Anti-jam locking mechanism for electronic security system
First Claim
Patent Images
1. A locking mechanism comprising:
- a frame assembly;
a locking pin mounted to said frame assembly for reciprocating between a retracted position and an extended position;
a drive link extending from said locking pin;
a motor for rotatably driving a drive shaft;
a spring shaft having a first end and a second end, the first end being engageable with said drive shaft;
a coupling connecting the second end of said spring shaft and said frame assembly; and
wherein said drive link is configured to engage individual coil surfaces of said spring shaft during rotation thereof whereby said locking pin is resiliently urged towards the retracted or extended position.
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Abstract
A locking mechanism for engaging a strike includes a frame having a receptacle configured to receive the strike and a locking pin reciprocally mounted to the frame for reciprocating between a retracted position and an extended position. The locking pin is configured for mating with the strike when the locking pin is disposed in the extended position. A drive link extends from the locking pin and a motor is provided for driving a drive shaft. A spring shaft has one end engageable with the drive shaft. A coupling is disposed between a second end of the spring shaft and the frame. The drive link is configured to engage individual coil surfaces of the spring shaft during rotation thereof to drive the locking pin towards the retracted or extended position.
41 Citations
20 Claims
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1. A locking mechanism comprising:
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a frame assembly;
a locking pin mounted to said frame assembly for reciprocating between a retracted position and an extended position;
a drive link extending from said locking pin;
a motor for rotatably driving a drive shaft;
a spring shaft having a first end and a second end, the first end being engageable with said drive shaft;
a coupling connecting the second end of said spring shaft and said frame assembly; and
wherein said drive link is configured to engage individual coil surfaces of said spring shaft during rotation thereof whereby said locking pin is resiliently urged towards the retracted or extended position. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
said locking pin defines a longitudinal axis;
said drive link extends in a perpendicular direction to that of the longitudinal axis of said locking pin; and
said drive link comprises a reduced end which is dimensioned to fit between individual coils of said spring shaft.
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6. The locking mechanism of claim 5 wherein:
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the locking pin comprises a slot and the drive link is mounted therein; and
a strike is provided for engaging with said locking pin, said strike includes an aperture and said locking pin is dimensioned to engage the aperture.
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7. The locking mechanism of claim 6 wherein said frame assembly further comprises a receptacle, said receptacle being at least partially defined by a wall and said wall having a tapered portion.
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8. The locking mechanism of claim 1 wherein said motor comprises a micromotor and further comprising a computer system for controlling operation of said motor.
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9. The locking mechanism of claim 1 wherein during movement of said locking pin towards the extended position, said spring shaft compresses upon failure of the locking pin to properly mate with a strike.
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10. A locking mechanism for engaging a strike, the locking mechanism comprising:
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a frame having a receptacle configured to receive the strike;
an operator mounted to said frame such that said operator may move at least between a retracted position and an extended position, said operator being configured for engaging the strike when the operator is disposed in the extended position;
a motor for driving a drive shaft;
a spring shaft having a first end and an axially spaced second end, the first end being engageable with said drive shaft; and
a coupling rotatably mounting the second end of said spring shaft relative to said frame, said coupling comprising a slide interconnected with said second end of said spring shaft, said slide being configured to axially move in response to tension or compression in said spring shaft;
wherein said operator is configured to engage individual coil faces of said spring shaft during rotation thereof whereby said operator is resiliently urged by said spring shaft towards the extended or retracted position. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18, 19)
a locking pin reciprocally mounted to said frame for reciprocating between the retracted position and the extended position, said locking pin being configured for mating with the strike when the locking pin is disposed in the extended position; and
a driver fixedly connected to said locking pin.
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12. The locking mechanism of claim 11 wherein:
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said locking pin has a longitudinal axis;
said driver extends in a perpendicular direction to that of the longitudinal axis of said locking pin; and
said driver is dimensioned and positionable to fit between individual coils of said spring shaft.
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13. The locking mechanism of claim 12 wherein said pin comprises a reduced end.
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14. The locking mechanism of claim 12 wherein:
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the locking pin comprises a slot and the driver is mounted therein; and
the strike includes an aperture and said locking pin is dimensioned for reception in the aperture.
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15. The locking mechanism of claim 10 further comprising a bearing being interposed between said slide and said frame, said bearing permitting at least one of linear or rotational movement of said slide.
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16. The locking mechanism of claim 15 wherein said slide comprises a spool having a pair of end stops.
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17. The locking mechanism of claim 10 wherein said receptacle is at least partially defined by a wall and said wall includes a tapered portion.
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18. A system comprising a plurality of locking mechanisms as defined by claim 10 and further comprising:
a computer system for controlling operation of each of the locking mechanisms via selective actuation of each of said motors, said computer system establishing selectively definable groups of locking mechanisms, one group of locking mechanisms being further controllable individually via remote access devices and a second group locking mechanisms is controllable solely by the computer system.
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19. The system of claim 18 wherein the computer system actuates particular locking mechanisms depending upon time of day.
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20. A locking mechanism for engaging a strike, the locking mechanism comprising:
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frame means configured to receive the strike;
locking means mounted to said frame means for reciprocating between a retracted position and an extended position, said locking means being configured for mating with the strike when the locking means is disposed in the extended position;
drive means for linearly driving said locking means;
a motor for driving a drive shaft;
a spring shaft having a first end and an axially spaced second end, the first end being engageable with said drive shaft; and
coupling means for coupling the second end of said spring shaft to permit limited axial movement of said second end;
wherein said drive means is configured to engage individual coil faces of said spring shaft during rotation thereof whereby said locking means is resiliently urged by said spring shaft toward the extended or retracted position.
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Specification
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Current AssigneeHarrow Products (Delaware) LLC (Allegion PLC)
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Original AssigneeHarrow Products Incorporated
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InventorsFrolov, George
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Primary Examiner(s)Gall, Lloyd A.
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Application NumberUS09/495,497Time in Patent Office686 DaysField of Search702/77, 702/80--82, 292/144US Class Current70/280CPC Class CodesE05B 17/22 Means for operating or cont...E05B 2015/0406 wound in a cylindrical shapeE05B 2047/0015 Output elements of actuatorsE05B 2047/0025 in the form of groovesE05B 2047/0031 of the elastic typeE05B 47/0012 with rotary electromotors a...Y10T 292/1021 MotorY10T 70/7062 Electrical type [e.g., sole...Y10T 70/7113 Projected and retracted ele...
