RU85532U1 - ELECTROMECHANICAL LOCKING DEVICE - Google Patents

Abstract

1. Electromechanical locking device comprising a bolt installed in the housing and a locking device with an electromagnet, characterized in that the locking device consists of a movable plunger and a slider located in the bracket with a spring installed between them, which ensures their separation, as well as a spring acting on the plunger and ensuring the fit of the yoke placed on the plunger to the core placed on the slider, on which the electromagnet coil is fixed, the deadbolt is movable rotating the cam, on which are fixed rack connected to the spring-loaded frame, and projecting member to move the plate, providing movement of the plunger, wherein the device is provided with a cylinder mechanism for moving the slider. ! 2. The device according to claim 1, characterized in that the sleeve is mounted on a pin mounted on the plunger with the possibility of free rotation. ! 3. The device according to claim 1, characterized in that on the cam as a protruding element made a pin to move the plate. ! 4. The device according to claim 1, characterized in that the plate has a shaped groove for moving the plunger. ! 5. The device according to claim 1, characterized in that the device is equipped with a movable bar connected to the rod on the one hand, and with a cylinder mechanism on the other hand. ! 6. The device according to claim 5, characterized in that the shaped groove for moving the slider is made on the rod. ! 7. The device according to claim 1, characterized in that the device is equipped with a sensor that registers the position of the bolt. ! 8. The device according to claim 1, characterized in that the device is equipped with a sensor that records the position of the bl

Description

The inventive utility model relates to constructive electric locking devices and devices of the overhead type, designed to lock doors and gates both as part of alarm control systems or individual control panels, and using a key that opens both inside and outside the protected area.

Of the known electromechanical locks, the closest in technical essence to the claimed utility model is the “Electromechanical lock” according to certificate No. 18085, RF, MPK6 Е05В 47/06, 2001, containing a spring-loaded crossbar installed in the housing, an emphasis in contact with the crossbar, an electromagnet with a spring-loaded a rod on which a bracket is attached with a screw, a door latch for accommodating the tongue of the crossbar, and elements of the door position sensor mounted in the internal cavity of the lock housing and the door latch housing.

Common features of this lock with the claimed technical solution are the presence of a housing with an electric locking mechanism located in it, the presence of a deadbolt (deadbolt) with an emphasis restricting its movement.

This electromechanical lock has a low reliability of the locking mechanism using a wire clip to fix the stop with the rod of the traction electromagnet and lock the bolt due to the vertical movement of the stop in the lock case with an offset hook point. Unlocking from the cylinder code mechanism using a key is not provided for in the lock case. The force of the recoil spring of the bolt does not provide reliable closing of the lock with a possible jamming of the tongue of the bolt in the receiving pocket of the door latch. The use of a single door position sensor does not give a complete picture of the state of the lock control mechanisms as a whole.

The problem to which the proposed technical solution is directed is to increase the reliability of the electromechanical lock.

To solve this problem, in a device containing a bolt installed in the housing and a blocking device with an electromagnet, which consists of a movable plunger and a slider located in the bracket with a spring installed between them, which ensures their separation, as well as a second spring acting on the plunger and ensuring the fit of the placed on the yoke plunger to the core located on the slider, on which the electromagnet coil is fixed, the bolt is mounted with the possibility of movement by turning the cam, on which it is fixed Front us connected to a spring loaded frame, and the pin to move the plate, providing movement of the plunger, wherein the device is provided with a cylinder mechanism for moving the slider.

For free, without jamming, movement on a pin fixed in the plunger, a freely rotating sleeve is installed.

To move the plate on the inner surface of the rotary cam, a protrusion is made, which interacts with the groove of the plate.

The movable plunger, placed in the bracket of the locking device, moves away from the impact installed on its inner surface of the pin, the figured groove of the plate.

To enable the device to be unlocked from the key, the housing has a movable bar connected to the rod on one side and a cylinder mechanism on the other.

To move the slider of the locking device to the “Unlocked” position of the device, a shaped groove is made on the rod, which interacts with a pin mounted on the surface of the slider.

To ensure complete control of the actuators in the lock, deadbolt and blocking device sensors are used.

The proposed set of essential features increases the reliability of the electromechanical lock, which is achieved by increasing the reliability of the locking device, the reliability of the bolt control mechanism, providing complete control of the state of the device control mechanisms and providing the ability to control the locking device from the cylinder mechanism using a key.

Figure 1 shows an electromechanical locking device;

figure 2 section BB in figure 1.

The electromechanical locking device consists of a housing 1 and a strike plate 2 (Fig. 1). The cavity of the housing 1 has two zones A and B protected from each other. In the zone A, a cylinder mechanism 3 (FIG. 2) is mounted fastened by screws to the cover 4 (FIG. 1), a movable bar 5 moving relative to the guide screws from the action of the cam 6 of the cylinder mechanism 3, which is connected to the rod 7. The rod 7 moves in the guide sleeve 8 inside which a sealing felt washer is installed 9. The rod 7 ends with a figured groove that interacts with the pin 10 in order to move the slider 11 to its highest position. To protect the internal cavity of zone A from the outside, a spring-loaded shutter 12 is installed (Fig. 2), which closes the keyhole opening.

In zone B, a deadbolt 13 is installed (FIG. 1) with a restrictive screw 14. On the surface of the deadbolt there is a groove with an installed o-ring 15. When the cam 16 is rotated, the deadbolt 13 moves in the guide sleeve 17, inside of which there is a sealing felt washer 18. On the inner surface The cam 16 is equipped with a pin 19 for moving the plate 20. To fix the position of the cam 16 in extreme positions, the spring 21 acts on the rack 21. The tail of the bolt 13 is included in the receiving pocket of the bracket 23 of the locking device CTBA bracket 24. The locking device 23, 24 are movable plunger 25 and the slide 11. In their free state, releases the spring 26, which prevents from fitting end portions together and ensures their continuous opening. A spring 27 acts on the plunger 25 to connect the yoke 28 with the core 29, on which an electromagnet coil 30 is placed. When voltage is applied to the terminals of the coil 30, a magnetic field is created on the end surface of the core 29, which connects the yoke 28 with the core 29 and the slider 11 with the plunger 25. When you move the plate 20, acting in a figured groove on the sleeve 31 mounted on the pin 32, the locking is opened the pocket of the locking device 24, for the subsequent movement of the bolt 13 to the open position of the device (the bolt 13 is located inside the lock body 1, the position of the device is “Open” and “Unlocked”). The device is locked automatically when the deadbolt 13 moves to the closed position of the device (the deadbolt 13 is pulled out of the lock body 1, the position of the device is “Closed” and “Locked”).

The lock provides for unlocking from the key using the cylinder mechanism 3. To do this, it is necessary to turn the spring-loaded curtain 12 (figure 2) until it stops and insert the key into the keyhole. To unlock the lock in the "Closed" position, you must turn the key counterclockwise until it stops and return it to its original position. The rod 7 with a shaped groove acts on the pin 10 (Fig. 1) located on the surface of the slider 11 of the locking device 24 and moves the slider 11 together with the plunger 25 to its highest position. The lock is in the unlocked position. To lock the lock in the “Closed” and “Unlocked” positions, it is necessary to turn the inserted key clockwise to the stop and return it to its original position. The slider 11 with the plunger 25 will move under the action of the spring 27 to its lowest position.

The positions of the deadbolt 13 and the blocking device 24 are controlled by electromagnetic sensors. The electromagnetic sensor for monitoring the position of the bolt 13 consists of a housing with a reed switch 33 located on the surface of the bracket 23 of the locking device 24 and the housing with a permanent magnet 34 located in the rear of the bolt 13. The electromagnetic sensor for monitoring the position of the locking device 24 consists of a housing with a reed switch 35 located on the surface of the bracket 23 and the housing with a permanent magnet 36 located on the surface of the slider 11.

The movement of the bolt 13 is performed by rotation of the handle 37 (figure 2). With the upright position of the handle 37 in the closed position of the lock, the deadbolt is located in the receiving pocket of the counter plate 2 (Fig. 1).

For fastening the lock case 1 and the reciprocal plate 2 in the proposed design, angular plates 38 (Fig. 2) and 39 (Fig. 1) are used, which are pre-installed on the surface of the door and the jamb, with clamping screws and screws. The plate 38 (figure 2) is attached through openings in the door to a decorative plate, on the inner surface of which are welded coupling threaded bushings.

Claims (8)

1. Electromechanical locking device comprising a bolt installed in the housing and a locking device with an electromagnet, characterized in that the locking device consists of a movable plunger and a slider located in the bracket with a spring installed between them, which ensures their separation, as well as a spring acting on the plunger and ensuring the fit of the yoke placed on the plunger to the core placed on the slider, on which the electromagnet coil is fixed, the deadbolt is movable rotating the cam, on which are fixed rack connected to the spring-loaded frame, and projecting member to move the plate, providing movement of the plunger, wherein the device is provided with a cylinder mechanism for moving the slider. 2. The device according to claim 1, characterized in that the sleeve is mounted on a pin mounted on the plunger with the possibility of free rotation. 3. The device according to claim 1, characterized in that on the cam as a protruding element made a pin to move the plate. 4. The device according to claim 1, characterized in that the plate has a shaped groove for moving the plunger. 5. The device according to claim 1, characterized in that the device is equipped with a movable bar connected to the rod on the one hand, and with a cylinder mechanism on the other hand. 6. The device according to claim 5, characterized in that the shaped groove for moving the slider is made on the rod. 7. The device according to claim 1, characterized in that the device is equipped with a sensor that registers the position of the bolt. 8. The device according to claim 1, characterized in that the device is equipped with a sensor that registers the position of the locking device.