FI79168B - DOERRLAOS. - Google Patents

Description

79168 DOOR LOCK - dörrlAs

The invention relates to a door lock according to the preamble of claim 1.

Door locks with two action shafts, one with key-operated locking mechanisms and the other with manual actuators such as knobs or knobs, usually have a latch or latch that can be locked rearwards so that the lock can be opened from outside the door only with a key but not with a knob or button. This can be done, for example, by moving a member in the lock body with a key or a knob inside the door to a position that prevents the bogie or latch from being moved to its retracted position in the lock body by a button outside the door. Furthermore, solutions are known in which the pressure cam connected to the knob or button can be connected to the position in which its transmission connection to the bar or latch is cut off by special measures. All these known solutions require that the locking action be applied directly to the lock from one of the means on either axis of action. It is also a prerequisite that the door user himself performs the measures, so that, for example, remote access control is impossible to implement with such door lock solutions. Thus, electric motor locks have been developed, in which case the transfer movements of the bogie or latch and thus the opening of the lock can also be performed remotely. The disadvantage of these solutions, in turn, is that equipping the lock with a motor significantly increases the manufacturing cost and causes a much greater space requirement for the lock.

Furthermore, solutions are known in which the latch or one of the members acting on the latch is acted upon by a solenoid located outside the lock body to lock or open the lock. If the door lock is then required to 2 79168 be able to perform all the usual door lock functions, such as key operation, wrench operation or deactivation of the wrench operation and rear locking, the result is a complicated and impractical structure. In addition, even in this case, the space requirement of the lock body is greater than usual, which causes difficulties, especially in those applications where it is desired to replace the conventional door lock with a new, electrically remote-controlled locking solution.

The object of the invention is to eliminate the disadvantages of the known door lock solutions by providing a simple and reliable door lock structure which fulfills the usual requirements for a door lock and is also suitable for remote, controlled use. One object is to utilize electric control to either engage or disable the possibility of locking the lock, for example, so that when the electric control is in use the lock can be opened with buttons or knobs, while disconnecting the electric control results in the lock being opened only with keys via separate locking mechanisms such as a cylinder lock. Yet another object is that the lock body corresponds in external dimensions to conventional door lock bodies and thus does not require any significant special arrangements for installation in the door.

The objects of the invention are achieved as further defined in claim 1 and the subclaims. In the solution according to the invention, the lock body has switch means which, also under the control of the solenoid means in the lock body, on the one hand provide and on the other hand disconnect the transmission connection from the button or wrench connected to the door lock to the latch. By influencing the transmission connection in this way in the solution according to the invention, the additional elements required for remote control can be minimized, which can thus all be placed in a conventional lock body. Only the electrical switch itself, which activates and deactivates the solenoid, is placed 3 79168 outside the lock body at the desired salary required for door monitoring.

The solenoid means may equally comprise either a traction or push solenoid provided with an actuating means for moving the clutch means to a position in which the transmission connection between the weight cam and the latch is either engaged or disconnected, depending on the application. The return of the coupling means, in turn, can advantageously be arranged by means of a spring. In this case, for example in the event of a possible power failure, it can be arranged that the clutch elements cut off the transmission connection from the knob or button to the latch. Thus, the door lock can only be opened with a key, so that the door control is not compromised. In other applications, on the other hand, the requirements for the safety of persons may specifically require that, in the event of a power failure, the coupling elements must be in a position where passage through the door is possible without a key.

In a particularly advantageous embodiment of the invention, the weight cam is divided into two separate parts in the direction of the operating axis, so that the first part of the weight cam is connected to a knob, button or similar actuator and can be directly rotated by it. The second part of the weight cam is a rotatable element independent of the first part and said actuator, which is arranged in a transmission connection with the latch, wherein the transmission from the first part of the weight cam to the second part of the weight cam is arranged by said coupling means. The transmission connection can advantageously be realized in such a way that the second part of the weight cam is longer than the first part of the weight cam and is arranged to act on the latch lock body using a pivotally mounted transmission element. Said coupling means may advantageously comprise a pivotable shaft pin which, under the action of the solenoid means, is movable between the engaging and free position of the coupling means and which is supported by your axially displaceable! 79168 4 cam members. Correspondingly, the parts of the weight cam can be provided with projections which, when the coupling means are connected, are arranged to co-operate with said cam member.

In another embodiment of the invention, said coupling means comprises a pivotally mounted lever arranged to co-operate with a traction member located in connection with the first operating axis of the lock and acting on the latch retraction and on the other hand with the clutch lever rotating about the second operating axis of the lock. within reach of the weight cam, wherein the turning of the weight cam is arranged to cause the clutch lever to turn to move the traction member and retract the latch. In its open position, the clutch lever, on the other hand, is turned out of reach of the weight cam so that the transmission from the weight cam to the latch is cut off.

The invention will now be described with reference to the accompanying drawing, in which Figures 1 and 2 show an embodiment of a door lock according to the invention in a side view, the lock body open and switch means in two different operating positions, Figure 3 shows another embodiment of a door lock according to the invention in a side view, lock body open and .

In the drawing, reference numeral 1 denotes a lock body in which the oblique latch 2 is arranged to be reciprocated between its protruding or locking position shown in the figures and its retracted or releasing position. The lock body has two operating shafts, of which a key-operated locking mechanism (not shown in the figures) can be connected to the first operating shaft 4a, from which the transmission to the latch 2 is by a linearly displaceable drive member 5 connected to the shaft 4a and a pivot element 5 79168 through. The transmission from the locking mechanism to the traction member 5 takes place by a torsional cylinder 26 provided with a cam, which has guide edges 27 acting on the traction member in the recess in which the traction member 5 is placed.

The transmission element 7 is pivotally mounted by a pin 22 of the lock body size. The latch 2 in turn has a pin 8 arranged to cooperate with the guide groove 9 in the transmission element 7 to move the latch to its retracted position. The latch 2 is moved back to its locking position by means of a spring 3 also via a transmission element 7. The second operating shaft 4b has a weight cam 10 which can be turned by a button, a wrench or the like mounted on the operating shaft 4b (not shown in the figures). The spring 11 acts as a reset of the weight cam 10 and thus also of the button in question. The lock body also has a stop 10c for the weight cam.

Further, the door lock comprises solenoid means 12 arranged as part of an electrical circuit 13, which is drawn in the figures only on a principal level. The circuit 13 is switched off and closed by a switch 14 which can be placed at a desired location outside the lock body. The solenoid means 12 in the embodiment of Figures 1 and 2 comprise a traction solenoid and in the embodiment of Figure 3 a push solenoid. In either case, the solenoids are provided with an actuating member 15 which, when activated, moves the switch means 16 in the lock body from the open position to the engaged position, where the switch means 16 provide a transmission connection from a button not shown or the like by means of a pushbutton 10 to the latch 2. In this case, the circuit 13 is cut off and the actuating member 15 is pressed into its initial position also by means of a spring 17. In the open position of the clutch means 16, the above-mentioned transmission connection is disconnected and the latch 2 cannot be operated from the operating shaft 4b by turning the knob. Thus 79168 6, the door lock can only be opened with a key from the operating shaft 4a.

In the embodiment of Figures 1 and 2, the weight cam is divided into two separate parts 10a and 10b of different lengths. The shorter part 10a of the weight cam is connected so that it can be turned directly from the button or knob on the operating shaft 4b. In addition, the weight cam portion 10a comprises a protrusion 19. The longer weight cam portion 10b provided with the protrusion 20 is in turn independent of the rotation of the button and the weight cam portion 10a when the switch means 16 are in their open position, as shown in Fig. 1.

In the embodiment of Figures 1 and 2, the coupling means 16 comprises a pivotable shaft pin 16a having a cam member 16b displaceably mounted in the axial direction of the pin, provided with a guide edge 16b 'and a cam 16b' '. The coupling means 16 further comprises an arm portion 16c to which the actuating member 15 of the solenoid 12 is coupled such that the solenoid 12 pivots the coupling means 16 about the axis 16d. In the situation of Figure 1, the switch 14 is open, so that the circuit 13 is switched off and the switch means 16a and 16b are in the open position, where the cam 16b '' of the cam member 16b is not in contact with the projections 19 and 20 of the weight cam parts 10a and 10b. As a result, only the shorter part of the weight cam 10a, which does not extend to the transmission element 7 and from which the force also does not transfer to the longer part 10b of the weight cam, can be turned by the button or the knob, so the transmission from the button to the latch 2 is cut off. The traction solenoid 12 is provided with a guide 18 with a guide surface 18a which acts on the guide edge 16b 'and thus ensures that the cam member 16b is depressed to its lower position according to Figure 1 when the spring 17 presses the clutch means 16 into its non-engaging position. The lock body 1 also has a stop 19a which acts on the shorter part of the weight cam 10a via the projection 19. In this embodiment, the stop 10c affects only the longer portion 10b of the weight cam.

7 79168

In Fig. 2, when the switch 14 is in the closed position of the circuit 13, the traction solenoid 12 is activated and the actuating member 15 has moved the switching means 16 to a position where the cam 16b '' of the cam member 16b is located in the channel formed by the projections 19 and 20 of the cam members 10a and 10b. Thus, when the button is pressed, the protrusion 19 of the weight cam portion 10a presses the cam 16b '' against the protrusion 20 of the weight cam portion 10b, as a result of which the transmission between the weight cam portions 10a and 10b is engaged. In this case, the longer part 10b of the weight cam acts on the pin 21 in the transmission element 7, whereby the transmission element 7 initially turns the distance allowed by the shorter branch of the guide groove 9, removing the rear lock of the latch 2, where the edge 9a of the guide groove 9 together with the pin 8 prevents the transmission element 7 from turning and latching. Thereafter, the weight cam portion 10b acts directly on the pin 8 to move the latch 2, so that there is a transmission connection between the button and the latch 2. The movement of the latch 2 is controlled by means of a pin 8, a longer branch of the guide groove 9 of the transmission piece 7 and a guide groove 28 of the lock body 1.

In the embodiment of Figure 3, in contrast to the above, there is only one integral weight cam 10 and a push solenoid 12 is used instead of the traction solenoid. The coupling means 16 in this case comprise a lever pivotally mounted on the lock body 1 with a guide pin 23 arranged in cooperation with the guide edge 24. When the switch 14 is open, there is no current in the push solenoid 12. Due to the spring 17 ', the actuating member 15 and the clutch lever 16 are then in a position (upper position of the clutch lever 16 in Fig. 3) in which the push cam 10 does not extend into the clutch lever. Thus, the button on the operating shaft 4b (not shown in the figure) does not have a transmission connection through the weight cam 10 to the latch 2.

When the switch 14 is closed, the circuit 13 is closed and the push solenoid is activated, the actuating member 15 pushes the switch lever 79168 8 16 to a position (lower position in Fig. 3) where its other end is within reach of the weight cam 10. When the pushbutton now turns the push cam 10, it simultaneously turns the clutch lever 16 around the pin 25, the guide pin 23 pressing against the guide edge 24 while moving the traction member 5 which rotates the transmission element 7 in the same way as described above for the embodiment of Figures 1 and 2. . Thereafter, when the button is further turned, the push cam 10 and the clutch lever 16 act directly on the pin 8 and move the latch 2 to the retracted position on the lock body.

The principles of the invention can also be applied in the event that, contrary to the embodiments shown in the figures, the switching means 16 are arranged in their switching position when the solenoid 12 is in a passive state and thus the circuit 13 is disconnected either from the switch 14 or off due to a power failure. Naturally, this requires some modification of the transmission and clutch mechanisms accordingly. In principle, however, it is sufficient for this to change the direction of action or the direction of action of the return spring 17 of the coupling means 16 relative to the coupling means.

The switch 14 activating and deactivating the solenoid means 12 can, if necessary, be pulled very far from the door in which the door lock comprising the solenoid means is mounted. By means of the invention, the passage through the door in question can be controlled simply and efficiently. Only those who have the correct key for the locking mechanisms connected to the door lock can open the door themselves. The operation of the others can be made optional depending on whether or not the transmission from the switch 14 of the operating shaft 4b to the door lock latch 2 is switched from the switch 14.

Furthermore, depending on the application, the invention can be exploited in such a way that the closing and disconnection of the circuit 13 takes place under the control of a timer. In this case, for example

Claims (7)

9 79168 during the day the circuit may be switched on, but at a certain point the timer is programmed to switch off, so that access from the door can only take place with a key. It can also be noted that the application of the invention does not require that the operating shaft 4a has a locking mechanism operated by a key on each side of the door lock, but depending on the application, a knob or the like can be mounted on the other side, i.e. inside the door. As can be seen from the figures, the transmission from the operating shaft 4a to the latch always takes place in the same way, regardless of the type of actuator on which the torsion cylinder 26 is rotated. The invention is not limited to the embodiments shown, but several variations of the invention are conceivable within the scope of the appended claims. A door lock comprising a lock body (1), a spring-loaded latch (2), preferably an oblique latch movable between an projecting or locking and retracted or releasing position, and two preferably operating axes (4a, 4b) on different sides of the latch to effect movement of the latch ), of which the first (4a) can be connected to a key-operated locking mechanism in transmission with the latch (2) and the second operating shaft (4b) has a push cam (10) pivotable by a knob, button or similar actuator, and clutch means (16) in the lock body (1), arranged on the one hand to provide and on the other hand to disconnect the transmission from said actuator connected to said second actuating shaft (4b) via said weight cam (10) to the latch (2), and solenoid means (12) for controlling operation of said coupling means (16), characterized by solenoid means (12) ) is arranged to be transferred in its activated state n switch means (16) to the position in which they are used? depending on, either engaging or disconnecting the transmission connection between the weight cam (10) and the latch (2) ίο 79168, however, always allowing the latch (2) to be moved from said first operating shaft (4a). A door lock according to claim 1, characterized in that said solenoid means (12) belong to an electrical circuit (13), the closing and disconnection of which is arranged to be provided from outside the lock body (1), the closing of said circuit activating the solenoid means (12). A door lock according to claim 1 or 2, characterized in that the solenoid means (12) comprise a pull or push solenoid provided with an actuating member (15) for effecting said displacement of the coupling means (16), and that the return of the coupling means (16) is arranged by a spring (17). Door lock according to one of the preceding claims, characterized in that the weight cam (10) is divided into two separate parts in the direction of the operating shaft (4b) so that the first part (10a) of the weight cam is connected to said actuator and is directly pivotable. the second part (10b) is a pivotable element independent of the first part (10a) and the actuator, arranged in transmission with the latch (2), and that the transmission from the first part (10a) of the weight cam to the second part (10b) of the weight cam is arranged by said coupling means (16) . A door lock according to claim 4, characterized in that said second part (10b) of the weight cam is longer than the first part (10a) of the weight cam and is arranged to act on the latch (2) by means of a pivotable bearing transmission element (7). Door lock according to claim 4 or 5, characterized in that said coupling means (16) comprise a pivotable shaft pin (16a) movable between the coupling of the coupling means (16) and the free position by the solenoid means (12) and supported by a cam member (16b) displaceable in the longitudinal direction of the shaft pin, and that the parts (10a, 10b) of the weight cam are provided with projections (19, 20) which, when the coupling means are engaged, are arranged to co-operate with said cam member (16b). Door lock according to any one of claims 1 to 3, characterized in that said coupling means (16) comprise a pivoting lever arranged to co-operate with the first operating shaft (4a) and for retracting the latch (2) into the lock body (1) with an active traction member (5) and, on the other hand, with a push cam (10) rotating about said second operating shaft (4b) so that when the clutch lever (16) is in the engaging position it is within reach of the push cam (10), the pivot (10) being arranged to rotate turning the clutch lever (16) to move the traction member (5) and retract the latch (2), while in its open position the clutch lever (16) is turned out of reach of the weight cam (10) so that the transmission from the weight cam (10) to the latch (2) is cut off.