SELF-ADJUSTING LOCKING PIECE FOR A LOCKING UNIT

Abstract

A locking piece for a locking unit includes a housing having a housing opening. A locking arm, which engages through the housing opening, is mounted so as to be displaceable, in a direction at a right angle to its longitudinal direction, in the housing opening. A slide is guided displaceably in the housing in the displacement direction of the locking arm and is motion-coupled to the locking arm in the displacement direction. The housing and/or the slide are/is formed from magnetically attractable material. At least one magnet acts between the housing and slide and positionally fixes the locking arm in each possible displacement position within the housing opening.

Claims

1. A locking piece for a locking unit, comprising: a housing having a housing opening; a locking arm which engages through the housing opening and is mounted so as to be displaceable, in a direction at a right angle to its longitudinal direction, in the housing opening; and a slide which is guided displaceably in the housing in the displacement direction of the locking arm and which is motion-coupled to the locking arm in the displacement direction; wherein the housing and/or the slide are/is formed from magnetically attractable material, and in that at least one magnet acts between the housing and slide and positionally fixes the locking arm in each possible displacement position within the housing opening.

2. The locking piece as claimed in claim 1, wherein the housing and the slide are formed from magnetically attractable material, and the at least one magnet is arranged between the housing and the slide.

3. The locking piece as claimed in claim 2, wherein the at least one magnet is fastened or adhesively bonded, to the housing or to the slide.

4. The locking piece as claimed in claim 1, wherein the at least one magnet is fastened or adhesively bonded, to the housing or to the slide.

5. The locking piece as claimed in claim 1, wherein the locking piece has at least two magnets which, as viewed in the displacement direction, are arranged on both sides of the locking arm.

6. The locking piece as claimed in claim 1, wherein the free end of the locking arm that engages through the housing opening takes the form of a locking bow or locking eye.

7. The locking piece as claimed in claim 1, wherein the locking arm and the slide are plugged one into the other in a direction at a right angle to the displacement direction.

8. The locking piece as claimed in one of claims 1, wherein the locking arm and the slide are formed in one piece.

9. The locking piece as claimed in one of claims 2, wherein the locking arm and the slide are formed in one piece.

10. The locking piece as claimed in one of claims 3, wherein the locking arm and the slide are formed in one piece.

11. The locking piece as claimed in one of claims 4, wherein the locking arm and the slide are formed in one piece.

12. The locking piece as claimed in one of claims 5, wherein the locking arm and the slide are formed in one piece.

13. The locking piece as claimed in one of claims 6, wherein the locking arm and the slide are formed in one piece.

14. The locking unit with a lock having a lock mouth, and with a locking piece as claimed in claim 1, the locking arm of which is moved into, and locked in, the lock mouth in the locking position of the lock.

15. The locking unit as claimed in claim 14, wherein the lock mouth has a run-in slope for the locking arm.

16. The locking unit as claimed in claim 14, wherein the lock is a furniture lock.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] In the drawings:

[0017] FIG. 1 shows an exploded illustration of the locking piece according to the invention having a vertically displaceable locking arm;

[0018] FIG. 2 shows a locking unit with a furniture lock and with the locking piece according to the invention; and

[0019] FIGS. 3a-3c show the locking piece according to the invention with the locking arm situated at different heights, in each case in longitudinal section.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0020] The locking piece 1 shown in FIG. 1 for a locking unit 20 (FIG. 2) comprises a housing 2 having a housing opening 3, a horizontal locking arm 4 which engages through the housing opening 3 and is mounted so as to be adjustable in height, in the vertical displacement direction 5, that is to say perpendicular to its longitudinal direction 6, in the housing opening 3, and a slide 7 which is displaceably guided in the housing 2 in the displacement direction 5 and is motion-coupled to the locking arm 4 in the displacement direction 5. The opening width D of the housing opening 3 in the displacement direction 5 is greater than the thickness d of the locking arm 4, as a result of which the locking arm 4 is displaceable within the housing opening 3 in the displacement direction 5. The housing 2, which is open on the rear side, is closed by a cover 2a.

[0021] The free end of the locking arm 4 that engages through the housing opening 3 has a locking eye 8 for locking in a lock. The other end of the locking arm 4 is plugged into an opening 9 in the slide 7, as a result of which the locking arm 4 is motion-coupled to the slide 7 in the displacement direction 5. Alternatively, the locking arm 4 and the slide 7 can also be formed in one piece.

[0022] Between the housing 2 and the slide 7, which are both formed from magnetically attractable material, there are arranged two magnets 10 which positionally fix the slide 7 and hence also the locking arm 4 in each possible displacement position within the housing opening 3. The two magnets 10 are, as viewed in the displacement direction 5, arranged on both sides of the locking arm 4 and adhere to the housing 3 at one end and to the slide 7 at the other end. The frictional engagement of the magnets 10 with the housing 3 and slide 7 means that the locking arm 4 remains held or positionally fixed in its respective displacement position within the housing opening 3. A stepless displacement of the slide 7 and of the locking arm 4 is possible by means of a frictional engagement-overcoming external action of force in the displacement direction 5 on the locking arm 4 and hence on the slide 7.

[0023] The housing 2 has, on both sides of the housing opening 3, a respective screw hole in order for the locking piece 1 to be able to be screwed onto a door, for example. Alternatively, however, the locking piece 1 can also be adhesively bonded to the door, and therefore the housing need not have any screw holes in this case.

[0024] The locking unit 20 shown in FIG. 2 consists of a mechanically or electrically actuable furniture lock 21 with a lock mouth 22 and with the locking piece 1 according to the invention, the locking arm 4 of which is moved into, and locked in, the lock mouth 22 in the locking position of the furniture lock 21. Upon moving into the lock mouth 22, the locking arm 4 thus automatically adjusts itself with respect to the vertical position thereof and, after moving out of the lock mouth 22, remains held by the magnet 10 in the adjusted position. The magnets 10 can additionally also be used in order to actuate a reed contact (monitoring contact) arranged on the lock mouth 22 when the locking arm 4 is moved into the lock mouth 22.

[0025] In FIG. 2, the locking arm 4 is moved from the end side into the lock mouth 22 of the furniture lock 21, that is to say in the longitudinal direction of the furniture lock 21, for example in the case of a sliding door. However, it is also possible for the locking piece 1 to be arranged to the side of the furniture lock 21 such that the locking arm 4 is moved from the side into the lock mouth 22, that is to say in the transverse direction of the furniture lock 21, for example in the case of a pivoting door.

[0026] The locking arm 4 is situated, in FIG. 3a, in its central displacement position in the housing opening 3, in FIG. 3b in its upper displacement end position in the housing opening 3, and in FIG. 3c in its lower displacement end position in the housing opening 3. In each possible displacement position, the locking arm 4 is held positionally fixed by means of the magnets 10.