NZ203263A - Locking mechanism for door of security enclosure - Google Patents

Description

20326 Priority Date(s): . J J.'.

Complete Specification Fifed: J.l Class: .ifPS. £°S.c. tl(£>,... &P.X.c&/aht Publication Date: P.O. Journal, No: ... ^ NEW ZEALAND E* ^ FEBI9BS sIV €»{J,y%0^ PATENTS ACT, 1953 No.: Date: COMPLETE SPECIFICATION LOCKING MECHANISM FOR DOOR OF SECURITY ENCLOSURE i/w«. CHUBB NEW ZEALAND LIMITED, a New Zealand Company of 98-100 Dixon Street, Wellington, New Zealand hereby declare the invention for which 2 / we pray that a patent may be granted to ocae^us, and the method by which it is to be performed, to be particularly described in and by the following statement:- - 1 - (followed by page la) -1A- £03263 Locking Mechanism for Door of Security Enclosure The present invention relates to safes, vaults, strongrooms and the like security enclosures, and more particularly to 5 locking mechanisms for the doors of such enclosures.

It is customary for the door of a safe or the like to be locked by means of bolts thrown from the door into engagement with the surrounding frame, for which purpose 10 there is provided an externally-accessible handle, wheel or the like operating member which drives the boltwork through a mechanical transmission mounted within the door, the same mechanism, of course, being used to withdraw the bolts when the door is to be opened. This boltwork is in turn locked in 15 its thrown condition by the operation of one or more key or combination locks, which throw their own bolts into engagement with portions of the main boltwork or its transmission mechanism to resist subsequent retraction of the main bolts.

In some known mechanisms for locking the door of a safe or the like, means are provided for selectively disengaging the coupling of the handle or other external operating member to the boltwork when in its thrown condition, so that in the 25 event of burglarious attack on the enclosure it is impossible to use the handle to put force on the boltwork or to withdraw the boltwork even if the normal blocking action of the locks can be overcome. The present invention seeks to provide additional security to a locking arrangement of this 30 kind and resides in a locking mechanism for the door of a security enclosure which comprises: boltwork for securing the door closed when thrown; an operating member accessible from outside the door; a mechanical transmission for coupling N.Z. PATEiMT OFFICE i " ~ ~ < 2 4 APR ]936 Li received 203263 said operating member to the boltwork for throwing and withdrawing the same; one or more locks for selectively locking the boltwork in its thrown condition; primary means for selectively disengaging the coupling of said operating 5 member to the boltwork when in its thrown condition; and secondary means operable automatically to maintain , said disengagement of the coupling of said operating member to the boltwork, independently of the state of said primary means, in response to the detection of an attack upon the 10 enclosure.

The aforesaid primary disengaging means are preferably operatively associated with a said lock whereby operation of the lock to lock the boltwork in its thrown condition serves 15 also to disengage the coupling of the operating member to the boltwork. Alternatively, however, the primary disengaging means could if desired be embodied as an independent key or ' combination mechanism selectively operable under the control of an authorised operator, separately from any such lock.

Most preferably the aforesaid secondary disengaging means performs also the function of a so-called "relocker"; that is to say it serves also to block withdrawal of the boltwork, independently of the state of the aforesaid (primary) 25 lock(s), when operated in response to the detection of an attack upon the enclosure.

In such a mechanism disengagement of the coupling of the operating member to the boltwork preferably takes place as 30 described in Australian Patent Specification No 79113/81 and United Kingdom Patent Specification No 2094390A. That is 203263 to say the mechanical transmission includes a pair of coaxial rotary members a first of which is caused to rotate in either sense by corresponding movement of the external operating in order to transmit movement of the operating member to the boltwork, and the primary disengaging means are operable to displace the second rotary member axially away from the first to disengage the coupling between them. Preferably the second rotary member is keyed rotationally within the next 10 succeeding member of the rotary transmission train but with freedom therein for the aforesaid axial displacement; the aforesaid secondary locking member passes through an aperture in said succeeding member to block withdrawal of the boltwork; and in so doing the secondary locking member 15 also engages the second rotary member borne in that succeeding member so as to maintain it in its displaced condition.

These and other features of the present invention will become 20 apparent from the following description, given by way of exemplification, with reference to the accompanying drawings which illustrate portions of a preferred embodiment of a safe door incorporating a locking mechanism according to the invention.

In the drawings: Figure 1 is a vertical section, taken along the line I - I of Figure 3 through the handle/boltwork isolating mechanism of 30 the safe with the latter in its disengaged condition; Figure 2 is a vertical section similar to Figure 1 showing the isolating mechanism in its engaged condition; member and the second of which is engaqable with the first -4-- 2032 Figure 3 is an elevation, partly in section, of the locking mechanism showing the secondary locking member maintained away from its locking position; and Figure 4 is a section, taken on the line IV-IV of Figure 3, through the locks and handle/boltwork isolating mechanism of the safe.

Referring firstly to Figures 1 and 2, the illustrated 10 locking and isolating unit 10 includes a fixed throw housing 11 which is secured to a steel member 12, (which may be drill-resistant) on the inside face of the safe door (not shown). Mounted between the member 12 and the exterior of the door is a member 13 of a frangible material, such as 15 glass or brittle plastics, which will shatter and disintegrate upon being penetrated, eg by a drill or the like, or if exposed to an explosive shock or other gross force. A second frangible member 14 is mounted above the unit 10. Further frangible members are mounted on each side 20 of the unit 10 and will be described hereinafter.

The boltwork of the safe door is operated by turning an external handle (not shown) mounted on the end of a shaft 15, driving connection between the shaft 15 and a first rotary 25 member 16 of the mechanical transmission being effected by means of an endless chain 17 passing over toothed gears on the shaft 15 and member 16. Coaxial with the first rotary member 16 is a second rotary member 18 mounted within a throw cylinder 19, which latter is journalled in a through-bore in 30 the throw housing 11. Throw cylinder 19 has an eccentrically mounted pin 20 which drives a pivot link 21 by engagement in a longitudinally extending slot 26 therein. Link 21 is pivotally mounted at one end thereof on pin 2 2 formed on the throw housing 11, the other end of the link 21 driving a 203263 - &--r- horizontal main bolt 25 of the safe by means of pin 23 engaging in slot 24 in the bolt 25 (see also Figure 3).

Rotation of throw cylinder 19 is thereby transmitted through the link 21 into throwing or withdrawal of the bolt 25. The 5 bolt 25 is connected through vertical straps (not shown) to additional horizontal bolts and may be further connected through articulated links (not shown) to bolts thrown from the top and bottom edges of the door, in known manner.

As will be seen from the Figures the second rotary member 18 has a transverse slot 2 7 within which is received a corresponding drive lug 28 mounted on the first rotary member 16. Second rotary member 18 is capable of axial movement within the cylinder 19 relative to the first rotary member 15 16, and is biased towards the first rotary member by means of compression spring 29 captive within the throw cylinder.

When member 18 is free to move under the bias of spring 29 it moves towards member 16 to engage the lug 28 within the slot 27. In this condition (shown in Figure 2), rotation of 20 member 16 is transmitted into rotation of member 18.

Second rotary member 18 is also provided with a pair of radially outwardly extending lugs 30, only one of which is depicted in Figures 1 and 2, (the other being positioned 25 diametrically opposite). Each of the lugs 30 is received within a corresponding axially directed slot 40 in the end of throw cylinder 19 adjacent to the first rotary member 16.

Lugs 30 are received within the slots 40 in the throw cylinder 19 both when the first and secondary rotary members 30 are disengaged (as shown in Figure 1) and when they are engaged (as shown in Figure 2), to keep the member 18 keyed rotationally to the cylinder 19. In the latter condition, rotation of the member 18 is transmitted into rotation of the -— (e> " -fi- 2 032 & throw cylinder 19 by the engagement of the lugs 30 and slots 40, and1 hence into throwing or withdrawing of the bolt 25 as previously described.

It will be apparent from the foregoing, that when the safe door is closed and locked and the second rotary member 18 held out of engagement with the first rotary member 16, shaft 15 can be turned without any force being put on the locking unit 10 or bolt 25.

Disengagement of the rotary members 16 and 18 is achieved by operation of the locks 31 and 32 as shown in Figures 3 and 4. Each of these locks has a bolt 33, 34 with a tapered nose which, when the bolt is thrown, extends through the throw 15 housing 11 and through a respective radial aperture 35,36 in the throw cylinder 19, to engage the inclined surface 38 which bounds a circumferential groove 37 in the bobbin-shaped second rotary member 18 (see Figures 1,2 and 4). Member 18 is thus withdrawn from engagement with rotary member 16 by a 20 wedging or camming action, against the bias of spring 29. By entry of the bolts 33,34 through the apertures 35,36 in the throw cylinder 19, these bolts also lock the throw cylinder to the housing 11 to resist any subsequent attempt to forcibly retract the main bolt 25.

In accordance with the present invention, the locking mechanism is also provided with a secondary locking member 41 mounted within a bore 42 in the throw housing 11, and urged by a compression spring 43 to extend through a radial 30 aperture 44 in the throw cylinder 19 which aligns with the bore 42 when the bolt 2 5 is thrown, so that the head 45 thereof is received within the outer portion of the groove 37 formed in the second rotary member 18. Member 41 is normally 2 032 6 restrained to keep in the position shown in Figures 1 to 3. However, if member 41 is released when the bolt 25 is thrown it will act both to hold the second rotary member 18 away from engagement with the first rotary member 16, and to 5 interlock the throw cylinder 19, independently of the lock bolts 33,34, and maintain the boltwork locked and isolated in this manner even if the lock bolts 33 and 34 are subsequently withdrawn.

The secondary locking member 41 is held in its normal, restrained position by the engagement of a restraining element 50 in a circumferential groove 51 formed in the end of the member 41 which extends out of the top of the bore 42. Element 50 is connected to frangible members 13 and 14 15 (Figures 1 and 2), and further frangible members 61 and 62 at either side of the unit 10, in such a manner that breakage or disintegration of any one of these frangible members will trigger the release of the element 50 from its position in the groove 51, under the action of a tension spring 52 20 anchored to the plate 12, thereby releasing member 41 as previously described. In the embodiment depicted in Figure 3, the frangible members are connected to the element 50 by means of a wire or similar flexible tension member 53 extending from member 14 to a pulley mechanism 54 attached to 25 frangible member 62, then to pulley mechanism 55 attached to frangible member 61, and then to element 50 where it holds this element in position in groove 51 against the action of the spring 52. Element 50 also abuts the frangible member 13 by its free end 57 as shown in Figures 1 and 2. It will be 30 apparent that brekage or disintegration of any one of the frangible members 14, 61 or 62 will release the tension in wire 53, while disintegration of frangible member 13 will release the element 50 from its abutment thereagainst. In 2 032 either case, the secondary locking member 41 will be released by element 50 to lock and isolate the bolt 25 in its thrown condition. Still further frangible members linked to the member 41 could be provided below and behind the unit 10, if 5 desired.

Member 41 is also provided in its head 45 with a radially directed bore housing a compression spring 47 and a pin 48 which is urged by the srping into contact with the inside 10 surface of the housing bore 42. However, when member 41 is released and the head 45 thereof moves through the aperture 44 into the groove 37 in second rotary member 18, the pin 48 will extend out of its bore and under the ledge formed between aperture 44 and housing 11 to resist any attempts to 15 retract the head 45 of member 41 back into the bore 42.

It will be appreciated that while the invention has been particularly described above in terms of its application in one particular embodiment where the secondary locking member 20 41 is part of a "dead" relocker actuated by frangible members 13,14,61 and 62, the member 41 could additionally or alternatively be actuated by thermal detector means or other forms of detector known in the art, and by suitable rearrangement of the run and connections to wire 53 could be 25 adapted for operation as a "live" relocker. 203263 4 -9-

Claims (8)

WHAT WE CLAIM IS:-TCLAIMB-

1. A locking mechanism for the door of a security enclosure, comprising: boltwork for securing the door closed 5 when thrown; an operating member accessible from outside the door; a mechanical transmission for coupling said operating member to the boltwork for throwing and withdrawing the same; one or more locks for selectively locking the boltwork in its thrown condition; primary means for selectively disengaging 10 the coupling of said operating member to the boltwork when in its thrown condition; and secondary means operable automatically to maintain said disengagement of the coupling of said operating member to the boltwork, independently of the state of said primary means, in response to the detaction 15 of an attack upon the enclosure.

2. A mechanism according to claim 1, wherein said mechanical transmission includes a pair of coaxial rotary . members a first of which is caused to rotate in either sense 20 by corresponding movement of said operating member and the second of which is engageable with |the first in order to transmit movement of the operating member to the boltwork; and said primary disengaging means are operable to displace the second rotary member axially away from the first thereby 2 5 to disengage the coupling between them.

3. A mechanism according to claim 2 wherein said second rotary member has a face inclined to the rotational axis thereof and that member is displaced away from the first 30 rotary member by virtue of the camming action of a member of said primary disengaging means which is thrust against that face. | ?wwTflfi=icE,*z.;1 RfcTfi'VED;\ 17 JUN1986;\;£ * >i. -" 'A -10- 203263

4. A mechanism according to claim 2 or claim 3 wherein said secondary disengaging means comprise a member |to engage said second rotary member to retain it displaced axially away from said first rotary member. 5

5. A mechanism according to claim 4 when appended to claim 3 wherein said second rotary member has a circumferential groove one bounding face of which constitutes said inclined face, and into which said member of the secondary disengaging 10 means is engagable. |

6. A mechanism according to any preceding claim wherein said secondary disengaging means serves also to block withdrawal of the boltwork, independently of the state of the 15 aforesaid lock(s), when operated in response to the detection of an attack upon the enclosure.

7. A mechanism according to claim 6 when appended to any one of claims 2 to 5 wherein said second rotary member is 20 keyed rotationally within the next succeeding member of the mechanical transmission but with freedom therein for said axial displacement; the secondary disengaging means comprise a member /to pass through an aperture in said succeeding member thereby to block withdrawal of the 25 boltwork; and in so doing said member of the secondary disengaging means also engages said second rotary member thereby to maintain that member in its displaced condition.

8. A locking mechanism for the door of a security enclosure 30 according to claim 1 and substantially as hereinbefore described with reference to the accompanying drawings.