NZ274117A - Door lock; comprises a moving bolt lock including a casing having an arcuately movable locking bolt, a slidable latch bolt and an elongated deadlock member - Google Patents

Description

New Zealand No. 274117 International No.

TO BE ENTERED AFTER ACCEPTANCE AND PUBLICATION Priority dates: 06.10.1993; Complete Specification Filed: 05.10.1994 Classification:^) 7.05C3/16,22,30; E05B65/02 Publication date: 24 October 1997 Journal No.: 1421 NEW ZEALAND PATENTS ACT 1953 COMPLETE SPECIFICATION Title of Invention: Improvements in universal locks Name, address and nationality of applicant(s) as in international application form: LADISLAV STEPHAN KARPISEK, an Australian citizen of 86 Woodfield Boulevarde, Caringbah, NSW 2229, Australia New Zealand No. International No. 274117 NEW ZEALAND PATENTS ACT 1953 COMPLETE SPECIFICATION Title of Invention: Improvements in universal locks Name, address and nationality of applicant(s) as in international application form: LADISLAV STEPHAN KARPISEK, of 86 Woodfield Boulevard^ Caringbah, NSW 2229, Australia, c-'iA-; 2bt\ . 274 1 1 IMPROVEMENTS IN UNIVERSAL LOCKS.

This invention relates to moving bolt locks of the type used commonly on all forms of doors including security doors of the type including a rectangular frame made from aluminium extrusions with an infill of 5 expanded metal mesh. The lock of this invention is however not limited to use on security doors.

Locks for the above purpose desirably have several characteristics including, (I) an ability to be used in right hand or left hand opening doors, 10 (ii) a moving bolt which normally has a short projection configuration so that only a small force acting on the closing door will cause the bolt to retract as the nose of the bolt engages the striker plate on a door jamb, this allows an automatic door closer of low operating power to be fitted to the door, (iii) an automatic change to a long projection configuration when the tongue is aligned with the aperture in the striker plate on a door jamb, (iv) an automatic return of the bolt to the short projection configuration on retraction of the bolt back into the lock body by a lock operating handle in a door opening operation, 2 o (v) provision of deadlock means to deadlock the bolt but only when in the extended projection configuration, (vi) multiple means to both activate and deactivate the deadlock means, including a manual means operational from what would be the inside of the door and key operated means operable from both sides of the door and which will over-ride the manual means, (vii) a security means to retain the deadlock means in its operative position to thereby prevent unauthorised release of the deac(iock means, r-neE 1-G7 \ ) 1 .—4 \ 27 A 117 The above features in various combinations are to be found in several known locks. However, an inspection of the mechanisms of the known locks (many of which are patented) reveals the known locks rely on reasonably complex interactions between numerous lock components in order to provide the desired characteristics. The present applicant has set out to provide a lock which will provide all of the desirable characteristics referred to above but with fewer and simpler components than is the case with the known locks.

The lock of this invention can be readily adapted to provide an optionally usable, feature whereby multiple bolt actuation to secure a door at spaced apart locations is possible. An example of a typical arrangement would be one in which there is a mid-height main lock according to this invention and associated lower and/or higher supplemental locking bolts, the design of which does not form part of this invention.

A principle feature of the present lock is that it can be fitted to either a sliding door or a hinged door, a feature which is not known by the inventor to be available in other door locks having the desirable features listed above.

Broadly stated the present invention provides a door lock including a casing for mounting in or on a door, an arcuately movable locking bolt mounted in said casing, said locking bolt being movable between an extended position in which a locking portion of said locking bolt extends beyond said casing and a retracted position where at least substantially all of said locking portion is housed in said casing, first biassing means to bias said locking bolt to said extended position, a latch bolt slidably mounted in said casing, said latch bolt being movable between an extended position in which a nose portion of said latch bolt extends beyond said casing and 27 A 1 1 7 a retracted position, second biassing means to bias said latch bolt to its extended position, latch means interconnecting said locking bolt and said latch bolt where said latch means releasably retains said locking bolt in a position intermediate is extended and retracted positions, said locking bolt 5 when in said intermediate position has a striker plate engaging end of said locking portion spaced further from said casing than the nose of said latch bolt is spaced from said casing, and an elongated deadlock member slidably mounted in said casing positionable by longitudinal movement in one or other of a deadlock position where retracting rotational movement 10 of the locking bolt is prevented and a non-deadlock position.

Presently preferred embodiments of the invention will now be described with reference to the accompanying drawings in which: Fig.1 is a schematic view of a first embodiment of the invention, with a cover plate removed, showing the locking bolt and latch bolt as they is appear when the lock is in the normal position ready for use, the locking bolt being in the short projection condition, the lock is provided with a remote bolt actuator or a first form, Fig.2 is a view similar to Fig.1 with the locking bolt retracted as would be the case when a door fitted with the lock is being closed, the locking bolt 20 having been retracted manually or by engagement with a striker plate, Fig.3 is a view similar to Fig.1 showing the locking bolt in the long projection condition with the deadlock member 'snib' operated, Fig.4 is a view similar to Fig.3 where the deadlock is key operated, Fig.5 is a view similar to Fig.1 with the remote lock actuator removed, 25 Fig.6 is a back view of the remote lock actuator of Fig.1, Fig.7 is a view similar to Fig.1 showing a remote lock actuator of a second form, 274 1 1 7 Fig.8 is a back view of the actuator of Fig.7, Fig.9 is a view similar to Fig.1 showing a remote lock actuator of a third form, Fig.10 is a fragmentary view showing a locking bolt and a latch bolt of a form different to that shown in Fig.1, the locking bolt being in the short projection condition, Fig.11 is a view similar to Fig.10 showing the locking bolt fully retracted, Fig.12 is a view similar to Fig.10 with the locking bolt in the long projection condition, Fig.13 is a fragmentary view showing a locking bolt and a latch bolt arrangement where the latch bolt differs from that shown in Fig.10, Fig.14 is a view similar to Fig.13 showing the locking bolt fully retraced and Fig.15 is a view similar to Fig.13 showing the locking bolt in the long projection condition.

In Fig.1 there is shown a lock casing 1 having a mounting plate 2 and a body 3. The body 3 is defined by walls 4,5,6 upstanding from a panel 7 such that the walls 4,5,6 and the mounting plate 2 enclose a cavity in which the lock working parts are housed. There are other lugs and walls upstanding from the panel 7 of a shape and size and for purposes as are hereinafter described.

The principal operating member of the lock is a pivotally mounted hook shape locking bolt 8 with a nose 9 which is rounded or angled to allow the nose to smoothly engage a striker plate on a door jamb. The bolt 8 has a primary leg 10 with upper and lower bosses 11 engaged in holes in the panel 7 and a cover plate to be mounted over the cavity defined by the walls 2,4,5,6 thereby providing the pivotal mounting for the bolt 8. 274 1 1 There is a latch bolt 12 slidably mounted in a slot in the casing 3 defined by surface 13 and a lug 14. The latch bolt 12 is biassed to an extended position by a spring 15 which urges a lug 16 on the upper face of the latch bolt 12 against a stop shoulder 17 in the slot. Latch means releasably 5 interconnects the locking bolt 8 and the latch bolt 12. The latch means includes a latch lug 18 on the underside of the latch bolt 12 engaged as shown in a co-operating notch 19 in the curved upper edge of the locking bolt leg 10. As can be seen from the Fig.1 the engagement of the lug 18 in the notch 19 places the front face 20 of the latch bolt 12 out of alignment 1 o with the front face 9 of the locking bolt 8 for reasons to be explained.

The locking bolt 8 is biassed to the extended configuration by a spring 21 housed in a face groove 22 in the boss 11 of the locking bolt 8 where one end is engaged with an end 22 of the slot and the other spring end abuts a pin 21 a which will project into the slot from the cover plate when 15 affixed. It is to be noted that there is a first radial leg 23 on the boss 11 and the leg 23 has a lug 24 standing above an edge face 25 of the leg 23. It is to be noted further that there is a second radial leg 26 on the boss 11 and the leg 26 has a lug 27.

Mounted in the cavity defined by the walls 2,4,5,6 there are two sliding 2 o elements. One is a deadlocking element numbered 28 and the other is a remote bolt actuator 29. The deadlocking element 28 can be moved by the tongue 30 of a key lock 31 acting on the faces 32,33 of a notch in the element 28 to cause it to slide longitudinally a maximum extent. The deadlocking element 28 can also be moved longitudinally (but to a lesser 25 extent) by a snib member comprising a bossed arm 34 engaged in a slot 35 in the element 28 where the bosses supporting the arm 34 are pivotally engaged in holes in the panel 7 and in the cover to be fitted over the cavity. 274 The element 28 is supported laterally by the cavity wall 2 and rib 36 and such other means as may be considered desirable, although in practice other lateral supporting means has not proved essential. In the event other lateral supporting means were to be provided it could be in the form 5 of a rib upstanding from the panel 7 in juxtaposition to an inner edge of the element 28. There is a pin 38 which passes through a slot 39 in the element 28 and pin 38 is threaded into a further rib 40 upstanding from the panel 7 and entered into the lock 31 to retain it in place.

The actuator 29 in the form shown is for the operation of remote locks 10 by both snib and key operation of the deadlock element 28. The actuator 29 is housed at its lower end in a pocket formed by ribs 41 and 42 upstanding from the panel 7 and at its upper end the actuator 29 is engaged against an abutment in the form of a stop rib 43 upstanding from the panel 7. The actuator in Fig.1 is shown biassed upwardly by a spring 15 44 so the upper end 45 of the actuator 29 abuts the rib 43 which provides an actuator longitudinal movement preventing abutment means and is biassed laterally by a spring 46 to cause the actuator to bear against the boss 11 of thelocking arm 8 which provides an actuator lateral positioning abutment means. There is a cam face 47 on the actuator 29 and there is 20 a correspondingly cam face 48 on an arm 49 on the deadlocking element 28. It is to be noted that at the upper end of the actuator 28 there is a projecting lug 50.

In a working sequence, where the lock is on a door and the door is closed to cause the end 9 of the bolt to be engaged with a striker plate 25 there will be an initial retraction of the bolt 8 with a freeing of the engagement of the lug 18 with the notch 19. When the end 20 of the latch bolt 12 engages the striker plate both the latch bolt 12 and the bolt 8 will '27 4 11 7 be moved back into the lock casing to the position shown in Fig,2. In this condition the arm 27 has engaged the shoulder 51 of the actuator and has compressed the spring 44 thereby separating the stop 43 and the end 45 of the actuator. This facilitates one mode of activation of the actuator as 5 will be explained later.

Fig.3 shows the following stage where the bolt 8 is aligned with the bolt opening of the striker plate allowing the bolt 8 to adopt the long projection configuration, however the latch bolt 12 remains retracted as it is still bearing on the striker plate. To deadlock the bolt 8 in the Fig.3 10 configuration the deadlock can be activated by rotation of a key in the mechanism 31. This aligns the lugs 24 and 50 and prevents the clockwise releasing rotation of the bolt 8. At the same time the cam faces 47 and 48 will engage applying a lateral force to the actuator 29 to move the actuator end 45 left of the rib 43 and the result is that stored energy in the spring 44 15 will cause the actuator 29 to rise and pass behind the rib 43. This can occur only when the locking bolt is in the Fig.3 condition with the arm 26 and lug 27 free of the shoulder 51 to allow the actuator 29 to move under the influence of the spring 44. As a consequence, if a remote lock device is in use with a pin 52 passing through an aperture in the back wall 5 of the 20 casing into a clearance hole 53 in the actuator 29, the remote lock mechanism will be operated.

In a deadlock by key operation the lock 31 would be operated and the lock tongue 30 acting on the shoulder 32 of the deadlocking element 28 will drive the deadlocking element 28 fully up to align the lug 50 with the notch 25 25 behind the lug 24 of the bolt leg 23, see Fig.4. This prevents forced opening rotation of the bolt 8.

As can be seen from Fig.1 the deadlocking element 28 is operable in 17411 both directions by the snib 34. However, if the deadlocking element 28 is operated by the key in the mechanism 31 the snib will lie as shown in Fig.3 in a recess 27 in the element 28 thereby preventing the deadlocking element 28 being released by the snib 34.

It will be noted that there is a detent means to hold the deadlocking element 28 in a selected position. The detent means comprises notches 56 in the face of the case wall 2 and a spring loaded ball 57 housed in the deadlocking element 28. The positions of the notches 56 correspond with the positions of the deadlocking element 28 as shown in Fig.1 (deadlocking 10 element 28 inoperative), in Fig.3 (deadlocking element 28 moved by the snib 34) and Fig.4 (deadlocking element 28 moved by operation of the keylock 31).

It is to be noted also that when the deadlocking element 28 is fully raised by operation of the key the end 60 of the element 28 is positioned over the 15 top end 61 of the rib 36 and in spaced relationship therewith. Any forced downward movement of the element 28 will cause engagement between 60 and 61 thereby preventing the element 28 being moved to an undeadlocked condition for the locking bolt 8. The lateral movement of the element 28 to achieve the above position results from the resilient bias 2 o acting on the ball 62 and the removal of the lock element 30 from the notch defined by faces 32,33. The lateral movement is limited by the engagement of the lug 63 with the body of the lock 31. In the down movement of the element 28 the introduction of the lock element 30 into the notch in the element 28 will result in the end 64 of the lock element 30 25 engaging the bottom 65 of the notch to align the element end 60 with the top 61 of the rib 36. Continued rotation of the element 30 in the anti-clockwise direction will cause engagement with the face 33 to lower the element 28.

Referring now to Fig.5, this is an embodiment where the remote lock actuator 29 is not provided. The functioning of the deadlocking element 28 as before described applies, that is, it can be operated by snib and by key 5 locking.

Fig.6 shows the side of the actuator 29 not viewable in Fig.1 and illustrates a cutout 54 to accommodate a cam 55 on the boss 11.

Fig.7 varies from Fig.1 in that the faces 47 and 48 are closely adjacent when the locking bolt 8 is in the short projection configuration. It follows 10 from the foregoing description that with the Fig.7 arrangement the operation of the snib 34 will activate the actuator 29 whereas with the Fig.1 arrangement the snib operation of the deadlock element 28 will not activate the actuator. Thus in Fig.1 arrangement the remote locks are only actuatable by the key lock whereas with the Fig.7 arrangement the remote 15 locks are actuated by both operation of the snib and the key lock. It is to be noted that the actuator is provided with the cutout 54.

Fig.8 illustrates the side of the actuator not viewable in Fig.7 where there is a cutout 59.

Fig.9 illustrates the arrangement where the remote locks are actuated 2 o every time the bolt 8 moves to the extended projection configuration. This is achieved by the lateral movement of the actuator 29 by the cam 55 pressing against the side of the actuator 29, which does not have the cutout 59 of the Figs.6 and 8 embodiments.

The foregoing description as related to the latching means between the 25 locking bolt 8 and the latch bolt 12 is only one of several that can be utilised. In a variation as shown in Figs.10 to 12 the latch lug 18 and the latch lug notch 19 are replaced by an arrangement involving shoulders and a latching element such as a bar or ball. *74 1 Specifically, the top edge surface of the locking bolt 8 is stepped to provide a shoulder 58 separating curved first and second top edge portions 59 and 66 respectively. Both edge portions 59,66 are concentric with axis 5 'X' and the portion 59 has a radius of curvature which is less than that of the portion 66. The lower edge of the latch bolt 12 has first and second straight parts 68,78 spaced apart by a shoulder 67.

As can be readily seen in Fig.10, when the locking bolt 8 and the latch bolt 12 have the illustrated relationship, the spacing between the first l o portion 59 of the locking bolt edge surface and the first part 68 of the latch bolt lower edge is greater than the spacing between the second portion 66 of said locking bolt edge surface adjacent the shoulder 58 and the second part 78 of the latch bolt lower edge. A latching element 69 in the form of a bar or ball is held captive within a recess 70 in the casing but is movable 15 in a direction at right angles to the direction of movement of the latch bolt 12 and is disposed between the curved edge surface of the locking bolt 8 and the lower edge of the latch bolt 12. The thickness of the latching element 69 is greater than the height of one of the shoulders 58,67 and is less than the spacing between the first portion 59 of the locking bolt edge 20 and the second part 78 of the latch bolt lower edge when in an overlying condition.

Expressed in another way, the latching element 69 has a thickness which is approximately equal to but no greater than the distance between the locking bolt edge portion 59 and latch bolt edge part 78 when in 25 overlying relationship and the distance between the faces locKing bolt edge portion 66 and latch bolt edge part 68 when in overlying relationship, which distances are approximately the same in magnitude. 2? 4 The latch bolt 12 is urged to an extended position as before by the spring 15 and its projection beyond the casing is limited by the engagement of the shoulder 67 with the bar 71 in the front plate 2. This is the equivalent of the travel limit shoulder engagement shown in Fig.1.

In the 'rest1 position for the latch bolt 12 the extension of the locking bolt 8 from the casing is limited to its short projection configuration by the engagement of the shoulder 58 of the locking bolt with the latching element 69, which is held in the depressed position shown by engagement with the edge part 78 of the latch bolt 12.

In a door closing operation the end 9 of the locking bolt 8 would engage the striker plate on a door jamb causing the bolt 8 move arcuately inwardly into the casing. There is additionally contact between the end 20 of the latch bolt 12 with the striker plate and the latch bolt 12 is moved linearly inwardly into the casing along the angled path shown. The position shown in Fig.11 is that achieved immediately before the locking bolt 8 aligns with the bolt aperture of the striker plate 72. When that alignment is achieved the end 9 of the locking bolt 8 is urged into the aperture under the influence of the spring 21 to achieve the long projection configuration of Fig.12. This is possible because of the position of the latch bolt 12 with its end 20 bearing on the striker plate and the face 78 out of alignment with the latching element 69. As can be seen the shoulder 58 can now pass under the latching element 69 and lift it into proximity with the edge part 68 of the latch bolt 12.

In a reverse sequence, the locking bolt 8 has to be retracted to release it from the aperture in the striker plate 72 in order to open the door. In so doing the roller will overlie and drop onto the first edge portion 59 of the locking bolt 8 allowing the latch bolt 12 to be moved forward by its spring 27 4 1 i to the position shown in Fig.10. When the handle operating the locking bolt 8 is released the locking bolt 8 will be moved anti-clockwise by its spring 21 until its progress is prevented by the engagement of the shoulder 58 with the latching element 69 thereby returning the mechanism to the 5 Fig.10 configuration.

Another and similar arrangement to that shown in Figs.10 to 12 is shown in Figs.13 to 15. In this arrangement the latch bolt is identified 73 and is curved and can move along a curved track which is concentric with the axis 'X', as can be seen in Figs.13 to 15. The latch bolt 73 is urged to an 10 extended position by the spring 15 and as before it has a lower edge with a shoulder 67 between a first edge part 68 and a second edge part 78. In this arrangement the edge parts 68 and 78 are curved and (like the portions 59,66 of the locking bolt 8) are concentric with the axis 'X1. It is to be noted that the radius of curvature of the latch bolt edge part 68 is 15 greater than that of the edge part 78.

The latching element 69 will move radially relative to the axis 'X' as it co-operates with the shoulders 58,67 as described with reference to the arrangement of Figs.10 to 12.

In the arrangements illustrated in Figs.1 -12 the latch bolt was caused 20 to retract by end engagement with the striker plate 72. In the present arrangement the latch bolt is caused to retract by the movement of the locking bolt 8. This is achieved through engagement between a hooked end 76 of a tail 74 of the latch bolt 73 which lies in the path of travel of the rear end recessed corner 76 of the locking bolt 8. 25 The function of the arrangement is the same as that of the embodiment shown in Figs.10 to 12 in so far as the engagement of the end 20 of the latch bolt 73 with the striker plate as the locking bolt moves to the long 274 1 extension configuration, however, it is to be noted that inward movement of the latch bolt 73 follows from movement of the locking bolt 8 and not from engagement of the latch bolt 73 with the striker plate.

Claims (8)

- 14 - 274 1 1 WHAT I CLAIM IS;

1. A door lock including a casing for mounting in or on a door, an arcuately movable locking bolt mounted in said casing, said locking bolt being movable between an extended position in which a locking portion of said 5 locking bolt extends beyond said casing and a retracted position where at least substantially all of said locking portion is housed in said casing, first biassing means to bias said locking bolt to said extended position, a latch bolt slidably mounted in said casing, said latch bolt being movable between an extended position in which a nose portion of said latch bolt extends 10 beyond said casing and a retracted position, second biassing means to bias said latch bolt to its extended position, latch means interconnecting said locking bolt and said latch bolt where said latch means releasably retains said locking bolt in a position intermediate is extended and retracted positions, said locking bolt when in said intermediate position has is a striker plate engaging end of said locking portion spaced further from said casing than the nose of said latch bolt is spaced from said casing, and an elongated deadlock member slidably mounted in said casing positionable by longitudinal movement in one or other of a deadlock position where retracting rotational movement of the locking bolt is 20 prevented and a non-deadlock position.

2. A door lock as claimed in claim 1 said deadlock member when in said deadlock position lies in the path of travel of a first arm on said locking bolt which would be traversed as said locking bolt is moved from its extended position to its retracted position. 274 1 1

3. A door lock as claimed in claim 1 or claim 2 wherein the deadlock member is movable by manual means and key operated means.

4. A door lock as claimed in any one of claims 1 to 3 wherein said locking bolt has a curved edge surface concentric with the axis about which the locking bolt arcuately moves and said latch bolt moves linearly at an angle to the edge surface of said locking bolt, co-operating lug and notch means on said locking bolt edge surface and said latch bolt which disengage as said locking bolt and said latch bolt retract in unison into said casing.

5. A door lock as claimed in any one of claims 1 to 3 wherein said locking bolt has an edge surface including a first portion adjacent the striker plate engaging end of said locking bolt and a second portion, said first and second portions both being concentric with the axis about which the locking bolt arcuately moves and being separated by a shoulder with the first portion having a radius of curvature less than that of the second portion, and said latch bolt is linearly movable and has a lower edge comprised of a first straight part adjacent the nose of the latch bolt and separated from a second straight part by a shoulder with a height substantially equal to that of the shoulder between said first and second portions of said locking bolt edge, the spacing between said first portion of the locking bolt edge surface and the first part of the latch bolt edge is greater than the spacing between said second portion of said locking bolt edge surface and said second part of said latch bolt, a latching element held captive within said casing but movable in a direction at right angles to - 16 - 27 4 1 1 the direction of movement of said latch bolt and disposed between the edge surface of the locking bolt and the lower edge of the latch bolt, the thickness of the latching element is greater than the height of one of said shoulders and less than the spacing between the first portion of said locking bolt edge and the second part of said latch bolt lower edge when in an overlying condition.

6. A door lock as claimed in any one of claims 1 to 3 wherein said locking bolt has an edge surface including a first portion adjacent the striker plate engaging end of said locking bolt and a second portion, said first and second portions both being concentric with the axis about which the locking bolt arcuately moves and being separated by a shoulder with the first portion having a radius of curvature less than that of the second portion and said latch bolt has a lower edge juxtaposed the edge surface of the locking bolt, said lower edge includes a first curved part adjacent the nose of the latch bolt and a second curved part separated from the first curved part by a shoulder, where the shoulder between the parts of the lower edge of the latch bolt has a height substantially equal to the height of the shoulder between said first and second portions of said locking bolt edge surface, said first and second curved parts of the latch bolt lower edge are concentric with the axis about which the locking bolt arcuately moves and the radius of curvature of the first curved part is greater than that of said second curved part, said latch bolt is mounted in and movable along a curved track also concentric with said axis, the spacing between said first portion of the locking bolt edge surface and the first part of the latch bolt lower edge is greater that the spacing between said second portion of said locking bolt edge surface and said second part of said latch bolt lower edge, a latching element held captive within said casing but movable in a radial direction with respect to said axis and disposed between the edge surface of the locking bolt and the lower edge of the latch bolt, the thickness of the latching element is greater than the height of one of said shoulders and less than the spacing between the first portion of said locking bolt edge surface and the second part of said latch bolt lower edge when in an overlying relationship, said latch bolt further including a hook end which lies behind a rear face of the locking bolt so that said latch bolt is retracted into said casing by said locking bolt as said locking bolt is retracted into said casing.

7. A door lock as claimed in any one of claims 1 to 6 including an elongated remote lock actuator, said actuator is mounted for longitudinal and limited lateral movement in said casing and said actuator when in a first position is biased in a longitudinal direction against longitudinal movement preventing abutment means and is biased in a lateral direction against actuator lateral positioning abutment mea, ;s, a cam face on said actuator engagable by a cam face on said deadlock member said cam feces co-operating when said deadlock member is moved to said deadlock position to laterally move said actuator and disengage the actuator from said longitudinal movement preventing abutment means whereupon the bias acting on said actuator longitudinally will move said actuator to a second position, and including a second arm on said locking bolt which is engagable with a shoulder on said actuator whereby when said deadlock member is moved to the undeadlocked position and said locking bolt is moved by a locking bolt moving means said second arm will move said actuator longitudinally against the bias promoting longitudinal movement 18 m 117 of said actuator to position said actuator such that said lateral bias will cause said actuator to return to said first position where it is in engagement with said longitudinal movement preventing abutment means.

8. A door lock as claimed in claim 7 wherein said casing has a rear aperture allowing access to said actuator for connection thereto of drive means for a remote locking means. LADISLAV STEPHAN KARPISEK By His Authorised Attorneys REMMINGTON-PIPER END OF CLAIMS