DE102005000040A1 - An electromagnet cylinder lock has primary blocking system which may be affected by strong magnetic fields and a secondary blocking system to prevent full rotation of the cylinder - Google Patents

Abstract

The cylinder core (2) is rotated by a key to open the lock unless an electromagnetic block is in operation to prevent rotation. Failure of the block due to strong magnetic fields also causes a magnetic control member (10) to enter a pocket (11) and non-magnetic blocks (14,14') in pockets (13,13') to fall into the first pocket to prevent further rotation.

Description

Task of invention

The The invention relates to a lock cylinder with one in a housing rotatable core and with an electromagnetically activated locking mechanism for selectively blocking or releasing the movement of the core, the case made of non-magnetic material.

Such lock cylinders are commonly used in today's electronic locking systems and are for example from the DE 199 01 838 A1 known. This lock cylinder has arranged in a usually made of brass housing, electromagnetic actuator which holds a biased by a spring element in the direction of a pocket in the core locking bolt or releases its movement. The electromagnetically activatable locking mechanism can be controlled for example by a numeric code or a transponder. If the electromagnetic actuator holds the locking bar, the core can be rotated relative to the housing and thus unlock the lock cylinder. In the absence of a locking authorization of the electromagnetic actuator releases the movement of the locking bar, so that it is pressed by the force of the spring element in the pocket in the core and prevents rotation of the core relative to the housing. However, by applying a strong magnetic field to the locking mechanism, the electromagnetic actuator may possibly be magnetized such that the locking bar is held outside the pocket of the core without activation of the electromagnetically activatable locking mechanism.

Of the Invention is based on the problem, the lock cylinder of the aforementioned Refine the type so that its unlocking with a strong external magnetic field reliable is avoided.

This Problem is inventively characterized solved, that the case or the core one in the intended mounting direction upwards open lock pocket for substantially flush final recording a control element made of a magnetizable material has that the other component is an open at the bottom Control bag to the full Recording of the control and in the direction of movement of the core next to the control pocket has a downwardly open retaining pocket and that in the retaining pocket a blocking element made of non-magnetizable material is arranged and that the lock pocket dimensions for only partial Has recording of the blocking element.

By this design leads a strong magnetic field acting on the lock cylinder according to the invention to move the control out of the lock pocket into the Control pocket. Thus, the lock pocket is empty. At a following Movement of the core, the blocking element is moved over the lock pocket, whereupon the blocking element by gravity into the locking pocket falls. Because the lock pocket because of their dimensions, the locking element only partially absorb, the blocking element lies in the parting plane between housing and core and blocks the further movement of the core. This will be an unlocking of the lock cylinder according to the invention also with a strong external magnetic field reliably avoided. Without the presence of an external magnetic field includes the control is flush with the locking pocket, so that the locking element in the movement of the core over the Slip away lock pocket.

The Lock bag could be arranged for example on the top of the core. This However, requires the arrangement of the holding pockets with the blocking element above the core in the housing and with it a big one Wall thickness of the housing above of the core. The housing of the lock cylinder according to the invention however, requires only a small wall thickness when the lock pocket in the housing and the holding pocket are disposed in the core.

Of the structural effort to block the core after an attempted Unlock with a magnet leaves according to one keep another advantageous embodiment of the invention particularly low, if a single holding bag seen from the lock pocket on the opposite side of the core is arranged.

One Locking the movement of the core can be according to a advantageous development of the invention in both directions of movement already ensure a short movement of the core when the Control pocket between two holding pockets, each with a blocking element is arranged.

to further reduction of the manufacturing cost of the lock cylinder according to the invention carries a Ball shape of the control and / or the blocking element at. Farther allows this design a low-friction rolling of the control and / or the blocking element during the movement of the core.

A reliable blocking of the core after a Unlocking attempt of the lock cylinder according to the invention can be easily achieved when one of the control pocket pioneering Flan ke of the holding pocket inclined to the parting plane between the core and housing expires.

Of the Core leaves after an unlocking attempt of the lock cylinder according to the invention by return movement simply return to the starting position move when a side edge of the pocket holding a in the the locking pocket located locking element engaging behind lifting edge having. This prevents that the lock cylinder according to the invention is destroyed by the action of a magnetic field. In particular by the combination of the lifting edge on one flank with the slope the other side of the pocket can be sure that the core blocks in one direction and in the other direction is mobile.

One reliable Wedging of the blocking element in the parting plane between the housing and core let yourself according to a ensure a further advantageous development of the invention when the lock pocket on the parting plane between the housing and Core has sloping flanks. Furthermore, the control is through the external magnetic field reliable moved out of the lock pocket, as it is from the magnetic field either attracted the repelled becomes.

The Control leaves according to another advantageous development of the invention even at low magnetic field strengths Remove from the lock pocket if the case or core has an insert made of magnetizable material and when the use up led to the tax pocket is.

One Separately mounted insert made of magnetizable material can be according to a avoid another advantageous embodiment of the invention, when the core at least in the area of the control pocket of a magnetizable Material is made.

The Movement of the blocking element is usually done by gravity. The blocking element leaves However, according to one another advantageous embodiment of the invention regardless of move the gravity when the locking element of a spring element biased in the direction of the parting plane between the housing and the core.

The Invention leaves numerous embodiments to. To further clarify their basic principle are several thereof shown in the drawing and will be described below. This shows in

1 a longitudinal section of a lock cylinder according to the invention,

2 a cross section through the lock cylinder according to the invention 1 along the line II-II,

3 the lock cylinder according to the invention 2 in a locked position,

4 a cross section through a further embodiment of the lock cylinder according to the invention,

5 a cross section through a further embodiment of the lock cylinder according to the invention with arranged in a core control,

6 a cross section through a further embodiment of the lock cylinder according to the invention with a spring element biased locking element,

7 a cross section through a further embodiment of the lock cylinder according to the invention with a single blocking element.

1 shows a lock cylinder with a in a housing 1 rotatable core 2 in a longitudinal section. The lock cylinder has an electromagnetically activated locking mechanism 3 with one in the case 1 arranged axially displaceable and by a spring element 4 in the direction of the core 2 preloaded locking bolt 5 , Furthermore, the locking mechanism has 3 an electromagnet 6 , which the locking bolt 5 in one in the housing 1 able to maintain a depressed position. In the illustrated position, the locking bar is located 5 partly in a recess 7 of the core 2 and blocks the movement of the core 2 opposite the housing 1 , This marks the basic position of the lock cylinder. The locking bolt 5 can be, for example, via a in a closing channel 8th of the core 2 introduced key and a subsequent rotation of the core 2 in the case 1 to press. If the key is locked, the electromagnet will stop 6 the locking bolt 5 in a completely in the housing 1 position and therefore allows the rotation of the core 2 opposite the housing 1 , The lock cylinder and the function of the locking mechanism 3 are detailed in the DE 199 01 838 A1 described so that the disclosure of the function of the components of the lock cylinder is expressly made to this document.

Furthermore, the lock cylinder has a lock pocket 9 lying control 10 , The control 10 is a tax pocket 11 in the core 2 across from. The tax pocket 11 is in a mission 12 of the core 2 arranged. The control 10 and the use 12 are made of a magnetizable material, while the housing 1 for example, made of brass. 2 shows enlarged a cross section of the lock cylinder 1 along the line II-II in the plane of the control 10 , The control 10 lies flush in the lock pocket 9 , On both sides of the control bag 11 are holding bags 13 . 13 ' for each one blocking element 14 . 14 ' arranged. The blocking elements 14 . 14 ' are made of a non-magnetic material. The lock bag 9 indicates the parting plane between the housings 1 and core 2 inclined flanks 15 on.

When a strong magnetic field acts on the lock cylinder, the magnetizable control becomes 10 from the magnetizable insert 12 attracted and rolled along the flanks 15 the lock pocket 9 in the tax pocket 11 of the core 2 , Then becomes the core 2 turned, as is in 3 is shown, moves the next blocking element 14 partly by gravity into the lock pocket 9 , In the direction of the parting line between the housing 1 and core 2 inclined flanks 16 the appropriate holding bag 13 subsequently cause the blocking element 14 in the parting plane between housing 1 and core 2 gets trapped and the further movement of the core 2 prevented.

4 shows a further embodiment of the lock cylinder according to the invention in cross section, which differs from that of the 2 and 3 distinguishes that from the tax pocket 11 groundbreaking flanks 17 . 17 ' the holding pockets 13 . 13 ' inclined to the parting line between the core 2 and housing 1 leak. The tax pocket 11 facing flanks 18 . 18 ' the holding pockets 13 . 13 ' each have a lifting edge 19 . 19 ' on. Furthermore, the core 2 in the area of the tax pocket 11 made of a magnetizable material. When the control 10 in the control bag 11 is located and the core 2 is rotated, the core blocks 2 in another rotation, in which the inclined flank 17 the respective holding bag 13 against the blocking element 14 suppressed. However, the lifting edge 19 against that in the lock pocket 9 located blocking element 14 moves, becomes the blocking element 14 out of the lock pocket 9 lifted. Thus, in contrast to the embodiment of the 2 and 3 the core 2 even after exposure to a strong magnetic field back into the in 4 shown starting position to be moved back.

5 shows a further embodiment of the lock cylinder according to the invention in cross section, which extends from the 2 only different in that the lock pocket 9 in the core 2 and two blocking elements 14 in the housing 1 holding pockets 13 . 13 ' are arranged. Therefore, the control is also 10 in the core 2 and a tax pocket 11 in the case 1 arranged. Likewise is an employment 20 made of magnetizable material in the housing 1 arranged. The function of this embodiment is therefore the same as in the embodiment of FIGS 2 and 3 ,

6 shows a further embodiment of the lock cylinder 1 in cross-section, which differs from the 4 this distinguishes that the blocking elements 14 . 14 ' of spring elements 21 . 21 ' in the direction of the parting plane between the housing 1 and core 2 are biased. These spring elements 21 . 21 ' support the on the blocking elements 14 . 14 ' acting gravity when the lock pocket 9 is empty and the core 2 is slightly rotated.

An in 7 illustrated embodiment of the lock cylinder according to the invention 1 shows a single, at the core 2 arranged holding pocket 22 for receiving a single blocking element 23 on. The holding bag 22 is on the control bag 9 opposite side of the core 2 arranged. Will the control 10 through a magnetic field from the lock pocket 9 removed, leaves the core 2 Turn 180 ° in both directions until the locking element 23 in the lock pocket 9 falls.

Claims (11)

Locking cylinder having a core which can be rotated in a housing and having an electromagnetically activatable locking mechanism for selectively blocking or releasing the movement of the core, wherein the housing is made of non-magnetic material, characterized in that the housing ( 1 ) or the core ( 2 ) in the intended mounting direction upwardly open locking pocket ( 9 ) for substantially flush receiving a made of a magnetizable material control element ( 10 ) has that the respective other component has a downwardly open control pocket ( 11 ) for completely receiving the control element ( 10 ) and in the direction of movement of the core ( 2 ) next to the control bag ( 11 ) a downwardly open retaining pocket ( 13 . 22 ) and that in the retaining pocket ( 13 . 22 ) a blocking element ( 14 . 23 ) is arranged from non-magnetizable material and that the lock pocket ( 9 ) Dimensions for exclusively partial reception of the blocking element ( 14 . 23 ) having. Lock cylinder according to claim 1, characterized in that the lock pocket ( 9 ) in the housing ( 1 ) and the holding pocket ( 13 . 22 ) in the core ( 2 ) are arranged. Lock cylinder according to claim 1 or 2, characterized in that a single retaining pocket ( 22 ) from the lock pocket ( 9 ) seen on the opposite side of the core ( 2 ) is arranged. Lock cylinder according to claim 1 or 2, characterized in that the control pocket ( 11 ) between two holding pockets ( 13 . 13 ' ) each with a blocking element ( 14 . 14 ' ) is arranged. Lock cylinder according to claim 1, characterized by a spherical shape of the control element ( 10 ) and / or the blocking element ( 14 . 23 ). Lock cylinder according to claim 3 or 4, characterized in that one of the control pocket ( 11 ) groundbreaking flank ( 16 . 17 ) of the holding bag ( 13 ) inclined to the parting plane between core ( 2 ) and housing ( 1 ) expires. Lock cylinder according to claim 3 or 4, characterized in that a lateral edge ( 18 ) of the holding bag ( 13 ) one in the lock pocket ( 9 ) located blocking element ( 14 ) engaging behind lifting edge ( 19 ) having. Lock cylinder according to claim 3 or 4, characterized in that the lock pocket ( 9 ) to the parting plane between housings ( 1 ) and core ( 2 ) inclined flanks ( 15 ) Has. Locking cylinder according to one of claims 1 to 8, characterized in that the housing ( 1 ) or the core ( 2 ) an insert ( 12 . 20 ) of magnetizable material and that the insert ( 12 . 20 ) to the control bag ( 11 ) is guided. Locking cylinder according to one of claims 1 to 8, characterized in that the core ( 2 ) at least in the area of the control pocket ( 11 ) is made of a magnetizable material. Locking cylinder according to one of the preceding claims, characterized in that the blocking element ( 14 ) of a spring element ( 21 ) in the direction of the parting plane between housing ( 1 ) and core ( 2 ) is biased.