DE3534482A1 - Block lock - Google Patents

Abstract

In a block lock having at least one detector for detecting the lock-bolt positions for a central alarm device, there is arranged a pivoting lever (1) which actuates electrical detectors (3, 4, 5) by means of its pivoting movement. This pivoting lever (1) is actuated only when the lock bolt (2) is diplaced by a suitable key by means of the tappet (22) of the lock cylinder (23). If the lock bolt (2) is displaced by force, no actuation of the pivoting lever (1) occurs. <IMAGE>

Description

The invention relates to a block lock with a from a pivotable pin of a locking cylinder operable lock bolt, the lock bolt positions detected by at least one electrical detector and there through a central alarm device in monitoring or Waiting position is put.

Such a block lock is from "Baubeschlag Magazin", Issue 10, 1980, p. 158.

If rooms that are protected against unauthorized access should have multiple doors, are often block locks of the type described there used a central alarm device depending on the position the bolt on and off any door The central alarm device can therefore from any of the Doors are put into monitoring mode. This has the advantage that when opening one of these doors with the alarm system automatically with a suitable key Waiting position is put in when entering the je no alarm is triggered in the room. The micro scarf ter of the individual doors z. B. in a quiescent current loop, the interruption of the alarm system in switches a waiting position. When closing the door The alarm system is moved back into the over via the bolt guard position shifted.  

A disadvantage with this type of control of the alarm system is to be seen in the fact that even in the event of violent displacement Exercise the bolt on a door without the associated Key to put the alarm system out of service can.

The invention has for its object a block lock the genus described at the outset wrap that the electrical detector only with one With the help of a suitable key the latch is pressed.

This object is achieved in that all or part of the electrical detectors via the Pivotal movement of a pivot lever are actuated by means of the pin of the locking cylinder in synchronism with the Movement of the lock bolt is pivotable.

The device according to the invention has the advantage that in the event of a violent shift of the bolt into the the position in which the door is open for opening, the alarm system remains "armed". The alarm plant with the z. B. a door contact or optical, aku static or electromagnetic sensors are connected, then issues a message after entering the room. However, the lock bolt with the help of a Lock cylinder suitable key opened, then the alarm system is put on hold and speaks not after entering the room.

Further advantages result from the fact that the preferred Detectors designed as microswitches independent of the embodiment of the lock cylinder and spatially of this are arranged away. The lock cylinder can at any time using a standard locking cylinder change.  

There is also another microswitch for over Install the guard of the locking cylinder pin where through double monitoring is possible that more Offers security against manipulation at the lock.

There is still room for microswitches, the presence of the lock cylinder respectively monitor the locking screw of the locking cylinder.

A particular advantage is that the actuation the microswitch by means of a swivel lever enables along the entire length of the swivel lever microswitch to attach so that the latch is not just in its end positions but also in - depending on the execution of the Swivel lever - any number of intermediate positions recorded can be.

Developments of the invention are the subclaims refer to.

An embodiment that the security of the block If the lock is raised further, a pawl will pass through an electromagnet is held and has the task to prevent the alarm system from malfunctioning (e.g. power failure) the lock bolt the end position in which the key from the lock can reach cylinder can be pulled out, so that the door only after Elimination of the fault can be locked.

The invention is based on one in one Drawing he illustrated embodiment closer clarifies which further features as well as advantages surrender. Show it

Fig. 1 shows the block lock in the direction perpendicular to the door surface,

Fig. 2 is a section along line CD of the lock block shown in Fig. 1,

Fig. 3 is a section along the line EF of the block lock shown in Fig. 1.

Fig. 1 shows the block lock, as it shows after opening the lock housing, with some outbreaks of the Ver illustration serve.

Above a bolt 2 there is a pivot lever 1 which is pivotally mounted at a pivot point 6 . Three microswitches 3 , 4 and 5 are arranged on this swivel lever as an example, and depending on the design of the swivel lever 1 there is also space for further microswitches. The microswitches are moved from one switch position to another depending on the angular position of the pivot lever 1 . The angular position of the pivot lever 1 changes only in that a U-shaped participant 8 engages in a correspondingly formed lower end 7 of the pivot lever 1 and takes it along in accordance with the displacement movement of the bolt 2 . Depending on the bolt position and thus the angular position of the swivel lever 1 , signals are given by the microswitches to a central alarm device. At the latest when the angular position of the pivot lever 1 , which corresponds to the fully retracted bolt 2 , the alarm device is placed in the waiting position.

However, the pivot lever 1 is not entrained by every displacement movement of the bolt 2 . If, for example, the bolt 2 is struck back with a hammer or pushed back by a crowbar, the participant 8 does not engage in the end 7 of the pivot lever 1 , the microswitches are not switched and the alarm device remains in the monitoring position, which means that this Opening the door or entering the room triggers an alarm.

If, on the other hand, a suitable key is inserted into a locking cylinder 23 and a pin 22 is pivoted into a recess 33 in the bolt 2 by rotation, the pin 22 presses a bracket 31 and the driver 8 connected to the bracket 31 against the pressure of a spring 35 as long upwards, until the driver 8 engages in the lower end 7 of the pivot lever 1 , so that the pivot lever 1 changes its angular position in accordance with the displacement of the bolt 2 and switches the microswitch which sets the alarm device in the waiting position.

Fig. 2 shows how a spring-loaded ball 10 is snapped into a recess 11 and holds the pivot lever 1 in the position shown in Fig. 1, in which the driver 8 can engage in the lower end 7 of the pivot lever 1 . In Fig. 1 the recess 11 'can be seen, which corresponds to the locking of the pivot lever in the retracted locking position.

At the upper end of the pivot lever 1 , a microswitch 3 with a rotatable, curved flag 13 is attached, which rests on a slope 12 of the pivot lever 1 so that the flag 13 the microswitch 3 when reaching the retracted end position of the bolt 2 - provided that it is in order is pushed back by a key - presses from a first into a second switching position.

The arrangement of the microswitches 4 and 5 on the pivot lever 1 can be seen from Fig. 1 and the section CD shown in Fig. 2. Pins 15 and 17 , which press on flags 14 and 16 , sit on the swivel lever 1 .

In Fig. 1 it can be seen that by the arrangement and configuration of the flags 14 and 16 can be achieved that the microswitches 4 and 5 are at a certain angular position of the pivot lever 1 in one or the other switching position. For example, the microswitch 4 is depressed in the swivel lever position shown, which corresponds to the extended latch 2 , and changes this switching position when the latch or swivel lever position changes. The microswitch 5 is in a switching position and, due to the design of its flag 16 , assumes a second switching position only when the pivoting lever 1 is in a certain intermediate position. Depending on the length of the pivot lever 1 , any number of microswitches with different switching positions at different angular positions of the pivot lever 1 (and thus the associated locking positions) can be attached in this way.

The angular and thus space-saving design of the swivel lever 1 , which is visible in FIG. 2, enables the installation of an additional functional safeguard in addition to the attachment of microswitches:

A connected to an armature 41 pivotable lever 40 (see also section EF in Fig. 3) is held by an electric magnet 42 when it is under voltage. In the event of a fault in the alarm system due to a power failure or in the event of another fault which leads to the power supply to the electromagnet being switched off, this pivotable lever 40 falls down.

In this state, the lock can be opened because a nose 43 of the lever 40 has a slope in the direction of the retracting bolt 2 , but it is not possible to lock the door and remove the key. When the lock bolt 2 is extended, the lever 40 falls with its nose 43 into the recess 32 or the recess 44 of the bolt 2 . The projection of the nose in a 90 ° angle prevents the bolt 2 can be moved into its extended end position. As a result, the lock cylinder 23 does not release the key for removal in the event of such a fault.

Another advantage of the actuation of microswitches by the pivot lever 1 is that the locking cylinder 23 can be replaced at any time by any commercially available locking cylinder. This would not be the case with a conceivable solution that works with disks that can be attached to the locking cylinder.

Another advantage of the solution according to the invention is that the space around the lock cylinder 23 remains free for further additional security elements that lead to an expedient design of the block lock: in the pivoting area of the pin 22, a further microswitch 20 with a bent, rotatably mounted bearing can be used Flag 21 are arranged, which has the task of reporting the spinning of the pin 22 . This message can be processed to double-lock the block lock against interference from the alarm device to the effect that this is in addition to switching the other, arranged on the pivot lever 1 microswitch 3 , 4 and 5 prerequisite for a switch to the waiting position.

In addition, there is still room for the attachment of a microswitch, which monitors the presence of the locking cylinder 23 or a microswitch 46 , which emits an alarm signal when the fastening screw 47 of the locking cylinder 23 is removed.

Claims (13)

1. Block lock with a lock bolt which can be actuated by a pivotable pin of a lock cylinder, the lock bolt positions being detected by at least one electrical detector and thereby placing a central alarm device in the monitoring or waiting position, characterized in that all or part of the electrical detectors ( 3 , 4 , 5 ) can be actuated via the pivoting movement of a pivoting lever ( 1 ) which can be pivoted in synchronism with the displacement of the lock bolt ( 2 ) by means of the pin ( 22 ) of the locking cylinder ( 23 ). 2. Block lock according to claim 1, characterized in
that the swivel lever ( 1 ) is mounted at a pivot point ( 6 ) and has a spherical shape at its lower end ( 7 ) which is shaped for the engagement of a U-shaped driver ( 8 ),
that the pivot lever ( 1 ) has a spring-loaded ball ( 10 ) which snaps into recesses ( 11 , 11 ') and thereby arre the pivot lever ( 1 ) in the engagement positions of the driver ( 8 ) arre, in which when opening or Completing the lock of the driver ( 8 ) is pressed by the pin ( 22 ) of the locking cylinder ( 23 ),
and that one or more of the electrical detectors ( 3 , 4 , 5 ) are arranged on the pivot lever ( 1 ) so that they switch on or off depending on the angular position of the pivot lever ( 1 ). 3. Block lock according to claim 2, characterized in that the driver ( 8 ) is connected to a bracket ( 31 ) which is inserted into recesses ( 32 , 33 ) of the bolt ( 2 ) and against the pressure of one in a bore ( 34 ) of the bolt ( 2 ) mounted spring ( 35 ) in the direction of the pivot lever ( 1 ) until the driver ( 8 ) engages in the lower end ( 7 ) of the pivot lever ( 1 ) as soon as the pin ( 22 ) of the locking cylinder ( 23 ) engages in the recess ( 33 ) of the bolt ( 2 ). 4. Block lock according to one of claims 1 to 3, characterized in that the detector ( 3 ) is a microswitch and via a rotatably mounted flag ( 13 ) from an above the pivot point ( 6 ) of the pivot lever ( 1 ) arranged on this slope ( 12 ) is switched. 5. Block lock according to claim 4, characterized in that the microswitch (3) when fully fahrenem bolt (2) has a first switching position and a completely or partially extended latch (2) assumes a second switching position. 6. Block lock according to one of claims 1 to 5, characterized in that the detector ( 4 ) is a microswitch and is switched via a rotatably mounted flag ( 14 ) by a on the pivot lever ( 1 ) seated pin ( 15 ). 7. Block lock according to claim 6, characterized in that the microswitch ( 4 ) takes up a first switching position when the bolt ( 2 ) is fully extended and a second switching position when the bolt ( 2 ) is fully or partially retracted. 8. Block lock according to one of claims 1 to 7, characterized in that the detector ( 5 ) is a microswitch and via rotatably mounted, twice oppositely bent flag ( 16 ) is switched by the pin ( 17 ) seated on the pivot lever. 9. Block lock according to claim 8, characterized in that the microswitch ( 5 ) at a by the training of the flag ( 16 ) predetermined angular position of the pivot lever ( 1 ) and thus also a corresponding position of the bolt ( 2 ) a first switching position and in the other bolt positions occupies a second switching position. 10. Block lock according to claim 8 or 9, characterized in that a plurality of microswitches ( 5 ) are provided. 11. Block lock according to one of claims 1 to 10, characterized in that a microswitch ( 20 ) with a bent, rotatably mounted flag ( 21 ) is arranged in the rotating region of the pin ( 22 ) of the locking cylinder ( 23 ) that it through moving pin ( 22 ) during a certain angular position of the pin ( 22 ) in a first switching position and is otherwise in a second switching position. 12. Block lock according to one of claims 1 to 11, characterized in
that a pivotable lever ( 40 ) is connected to the armature ( 41 ) of an electromagnet ( 42 ) and has a nose ( 43 ) which has a slope in the direction of a moving bolt ( 2 ) and in the other direction in a 90 ° -Angled cantilever
that the bolt ( 2 ) has a recess ( 44 ) into which the nose ( 43 ) falls when the electromagnet is de-energized,
and that thereby the bolt ( 2 ) can no longer be moved into the extended end position in which the locking cylinder releases the key for removal. 13. Use of a block lock according to one of claims 1 to 12 for an alarm system for additional security against unwanted manipulation of the lock, characterized in that the alarm device only goes into standby if, in addition to the change in the switching state of the microswitch ( 3 , 4th , 5 ) when the door is opened, the microswitch ( 20 ) also switches from the first to the second switching state and back to the first switching state by turning the pin ( 22 ) past.