Claims
- 1. A cylinder lock comprising:
a shell, said shell having an interior surface which defines a core receiving chamber having an axis, said shell having at least a first longitudinal cam groove extending along said interior surface, said shell being mounted with a fixed orientation in the use environment of said lock; a rotatable core cooperating with said shell to form the relatively movable component of said lock, said core having an exterior surface and being disposed within said core receiving chamber of said shell for rotation about said chamber axis, said core defining a longitudinally extending keyway having oppositely disposed sides which define a central plane, said core having at least a first array of tumbler receiving chambers, said tumbler receiving chambers extending between said keyway and said exterior surface of said core, said core further having a longitudinal slot in said exterior surface, said longitudinal slot being alignable with said shell longitudinal cam groove, said core longitudinal slot intersecting said chambers of said array, said core additionally having a cut-out which has upper and lower ends and extends from said exterior surface in the direction of said keyway, said cut-out intersecting said longitudinal slot and being in communication with said keyway via an opening in the first side of said keyway, an arcuate shear line for said lock being defined by the interface between said interior surface of said shell and said exterior surface of said core, said shear line having a radius of curvature; tumblers reciprocally disposed in respective of said core tumbler receiving chambers, said tumblers each having at least a first notch in a side thereof which faces generally in the direction of said shell interior surface, said tumblers each further having an activation surface which is disposed in said keyway; an elongated side bar located in said longitudinal slot in said core exterior surface, said side bar having outwardly projecting fingers which extend into said tumbler receiving chambers, said fingers being sized and shaped to cooperate with said tumbler notches; means resiliently biasing said side bar in the direction of said shell whereby said side bar engages said shell cam groove and bridges said shear line when said lock is in the locked condition; and a plate loosely disposed in said cut-out in said core, said plate having a first, inner side confronting said core, a second outer side confronting the shell adjacent said groove, an upper end adjacent the upper end of the cut-out and a lower end adjacent the lower end of the cut-out, said plate being movable relative to said core between first and second positions along a direction generally extending between the upper and lower ends of the cut-out, said plate having a cam follower projection on the first side thereof, said plate projection being located to extend into said keyway via said opening whereby force to impart movement to said plate between said first and second positions may be delivered to said projection by direct, rigid contact with a key inserted in said keyway, said plate having at least a pair of adjacent surfaces on the second side thereof, said adjacent surfaces respectively being displaced first and second distances from said first side of said keyway, said first of said adjacent surfaces being juxtapositioned to said sidebar in said first position of said plate whereby said plate will prevent movement of said sidebar in a direction of said keyway and out of engagement with said shell cam groove, said second of said adjacent surfaces being in registration with said sidebar when said plate is in said second position whereby said plate does not impede movement of said sidebar out of said shell cam groove and in the direction of said keyway.
- 2. A lock as recited in claim 1 wherein said cut-out in said core has generally the shape of a circular segment, and said plate has the general shape of a semi-circle having a radius of curvature smaller than the shear line radius of curvature.
- 3. A lock as recited in claim 1, wherein said sidebar movement is along a plane that intersects said chamber axis, and the projection of said plate is offset from said plane of sidebar movement.
- 4. A lock as recited in claim 3, wherein said projection is offset such that said projection is closer to one end of the plate than to the other end of the plate, and said second adjacent surface of the second side of the plate is closer to said one end than to said other end of the plate.
- 5. A lock as recited in claim 4 wherein a portion of said second side of the plate defines an outer cam surface located between said second adjacent surface and said one end of the plate, whereby said plate outer cam surface cooperates with said shell interior surface to guide the movement of said plate relative to said core between said first and second positions.
- 6. A lock as recited in claim 5, wherein in said first position of the plate, said plate upper end and portion a of said plate second side adjacent said upper end are spaced with an intervening void from the shell interior surface, and when the plate is in said second position, the lower end of the plate and a portion of the second side adjacent to the lower end of the plate are spaced from the shell interior surface, and the plate upper end and said adjacent surface are substantially in contact with the shell interior surface.
- 7. A lock as recited in claim 1, wherein when the plate is in said first position, the plate upper end and the plate lower end are substantially in contact with said core, whereas when the plate is in said second position, the upper end of the plate is in contact with said core, and said lower end of the plate is spaced from said core.
- 8. A lock as recited in claim 7, wherein when the plate is in said first position, the second side adjacent to said upper end is spaced from said shell interior surface whereas when the plate is in said second position, the second side adjacent said lower end is spaced from the shell interior surface.
- 9. A lock as recited in claim 1, wherein in said first position, said plate is loosely disposed in said cut-out whereas when the plate is in said second position, a portion of the plate first side adjacent the plate upper end rigidly bears on the core, and said projection on the key rigidly bears against said cam projection on the plate, said plate including said projection remaining entirely on one side of said central plane in said first and second positions.
- 10. A lock as recited in claim 1, wherein a portion of said second side of the plate defines an outer cam surface located between said second adjacent surface and said one end of the plate, whereby said plate outer cam surface cooperates with said shell interior surface to guide the movement of said plate relative to said core between said first and second positions.
- 11. A lock as recited in claim 10, wherein in said first position, said plate is loosely disposed in said cut-out whereas when the plate is in said second position, a portion of the plate first side adjacent the plate upper end rigidly bears on the core, and said projection on the key rigidly bears against said cam projection on the plate, said plate including said projection remaining entirely on one side of said central plane in said first and second positions.
- 12. A lock as recited in claim 1, wherein in said first position of the plate, said plate upper end and portion a of said plate second side adjacent said upper end are spaced with an intervening void from the shell interior surface, and when the plate is in said second position, the lower end of the plate and a portion of the second side adjacent to the lower end of the plate are spaced from the shell interior surface, and the plate upper end and said adjacent surface are substantially in contact with the shell interior surface.
- 13. A lock as recited in claim 12, wherein in said first position, said plate is loosely disposed in said cut-out whereas when the plate is in said second position, a portion of the plate first side adjacent the plate upper end rigidly bears on the core, and said projection on the key rigidly bears against said cam projection on the plate, said plate including said projection remaining entirely on one side of said central plane in said first and second positions.
- 14. A lock as recited in claim 1 wherein said tumbler activation surfaces comprise extensions which project into said keyway.
- 15. A lock as recited in claim 14 wherein said tumbler extensions and said tumbler first notches are located on oppositely disposed surfaces of said tumblers.
- 16. A lock as recited in claim 1 wherein said first and second adjacent surfaces on said plate are defined by a stepped notch in said plate.
- 17. A lock as recited in claim 16 wherein said cut-out in said core has generally the shape of a circular segment.
- 18. A cylinder lock system comprising:
a key, said key having a bow portion and a blade which longitudinally extends from said bow portion, said blade having a pair of spaced side surfaces which are at least in part substantially parallel and interconnected by a pair of edges extending therebetween, said key blade further having a camming projection extending laterally from one of said side surfaces, said key blade additionally having surface irregularities which define the key bitting; a shell, said shell having an interior surface which defines a core receiving chamber having an axis, said shell having at least a first longitudinal cam groove extending along said interior surface, said shell being mounted with a fixed orientation in the use environment of said lock; a rotatable core cooperating with said shell to form the relatively movable component of said lock, said core having an exterior surface and being disposed within said core receiving chamber of said shell for rotation about said chamber axis, said core defining a longitudinally extending keyway having oppositely disposed sides, said core having at least a first array of tumbler receiving chambers, said tumbler receiving chambers extending between said keyway and said exterior surface of said core, said core further having a longitudinal slot in said exterior surface, said longitudinal slot being alignable with said shell longitudinal cam groove, said core longitudinal slot intersecting said chambers of said array, said core additionally having a cut-out which extends from said exterior surface in the direction of said keyway, said cut-out intersecting said longitudinal slot and being in communication with said keyway via an opening in a first side of said keyway, a shear line for said lock being defined by the interface between said interior surface of said shell and said exterior surface of said core; tumblers reciprocally disposed in respective of said core tumbler receiving chambers, said tumblers each having at least a first notch in a side thereof which faces generally in the direction of said shell interior surface, said tumblers each further having an activation surface which is disposed in said keyway for cooperation with said key blade surface irregularities; an elongated side bar located in said longitudinal slot in said core exterior surface, said side bar having outwardly projecting fingers which extend into said tumbler receiving chambers, said fingers being sized and shaped to cooperate with said tumbler notches; means resiliently biasing said side bar in the direction of said shell whereby said side bar engages said shell cam groove and bridges said shear line when said lock is in the locked condition; and a plate disposed in said cut-out in said core, said plate having upper and lower ends and a first side confronting said core, said plate being movable relative to said core between first and second positions, said plate having a cam follower projection on said first side thereof, said plate projection being located to extend into said keyway via said opening whereby force to impart movement to said plate may be delivered to said projection from a key inserted in said keyway, said plate having at least a pair of adjacent side bar movement control surfaces on a second side thereof which is disposed opposite to said plate first side, said control surfaces respectively being displaced first and second distances from said first side of said keyway, said first control surface being juxtapositioned to said side bar in said first position of said plate whereby said plate will prevent movement of said side bar in the direction of said keyway and out of engagement with said shell cam groove, said second control surface being in registration with said side bar when said plate is in said second position whereby said plate does not impede movement of said side bar out of said shell cam groove and in the direction of said keyway.
- 19. The cylinder lock system of claim 18 wherein said tumbler activation surfaces comprise tumbler extensions which project into said keyway at said first side thereof and wherein said key bitting defining blade surface irregularities are located on said one of said blade side surfaces.
- 20. The cylinder lock system of claim 19 wherein said key bitting defining surface irregularities comprise portions of a longitudinal slot in said key blade one side, said slot extending from said blade tip in the direction of said bow and including code parts separated by transition parts, said key blade slot engaging said tumbler extensions during insertion of said blade into said keyway.
- 21. A lock system as recited in claim 18, wherein in said first position of the plate, said plate upper end and portion of said plate second side adjacent said upper end are spaced with an intervening void from the shell interior surface, and when the plate is in said second position, the lower end of the plate and a portion of the second side adjacent to the lower end of the plate are spaced from the shell interior surface, and the plate upper end and said adjacent surface are substantially in contact with the shell interior surface.
- 22. A lock system as recited in claim 18, wherein,
said sidebar movement is along a plane that intersects said chamber axis, and the projection of said plate is offset from said plane of sidebar movement; said projection is offset such that said projection is closer to one end of the plate than to the other end of the plate, and said second central surface of the second side of the plate is closer to said one end than to said other end of the plate; a portion of said second side of the plate defines an outer cam surface located between said second adjacent surface and said one end of the plate, whereby said plate outer cam surface cooperates with said shell interior surface to guide the movement of said plate relative to said core between said first and second positions; in said first position, said plate is loosely disposed in said cut-out whereas when the plate is in said second position, a portion of the plate first side adjacent the plate upper end rigidly bears on the core, and said projection on the key rigidly bears against said cam projection on the plate; and said plate including said projection remain entirely on one side of said central plane in said first and second positions.
- 23. A key intended for use in cooperation with a cylinder lock having a rotatable core, the core of the lock including a keyway which extends inwardly from a first end of the core, the keyway having a pair of opposite sides which define a keyway cross-sectional profile, the core also defining a cut-out which extends to the keyway through one of the sides of the keyway in a region displaced from the first end of the core, the cylinder lock further having a plate movably mounted within the cut-out, the plate having a cam follower projection which extends into the keyway intermediate the ends thereof, said key comprising:
a bow; a blade longitudinally extending from said bow to a blade tip, said blade having first and second side faces and a pair of oppositely disposed spaced edges which interconnect said side faces, said first and second blade side faces being substantially parallel to one another and respectively defining first and second planes; at least one three dimensional camming projection extending outwardly from said blade first side face beyond said first plane, said camming projection having a length which is substantially less than the length of said blade and being longitudinally displaced from said bow and said blade tip and being positioned between said blade edges whereby said camming projection is adapted to intercept the cut-out in the side of the keyway of the cooperating cylinder lock, the surface of said camming projection which faces said blade tip defining a longitudinal ramp adapted to drivingly engage the cam follower which extends into the keyway from a side thereof whereby the cam follower projection of the movable plate of the cooperating cylinder lock may be caused to move outwardly with respect to the keyway of the cooperating cylinder lock in response to longitudinal insertion of said blade into the lock keyway; and an elongated slot in one of said blade side faces, said slot extending longitudinally from said blade tip toward said bow, said slot having a flat bottom surface and transition regions defined by side surfaces which are inclined at an angle relative to a plane transverse to said first and second planes, said slot further having code regions intermediate said transition regions.
- 24. The key of claim 23, wherein the spacing between said blade edges defines the blade width and the spacing between said first and second blade side faces defines the blade thickness, said blade thickness being measured transversely with respect to said blade width and being substantially smaller than said width, and wherein said key further comprises a recess in a second of said blade side faces, said recess being at least in part in registration with said camming projection.
RELATED APPLICATION
[0001] This application is a Continuation of U.S. application Ser. No. 09/388,574, filed Sep. 1, 1999, and claims the benefit thereof under 35 USC §120.
Continuations (1)
|
Number |
Date |
Country |
Parent |
09388574 |
Sep 1999 |
US |
Child |
10041143 |
Jan 2002 |
US |