RU150101U1 - ELECTROMECHANICAL LOCKING DEVICE - Google Patents

Abstract

An electromechanical locking device containing a cylinder mechanism installed in the deadbolt housing, a cam for moving the deadbolt and a locking mechanism, characterized in that the cam for moving the deadbolt is mounted on a spacer sleeve interacting with the cylinder mechanism fixed to the device body, and the locking mechanism is made in the form of an electric motor with a sleeve fixed to its shaft with a helical groove interacting with the spring to rotate the locking bracket.

Description

The inventive utility model relates to constructive electric locking devices and devices of the overhead type and can be used to lock doors opening both inside and outside the protected area of office and residential premises. An electromechanical locking device can be used both as part of an autonomous access control system, and in stand-alone mode.

Of the known electromechanical devices, the closest in technical essence to the utility model is the "Electromechanical locking device" according to patent No. 112705, RF, IPC E05B 47/06, 2011, containing a deadbolt installed in the housing and a locking device with an electromagnet, which consists of the bracket of the movable plunger and the slider with a spring installed between them, ensuring their separation, as well as a second spring acting on the plunger and ensuring the fit of the yoke placed on the plunger to the size The core, which is attached to the slider, on which the electromagnet coil is fixed, the bolt is mounted for movement by a cylinder mechanism by turning the cam, on which the stand is connected, connected to the spring-loaded frame, and also a pin for moving the plate, which allows the plunger to move.

Common signs with the claimed device are: the presence of a cylinder mechanism, a deadbolt installed in the housing, a cam for moving the deadbolt and a locking mechanism.

The disadvantage of this electromechanical locking device is the complexity of the multi-stage design of the mechanism, in particular the locking mechanism using a large number of parts.

The problem to which the proposed technical solution is directed is to simplify the design of the electromechanical locking device, to increase the reliability, which is achieved by increasing the reliability of the locking mechanism and reducing the overall dimensions of the device.

This is achieved by the fact that the device containing the cylinder mechanism, a deadbolt installed in the housing, a cam for moving the deadbolt and a locking mechanism. As well as the presence of a cam for moving the bolt, which is mounted on a distance sleeve interacting with a cylinder mechanism fixed to the device body and a blocking mechanism made in the form of an electric motor with a sleeve fixed to its shaft with a helical groove interacting with a spring to rotate the blocking bracket.

The indicated features of the utility model represent differences from the prototype and determine the novelty of the proposal; these differences are significant, because they provide the achievement of the result reflected in the problem, and are absent in the known technical solution.

The combination of essential features provides a solution to the problem, namely, a simplification of the design of the locking mechanism, a significant reduction in the overall dimensions of the device due to a significant reduction in the number of parts, and an increase in the reliability of the locking device due to a decrease in the design steps.

The proposed electromechanical locking device is illustrated by the drawings shown in FIG. 1-2.

In FIG. 1 shows a general view of an electromechanical locking device in its initial position; in FIG. 2 shows a general view of the electromechanical locking mechanism in section AA.

The electromechanical locking device consists of a housing 1, a base 2 and a reciprocal level 3. A deadbolt 4 of a rectangular handicap consisting of five riveted plates 5 is installed in the device. On the plates there are guide grooves for interaction with the fist 6 and the locking bracket 7. A constant is installed in the body of the bolt magnet 8, which interacts with a hall sensor (not shown) to fix the positions of the deadbolt. The fist 6 is mounted on the spacer sleeve 9. The fist has the ability to rotate about its axis. Slots are made at the ends of the distance sleeve to transmit torque from the cylinder mechanism 10 to the cam 6. The cylinder mechanism is moved outside the plane of the housing 1 and is screwed to the base 2 through the washer 11. Between the bar 12 and the base 2, bushings 13 are mounted and axis 14. The bar 12 is fastened with screws to the base 2 (not shown). The spring 15 and the locking bracket 7 are dressed on the axis 14. The rotation of the locking bracket is carried out by an electric motor 16 using a screw sleeve 17 and a spring 15 connected to the locking bracket. The electric motor 16 is mounted on the bent part of the bracket 18 mounted on the base 2. The counter plate 3 consists of a housing 19 and a bracket 20. A permanent magnet 21 is glued in the opening of the housing 19. A Hall sensor (not shown) is installed at the end of the electromechanical locking mechanism (not shown) to display door position. The control board 22 is fixed on the bracket 12, on which the connectors 23, 24 and the compartment 25 with batteries 26 are installed. Harnesses (not shown) are connected to the connectors to supply power and remove information from the control board.

Electromechanical locking device operates as follows. In the locked position of the device, the bolt 4 protrudes from the base 2 and enters the hole of the strike plate 3. In this case, the locking bracket 7 under the action of the spring 15 is in the groove of the bolt 4 and thereby prevents the bolt 4 from being sunk into the base 2, when the key is turned in, cylinder mechanism 10. To unlock the device, a voltage is supplied to the motor 16 for a predetermined time interval, this function is performed by the control board 22, which receives a control pulse from a reader (not shown). When the motor 16 is activated, the output shaft with the sleeve 17 moves the spring 15 along the helical line and rotates the locking bracket 7 on the axis 14, while being released due to engagement with the bolt 4. The spring will hold the locking bracket in the unlocked position. We turn the key and the torque is transmitted to the fist 6 through the connection of the remote sleeve 9 with the cylinder mechanism 10. The fist 6 interacting with the bolt 4, moves it inside the device. To lock the lock, just turn the key in the opposite direction. In this case, the bolt leaves the device and enters the hole of the reciprocal bar. To block the deadbolt, a reverse voltage supply voltage is supplied to the motor 16 for a predetermined time interval, while the locking bracket 7, under the action of the spring 15 and the sleeve 17, engages with the deadbolt and takes its initial position and thereby eliminates the possibility of the deadbolt moving inside the device turning the key. To unlock the device from the protected area, a voltage is applied to the electric motor 16 for a predetermined time interval, this function is performed by the control board 22, which receives a control pulse from the button 27. When the electric motor 16 is activated, the output shaft with the sleeve 17 moves the spring 15 along the helical line and rotates the blocking the bracket 7 on the axis 14, while being released due to engagement with the bolt 4. The spring will hold, the locking bracket in the unlocked position. We turn the key, inserted from the front side, of the electromechanical locking device and the torque is transmitted to the fist 6 through the connection of the distance sleeve 9 with the cylinder mechanism 10. The fist 6 interacting with the bolt 4 moves it inside the device. To lock the lock, just turn the key in the opposite direction. In this case, the bolt leaves the device and enters the hole of the reciprocal bar. To block the deadbolt, a reverse voltage supply voltage is supplied to the motor 16 for a predetermined time interval, while the locking bracket 7, under the action of the spring 15 and the sleeve 17, engages with the deadbolt and takes its initial position and thereby eliminates the possibility of the deadbolt moving inside the device turning the key.

Claims (1)

An electromechanical locking device containing a cylinder mechanism installed in the deadbolt housing, a cam for moving the deadbolt and a locking mechanism, characterized in that the cam for moving the deadbolt is mounted on a spacer sleeve interacting with the cylinder mechanism fixed to the device body, and the locking mechanism is made in the form of an electric motor with a sleeve fixed to its shaft with a helical groove interacting with the spring to rotate the locking bracket.

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