GB2165295A

GB2165295A - A lock assembly

Info

Publication number: GB2165295A
Application number: GB08425091A
Authority: GB
Inventors: Michael Walter Reader; John Michael Charles
Original assignee: Ford Motor Co
Current assignee: Ford Motor Co
Priority date: 1984-10-04
Filing date: 1984-10-04
Publication date: 1986-04-09
Also published as: GB8425091D0; US4669287A; DE3574170D1; GB2165295B; ES547488A0; JPS6187083A; EP0178056B1; EP0178056A2; ES8703566A1; EP0178056A3

Description

1

SPECIFICATION

Lock assembly This invention relates to a lock assembly 70 wherein the lock protects a push button oper ated latch mechanism so that the latch mecha nism can only be released when the lock is unlocked.

Motor vehicles often have their doors or tailgates closed by a latch mechanism which is operated by pushing a button. When the door is locked, the button either cannot be pushed, or when pushed does not release the latch.

Such locks are vulnerable to hammer blows along the axis of the pushbutton which can force the lock through its mountings and against the latch mechanism to open the door.

According to the present invention, there is provided a lock assembly comprising a housing, a lock barrel movable axially and in rotation in the housing, a blocking plate mounted at the end of the housing and a finger extend- ing axially from the end of the lock barrel, the cross-section of the finger and of an aperture in the blocking plate cooperating to allow the finger to pass through the blocking plate in one relative angular position, so that the finger can release a latch, and to prevent the finger passing through in another relative angular position, the finger being adapted to shorten when an excessive axial load is applied between its ends.

With this assembly, if undue force is applied to the exposed end of the lock barrel when the lock is locked and axial movement of the barrel is blocked by the blocking plate, the finger will shorten, for example by crumpling or telescoping, rather than transmit the axial force to the blocking plate which might thereby be dislodged. Although the lock as sembly will be damaged if this happens, the latch mechanism will not be released, and whatever is protected by the lock will be safe.

An excessive axial load means a load sub stantially greater than is needed to depress the lock barrel when the lock is unlocked, and a load that is greater than can be applied by a user's fingers, without mechanical assistance.

The finger is preferably in sections which are telescopic. There may be two or more sections. One of the sections may be adapted to crumple under excessive axially applied loads.

The blocking plate is preferably held in the housing by a circlip, and the lock barrel is preferably arranged so that, once the finger is relieved from load as a result of shortening of the finger, the lock barrel will bear, directly or indirectly, against an outer circumference of the blocking plate.

There is preferably a spring arranged be tween the lock barrel and the blocking plate, to return the barrel after it has been normally 130 GB2165295A 1 pushed in to release the latch mechanism. This spring may be a conically shaped or cylindrical helical spring.

The invention will now be further decribed, by way of example, with reference to the accompanying drawing, in which:

Figure 1 is a section through a lock assembly in accordance with the invention; Figure 2 is an end view in the direction of the arrow A from Figure 1; Figure 3 is a perspective view of the end of the lock finger; Figure 4 is a section through a second embodiment of lock assembly in accordance with the invention; and Figure 5 is an exploded perspective view of the lock barrel shown in Figure 4.

The lock assembly shown in the Figures has a housing 10 which is formed in one piece with an escutcheon plate 12. The escutcheon plate fits on the outside of the vehicle body, and a gasket 14 seats the plate against the relevant body panel. A conventional fastening (not shown) is used to hold the housing in place.

Inside the housing 10 is a lock barrel 16 which, in a conventional manner, comprises a cylinder inside a sleeve. The sleeve is keyed to the inside wall of the housing, so that it can slide along the housing but cannot turn inside it, and the cylinder (which receives the key) can turn in the sleeve only when the correct key is inserted.

At the end of the barrel 16 there is an axially extending finger 18. This finger has a domed end 20, and passes through an aperture 24 in a blocking plate 22. The shape and cross- sections of the finger 18 and of the aperture 24 in the blocking plate can be seen from Figures 2 and 3. The finger has a full height rib 25 with a reduced height shoulder 27 and a reduced height rib 29. In Figure 3, the outline of the shaped aperture 24 in the blocking plate is indicated in dotted lines.

The blocking plate 22 is held in the housing 10 by a circlip 26 and can be turned between a---locked-and an -unlocked- position in the housing. Turning is effected when the rib 25 acts against one or other of the edges 31 and 33 of the aperture 24. The rib 25 always extends through the plate 22. A conical spring 28 acts between the lock barrel and the blocking plate.

In operation, in the locked position, the lock barrel 16 cannot move axially because the blocking plate 22 blocks movement of the rib 29 and shoulder 27 of the finger 18 through the plate. The finger occupies the position shown in dotted lines in Figure 2, where it cannot pass through the plate 22.

When the key is inserted, the lock cylinder is turned in the lock barrel driving the plate 22 into the -unlocked- position. When the lock cylinder is returned to the neutral -key outposition, the outer end of the lock barrel can 2 GB2165295A 2 then be pressed inwards, against the pressure of the spring 28, and the domed end 20 of the finger 18 will then pass through the block ing plate 22 to press against a release plate of a latch mechanism to release the latch.

When the barrel is released, the spring 28 returns it to its normal position.

If, in the locked position, the outer end of the lock barrel is hit with a hammer (this be ing a technique commonly used by car thieves 75 to open a car door), a shear pin 30 which connects two sections 32 and 34 of the fin ger will shear before the blocking plate 22 is dislodged or the end of the finger breaks through the blocking plate 22. As a result, the 80 section 32 will telescope inside the section 34, and the latch will not be released. The finger section 34 may be made so that it crumples if further impact is applied.

Once the shear pin has sheared, the barrel can move axially inside the housing, but the spring 28 will still act on the barrel. Further impacts will therefore largely be absorbed by the spring. However when the spring is fully compressed, axial loads applied to the barrel will act, through the compressed spring, on the outer periphery of the plate 22, where this is directly supported by the circlip 26.

Alternatively or additionally, the outer sleeve of the barrel may be extended in an axial di rection, as indicated at 42 in Figure 1, so that direct contact is achieved between the barrel and the blocking plate, around the outer cir cumference of the blocking plate, if the barrel should be driven right into the housing. 100 It will therefore be very much more difficult to dislodge the blocking plate than would be the case if the axial loads which occur on an attempt to force the lock were applied at the centre of the plate.

With the finger constructed as shown in Figure 1, there is a risk that the barrel could become jammed in its pressed-in position if the shoulder at the lower end of the section 34 should engage with the outer surface of the plate 22, at the edges of the aperture 24.

To prevent this, a shroud as indicated at 40 could be extended upward to cover the joint between the sections 32 and 34, and in this case the diameter of the central circular part of the aperture 24 would have to be increased to allow the shroud 40 to pass through.

Where a central locking system is used, the blocking plate may be rotatable by the central locking system (through a lug 23 forming part of the plate 22) to provide a different mecha nism for freeing the barrel. When a central locking system is not used, a detent plate 43 (not shown in detail) can be provided to pre vent the blocking plate from rattling and to retain the plate in one or the other end posi tion until a key is used to operate the lock.

In Figures 4 and 5, parts equivalent to those already described are indicated using the same reference numerals. Figure 4 shows a lock barrel 16 with a finger indicated generally at 118. As can be seen particularly in Figure 5, the finger consists of a first section 120 which is fast with the lock cylinder 122 inside the barrel and second and third sections 124 and 126 which are moulded from plastics materials and which clip together and clip to the section 120.

The section 120 has oppositely-arranged grooves 126 and recesses 128. The section 124 which fits over the section 126 has internal projections 130 which fit in the grooves 126, and lugs 132 at the ends of arms 134, the lugs fitting in the recesses 128.

Similarly, the section 126 has internal recesses 136 and internal grooves which are not visible in the drawing. The section 126 fits over the section 124, lugs 138 on arms 140 fit in the recesses 136, and ribs 142 fit in the internal grooves.

Because of the engagement between the lugs 132 and 138 and the recesses 128 and 136, the three sections 120, 124 and 126 are normally held to each other in fixed rela- tive positions. However if an excessive axial force is applied alofig the finger 118, one or both sets of lugs 132, 138 will shear off from the ends of the respective arms 134, 140 to allow the sections to slide relative to one another, thus shortening the finger and pre- venting release of a latch protected by the lock. The section 126, similarly to the end 20 of the finger 18 in Figures 1 and 2, has a full height rib 144 with a reduced height shoulder 146 and a reduced height rib 142. Depending on the angular position of the aperture in the blocking plate, these ribs either prevent or allow the finger to move through the plate. 105 In some locks, the cylinder can be turned in the locking direction by any key, but can only be turned in the unlocking direction by the correct key. To prevent the latch being released whilst the key is in the lock and has been turned in the unlocking direction, a second, fixed blocking plate 150 is provided which cooperates with outer ribs 148. The second blocking plate has a circular cut-out slightly larger in diameter than the diametral dimension across the ribs 142, 144, 146 as well as two radial passages which will pass the ribs 148. This ensures that there is only one angular position in which the latch can be unlocked.

To prevent the finger being pressed too far through the blocking plate and possibly jamming, the outer ribs 148 are extended and tapered at their inner ends to ensure that the finger returns properly through the plates 22 and 150.

The lock assembly described will thus provide greater security than presently known locks of a similar type, particularly against attacks which involve hammering the lock barrel inwards to release a latch.

3 GB2165295A 3

Claims

1. A lock assembly comprising a housing, a lock barrel movable axially and in rotation in the housing, a blocking plate mounted at the end of the housing and a finger extending axially from the end of the lock barrel, the crosssection of the finger and of an aperture in the blocking plate cooperating to allow the finger to pass through the blocking plate in one relative angular position, so that the finger can release a latch, and to prevent the finger passing through in another relative angular position, characterized in that the finger is adapted to shorten when an excessive axial load is applied to it.

2. A lock assembly as claimed in Claim 1, wherein the finger is in sections which are joined by an easily rupturable connection.

3. A lock assembly as claimed in Claim 2, wherein the finger is in three sections, one of the sections being an extension of the lock barrel.

4. A lock assembly as claimed in Claim 2 or Claim 3, wherein the connection is a shear pin.

5. A lock assembly as claimed in Claim 2 or Claim 3, wherein the sections are of plastics material and the connection is made by shear- able lugs which are moulded as an integral part of the respective sections.

6. A lock assembly as claimed in any one of Claims 2 to 5, wherein the sections of the finger are telescopic.

7. A lock assembly as claimed in any one of Claims 2 to 6, wherein one of the sections is adapted to crumple under excessive axially applied loads.

8. A lock assembly as claimed in any one of the preceding claims, wherein the blocking plate is held in the housing by a circlip, and the lock barrel is arranged so that, once the finger shortens and is relieved from load, the lock barrel will bear, directly or indirectly, against an outer circumference of the blocking plate.

9. A lock assembly as claimed in any one of the preceding claims, including a spring arranged between the lock barrel and the block- ing plate, to return the harrel after it has been normally pushed in to release the latch mechanism.

10. A lock assembly as claimed in Claim 9, wherein the spring is a helical spring. 55

11. A lock assembly as claimed in any preceding claim, wherein the outer casing of the barrel is extended so that, as the barrel approaches the blocking plate, the first part of the barrel that makes contact with the block- ing plate is the casing

12. A lock assembly as claimed in any pre ceding claim, including means for preventing the end of the finger from jamming behind the blocking plate.

13. A lock assembly as claimed in any pre- ceding claim, including a second, fixed block ing plate and a rib or ribs on the finger which will only pass the second blocking plate in one rotational position.

14. A lock assembly substantially as herein described with reference to any one embodi ment shown in the accompanying drawings.

Printed in the United Kingdom for Her Majesty's Stationery Office, Dd 8818935, 1986, 4235. Published at The Patent Office, 25 Southampton Buildings, London, WC2A l AY, from which copies may be obtained.