected to secure the rim cylinder to the adapter plate through the adapter plate mounting means.

7. The conversion kit of claim 6 including a plurality of mounting screws selected in length to secure the back plate, main body, adapter plate and spacer plate to an inside surface of a cabinet door or drawer.

8. The conversion kit of claim 1 including a cam driving spade.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective view of an electronic rim cylinder cabinet door and drawer lock employing the principals of the invention.

(2) FIG. 2 is an exploded, front perspective view of the lock shown in FIG. 1.

(3) FIG. 3 is an exploded rear perspective view of the lock shown in FIG. 2.

(4) FIG. 4 is an exploded, front perspective view of a latch bolt version of the lock shown in FIGS. 1 through 3.

(5) FIG. 5 is a rear elevational view of the latch bolt embodiment of the invention illustrating the interaction of a bolt driver pin of the invention with the latch bolt.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

(6) An electronic rim cylinder door and drawer lock in accordance with the principles of the invention is generally indicated at reference numeral 10 in the various Figures of the attached drawings wherein numbered elements in the Figures correspond to like numbered elements herein. The lock, 10, utilizes an electronic rim cylinder, 12, which has the ability to actuate a tail piece or spade, 14 (best seen in FIG. 3), so as to retract or extend a dead bolt, 16, which will be described further herein below. The exemplary electronic rim cylinder, 12, is manufactured by Salto Systems, S.L. Guipuzcoa, Spain (Model XS4) in accordance with American National Standards Institute (ANSI) standards. The lock, 10, depicted in the various Figures is capable of being adapted to electronic mortise or rim cylinders manufactured by a wide variety of companies including model RC6-SC-626-KA2 made by General Lock San Diego Calif.; American Lock (model numbers WEI-636-10-079); Medeco (models MAD-10-400-z626 and MAD-10-40-3d626); Ambloy, Joensw, Finland (model ABLOY-CY-415t626); Various Corbin/Ruusmin, Berlin, Connecticut models; ASSA (asa6515ul625); various models from Schlage Colorado Springs, Colorado; Miwa Lock, Tokyo Japan (model mwarim32); Sargent Lock, New Haven, Conn.; and Aero Lock Salem Virginia. In the exemplary rim cylinder, 12 shown in the Figures, the rim cylinder has a cylindrical rearward portion, 20, having an expanded diameter, circumferential lip 22 at a forward end thereof, and a cylindrical forward, off-set portion 24 housing the electronics and battery which actuate the lock mechanism inside the rearward portion 20. The Salto electronic rim cylinder 12 is actuated by an RFID card (not shown) and may be electronically reprogramed in a variety of ways so as to render the entire lock 10 rekeyable with electronic commands. The kit portion 26 of the lock 10 is shown in exploded view in FIGS. 2 and 3. The kit includes a bolt driver 30 having a radially extending circumferential disc portion 32 supporting a forwarding and axially extending arbor 34 adapted to receive the spade portion 14 of the electronic rim cylinder 12. The disk portion forms a circumferential, peripheral bearing surface 36 and a rearwardly and axially directed bolt driver pin 38 for driving the bolt 16. The kit 26 further includes a casting or main housing 40 having a front surface 43 defining an aperture 44 for receipt of the bearing surface 36 of the arbor 34. A rear side 46 of the housing 40 has upper and lower rebates 48, 50 for reciprocal receipt of the dead bolt 16. The rear side 46 of the main housing 40 is closed by a back plate 52 having upper and lower extensions 54,56 defining upper and lower slots 58,60 registerable with the rebates 43,50 to permit the deadbolt 16 to reciprocate into and out of the main housing 40.

(7) The kit 26 further includes an adaptor plate 64 configured to cover the front surface 43 of the main housing 40. The adaptor plate has a central aperture 66 for registration and receipt of the arbor 34 on the bolt driver 30. Thus, the bolt driver is supported for rotary motion by both the arbor 34 and aperture 66 on the adaptor plate 64 as well as the bearing surface 36 on the disk portion 32 which is supported by the aperture 34 in the main housing 40. The adaptor plate also contains a pair of bores 68,70 which correspond with bores 68′ and 70′ on a rear surface of the rearward portion 20 such that the electronic rim cylinder 12 can be secured through the adaptor plate 64 by pan head screws (not shown). Number 12-24 UNC Philips pan head screws are adequate to secure the Salto electronic rim cylinder model G9B1 GEO to the adaptor plate. Those of ordinary skill in the art will conceive of other adaptations and modifications to the adaptor plate 64 for mounting electronic rim cylinders 12 manufactured by other companies. Typically the only variation necessary is the distance between bores 68 and 70. In order to properly position the bolt 16 behind a strike plate (not shown) of a cabinet door or drawer the lock 10 is provided with a spacer plate 80 having a central aperture 82 sized to accept the cylinder rearward portion 20. A thickness of the spacer plate 80 is selected, or multiple spacer plates are used such that the rim 22 of the rearward portion 20 is covered by the rotating bezel 84 when the cabinet door or drawer is interposed between the awning plate 80 and the bezel 84.

(8) Each of the back plate 52, main body 40, adaptor plate 64, and spacer plate 80 are provided with peripheral mounting holes 90 which are all in registration with one and other for receipt of mounting screws 92 to secure the lock 10 to the inner surface of a cabinet door or drawer. Set screws 94 are provided to secure the back plate 52 to appropriate apertures in the rear side 46 of the main body 40.

(9) FIG. 4 is an exploded isometric view of an alternate embodiment of the electronic rim cylinder cabinet door and draw lock 10′ in which the dead bolt 10 has been replaced with a latch bolt 100. The latch bolt has a curved surface 110 on a rear side thereof such that when the latch bolt encounters a strike or strike surface (not shown) on an adjacent portion of a cabinet the latch will retract against the bias of springs 112 guided on pins 114 located by detents 116 in a modified back plate 118 the modified back plate 118 lacks the lower slot 16 of the back plate 52 in the dead bolt embodiment shown in FIGS. 1-3. As best seen in FIG. 5, of the latch bolt includes a cut-out 120 configured with ramp portions 122 so that rotation of the drive pin 38 in either the clockwise or counterclockwise direction from the twelve o'clock position retracts the bolt 100 against the urgings of the springs 112. The drive pin 38 of the bolt driver 30 is preferably with a friction reducing roller 124.

(10) The electronic rim cylinder cabinet door and drawer lock 10′, employing a third party electronic rim cylinder 12 and the kit portion 26 allows and institution such as a school, casino or hospital pharmacy to integrate security of its entryway door mortise locks with its cabinet locks such that all of these security points may be simultaneously reprogramed electronically. The ability to do so substantially reduces maintenance costs associated with rekeying locks of this type in the event of a compromised employee or other security threat.

(11) Those of ordinary skill in the art will conceive of other alternate embodiments of the invention upon reviewing this disclosure. Thus, the invention is not to be limited to the above description, but is to be determined in scope by the claims which follow.