CA1230748A - Lever lock safety device - Google Patents

Abstract

ABSTRACT
"Lever lock safety device"

The levers (5) of a lock which retain a bolt (3) in its locking position are prevented from moving to release the bolt by a latching member (12) in its latching position. The latching member (12) is movable along a guide (10) to an unlatching position by action of a solenoid (15). Insertion of the key (6) into the lock operates a switch (20) which actuates a timer operating the solenoid after a delay.

Description

~23~8 "Lever lock sa~e-ty device"

This invention relates to the field oE loc~cs of the kind in which a movable bolt is retained in its locking position by at least one movable locking member 05 which normally assumes a rest condition in which it engages with the bolt to prevent its movement, but ean be moved out of the rest condition to a bolt-release condition by rotation of a key having an appropriate key-bit shaped to coact with the locking member. The invention has particular, but not exclusive, applieation to lever locks in which a set of key levers retain the bolt in its locking position.
It is desirable under certain circumstances to have loeks, sueh as safe locks and vault loeks, eontrolled on a timed basis, so that the loek eannot be opened even with the proper key unless the timing means has reached a predetermined "open" period. Ilowever, the fixing of predetermined "open" periods ean be awkward for the user who desires nccess at random times. For ~0 avoiding this disadvnn-tage, lt ls alr~ndy Icn{)wn to have a saeety device, for attnchmellt to or incorporation in a lever lock, in which a certain relatively short delay (between insertion Oe the key and capability of opening the lock) is obtained by means of a clockwork-operated latching mechanism which is wound up by rotation of the 7a~8 key in the lock.
The object of the present invention is to provide an improved safety timer device, ~rimarily for a lever lock, which permits inter alia of (i) having the 05 ~delay" period commenced (or re-commenced) automatically at each time of insertion of the key, (ii) completely immobilising the key levers or other locking member(s) at all times other than during an ~open~ period which follows the ~delay~ period, and (iii) wider variation of the ~delay~ period than provided by the known clockwork-operated latching mechanism.
According to a first aspect of the present invention, there is provided a key-operable lock having a movable ~olt which is retained in its locking position by at least one movable locking member engaging the bolt but movable by rotation of a coacting key-bit of the key to release the bolt for movement to an unlocking position, wherein the lock further comprises a latching bar movable along a guide extending laterally of the bar between a latching position, in which the latching bar extends across the path of movement of the locking member to act as an abutment preventing movement of the locking member to release the bolt, and an unlatching position;
latch-control means acting on the latching bar to move .

~ 23~)'7~8 said bar from its latching to its unlatching position;
switch means operable by movement of the key in the lock; and a timer actuated by the ~witch means and acting on the latch-control means to cause movement of 05 the latching bar from its latching position to its unlatching~position after a delay following loperation of the switch means.
According to a second aspect of the present invention there is provided a lock control device for 10 attachment to a key-operable lock having a movable bolt which is retained in its locking posi~ion by at least one vable locking member engaging the bolt but movable by rotation of a coacting key-bit of the key to release the bolt for movement to an unlocking position~
lS said device compri~ing attachment means for securing the device to the lock; a latching bar adapted to extend into the lock and movable along a guide extending laterally of the bar between a latching position, in which the latching bar extends across the path of movement of the locking member to act as an abutment preventing movement o the locking member to release the bolt, and an unlatching position;
latch-control means acting on the latching bar to move said bar from its latching to its unlatching position;
switch means adapted to be operated by movement of the key in the lock; and a timer actuated by the switch means and acting on the latch~control means to cause movement of the latching member from its latched position to i~s unlatched position after a delay following operation of the switch means.
05 As mentioned previously, the invention has particular application to lever locks, in which a set cf key levers constitute the at least one locking member and serve to retain the bolt in its locking position. This type of lock is widely used to secure safes, vaults, strong rooms and the like high security zones.
Usually, the locking member will be resiliently biassed into its latching position by, for example, a helical tension spring or a torsion coil spring.
Advantageously, the bar also extends across the path of movement of the locking member when it is in its unlatching position and the guide extends beyond the unlatching position of the bar to permit further movement of the bar with the locking member as the latter moves to its unlocked position.
Suitably, the guide L-~ L-shaped and the bar in its unlatching position i~ at the junction of the guide limbs. The guide conveniently can be a slot provided in a wall of the lock casing.
Preferably, the latch-control means is electrically powered and usually will comprise a 5 ~3~7~
solenoid in an electrical circuit with the switch means and the timer. It is also preferred tha~ the latch-control means is time-controlled so that it retains the latching member in its unlatching position only for a 05 predetermined time interval, e.g. 30 seconds to 3 minutes and thereafter allows or causes said member to return to its latched position. In order to reduce the risk of burning out electrically powered mean~ such as the solenoid during such time interval, provision can be made to reduce the voltage applied from an operating voltage, e.g. 24 volts, to a holding voltage, e.g. 9-12 volts.
In a preferred embodiment of the invention, the latch-control means comprises a solenoid as aforementioned and the solenoid is articulately connected to the bar by a connecting rod which extends substantially perpendicularly from the bar.
A further switch means actuable upon movement of the locking member to its unlocking position advantageously may be provided to break the electrlcal power supply circuit to the latch-control mean~.
Suitably, said switch means is actuated by movement of the latching bar to a position beyond its unlatching position and corresponding to the unlocked position of the locking member.
The key-operated switch means may be actuated by - 6 - ~3~7~8 rotation of the key in the lock but preferably is actuated by insertion of the key. Suita~ly such switch means has an actuator aligned with the rod of the key and arranged to actuate the switch upon full insertion 05 of the key into the lock.
In order that the nature of the invention may be readily ascertained, embodiments of a lock of the present invention are hereinafter particularly described with reference to the Figures of the accompanying drawings. In the drawings:-Fig. 1 is a view on the line I-I of Fig. 2 of a lock in accordance with one embodiment of the invention;
Fig. 2 is an end elevation of the lock of Fig. 1 15- from which some parts have béen omitted for clarity;
Fig. 3 is a plan view of the lock of Pig. 1 from which some parts have been omitted for clarity;

~2307~8 -- 7 ~
Fig. 4 is a view on the line IV-IV of Fig. 5 of a lock in accordance with another embodiment of the invention;
Fig. 5 is a plan view of the lock of Fig. 4 from 05 which some parts have been omitted for clarity;
Fig. 6 is an end elevation Oe lock of Fig. 4 from which some parts have been omitted for clarity.
Fig. 7 is a detail sectional view, to an enlarged scale, of the key-operated switch means of the lock of Fig. 4;
Fig. 8 is a circuit diagram of a first arrangement for control of the solenoid of the locks of Figs. 1 and 4;
Fig. 9 is a circuit diagram of a second arrangement for said control which includes provision for inserting, into the time delay, one or more periods of 24 hours, as well as the normal time delay;
Fig. 10 is a functional diagram of the circuit of Fig. 9;
Fig. 11 is a perspective view of part of a lock in accordance with a further embodiment Oe the invention;
and Fig. I2 is a view corresponding to F'ig. 11 but Wittl an outer wall removed.
~5 The lock illustrated in Figs. 1-3 comprises a lock body 1 having in one end wall a passage 2 in which a ~3~7~8 bolt 3 can slide into withdrawn and projecting positions, corresponding respectively to unlocked and locked states of the article, such as a safe door, on which -the lock is mounted. In these figures, the bolt 3 ~5 is seen in its projecting position. The lock mechanism is conventional, to the extent that it includes a plurality of levers 5 which are pivotable about a shaft 4 and which in their rest (i.e. horlzontal) position engage with respective internal portions of the bolt 3 to retain the bolt in locked or unlocked position. The levers are raisable, about their pivot axis, by means of a key 6 having the usual shaft 7 on which is provided the usual key-bit having projections ot`
different radial heights adapted to cooperate each with a respective lever. The end of the key shaft projects at 7a through the lock body 1. The operation of the lock is normal, in that rotation of the key tbrough approximately 180- causes lifting of the levers to enable the bolt to be slid into the withdrawn or protruding position.
~ support plate 8 is mo~ tefl at a splLcint~ troln the rear face ~E the lock body I by ~our pil]ars ~, on]y one of which is shown t`or clarity in l~'igllres ~ and 3.
In the rear face of the lock body (see i~ig. 1) there is ~5 provided an L-shaped guide aperture 10, the foot zone or limb 10a of which corresponds with the position of ~;~30~
g tlle upper surface of the levers 5 before they have been raised by the key-bit. A similar guide aperture 11 is provided in the support plate 8, in alignment with the aperture 10. ~ latching bar 12 is positioned with one 05 end engaged through aperture 10 into the lock body 1 so as to closely overlie all of the levers 5, and with its other end projecting through aperture 11 of the support plate 8. The latching bar is urged down-wardly by a spring 13 engaged at its lower end on a fixed stud 14 on the support plate 8. On the inner face of the support plate 8 there is mounted a solenoid 15 whose armature 16 is urged to extended position by a compression spring 17. The free end of the armature 16 is coupled, by a vertically pivotable joint 18 to a rod 19 engaged on the latching bar 12. In its rest condition, the latching bar 12 is seated by its ends in the foot zone or limb lOa of the guide aperture 10 and in the corresponding foot zone or limb of the guide aperture 11, to which position it i5 urged by the compression spring 17 and the tension spring 13.
In this position, the end 12a of the latclling bar 1.~
siSuated inside the 1Ock l~ody 1 closely overlies the levers 5 and prevents -theln from rising, thus securing the lock mechanism agai.nst being ol~erated by the key ~5 6.

i230748 When the solenoid 15 is energised, the armature 16 is moved inwardly, against the pressure of spring 1~, and the latching bar l~ is drawn along the foot limb lOa of the aperture lO and ll until it is positioned at 05 the base of the upright limb lOb and the corresponding portion of aperture 11. In this position, the latching bar l2 can rise, against the small tension of the spring 13, when the key 6 is rotated to lift the levers 5. Thus, so long as the solenoid 15 is energised, the lock can be operated by its key in the usual way.
The bolt 3 may have a greater height, as shown at 3a in Fig. l, and may be cut away, as at 3b, so as not to foul the latching bar 12 when the bolt is in the outward locking (i.e. protruding) position illustrated.
When the bolt has been moved inwards to the unlocking (i.e. withdrawn) position, the upper surface 3c of the bolt then rides under the latching bar 12 to ~)revent it from passing downwardly in limb lOb and then forwardly into limb lOa, i.e. to prevent inadvertent latching of the levers 5 when the lock is in the unlocked state.
~ n the inner ~ace oX tht! sllpport plato 8 there is mounted a micro-sw1tcll 20 having itS actuator 21 aligned with the protruding end 7a of the key shaf-t 7.
When the key shaft 7 i, engaged fully into the lock body 1, Xor normal operation of the lock, the end 7a has moved tlle actuator 21 to close the micro-switch ~() .

~23Q748 . 11 --A stud 22 mounted on the support plate 8 carries a micro-switch 23 having its actuator 24 positioned for engagement by the latching bar 12 when the latter has been raised up the upright zones or limbs of the 05 apertures 10 and 11 by the lifting of the levers 5. The micro-switch 23 is normally closed-circuit, and is in circuit with the current feed to the solenoid 15. When the actuator 24 is moved upwardly by the latching bar 12, the micro-switch is made open-circuit and the feed of current to the solenoid is cut off. The actuator 24 is spring-urged (not shown) towards its closed-circuit condition.
The micro-switch 20 is arranged in an electronic time-delay circuit having a delay period which is variable from, say, 3 minutes to 1 hour. Engagement of the key fully into position in the lock body 1 causes actuation of the micro-switch 20 and the delay period commences. During this delay period, the key cannot be rotated to open the lock, because the latching bar 12 is in the foot limbs of the apertures 10 and 11 and thus prevents the key levers 5 ~rom rising. At the end o~ the predetermined delay period, the l;lme- delay circuit switches n current feed to the xolenoid 15, causing the latching bar 12 to be drawn along the foot limbs of the apertures 10 and 11. The latching bar 12 is then free to ride up the upright position of the ~3~7~3 apertures 10 and 11, and accordingly -the levers 5 can rise, when the key is turned, to permi-t movement of the bolt 3. ~s soon as the levers 5 have risen su~-ficiently, the latching bar 12 strikes the actuator 05 24 of the micro-switch 23, and current feed to -the solerloid is cut off, -thereby saving wastage of current.
~s soon as -the key levers 5 have returned to their lower position, the latching bar 1~ has also travelled downwardly, under the action of -tension spring 13, and is then projected along into the foo-t lirnbs of aperture 10 and 11 by the thrust of the compression spring 17.
The time-delay circuit also provides a predetermined "open" period, which might be varied from, say, 30 seconds upwards, o~ tne current feed to the solenoid 15. If the key has not been rotated, during the "open" period perrnitted, the solenoid ceases to be energised and the latching bar 12 travels back to the retaining position ln the manner described above.
Lf the key 6 is xemoved and re-inserted, during the "open" period permitted, the actuation again o~ the micro-switch 2~ commences a new delay period during which the lock cannot be operated.
~ s the key levers 5 are held against rising, by the latching bar 12, at all times when the solenoid 15 is not en~xgised, there is no possibility of the lock being picked, except during an "open" period. This - 13 _ ~3~748 period can be made very short, ~nd in any event the key must be in position for it to occur.
The lock cannot be forced open by forced rotation of the key, because the key levers 5 are secured 05 against upward movement by the latching bar 12 seated in the foot limbs of the apertures 10 and 11.
If the key is rotated so forcefully as to break it, the lock can be operated normally after removal of the broken key and insertion of another replacement key.
Additional optional features which may advantageously be included are:-(i) a buzzer or LED warning of "open" period and/or run-down of batteries providing the current feeds.
(ii) provision of a constant re-charging of current-supply batteries, from the main supply.
(iii) operation directly by a mains-fed current-feed system.
(iv) the time-deLay ci.rcllltry ma~y be additi.orlalLy arranged on a ~-hour clock basis to provide one or more pre-set user times.
(v) the time delay circuitry may be arranged on a ~4-hour basis to prevent operation during a selected night-time period.

~3074~3 (vi) An L.C.D. clock may be provided, to include operation of item (v) above.
Referring now to Figs. 4 to 7, there is shown a second embodiment which has minor variations of some of 05 the items shown in Figs. 1 to 3. In the lock of Fig. 1 there is a spring l~ which has the function of urging the latching bar downwardly. In the lock of Yig. 4, the tension spring 13 is replaced by a torsion spring 13a which is mounted on a pillar ]3b and has one end secured in a transverse slot of the pillar, and the other free end 13c positioned to bear down on the latching bar 12.
In the lock of Fig. 1 there is a micro-switch 23 having its actuator 24 positioned to be engaged by the latching bar 12 when the latter has been raised up the upright zone of the apertures 10 and 11. In the lock of Fig. 4, that arrangement is replaced by a micro-switch having its actuator 24a abutted by a resilient arm 25 carrying a roller 26 which is contacted and moved by the latching bar 12 as it rises Up the vertical zone lOb of the sLot l~.
In the loc,k ol` ~'ig. 1 therl? is a micro-switch 20 having its actuator ~1 aligned with the protruding end 7a of the key shaft 7, thereby to cause the ~5 micro-switch to close when the key is fully inserted.
In the lock of Fig. 4, the micro-switch 20 and the i230748 actuator 21 are replaced by a micro-switch 20a having its actuator 21b entering a lateral slot 27 in a housing 28 in which is arranged a plunger 29 loaded by a compression spring 30 to move in the direction of the 05 arrow. The housing 28 receives the protruding end 7a of the key shaft and as the key is pushed fully home in the direct~on of the arrow the plunger 29 is moved to shift the micro-switch actuator 21a.
Fig. ~ shows a diagram for the electrical circuit as so far described.
Fig~ 9 shows a diagram for a modified circuit which allows for the introduction of selectable longer periods of time into the delay which is obtainable between insertion of the key into the lock and the latching mechanism becoming actuated to move from latching position to unlatching position.
Fig. 10 shows the functional diagram corresponding to Fig. 9. Referring firstly to the upper part of Fig.
10 there is seen a timing interlock 30 which determines a first (shorter) period oi time say 0-60 minutes.
Output from interlock 30 passes through a gatlng circuit 31 to a circuLt 32 for contro]ling the operation of the solenoid 1~. When only the delay appertaining to interlock 30 is to be used the control Iine 33 of gating circuit ~1 is earttled tllrough the N
(normal) corltacts of ganged switches 34. When it is ~23~)~48 desired to insert, say, one, two, three or four additive periods of 24 hours each to the "normal"
delay, the ganged switches 3~ are set appropriately to position 1,2,3 or 4, thereby bringing into circuit the 05 various outputs of a counter 35. The counter 35 essentially counts output signals from a clock circuit 36 (i.e. "real time") and an output is delivered from the counter, according to the switch position selected for switch 34, after the appropriate period of 24 hours or a multiple thereof, thereby releasing the gating circuit 31, such that the solenoicl 15 only becomes actuated after the total additive time period of the counter circuit and the timing interlock. The current real time, i.e. time of day when setting, is set up by operation of the clock circuit 36.
The device can be fitted to many lever safe locks currently on the market, with a minimum of modification to the lock.
Referring to Figs. 11 and 12 there are shown minor variations in the structure of Figures ~-7, the correspondin~ parts beillg irldicated by the s~lme reference numerals but Wi th tlle addition of 100. The L-shaped slot 10 of the lock of Fig. 1 is replaced by a modiEied slot ltl having lL chamered portion to permit ~5 the bar 11~ to tilt when its other end rides up the vertical limb of L-shaped slot 11~. The rod 119 is ~L~30748 connected to the arma-ture of solenoid 115 by the spring 117 and the torslon spring 113 extends coaxially therewith.
It will be appreciated that the invention is not 05 restricted to the particular details described above with reference to the drawings and that numerous modifications and variations can be made without departing from the scope of the invention as defined in the following claims. For exarnple, optical switches can be used operated by flags movable with the relevant component instead of the micro-switches shown.
Further, an alarm can be provided to indicate when the latching member is in its unlatching position. The control circuit, including the timer can be located at a position remote from the lock and/or a back-up battery supply provided.

Claims (20)

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:

1. A key-operable lock having a movable bolt which is retained in its locking position by at least one movable locking member engaging the bolt but movable by rotation of a coacting key-bit of the key to release the bolt for movement to an unlocking position, wherein the lock further comprises a latching bar movable along a guide extending laterally of the bar between a latching position, in which the latching bar extends across the path of movement of the locking member to act as an abutment preventing movement of the locking member to release the bolt, and an unlatching position; latch-control means acting on the latching bar to move said bar from its latching position to its unlatching position; switch means operable by movement of the key in the lock; and a timer actuated by the switch means and acting on the latch-control means to cause movement of the latching bar from its latching position to its unlatching position after a delay following operation of the switch means.

2. A lock as claimed in Claim 1, wherein the at least one locking member consists of a set of key levers.

3. A lock as claimed in Claim 1, wherein the latching member is resiliently biassed into its latching position.

4. A lock as claimed in Claim 1, wherein the bar also extends across said path when it is in its unlatching position and the guide extends beyond the unlatching position of the bar to permit further movement of the bar with the locking member as the latter moves to its unlocked position.

5. A lock as claimed in Claim 4, wherein the guide is L-shaped and the rod in its unlatching position is at the junction of the guide limbs.

6. A lock as claimed in Claim 1, wherein the guide is a slot provided in a wall of the lock casing.

7. A lock as claimed in Claim 1, wherein the latch control means is time-controlled so that it retains the latching bar in its unlatching position only for a predetermined time interval and thereafter allows or causes said bar to return to its latched position.

8. A lock as claimed in Claim 1, wherein the latch-control means comprises a solenoid in an electrical circuit with the switch means and the timer.

9. A lock as claimed in Claim 8, wherein a further switch means is provided which is actuable upon movement of the locking member to its unlocking position to break the electrical circuit to the solenoid.

10. A lock as claimed in Claim 8, wherein a connecting rod extends substantially perpendicular to the latching bar and articulately connects the bar to the solenoid.

11. A lock as claimed in Claim 1, wherein the key-operated switch means has an actuator aligned with the rod of the key and arranged to actuate the switch upon full insertion of the key into the lock.

12. A lock control device for attachment to a key-operable lock having a movable bolt which is retained in its locking position by at least one movable locking member engaging the bolt but movable by rotation of a coacting key-bit of the key to release the bolt for movement to an unlocking position, said device comprising attachment means for securing the device to the lock; a latching bar adapted to extend into the lock and movable along a guide extending laterally of the bar between a latching position, in which the latching bar extends across the path of movement of the locking member to act as an abutment preventing movement of the locking member to release the bolt, and an unlatching position; latch-control means acting on the latching bar to move said bar from its latching position to its unlatching position;
switch means adapted to be operated by movement of the key in the lock; and a timer actuated by the switch means and acting on the latch-control means to cause movement of the latching bar from its latched to its unlatched position after a delay following operation of the switch means.

13. A device as claimed in Claim 12, wherein the latching member is resiliently biassed into its latching position.

14. A device as claimed in Claim 13, wherein the bar also extends in use across said path when it is in its unlatching position and the guide extends beyond the unlatching position of the bar to permit further movement of the bar with the locking member as the latter moves to its unlocked position.

15. A device as claimed in Claim 14, wherein the guide is L-shaped and the bar in its unlatching position is at the junction of the guide limbs.

16. A device as claimed in Claim 12, wherein wherein the latch-control means is time-controlled so that it retains the latching bar in its unlatching position only for a predetermined time interval and thereafter allows or causes said member to return to its latched position.

17. A device as claimed in Claim 12, wherein the latch-control means comprises a solenoid in an electrical circuit with the switch means and the timer.

18. A device as claimed in Claim 17, wherein a further switch means is provided which in use is actuable upon movement of the locking member to its unlocking position to break the electrical circuit to the solenoid.

19. A device as claimed in Claim 17, wherein a connecting rod extends substantially perpendicular to the latching bar and articulately connects the bar to the solenoid.

20. A device as claimed in Claim 12, wherein wherein the key-operated switch means has an actuator aligned with the rod of the key and arranged to actuate the switch upon full insertion of the key into the lock.