CA1065152A - Pin tumbler lock cylinder - Google Patents
Pin tumbler lock cylinderInfo
- Publication number
- CA1065152A CA1065152A CA287,108A CA287108A CA1065152A CA 1065152 A CA1065152 A CA 1065152A CA 287108 A CA287108 A CA 287108A CA 1065152 A CA1065152 A CA 1065152A
- Authority
- CA
- Canada
- Prior art keywords
- sleeve
- plug
- tumbler
- ways
- cylinder lock
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
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- Lock And Its Accessories (AREA)
Abstract
ABSTRACT OF THE DISCLOSURE
A cylinder lock comprising a plug, with an eccentric face, a cylinder and an eccentric sleeve between the plug and cylin-der. When a proper key is inserted and raises the pins to operating shear level the plug and sleeve can be turned as a unit on an axis to unlock or lock, but in the event there is a single pin restraining the rotary motion of the sleeve, only a limited plug motion is permitted as it is now in an eccentric relation with respect to the cylinder. Picking of the lock is prevented by dividing the sleeve into segments rotatable with respect to each other and providing each with circumferentially extending recesses in which tumbler pins can become ledged.
A cylinder lock comprising a plug, with an eccentric face, a cylinder and an eccentric sleeve between the plug and cylin-der. When a proper key is inserted and raises the pins to operating shear level the plug and sleeve can be turned as a unit on an axis to unlock or lock, but in the event there is a single pin restraining the rotary motion of the sleeve, only a limited plug motion is permitted as it is now in an eccentric relation with respect to the cylinder. Picking of the lock is prevented by dividing the sleeve into segments rotatable with respect to each other and providing each with circumferentially extending recesses in which tumbler pins can become ledged.
Description
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BACKGROUND OF THE INVENTION
A need exists for a reasonably priced pin tumbler lock that is substantially pick proof. Despite continuing efforts to produce such a lock, all known pin tumbler locks are either prohibitively expensive or may be violated, either by picking or by shearing of the lock's pins with a strong tool inserted into a keyway. It is the general object of the present inven-tion, therefore, to provide a high security pin tumbler lock which is of reasonably low cost.
SUMMARY OF THE INVENTION
The present lock includes a cylinder housing with a cir-cular bore in which a cylindrical plug is eccentrically mounted.
On the plug there are mounted sleeve segments each having at least one pinway. The componènts are arranged such that the plug and sleeve segments form a concentric unit that can be rotated on an axis with a proper key to open or clos2 the lock.
However, in the event that any pin is not at a proper shear level and thereby restrains a sleeve segment, the plug may be rotated only slightly before becoming bound to prevent opening of the lock. Picking of the lock is prevented by the provision in each sleeve segment of circumferentially extending recesses coincident with the pinways. During a picking attempt the pins become ledged in the recesses and relative rotational movement between sleeve segments produces pinway misalignment that pro-hibits further attempts to attain the proper shear. Mounted ,.
eccentrically on the plug is a circular face that is retained `''
BACKGROUND OF THE INVENTION
A need exists for a reasonably priced pin tumbler lock that is substantially pick proof. Despite continuing efforts to produce such a lock, all known pin tumbler locks are either prohibitively expensive or may be violated, either by picking or by shearing of the lock's pins with a strong tool inserted into a keyway. It is the general object of the present inven-tion, therefore, to provide a high security pin tumbler lock which is of reasonably low cost.
SUMMARY OF THE INVENTION
The present lock includes a cylinder housing with a cir-cular bore in which a cylindrical plug is eccentrically mounted.
On the plug there are mounted sleeve segments each having at least one pinway. The componènts are arranged such that the plug and sleeve segments form a concentric unit that can be rotated on an axis with a proper key to open or clos2 the lock.
However, in the event that any pin is not at a proper shear level and thereby restrains a sleeve segment, the plug may be rotated only slightly before becoming bound to prevent opening of the lock. Picking of the lock is prevented by the provision in each sleeve segment of circumferentially extending recesses coincident with the pinways. During a picking attempt the pins become ledged in the recesses and relative rotational movement between sleeve segments produces pinway misalignment that pro-hibits further attempts to attain the proper shear. Mounted ,.
eccentrically on the plug is a circular face that is retained `''
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in a concentric face opening in the cylinder. Binding occurs -between the plug face and cylinder opening in response to inde-pendent rotation of the plug. This feature prevents opening of the lock in the event a false shear line is attained at the junction between the plug and sleeve segments.
In addition~ a diagonally contoured movable plate may be utilized in a longitudinal recess in an extra eccentric sleeve arrangement mounted on the plug. This sleeve has longitudinal ~
grooves or recesses in the outer surface and in the lower sur- ;-face with corresponding apertured diagonal contoured plates therein.
BRIEF DESCRIPTION OF THE DR~WINGS
Fig. 1 is a rear view~ without cam or other actuator, o ; the cylinder, plug and three intervening levels of eccentric rings, bands and sleeve;
Fig. 2 is a sectional view taken on line 2-2 of Fig. l;
Fig. 3 is a view showing the plug face and potential areas of binding stop;
Fig. 4 is a detail illustrating interengaging mPa~s be-2Q tween the various rings or bands going to make up a sIeeve;
Fig. 5 is a side view o~ the plug;
Fig. 6 is an end view of the eccentric ring surrounding theplug;
Fig. 7 is a view in elevation looking in the direction of arrow 7 in Fig. 6;
, .
~ Fig. 8 is an end view of the intermediate sleeve;
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Fig. 9 is a view in elevation looking in the direction of arrow 9 in Fig. 8;
Fig. 10 illustrates the out-of-line position of the diago-nal plate or plates utilized wlth the sleeve of Fig. 8;
Fig. 11 illus~rates diagona] contoured plates assuming an out-of-line form when pressured out of pinway alignment by ro-tary motion of the plug and longitudinal recess shoulder of sleeve;
Fig. 12 is a front view of the outermost rings or bands;--Fig. 13 is an assembly view looking in the direction of arrow 13 in Fig. 12;
Figs 14 and 15 illustrate the action of the plug with thefirst ring on the plug in false opening positions;
Yig. 16 is a view on an enlarged scale s-;milar to that of Fig. 1 and illustrating the top and bottom pin and the proper shear point level when three intermediate plug surrounding mem-bers are utilized;
Figs. 17 and 18 illustrate the action of the structure shown in Fig. 16 in operable pssition showing different posi-tions of the pin restraint of rings, bands and sleeves; and Figs. 19-21 are front views of the lock illustrating or-- bital movement of the plug within the cylinder.
PREFERRED ~MBODIMENTS OF THE INVENTION
A cylinder housing 10 has a cylindrical plug 12 eecentri-cally positioned in a circularly cylindrical bore 11. The plug 12 defines a conventional key slot 14 therein. Surrounding the :........ . :
plug are a plurality of sleeves 16, 20, 32 forming a composite circularly cylindrical sleeve rotatably mounted in the bore 11.
The plug 12 is rotatably mounted in a circularly cylindrical passage 19 defined by the inner sleeve 16 and eccentric to the axis of the bore 11. Formlng the sleeve 16 are a plurality of ring segments 54, two of which are shown in Fig. 4. The seg-ments 54 are interengaged by recesses 56 and tabs 58 that per-mit relative rotational movement therebetween. It will be noted that the segments are eccentric in that they are thinner at one edge and gradually thicken to a maximum diametrically opposite. There is also a groove or recess 52 in the thickest position of each forming a composite elongated recess which is indlcated at 18. The plug is correspondin~ly but reversely eccentric relative to its circula~ face 40, as will be de-scribed.
If desired, a second set of rings or bands may be used, or in its place a sleeve 20 may be utilized about the rings or bands 16 and this is also eccentrically made as described pre-viously and has two longitudinal contoured recesses, one exte-rior thereof as at 22 and one on the interior 24. This formsa contoured floor 26 separating the recesses in each of which is a contoured diagonal apertured plate 28, 30, which lies di-agonally in the groove or recess 22 and 24 but assume a rec-tangular form when pressured out of alignment by the recessed shoulder of the sleeve.
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Also, if desired, a third set of rings or bands 32 may be app]ied to the exterior of sleeve 20 and they also are eccen-tric and have longitudinal recesses 34. The various rings or bands are arranged to have their thicker sides additive, the plu~, however being cylindrlcal with a constant radius.
The cylinder housing 10, of course, has housing pinways 37 as shown in Fig. 2 and the sleeves, 16, 20 and 32 have aligned sleeve pinways 39, 39a and 39b as shown in Figs. 6-12. The pin-ways retain driver pins 36 biased inwardly by springs 41. Also defined by the plug 12 are plug pinways 39c that retain tumbler pins 36a longitudinally aligned with the driver pins 36. The circular face 40 of the plug is inserted into a circular open-ing 44 in the face 42 of the cylinder 10.
As shown in Fig. 5, the plug face 40 extends upwardly a distance greater than it extends downwardly, see 46, and is eccentric to a central axis running through the plug, but is concentric with the bore 11 and the plug face opening 44 in the cylinder 10. When a proper key is used in the keyway 14 and all the pins are raised, a shear point will be reached wherein the tumbler pins 36a and the driver pins 36 meet along the surface of engagement between the sleeve 32 and the cylin-der housing 10 as shown in Fig. 16 In those positions, the tumbler pins 36a engage the plug 12 with the sleeves 16, 26 and 32 forming a composite circularly cylindrical unit that is not tied tc the housing 10. Consequently, the unit can turn on the common axis of the bore 11 and the face plate 40 to ~:~ . - - - . .
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unlock or lock the lock. During such operation of the lock, the eccentric plug 12 moves in an orbital path about the axis of the bore ll as illustrated by the different plug positions shown in Figs. 19-21. However, should any of the pins 36 still be en-gaged between the housing lO and any of the sleeves as shown in Figs. 14, 15, 17 and 18, then the remaining parts of the unit become eccentric with respect to the bore 11 and when this hap-pens, and turning is attempted to be forced, binding occurs be-tween the plug 12 and the engaged sleeves preventing rotation.
In the event that all of the driver pins 36 are out of the plug pinways 39c and torque is applied to the plug 12, the face 40 turn~ on an eccentric axis relative to the opening 44 in the cylinder7 and therefor~ will bindingLy engage on the opening's edge 44 at points A, Figs. 1 and 3, and no further turning can be imposed on the plug.
Referring now to Figs. 8, 9 and 10, it will be seen that the plate 28 in the recess 22 of the eccentric sleeve 20 fits snugly in the recess and it is apertured to receive the upper pins 36 shown in Fig. 2. When the plug is attempted to be turned and one or more pins restrain the plate, it will assume a straight longitudinal position in its recess 22 and 24, re-sulting in a pinway misalignment; see Fig. 10.
Fig. 14 illustrates the ledging and lodging of a top pin 36 in recess 18 of one segment 54 of the sleeve 16. Similar positions are illustrated in Figs. 17 and 18 as to the ledging and lodging action where the rings or bands 20 and 32 are ~o~s~s~
utilized in the structure. These represent typical positions that the driver pins 36 would assume during attempts to pick the lock. For example, in accordance with known techniques, a picker would sequentially apply upward pressure on each tumbler pin 36a while simultaneously exerting torque on the plug 12 in an attempt to ledge the associated driveE pin 36 at shear level.
However, before reaching actual shear level, the driver pins 36 would first reach false shear levels provided, for example, by the recess 18 as shown in Fig. 14. In these positions concen-tric rotation of the composite plug and sleeve unit is prevented and opening of the lock is precluded. Consequently, after all driver pins 36 have reached the positions illustrated in Fig.
urther picking is required ~o raise them to the actual shear~position~. Such ~urther picking is precluded~ however, because the amount of plug movemerlt required to ledge all the driver pins 36 as shown in Figs. 14 will produce a misalignment between the plug pinways 39c and one or more of the sleeve pin-ways 39. The misalignment results from the relative rotational movement that is possible between the individual segments 54 of ~j 20 the sleeve 16. Once misalignment of pinways 39 and 39c occurs, the associated tumbler pin 36a which will have dropped back into the plug 12 after picking pressure was released cannot be brought into contact with its driver pin 36 and further picking opera-tions are precluded. It will be obvious that attempts to ledge `~ the driver pins 36 at other false shear levels such as those illustrated in Figs. 17 and 18 will produce a similar result to prevent further picking.
.
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Obviously, many modifications and variations of the pres-ent invention are possible in light of the above teachings.
For example, it will be obvious that the lock could be modi-fied to eliminate the outer sleeves 20 and 32 and the inner segmented sleeve 16 would still function to subvert picking operations. It is to be understood, therefore, that the in- :
vention can be practiced otherwise than as specifically de-scribed .
: - 9 _ , - - .
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in a concentric face opening in the cylinder. Binding occurs -between the plug face and cylinder opening in response to inde-pendent rotation of the plug. This feature prevents opening of the lock in the event a false shear line is attained at the junction between the plug and sleeve segments.
In addition~ a diagonally contoured movable plate may be utilized in a longitudinal recess in an extra eccentric sleeve arrangement mounted on the plug. This sleeve has longitudinal ~
grooves or recesses in the outer surface and in the lower sur- ;-face with corresponding apertured diagonal contoured plates therein.
BRIEF DESCRIPTION OF THE DR~WINGS
Fig. 1 is a rear view~ without cam or other actuator, o ; the cylinder, plug and three intervening levels of eccentric rings, bands and sleeve;
Fig. 2 is a sectional view taken on line 2-2 of Fig. l;
Fig. 3 is a view showing the plug face and potential areas of binding stop;
Fig. 4 is a detail illustrating interengaging mPa~s be-2Q tween the various rings or bands going to make up a sIeeve;
Fig. 5 is a side view o~ the plug;
Fig. 6 is an end view of the eccentric ring surrounding theplug;
Fig. 7 is a view in elevation looking in the direction of arrow 7 in Fig. 6;
, .
~ Fig. 8 is an end view of the intermediate sleeve;
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Fig. 9 is a view in elevation looking in the direction of arrow 9 in Fig. 8;
Fig. 10 illustrates the out-of-line position of the diago-nal plate or plates utilized wlth the sleeve of Fig. 8;
Fig. 11 illus~rates diagona] contoured plates assuming an out-of-line form when pressured out of pinway alignment by ro-tary motion of the plug and longitudinal recess shoulder of sleeve;
Fig. 12 is a front view of the outermost rings or bands;--Fig. 13 is an assembly view looking in the direction of arrow 13 in Fig. 12;
Figs 14 and 15 illustrate the action of the plug with thefirst ring on the plug in false opening positions;
Yig. 16 is a view on an enlarged scale s-;milar to that of Fig. 1 and illustrating the top and bottom pin and the proper shear point level when three intermediate plug surrounding mem-bers are utilized;
Figs. 17 and 18 illustrate the action of the structure shown in Fig. 16 in operable pssition showing different posi-tions of the pin restraint of rings, bands and sleeves; and Figs. 19-21 are front views of the lock illustrating or-- bital movement of the plug within the cylinder.
PREFERRED ~MBODIMENTS OF THE INVENTION
A cylinder housing 10 has a cylindrical plug 12 eecentri-cally positioned in a circularly cylindrical bore 11. The plug 12 defines a conventional key slot 14 therein. Surrounding the :........ . :
plug are a plurality of sleeves 16, 20, 32 forming a composite circularly cylindrical sleeve rotatably mounted in the bore 11.
The plug 12 is rotatably mounted in a circularly cylindrical passage 19 defined by the inner sleeve 16 and eccentric to the axis of the bore 11. Formlng the sleeve 16 are a plurality of ring segments 54, two of which are shown in Fig. 4. The seg-ments 54 are interengaged by recesses 56 and tabs 58 that per-mit relative rotational movement therebetween. It will be noted that the segments are eccentric in that they are thinner at one edge and gradually thicken to a maximum diametrically opposite. There is also a groove or recess 52 in the thickest position of each forming a composite elongated recess which is indlcated at 18. The plug is correspondin~ly but reversely eccentric relative to its circula~ face 40, as will be de-scribed.
If desired, a second set of rings or bands may be used, or in its place a sleeve 20 may be utilized about the rings or bands 16 and this is also eccentrically made as described pre-viously and has two longitudinal contoured recesses, one exte-rior thereof as at 22 and one on the interior 24. This formsa contoured floor 26 separating the recesses in each of which is a contoured diagonal apertured plate 28, 30, which lies di-agonally in the groove or recess 22 and 24 but assume a rec-tangular form when pressured out of alignment by the recessed shoulder of the sleeve.
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Also, if desired, a third set of rings or bands 32 may be app]ied to the exterior of sleeve 20 and they also are eccen-tric and have longitudinal recesses 34. The various rings or bands are arranged to have their thicker sides additive, the plu~, however being cylindrlcal with a constant radius.
The cylinder housing 10, of course, has housing pinways 37 as shown in Fig. 2 and the sleeves, 16, 20 and 32 have aligned sleeve pinways 39, 39a and 39b as shown in Figs. 6-12. The pin-ways retain driver pins 36 biased inwardly by springs 41. Also defined by the plug 12 are plug pinways 39c that retain tumbler pins 36a longitudinally aligned with the driver pins 36. The circular face 40 of the plug is inserted into a circular open-ing 44 in the face 42 of the cylinder 10.
As shown in Fig. 5, the plug face 40 extends upwardly a distance greater than it extends downwardly, see 46, and is eccentric to a central axis running through the plug, but is concentric with the bore 11 and the plug face opening 44 in the cylinder 10. When a proper key is used in the keyway 14 and all the pins are raised, a shear point will be reached wherein the tumbler pins 36a and the driver pins 36 meet along the surface of engagement between the sleeve 32 and the cylin-der housing 10 as shown in Fig. 16 In those positions, the tumbler pins 36a engage the plug 12 with the sleeves 16, 26 and 32 forming a composite circularly cylindrical unit that is not tied tc the housing 10. Consequently, the unit can turn on the common axis of the bore 11 and the face plate 40 to ~:~ . - - - . .
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unlock or lock the lock. During such operation of the lock, the eccentric plug 12 moves in an orbital path about the axis of the bore ll as illustrated by the different plug positions shown in Figs. 19-21. However, should any of the pins 36 still be en-gaged between the housing lO and any of the sleeves as shown in Figs. 14, 15, 17 and 18, then the remaining parts of the unit become eccentric with respect to the bore 11 and when this hap-pens, and turning is attempted to be forced, binding occurs be-tween the plug 12 and the engaged sleeves preventing rotation.
In the event that all of the driver pins 36 are out of the plug pinways 39c and torque is applied to the plug 12, the face 40 turn~ on an eccentric axis relative to the opening 44 in the cylinder7 and therefor~ will bindingLy engage on the opening's edge 44 at points A, Figs. 1 and 3, and no further turning can be imposed on the plug.
Referring now to Figs. 8, 9 and 10, it will be seen that the plate 28 in the recess 22 of the eccentric sleeve 20 fits snugly in the recess and it is apertured to receive the upper pins 36 shown in Fig. 2. When the plug is attempted to be turned and one or more pins restrain the plate, it will assume a straight longitudinal position in its recess 22 and 24, re-sulting in a pinway misalignment; see Fig. 10.
Fig. 14 illustrates the ledging and lodging of a top pin 36 in recess 18 of one segment 54 of the sleeve 16. Similar positions are illustrated in Figs. 17 and 18 as to the ledging and lodging action where the rings or bands 20 and 32 are ~o~s~s~
utilized in the structure. These represent typical positions that the driver pins 36 would assume during attempts to pick the lock. For example, in accordance with known techniques, a picker would sequentially apply upward pressure on each tumbler pin 36a while simultaneously exerting torque on the plug 12 in an attempt to ledge the associated driveE pin 36 at shear level.
However, before reaching actual shear level, the driver pins 36 would first reach false shear levels provided, for example, by the recess 18 as shown in Fig. 14. In these positions concen-tric rotation of the composite plug and sleeve unit is prevented and opening of the lock is precluded. Consequently, after all driver pins 36 have reached the positions illustrated in Fig.
urther picking is required ~o raise them to the actual shear~position~. Such ~urther picking is precluded~ however, because the amount of plug movemerlt required to ledge all the driver pins 36 as shown in Figs. 14 will produce a misalignment between the plug pinways 39c and one or more of the sleeve pin-ways 39. The misalignment results from the relative rotational movement that is possible between the individual segments 54 of ~j 20 the sleeve 16. Once misalignment of pinways 39 and 39c occurs, the associated tumbler pin 36a which will have dropped back into the plug 12 after picking pressure was released cannot be brought into contact with its driver pin 36 and further picking opera-tions are precluded. It will be obvious that attempts to ledge `~ the driver pins 36 at other false shear levels such as those illustrated in Figs. 17 and 18 will produce a similar result to prevent further picking.
.
~0~ 5~
Obviously, many modifications and variations of the pres-ent invention are possible in light of the above teachings.
For example, it will be obvious that the lock could be modi-fied to eliminate the outer sleeves 20 and 32 and the inner segmented sleeve 16 would still function to subvert picking operations. It is to be understood, therefore, that the in- :
vention can be practiced otherwise than as specifically de-scribed .
: - 9 _ , - - .
Claims (15)
1. A cylinder lock comprising:
a lock housing defining a circularly cylindrical bore and a plurality of housing tumbler-ways;
a circularly cylindrical sleeve means rotatably mounted in said bore and having a circularly cylindrical passage with a central axis eccentric to the axis of said bore, said sleeve means defining a plurality of sleeve tumbler-ways aligned with said housing tumbler-ways;
a cylindrical plug rotatably mounted in said passage and defining a longitudinally extending keyway, said plug further defining a plurality of transversely extending plug tumbler-ways intersecting Raid keyway and aligned with said sleeve tumbler-ways;
a plurality of stacked tumblers longitudinally movable within each set of said aligned housing, sleeve and plug tumbler-ways;
bias means forcing said stacked tumblers toward said key-way; and coupling means substantially preventing rotation of said plug within said passage so as to limit lock opening movement of said plug to an orbital path about the axis of said bore.
a lock housing defining a circularly cylindrical bore and a plurality of housing tumbler-ways;
a circularly cylindrical sleeve means rotatably mounted in said bore and having a circularly cylindrical passage with a central axis eccentric to the axis of said bore, said sleeve means defining a plurality of sleeve tumbler-ways aligned with said housing tumbler-ways;
a cylindrical plug rotatably mounted in said passage and defining a longitudinally extending keyway, said plug further defining a plurality of transversely extending plug tumbler-ways intersecting Raid keyway and aligned with said sleeve tumbler-ways;
a plurality of stacked tumblers longitudinally movable within each set of said aligned housing, sleeve and plug tumbler-ways;
bias means forcing said stacked tumblers toward said key-way; and coupling means substantially preventing rotation of said plug within said passage so as to limit lock opening movement of said plug to an orbital path about the axis of said bore.
2. A cylinder lock according to claim 1 wherein said sleeve means comprises outer walls that define recessed sur-faces penetrated by said sleeve tumbler-ways and extending circumferentially therefrom so as to provide ledging surfaces for said tumblers.
3. A cylinder lock according to claim 2 wherein said sleeve means comprise a plurality of axially aligned sleeve segments rotatable with respect to each other, each of said sleeve segments defining at least one of said sleeve tumbler-ways.
4. A cylinder lock according to claim 3 wherein said tumblers are pins.
5. A cylinder lock according to claim 3 wherein said coupling means comprises a circular opening defined by said housing and concentric with said bore, and retainer means secured to said plug and retained in said opening, said re-tainer having surfaces conforming to the circumference of said opening so as to guide rotational movement of said re-tainer about the axis of said bore.
6. A cylinder lock according to claim 5 wherein said re-tainer means comprises a circular plate having a diameter equal to that of said opening and secured to an end of said plug that defines the entrance of said keyway.
7. A cylinder lock according to claim 6 wherein the di-ameters of said plate and said opening are larger than the di-ameter of said bore.
8. A cylinder lock according to claim 7 wherein said tumblers are pins.
9. A cylinder lock according to claim 1 wherein said sleeve means comprises a plurality of radially nested individ-ual sleeves rotatable with respect to each other and having radially aligned holes that establish said sleeve tumbler-ways.
10. A cylinder lock according to claim 9 wherein one of said individual sleeves comprises a plurality of axially aligned sleeve segments rotatable with respect to each other, each of said sleeve segments defining at least one of said sleeve tumbler-ways.
11. A cylinder lock according to claim 10 wherein said one sleeve comprises outer walls that define recessed sur-faces penetrated by said sleeve tumbler-ways and extending cir-cumferentially therefrom so as to provide ledging surfaces for said tumblers.
12. A cylinder lock according to claim 11 wherein another of said individual sleeves comprises a longitudinal recess that is penetrated by said holes, and including a plate disposed in said longitudinal recess and having plate openings alignable with said holes, said plate being laterally movable in said longitudinal recess so as to produce misalignment between said plate openings and said holes.
13. A cylinder lock comprising:
a lock housing defining a circularly cylindrical bore and a plurality of housing tumbler-ways;
a circularly cylindrical sleeve means rotatably mounted in said bore and having a circularly cylindrical passage with a central axis eccentric to the axis of said bore, said sleeve means comprising a plurality of axially aligned sleeve segments defining at least one sleeve tumbler-way aligned with one of said housing tumbler-ways;
a cylindrical plug rotatably mounted in said passage and defining a longitudinally extending keyway, said plug further defining a plurality of transversely extending plug tumbler-ways intersecting said keyway and aligned with said sleeve tumbler-ways;
a plurality of stacked tumblers longitudinally movable within each set of said aligned housing, sleeve and plug tumbler-ways; and bias means forcing said stacked tumblers toward said key-way.
a lock housing defining a circularly cylindrical bore and a plurality of housing tumbler-ways;
a circularly cylindrical sleeve means rotatably mounted in said bore and having a circularly cylindrical passage with a central axis eccentric to the axis of said bore, said sleeve means comprising a plurality of axially aligned sleeve segments defining at least one sleeve tumbler-way aligned with one of said housing tumbler-ways;
a cylindrical plug rotatably mounted in said passage and defining a longitudinally extending keyway, said plug further defining a plurality of transversely extending plug tumbler-ways intersecting said keyway and aligned with said sleeve tumbler-ways;
a plurality of stacked tumblers longitudinally movable within each set of said aligned housing, sleeve and plug tumbler-ways; and bias means forcing said stacked tumblers toward said key-way.
14. A cylinder lock according to claim 13 wherein said sleeve means comprises outer walls that define recessed sur-faces penetrated by said sleeve tumbler-ways and extending cir-cumferentially therefrom so as to provide ledging surfaces for said tumblers.
15. A cylinder lock according to claim 13 including ec-centric coupling means substantially preventing rotation of said plug within said passage so as to limit lock opening movement of said plug to an orbital path about the axis of said bore.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA287,108A CA1065152A (en) | 1977-09-20 | 1977-09-20 | Pin tumbler lock cylinder |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA287,108A CA1065152A (en) | 1977-09-20 | 1977-09-20 | Pin tumbler lock cylinder |
Publications (1)
Publication Number | Publication Date |
---|---|
CA1065152A true CA1065152A (en) | 1979-10-30 |
Family
ID=4109582
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA287,108A Expired CA1065152A (en) | 1977-09-20 | 1977-09-20 | Pin tumbler lock cylinder |
Country Status (1)
Country | Link |
---|---|
CA (1) | CA1065152A (en) |
-
1977
- 1977-09-20 CA CA287,108A patent/CA1065152A/en not_active Expired
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