DE4218660C1 - Profile cylinder switch lock - has profile cylinder operable by key and electrical switch device operable by switch cam of profile cylinder - Google Patents

Abstract

The electrical switch device has at least one drive disc (8) rotatable around its axis, which for adjustment of various switch positions of the lock can be brought to at least two different rotary positions. Peripheral drivers (II) on the drive disc can be brought into engagement with the switch cam of the profile cylinder. The drivers are formed by radial outwardly open recesses (11) in the peripheral surface of the drive disc. A switch disc with switch components is connectable coaxially and non-rotatably with the drive disc. The drive disc and the switch disc are so arranged in relation to one another, that they enclose a conductor plate (4) between them carrying the electrical components of the switch device. USE/ADVANTAGE - Switch lock with profile cylinder operable by key and electrical device operated by switch cam of profile cylinder. Makes possible adjustment of several switch positions in simple and reliable manner.

Description

The present invention relates to a switch lock with a by a key operated profile cylinder and one can be actuated by a switching cam of the profile cylinder electrical switching device.

Switch locks are used, for example, for alarm or security used to turn these on and off or sharp and to disarm. Switch locks of this type can also be found Use in electrical machines of all kinds, for example wise with machine tools such as lathes and milling machines.

A disadvantage of the known switch locks is above all that by turning the key only two operating states, namely on and off or in and out of focus can be put. Another disadvantage of the known Switch locks is that the electrical contact is immediate is produced over the switching cams of the profile cylinder, which due to the profile with play in the direction of rotation cylinder an insufficiently accurate switch position he follows. This is particularly important if the electrical switching device a miniaturized conductor plate in which the defined switching positions only a small distance and only small to Has available contact areas.  

From DE-GM 79 22 433 a switch lock is known in which Set several switching positions using a locking cylinder are cash. This is directly at the end of the locking cylinder a disc rotatably attached to the lock cylinder facing away from a contact spring plate is attached, the with corresponding counter contacts on a lock holder in electrical contact can be brought. The electri contact directly via the playful locking cylinder made linder. The DE-GM 91 99 554 is a key switch with basically the same structure, but on the disc firmly attached to the end of the locking cylinder no contact spring tongue is attached, but these cams has, which protrudes into the area of the cams Contact springs can press against fixed contacts. This too Switch lock has the aforementioned disadvantages.

In DE-OS 24 03 995 there is also a key switch a profile cylinder lock described by the beard electric multiple switch with floating Switch actuator is actuated. The operation takes place in this case via a transmission element which controls the rotary movement of the Bartes the profile cylinder lock in a translational Implements switching movement. This well-known switch lock has a relatively complex spring-loaded structure and is therefore relatively expensive and prone to failure.

Finally, from DE-GM 83 28 372 by a pro Key cylinder operated key switch known, in which through the beard of the profile cylinder the Schaltele elements of electrical microswitches. Also this known key switch is subject to play and has no sufficiently precisely defined switch positions.

Based on this state of the art, it is the task of present invention, a switch lock with one by one Key operated profile cylinder and one by one Switching cams of the profile cylinder actuable electrical  To create switching device that in simple and verver the setting of several switching positions in a casual manner enables.

This task is carried out by a switch lock according to the teaching of Claim 1 solved.

Further refinements of the invention are the subject of Subclaims.

The switch lock according to the invention thus includes one electrical switching device, which is rotatable about its axis Has drive pulley, which by the switching cam of Profile cylinder is driven. Profile cylinder in the sense of The present invention means, for example conventional locking cylinder, as in every security lock, for example on front doors, is used. The Drive disc of the switching device and the profile cylinder are here, for example in a housing, to each other arranged that by turning a key around the Axis of the profile cylinder rotating cam with peripheral ren, d. H. essentially arranged on the circumference, drivers of the Drive pulley can be brought into engagement. By the rotation the key clockwise or counterclockwise the drive pulley, the is rotatably mounted about its axis, in the opposite direction set direction of rotation rotated, the rotational positions of the Drive pulley the different switching positions correspond. In other words, the drive pulley and the Switching cams of the profile cylinder act in the manner of two intermeshing spur gears, the one of the first Gear corresponding profile cylinder only one tooth, namely the switch cam, and that corresponds to the second gear appropriate drive pulley with any number of Teeth, corresponding to the number of peripherally arranged Driver, has.

This design means in particular that the number of possible switching positions, d. H. Rotational positions of the drive disc, ultimately on the number of carriers of the  Drive pulley depends. When the switch cam engages Profile cylinder in a driver is the drive disc rotated by one switching position; at the next rotation of the key or the profile cylinder with the Switch cams become the engagement between switch cams and Driver removed and the switch cam can now be freely rotate about a full turn about its axis until it upon renewed intervention with the next driver the drive pulley this by a further rotation and switching position moved on. In this way you can almost any number in a conventional profile cylinder cause switching positions, the switching position, d. H. the rotational position of the drive wheel, and the rotational position of the Profile cylinders that are functionally completely separate. This has the particular consequence that a never to be excluded Play in the profile cylinder in the direction of rotation has no influence has the switch position and on the other hand the profile cylinder, after which the switching cam engages with the driver of the Leave the drive disc, always in a quiescent state position in which the key can be removed can be without this adversely affecting the switching position influenced.

The drivers of the drive pulley can, for example, in simply from perpendicular to the disc plane on the circumference of the Disc driver pins arranged. Preferably however, the drivers are opened radially outwards Recesses in the peripheral surface of the drive pulley educated. The recesses can be in the direction of The axis of rotation of the drive pulley must be open on both sides, d. H. it a gear-like design is achieved; because of mechanical strength of the drive pulley are, however Recesses preferably only in the direction of the axis of rotation open on one side and for example by axial Attaching a milling cutter.

In the simplest way, the drive disc itself as Actual switching element act, for example, in that on one of their main surfaces switching elements, for example in  Form of cams or recesses, which are arranged at a correspondingly arranged switch of the switch operate the device or, in the simplest way, by Touching a contact bridge like a sliding contact form. However, the electrical switch preferably has device in addition to the drive pulley a switching or Control disc with switching elements on that with the drive is coaxially and non-rotatably connectable. With this The embodiment thus serves only the drive pulley as a torque-transmitting component between the switching cams of the profile cylinder and the switching disc, while the inputs or switch-off processes according to the principle outlined above through the switching elements of the switching disc. Here are preferably the drive disk and the switching disk arranged to each other that they are the electrical components the switching device carrying circuit board between them lock in. It is particularly with this design possible that both the drive pulley and the switching disc arranged on both sides of the circuit board Close or operate contacts or switches, which causes the number or combination of possible switching operations further increased.

Especially when using miniaturized conductors plates where the available contact areas or the distances between the contact surfaces or switches are relatively small, according to a preferred embodiment example of the invention locking means on the drive pulley or the switching disc to define the Drive disc or the switching disc in the direction of rotation in the provided respective switching position. This allows the Further increase the precision of the switch position. The locking means can basically be done in any way be designed. However, the latching means preferably exist in corresponding holes in the drive pulley or the switching disc guided in the axial direction spring acted upon balls, which in corresponding recesses or Recesses of the circuit board can be brought into latching engagement are. This configuration ensures that even  if the drive disc or the switching disc due to the Drive by the switching cam not exactly in the respective Shift position comes, the drive pulley or the shift disc due to the force component acting in the direction of rotation spring-loaded ball relative to the corresponding one Indentation or recess in the exact switching position is forced. By an appropriate combination of Number of spring loaded balls with the number of corresponding recesses or recesses can be used for a specialist in the simplest way an almost arbitrarily fine Achieve definition of the defined switching positions.

The switching elements are preferably on the circuit board facing side of the switching disc or the drive disc arranged and with corresponding electrical contacts the respectively facing side of the circuit board in engagement bringable. The electrical contacts can be in easiest way from contact tracks on the circuit board exist that are bridged by the switching elements or after Type of sliding contact can be closed. The switching elements themselves can also, for example, by resting medium in the form of the spring-loaded balls, then the balls inside the bearing bore, for example as a contact pin with electrical lead out Have connectivity; the opposite pole can with this Design consist of a circular contact path that extends around the edge of the recess or recess, in which engages the ball latching.

Basically, the manufacture of the switch contacts is both in the way outlined above as a real bridging one Contact by mechanical contact or contactless by corresponding well-known components, for example wise non-contact switches such as reed contacts possible. The Non-contact switches can either be directly on the Drive disc or the switching disc or opposite be arranged lying on the circuit board.  

However, the switching elements preferably consist of Recesses in the switching disc or from projections on the Switch disc and the electrical contacts from on the Circuit board arranged microswitches. Here are the Microswitch and the recesses or projections relative arranged to each other so that at the by the switching cam of the profile cylinder caused rotation of the drive pulley and thus also the switching disc through the microswitch respectively assigned recesses or projections be switched. You can do this on the circuit board below the switching disc in principle any number of such micro switches are arranged, but of course in in practice the number on the one hand due to the required switching operations and on the other hand by the available Space is limited.

The recesses of the drive that switch the microswitches disc or the switching disc can in principle be any d. H. in particular be arranged irregularly, distributed. Preferably, however, in particular for a larger number different switch locks the component effort as possible the recesses are to be kept small in the circumferential direction regularly distributed at least in some areas. To nevertheless for different configurations different switching To enable processes and switching sequences, it is according to one preferred embodiment of the invention provided the Drive disc or the switching disc in the area of Recesses with axially through the entire disc body to provide threaded holes in the Need protruding into the area of the recesses Set screws can be screwed. This means then in other words that these recesses are then no more than Switching elements are effective because, for example, when reaching over of microswitches, the switch button of the microswitch no longer penetrate into the recess and match it can open or close the contact. Thus in a standardized drive pulley in the simplest way or switching disc for various applications configure.  

This setting for different requirements is basic also in the case of the drive pulley in the area of the Driver-forming recesses possible, then through the the number of rotational positions of the Drive wheel is reduced.

For different applications, it can be advantageous if the switch lock is only switched depending on the Presence of certain switching criteria is enabled. So should for example in security systems, in particular Alarm systems, the system can only be armed, when all doors or windows to be monitored are closed are. When using a generic key switch with machines, for example with milling machines, it can be required, for example, that the milling machine only can be employed if all for security reasons Housing ceilings or flaps are closed. Preferably therefore has a key switch according to the invention a Vorrich device for blocking the drive pulley or the gearshift disc in the direction of rotation depending on certain Criteria of the device to be switched on. The blocking device can in a simple manner from one essentially Lichen radially to the drive disk or to the switching disk arranged electric linear magnets or lifting magnets exist, its longitudinally movable anchor with corresponding Recesses or projections in the peripheral area of the Drive disc or the switching disc in positive Intervention can be brought. The moving anchor of the electric Linear magnet is located in the engagement, d. H. Locking position, if not all to release the Switch lock function apply necessary criteria. Lie However, before this, the linear electromagnet is switched and the anchor is brought out of its engaged position, whereupon the Switch lock is released.

In the following the invention will be explained in more detail using an exemplary embodiment in conjunction with the accompanying drawings. 1 shows a switching mechanism according to the present invention in a schematic representation.

FIG. 2 shows a schematic illustration of the drive disk (and the switching disk) of the switch lock according to FIG. 1;

Fig. 3, the shift plate of a switching mechanism according to the invention; and

Fig. 4, the drive pulley of a switch lock according to the invention.

In FIG. 1, an embodiment of a switch is illustrated lock according to the present invention. The key switch has a housing 1 , in which a conventional profile cylinder 2 known per se is arranged in a stationary manner. The profile cylinder 2 can be rotated or closed by a key, not shown, in a plane parallel to the plane of the drawing. A switching cam 3 is formed or fastened on the profile cylinder 2 so as to be rotatable about the closing axis. When the key is inserted, the switching cam 3 is freely rotatable about the locking axis.

The switch lock also has a printed circuit board 4 which is mounted in the housing 1 and fastened with the screws 5 and 6 . On the circuit board 4 , the electrical components of the electrical switching device are essentially net angeord. Axially offset to the switching or closing axis of the profile cylinder 2 , a switching disc 7 and a drive disc 8 are arranged coaxially to one another in a rotationally fixed manner, with the switching disc 7 seen in the direction of view in front of the circuit board 4 and the drive disc 8 after the circuit board 4 are (see Fig. 2).

Microswitches 10 for switching various functions of an external system, not shown, are arranged on the printed circuit board 4 in the area between the side 9 of the switching disk 7 facing the printed circuit board 4 and the upper side of the printed circuit board 4 .

The interaction of microswitches 10 with the switching disk 7 and the drive disk 8 is shown in more detail in FIG. 2. In its peripheral area, the drive pulley 8 has drivers in the form of recesses 11 which are open radially outward, of which only one is shown in FIG. 2 for reasons of clarity. In this recess 11 engages from the radially outside of the switching cam 3 of the profile cylinder 2 in the manner of a spur meshing, whereby the drive disc 8 in a direction of rotation, which is opposite to the direction of rotation of the switching cam 3, is rotated until the switching cam 3 from the Engagement with the recess 11 emerges. On which the driving pulley 8 opposite side of the circuit board 4, the switching disc 7 is arranged so as to pass engages with an integrally molded pivot pin 12 by an at least slightly larger opening 13 in the printed circuit board. 4 The drive disk 8 and the switching disk 7 are connected to one another in a rotationally fixed manner, for example by a split pin or by an appropriately dimensioned press fit. The unit consisting of the switching disk 7 and the drive disk 8 can thus be rotated together relative to the printed circuit board 4 by the engagement of the switching cam 3 .

The switching disk 7 has on the surface 9 facing the printed circuit board 4 in the peripheral area in the axially inwardly open recesses 14 . Again, for reasons of a simpler representation, only such a recess is shown in FIG. 2.

The arranged on the circuit board 4 microswitch 10 are arranged so that the button 15 of the microswitch 10 comes to lie in the peripheral area below the bottom 9 of the switching disc. If now, as shown in the left side of Fig. 2, the switching disc 7 is in a rotational position in which there is a recess 14 just above the switch button of the microswitch 10 , the switch button 15 is released upwards and causes a closure or opening the switching contact within the microswitch 10 . However, as shown in the right-hand side of FIG. 2, in a certain rotational position of the drive disk 7, the button 15 of the microswitch 10 is not below such a recess 14 , the button 15 is pressed and an opposite switching state is effected. As can be easily seen, can be set by an appropriate arrangement or combination of recesses 11 in the drive plate 8 , recesses in the switching disc 7 and arrangement of the micro switch 10 on the circuit board 4 an almost any circuit configuration.

As can also be seen from Fig. 2, the drive disc 8 locking means for setting a precisely defined rotational position in the form of a known ball detent connection. For this purpose, bores 17 are arranged in the collar 16 bearing against the printed circuit board 4 axially, ie parallel to the axis of rotation of the drive disk 8 , in which axially freely movable spring-loaded balls 18 are mounted. Again, for the sake of simplicity of illustration, only such a ball catch connection is shown. The circuit board 4 has the same diameter as the holes 17 , based on the axis of rotation of the drive disk 8 , regularly distributed through holes 19 with a smaller diameter than the balls 18 . If the bores 19 are aligned with the bores 17 after rotation of the drive disk 8 relative to the printed circuit board 4 , the balls 18 are pressed slightly into the bores 19 and thus bring about a precisely defined switching position of the drive disk 8 and thus the switching disk 7 .

The drive disk 8 and the switching disk 7 are provided in the area of the recesses 11 and 14 with axially extending through-going threaded bores 20 . Set screws, not shown, can be screwed into these bores in such a way that they project axially into the area of the recesses 11 and 14 and thus, in the case of the recesses 11 , an engagement of the switch cam 3 and in the case of the recesses 14 prevent the switch button 15 from switching . This results in a further variation possibility for the switching configuration according to the invention.

In FIGS. 3 and 4 is shown only schematically one example each of a switching pulley 7 and a driving pulley 8, as seen respectively looking in the direction of the printed circuit board here. A possible distribution of the recesses 14 on the underside 9 is shown in FIG. 3, wherein, as already explained above, this distribution is basically arbitrary or dependent on the desired switching configuration. The drive pulley 8 in FIG. 4 has two recesses 11, in which the switching cam 3 is engageable. This then means in this embodiment that three basic switch positions are possible by rotating the key of the profile cylinder 2 , namely an off position, a first arming and a second arming using the example of an alarm system. These positions are caused by two full turns of the key around its own axis.

The switch lock shown in Fig. 1 also has a blocking device in the form of an electro-linear magnet 21 , which is arranged on the circuit board 4 so that its axially movable armature 22 extends substantially radially to the switching disc 7 . The armature 22 is spring-loaded so that it is pressed against the peripheral surface 23 of the switching disc 7 in the de-energized state. The circumferential surface 23 has sawtooth-like recesses into which the armature 22 can engage when the position is appropriate. This means that if the armature 22 comes into engagement in a sawtooth-like recess 24 of the switching disk 7 , further rotation of the switching disk 7 and thus switching is not possible. Only when a voltage, depending on certain operating states of the system to be switched, is present on the linear magnet 21 , the armature 22 is moved away from the switching disc 7 and releases it. The sawtooth-like recesses 24 can be designed such that a switching movement is prevented in one direction only, while rotation in the other direction is also possible when the armature engages. This is particularly advantageous if the system should be able to be switched off when a certain criterion is concerned, for example when a monitored lid is opened on a machine.

Claims (11)

1. switching lock with a key to be actuated profile cylinder and actuated by a switching cam of the profile cylinder electrical Schaltvor direction, the electrical switching device at least one rotatable about its axis drive disc ( 8 ), the settings for different switching positions of the switch lock Can be brought into at least two under different rotary positions, characterized in that on the drive disk peripheral drivers ( 11 ) are arranged, which can be brought into engagement with the switching cam ( 3 ) of the profile cylinder ( 2 ). 2. Switch lock according to claim 1, characterized in that the drivers are formed by radially outwardly open recesses ( 11 ) in the peripheral surface of the drive disc ( 8 ). 3. Switch lock according to claim 1 or 2, characterized by a switching disc ( 7 ) with switching elements ( 14 ) which can be connected to the drive disc ( 8 ) coaxially and non-rotatably. 4. Switch lock according to claim 3, characterized in that the drive disc ( 8 ) and the switching disc ( 7 ) are arranged so that they enclose a circuit board ( 4 ) carrying the electrical components of the switching device between them. 5. Switch lock according to one of claims 1 to 4, characterized by latching means ( 17 , 18 , 19 ) on the drive disc ( 8 ) or on the switching disc ( 7 ) for the defined fixing of the drive disc ( 8 ) or switching disc ( 7 ) in the direction of rotation in the respective switch position. 6. Switch lock according to claim 5, characterized in that the latching means of at least one in a corresponding bore ( 17 ) of the drive disk ( 8 ) or the switching disk ( 7 ) guided in the axial direction spring-loaded ball ( 18 ), which in at least one corresponding recess or recess ( 19 ) of the circuit board ( 4 ) can be brought into latching engagement. 7. Switch lock according to one of claims 1 to 6, characterized in that the switching elements ( 14 ) on the circuit board ( 4 ) facing side of the switching disc ( 7 ) or the drive disc ( 8 ) are arranged and with corresponding electrical contacts on the each facing side of the circuit board ( 4 ) can be brought into engagement. 8. Switch lock according to claim 7, characterized in that that the switching elements consist of recesses (14) in the switching disk (7) or projections on the switching disc (7) and the electrical contacts on the circuit board (4) arranged microswitches (10) exist, the microswitch ( 10 ) and the recesses ( 14 ) or the projections are arranged so that the disc ( 8 ) and thus the switching disc ( 7 ) caused by the switching cams ( 3 ) of the profile cylinder ( 2 ) rotation of the drive ) the microswitches ( 10 ) are switched through the respectively assigned recesses ( 14 ) or projections. 9. Switch lock according to one of claims 1 to 8, characterized by a device ( 21 , 22 , 24 ) for blocking the drive disc ( 8 ) or the switching disc ( 7 ) in the direction of rotation depending on certain criteria of the device to be switched. 10. Switch lock according to claim 9, characterized in that the blocking device consists of an essentially radial to the drive disk ( 8 ) or to the switching disk ( 7 ) arranged electro-linear magnet ( 21 ), the longitudinally movable armature ( 22 ) with corresponding recesses ( 24 ) or projections in the peripheral area ( 23 ) of the drive disk ( 8 ) or the switching disk ( 7 ) can be brought into positive engagement. 11. Switch lock according to one of claims 2 to 10, characterized by continuous threaded bores ( 20 ) in the region of the recesses ( 11 , 14 ) of the drive disk ( 8 ) or the switching disk ( 7 ) for receiving continuous, in the screwed-in state into the area the set screws protruding.