Method for controlling rotation of dual concentric cylinder pin-tumbler lock

Abstract

A pick resistant lock assembly has two lock sections which can be opened in two stages separated by time using a single key. The first locked section is rotated slightly by the use of the key, whereupon the second locked member is released from being locked by the isolated stack of locking pin tumblers and is then also made connective to the first lock section by a gear connective to the lock housing such that the first lock section and second lock section can then be rotated together, but only if the selectively machined key had been used in the beginning, else further rotation of either member is prevented by the multiple stacks of locking pin tumblers that are common to both.

Claims

1. A lock assembly, comprising: an outer housing having a bored cylindrical cavity; an intermediate cylinder having a diameter to rotatably fit the bored cylindrical cavity of the outer housing, and a longitudinally, concentrically bored cylindrical cavity; an inner cylinder having a diameter to rotatably fit the longitudinally and concentrically bored cylindrical cavity of the intermediate cylinder; a gear having a generally radial slot, a first arcuate recess, a radially outwardly opening slot, and a second arcuate recess, arranged in a circumferential direction thereof; a provision to rotatably fit the gear to the intermediate cylinder; a fulcrum pin attached to or part of the outer housing with a diameter to slidably fit the generally radial slot, located to ensure engagement with the generally radial slot at all times, a gear drive pin attached to or part of the inner cylinder with a diameter to slidably fit the radially outwardly opening slot, located to ensure engagement with the radially outwardly opening slot when rotation of the inner cylinder within the intermediate cylinder positions the gear drive pin into physical contact with the gear; a cam attached to or part of the inner cylinder having a profile to fit the first arcuate recess and the second arcuate recess, oriented so the profile is concentrically aligned with the inner cylinder, located to ensure engagement with the first arcuate recess or the second arcuate recess when rotation of the inner cylinder positions the gear drive pin out of physical contact with the gear, and with a recess around the gear drive pin to allow for movement of the radially outwardly opening slot around the gear drive pin.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

(1) FIG. 1 is an exploded view of the concentric cylinders type of pin-tumbler lock of this invention.

(2) FIG. 2 is a sectional view of the concentric cylinder type of pin-tumbler lock of this invention.

DETAILED DESCRIPTION OF THE INVENTION

(3) Outer housing 3 is expected to be mounted solidly to the barrier being locked or part of the barrier itself so that it is the reference frame within which the other components move. In the starting position, key 4 is not inserted and locking pin stacks 5 are all in alignment.

(4) Once the key 4 is inserted into inner cylinder 1, the locking pin stacks 5 line up so with the break line between inner cylinder 1 and intermediate cylinder 2, and any rotation of the key 4 will cause rotation of inner cylinder 1 directly and independent of intermediate cylinder 2 and outer housing 3 until there is no longer overlap between the portion of pin stacks 5 located within inner cylinder 1 and the portion of pin stacks 5 located within intermediate cylinder 2. Independent rotation between inner cylinder 1 and intermediate cylinder 2 occurs when the gear 6 first arcuate recess and cam 9 are lined in a way so that they are concentric with one another. This change in relative angle misaligns the locking pin bores so as to preclude any further probing manipulation of the locking pin stacks 5 in order to change their position within intermediate cylinder 2, or outer housing 3. Once this motion has been achieved, gear drive pin 7 engages with the gear 6 radially outwardly opening slot. If the locking pin stacks 5 line up so with the break line between intermediate cylinder 2 and outer housing 3, the continued rotation of the key 4 in the same direction will continue to cause a rotation of inner cylinder 1 and start actuation of gear 6. Gear 6 has its axis of rotation affixed to intermediate cylinder 2 by way of gear pin 10 and a generally radial slot in the gear 6 is in contact with gear fulcrum pin 8 located on the outer housing 3. Thus, further rotation of inner cylinder 1 will cause rotation of gear 6 which will cause intermediate cylinder 2 to rotate in the same direction in relation to inner cylinder 1. If the rotation of inner cylinder 1 is continued in this direction, once gear 6 second arcuate recess and cam 9 are lined in a way so that they are concentric with one another, gear drive pin 7 is no longer in contact with gear 6, causing rotation of intermediate cylinder 2 to be halted and the rotation of inner cylinder 1 may be continued independent of intermediate cylinder 2 and outer housing 3. The rotation of inner cylinder 1 may be continued.

(5) At this position, rotation of the key 4 in the opposite direction may occur and will directly drive inner cylinder 1 independently of intermediate cylinder 2 and outer housing 3 until gear drive pin 7 is again in contact with gear 6. When this position is achieved, gear drive pin 7 again engages with gear 6 radially outwardly opening slot. The continued rotation of the key 4 in the same direction will continue to cause a rotation of inner cylinder 1 and will cause rotation of gear 6 which will cause intermediate cylinder 2 to rotate in the same direction in relation to inner cylinder 1. If the rotation of inner cylinder 1 is continued, once gear 6 first arcuate recess and cam 9 are lined in a way so that they are concentric with one another, gear drive pin 7 is again no longer in contact with gear 6, causing rotation of intermediate cylinder 2 to be halted and the rotation of inner cylinder 1 may be continued independent of intermediate cylinder 2 and outer housing 3. The rotation of inner cylinder 1 may be continued until the locking pin stacks 5 are in alignment.

(6) From the starting position, once the key 4 is inserted into inner cylinder 1, the initial rotation of the key 4 in the opposite direction as before will cause rotation of inner cylinder 1 directly and independent of intermediate cylinder 2 and outer housing 3.