None.
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1. Field of the Invention
The present invention relates to a lock cylinder, and, more particularly, to a rekeyable lock cylinder having rotatable key followers to facilitate the rekeying of the lock cylinder.
2. Description of the Related Art
When rekeying a cylinder using a traditional cylinder design, the user is required to remove the cylinder plug from the cylinder body and replace the appropriate pins so that a new key can be used to unlock the cylinder. This typically requires the user to remove the cylinder mechanism from the lockset and then disassemble the cylinder to some degree to remove the plug and replace the pins. This requires a working knowledge of the lockset and cylinder mechanism and is usually only performed by locksmiths or trained professionals. Additionally, the process usually employs special tools and requires the user to have access to pinning kits to interchange pins and replace components that can get lost or damaged in the rekeying process. Finally, professionals using appropriate tools can easily pick traditional cylinders.
In U.S. Pat. No. 6,860,131, there is disclosed an embodiment of a rekeyable lock cylinder that includes a cylinder body with a plug body and carrier sub-assembly disposed therein. The plug body includes a plurality of spring-loaded pins and the carrier assembly includes a plurality of racks for engaging the plurality of spring-loaded pins to operate the lock cylinder. A tool is inserted into a tool-receiving aperture on the plug body face to engage the rack carrier and move the rack carrier in a longitudinal direction from an operating position to a rekeying position to disengage the plurality of racks from the plurality of spring-loaded pins to achieve the rekeying position. In the rekeying position, a second key can replace the first valid key. The second key is inserted into the keyway of the plug body, and then the tool is released to cause the rack carrier to return to the operating position to cause the plurality of racks to reengage the plurality of spring-loaded pins to complete the rekeying process.
The present invention provides a rekeyable lock cylinder having rotatable key followers to facilitate the rekeying of the lock cylinder.
The invention, in one form thereof, is directed to a rekeyable lock cylinder. The rekeyable lock cylinder includes a lock cylinder body including a cylinder wall having an interior surface defining an interior void having a longitudinal axis. A plug assembly is rotatably disposed in the lock cylinder body. The plug assembly includes a plug body having a plug face and a keyway extending into the plug body from the plug face. The keyway is configured to receive a key. A plurality of racks is movably disposed relative to the plug body. A plurality of key followers is positioned across the keyway and is moveably disposed relative to the plug body. Each key follower of the plurality of key followers is configured to engage a respective rack of the plurality of racks. A key follower rotation member is drivably engaged with each key follower of the plurality of key followers. The key follower rotation member is selectively movable to rotate each key follower of the plurality of key followers to thereby disengage each key follower of the plurality of key followers from the respective rack of the plurality of racks to facilitate a keying of the rekeyable lock cylinder.
The invention, in another form thereof, is directed to a rekeyable lock cylinder. The rekeyable lock cylinder includes a lock cylinder body including a cylinder wall having an interior surface defining an interior void having a longitudinal axis. A plug assembly is rotatably disposed in the lock cylinder body. The plug assembly includes a plug body having a plug face and a keyway extending into the plug body from the plug face. The keyway is configured to receive a key. A plurality of racks is movably disposed relative to the plug body. A plurality of key followers is positioned across the keyway and is moveably disposed relative to the plug body. Each key follower of the plurality of key followers is rotatable relative to the plurality of racks. Each key follower of the plurality of key followers has a rotation lever, and each key follower of the plurality of key followers has a rack engagement protrusion. A key follower rotation member is drivably engaged with each rotation lever of each key follower of the plurality of key followers. The key follower rotation member is movable in a first direction to rotate each key follower of the plurality of key followers to thereby disengage each rack engagement protrusion of the plurality of key followers from the respective rack of the plurality of racks. The key follower rotation member is movable in a second direction to rotate each key follower of the plurality of key followers to thereby engage each rack engagement protrusion of the plurality of key followers with the respective rack of the plurality of racks.
The invention, in another form thereof, is directed to a method for keying a lock cylinder. The lock cylinder has a lock cylinder body including a cylinder wall having an interior surface defining an interior void having a longitudinal axis. A plug assembly is rotatably disposed in the lock cylinder body. The plug assembly includes a plug body having a plug face and a keyway extending into the plug body from the plug face. The keyway is configured to receive a key. The plug assembly includes a locking bar, a plurality of racks movably disposed relative to the plug body, and a plurality of key followers positioned across the keyway and being moveably disposed relative to the plug body. The method includes inserting a valid key in the keyway; rotating the plug assembly relative to the lock cylinder body from a home position to a rekeying position wherein a position of each rack of the plurality of racks is maintained by the locking bar; rotating the plurality of key followers to disengage the plurality of key followers from the plurality of racks; removing the valid key from the keyway; inserting a second key into the keyway; rotating the plurality of key followers to reengage the plurality of key followers with the plurality of racks; and rotating the plug assembly relative to the lock cylinder body from the rekeying position to the home position to complete rekeying of the lock cylinder to the second key.
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:
Corresponding reference characters indicate corresponding parts throughout the several views. For convenience, and ease of discussion, both an individual element and a plurality of like individual elements may be referenced by the same element number. The exemplifications set out herein illustrate one embodiment of the invention, in one form, and such exemplifications are not to be construed as limiting the scope of the invention in any manner.
Referring now to the drawings and particularly to
Referring also to
Longitudinal axis 18 extends through the interior void 20 and defines a corresponding rotational axis 18 for plug assembly 14. Cylinder wall 22 includes an interior, locking bar groove 26 at interior void 20 that extends radially into cylinder wall 22 from interior surface 24. In the present embodiment, locking bar groove 26 is formed as a generally V-shaped notch that extends longitudinally along a portion of lock cylinder body 12 in a direction 27 parallel to longitudinal axis 18.
Referring also to
Referring to
Intermediate portion 42 of plug body 28 is formed as a cylindrical quarter-section void 50 having at proximal end 28-1 with a first key follower sub-assembly guide channel 52 defined in an end wall 53 and having at distal end 28-2 with a second key follower sub-assembly guide channel 54 shaped to receive corresponding features on key follower sub-assembly 30. A rekeying aperture 55-1 extends through end wall 53 to void 50. The quarter-section void 50 of intermediate portion 42 defines a planar surface 56 and a side wall 58, with side wall 58 being substantially perpendicular to planar surface 56. Side wall 58 includes a plurality of rack guide channels 60 (see also
Each of the plurality of rack guide channels 60 is configured to respectively slidably receive a corresponding rack of the plurality of racks 32. In other words, each of the plurality of racks 32 is movably disposed in a respective guide channel of the plurality of rack guide channels 60. Referring again to
As shown in
The spring-loaded locking bar 34 is sized and configured to slidably fit in locking bar recess 65 of plug body 28. Referring also to
Lock cylinder body 12 is configured to prevent a rotation of plug assembly 14 relative to lock cylinder body 12 when no key, or an invalid key, is inserted into keyway 46. For example, when no key, or an invalid key, is inserted into keyway 46, locking bar engaging groove 63 of at least one rack of the plurality of racks 32 is not longitudinally aligned relative to longitudinal axis 18 with at least one other locking bar engaging groove 63 of at least one other rack of said plurality of racks 32 to prevent simultaneous engagement of locking bar 34 with each locking bar engaging groove 63 of the plurality of racks 32, and thus locking bar 34 is retained in locking bar groove 26 of lock cylinder body 12 by one or more of the plurality of racks 32, which prevents rotation of plug assembly 14 relative to lock cylinder body 12.
Referring again to
Key follower carrier body 70 includes a proximal guide feature 80 and a distal guide feature 82 configured to be respectively received by first key follower sub-assembly guide channel 52 and second key follower sub-assembly guide channel 54 of plug body 28. Referring also to
As shown in
First planar surface 84 is orthogonal to second planar surface 86 to define a quarter-section cylinder portion 94 that is received by quarter-section void 50 of plug body 28, with first planar surface 84 being adjacent to planar surface 56, and with second planar surface 86 being adjacent to side wall 58. The plurality of pillars 88 are interposed between proximal guide feature 80 and a distal guide feature 82.
The plurality of key follower guide channels 92 is configured to receive and guide the respective plurality of key followers 72. The plurality of key follower guide channels 92 are arranged in parallel and are positioned along longitudinal axis 18 of lock cylinder body 12 and plug body 28 and orthogonally intersect first planar surface 84 in direction 62. Each channel of the plurality of key follower guide channels 92 is located between a respective pair of the plurality of pillars 88. The plurality of key followers 72 are individually biased toward keyway 46 in direction 62 by a corresponding number of the plurality of biasing springs 74 interposed between cover 38 and the plurality of key followers 72. Each key follower of the plurality of key followers 72 is located to extend across keyway 46 in a direction 95 (see also
The plurality of key follower guide channels 92 are configured to conform to the shape of the plurality of key followers 72 to guide the bidirectional movement of the plurality of key followers 72 in plurality of key follower guide channels 92 in the direction 62 orthogonal to keyway 46, e.g., parallel to second planar surface 86, while restraining movement of the plurality of key followers 72 in guide channels 92 in all directions transverse to the direction 62, such as in direction 95 transverse to keyway 46, which is also orthogonal to direction 62, and while permitting rotation of the plurality of key followers 72 within the respective plurality of key follower guide channels 92. As will be understood by those skilled in the art with reference to the various figures, the term “restraining” refers to allowing standard engineering clearance tolerances in a respective follower/channel combination without permitting transverse motion of the plurality of key followers 72 between two transverse spaced positions, e.g. in transverse direction 95, in the respective guide channels of the plurality of key follower guide channels 92.
In the present embodiment, referring to
Referring again to
With reference to exemplary key follower 72-1 of
Also, with reference to exemplary key follower 72-1 of
Referring again to
Key follower rotation member 76 of key follower sub-assembly 30 is positioned in intermediate void 90, and is configured for sliding engagement along the plurality of pillars 88 in a direction 27 parallel to longitudinal axis 18. In other words, key follower rotation member 76 of key follower sub-assembly 30 is longitudinally moveable relative to plug body 28 in direction 27 between the proximal end 28-1 of plug body 28 and the distal end 28-2 of plug body 28, i.e., between a proximal position 114-1 (home position) illustrated in
Referring to
When key follower rotation member 76 is in proximal position 114-1, rack engagement protrusion 106 of each key follower of the plurality of key followers 72 (individually 72-1, 72-2, 72-3, 72-4, 72-5) is engaged with a respective follower engagement groove 64 of a respective rack of the plurality of racks 32 (individually 32-1, 32-2, 32-3, 32-4, 32-5) to facilitate normal operation of lock cylinder 10 by a valid key, e.g., key 48. During normal (non-rekeying) operation of lock cylinder 10, when a valid key, e.g., key 48, is inserted into keyway 46, the plurality of racks 32 is positioned by the plurality of key followers 72 to longitudinally align relative to longitudinal axis 18 each locking bar engaging groove 63 of the plurality of racks 32 so as to facilitate simultaneous engagement of locking bar 34 with the locking bar engaging groove 63 of each rack of the plurality of racks 32 to allow rotation of plug assembly 14 about longitudinal axis 18 relative to lock cylinder body 12. However, if no key or an invalid key is inserted into keyway 46, then the plurality of racks 32 is positioned by the plurality of key followers 72 such that the locking bar engaging groove 63 of at least one rack of the plurality of racks 32 is not longitudinally aligned with at least one other locking bar engaging groove 63 of at least one other rack of the plurality of racks 32 so as to prevent simultaneous engagement of locking bar 34 with each locking bar engaging groove 63 of the plurality of racks 32 to retain locking bar 34 in engagement with locking bar groove 26 of lock cylinder body 12 to prevent rotation of plug assembly 14 about longitudinal axis 18 relative to lock cylinder body 12.
During movement of key follower rotation member 76 between proximal position 114-1 illustrated in
While this invention has been described with respect to embodiments of the invention, the present invention may 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.
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