1. Field of the Invention
This invention relates to a lock which can be used for doors hinged on the right or the left, having a follower contained in a housing and which can be displaced from the outside by an actuating element, by which a bolt can be moved by a displacement member between a locking position, in which it is pushed out of the housing, and an opened position, in which it is pushed into the housing.
2. Discussion of Related Art
A lock is known from German Patent Reference DE 195 41 944 C1.
A displaceable blocking element is used in connection with this lock and can be shifted so that the direction of rotation of the follower can be reversed depending on whether it is used in a left or right operation. Thus a user can set the lock prior to being mounted as a function of the selected way in which it is hinged.
Furthermore, spring locks are known and have a bolt which can be adjusted against the pre-stressing of a spring.
It is one object of this invention to provide a lock of the type mentioned above but which can be used for either left hinging or right hinging without an additional adjustment of a cost outlay.
This object is attained when a bolt is maintained in the locking position against the prestress by a spring and when the follower can be selectively adjusted in a clockwise or counterclockwise direction when the bolt is pushed out, in a locked position, in order to put the bolt into the opened position. In accordance with this invention, the known spring lock principle is transferred to a lock which is usable left or right. In the process, the association between the follower and the bolt is such that the follower can be rotated in a clockwise direction as well as in a counterclockwise direction for placing the bolt into the opened position. Thus it is possible to install the lock without an additional cost outlay for use on the left as well as on the right.
In accordance with one embodiment of this invention, the displacement member of the follower has two actuating members resting against respective control cams of the bolt and which are supported there under prestress by a spring in the locked position of the bolt. The follower, or the actuation members, can be maintained in a predetermined initial position by the spring. Thus it is possible to maintain the follower in a defined initial position when the bolt is in the locking position. A handle coupled with the follower is then also maintained in an initial position. In addition, an adjustment free of play of the bolt is achieved with little structural cost outlay by using the prestress of the spring.
Thus the spring maintains the bolt in its prestressed position against the actuating members used as stops. The spring has a double function. It is used for supporting the bolt. The follower can be maintained in its initial position by the spring.
In order to realize comparable forces and/or displacement properties of the lock, both with left and right hinging, the two control cams can be symmetrically arranged with respect to a plane defined by the extension direction of the bolt and the axis of rotation of the follower. Then the symmetrical lock embodiment also makes possible a simple lock construction. Easy mounting of the lock, in particular one which can be automated, results if the housing has a spring receptacle into which the spring can be inserted in a first prestressed position, and if the bolt has a pusher, which maintains the spring in the second prestress position associated with the locking position.
In one alternative embodiment of this invention, with the bolt pushed into the housing, the follower is supported on a spring element. With the spring the follower can be automatically moved from the opened into the locking position, independently of the bolt.
The functionality of the lock can be extended in a simple manner if the bolt or the follower are directly or indirectly coupled to a bolt arrangement by a revolving rod. Thus it is possible to achieve a low structural cost outlay along with a large degree of dependability if the revolving rod a bolt can be adjusted by a drive element which is coupled with the revolving rod. The bolt is maintained in its locking position in a bolt housing against the prestress by a spring element, and the bolt can be displaced against the spring prestress by the drive element.
The cost outlay for parts can be kept low if the bolt or the follower drives two structurally identical bolt arrangements, each by a revolving rod.
This invention is explained in greater detail in view of an exemplary embodiment represented in the drawings, wherein:
A lock is shown in
An actuating member 32 of a follower 30 rests against each one of the control cams 24. The actuating members 32 are designed in the shape of a finger and are formed as one part on the follower 30. The follower 30 is seated in the housing 10 and is rotatable around the axis of rotation 27 shown in
The follower 30 extends with a center element 15 through a hole 23 in the bolt 20. The hole 23 is embodied as an elongated hole, so that the follower 30 does not interfere with the displacement of the bolt 20 between the opened position and the locking position. However, in these end positions the center element 15 limits the displacement of the bolt 20 because it comes to rest against the ends of the elongated hole. As
As
The bolt 20 can again be brought into the locking position when the handle of the follower 30 is released. The spring 19 then pushes the bolt 20 back. During this, the follower 30 is simultaneously returned into its initial position.
The lock is designed as a spring lock. Accordingly, the locking tongue 21 can be deflected at a latch bolt by an oblique deflection element 21.1. The bolt 20 is then pushed into the housing 10 against the force of the spring 19. So that the follower 30 does not take up an undefined position, an additional spring element, not represented in the drawing, maintains the follower 30 prestressed, such as in the initial position represented in
Such a spring element 40 is represented in
The spring element 40 is designed as a torsion spring and has two spring arms 41 a and 41 b which are supported, spring-loaded, in the area of or near their free ends on stops 42 of the housing 10. The two spring arms 41a, 41b are arranged at an angle with respect to each other and cross. A shoulder 35 of the follower 30 is arranged in the area of or near the crossing point. In the locked position represented in
As
The functionality of the lock represented in
The drive elements 51 have plug-in receivers, which are accessible through an opening in the housing 10. A revolving rod 52, which is not circular in cross section, can be inserted into it.
A bolt arrangement can be coupled, facing away from the lock, with the revolving rod 52. This arrangement has a bolt 62, which can be linearly displaced between an opened position and a locked position. This can be displaced in guide devices of a bolt housing 60. The bolt 62 is maintained under prestress in the position shown in
The bolt 62 has receptacles 63 on its side, which are engaged by the pushers 51 of drive elements 50. The drive elements 50 are identical to the previously mentioned drive elements 50 inserted into the lock housing 10 and are rotatably housed in bearings of the lock housing 10. The revolving rod 52 is coupled with one of the two drive elements 50. The second drive element 50 can be used when the bolt arrangement is inserted on the oppositely located side of the lock, or if each of the two drive elements 50 maintained in the housing 10 is to each drive a revolving rod 52. In that case, structurally identical bolt arrangements can be used.
As the drawings of
The bolt arrangement can be changed from the locking state represented in
Number | Date | Country | Kind |
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103-61-929.1 | Nov 2003 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP04/02669 | 3/15/2004 | WO | 5/22/2006 |