RU93440U1 - LOCKING DEVICE "MONOLITH" - Google Patents

Abstract

 An electromechanical locking device containing a locking mechanism and a locking device with an electromagnet installed in its housing, a bolt mechanism with a movable valve located in the housing and an emphasis restricting the movement of the valve, characterized in that the emphasis is made in the form of a threaded sleeve fixed by a nut, fixing the valve carried out by means of a sector made on the flange, the end surface of the cores located opposite the permanent magnet is made of a stepped cylindrical shape we.

Description

An electromechanical locking device refers to structural electrical devices designed to lock entrance gates and gates both as part of alarm control systems, or individual control points, and using a key. In a device containing a locking mechanism and a locking device with an electromagnet installed in its housing, a locking mechanism with a slide valve movable in several planes located in the housing and an emphasis restricting the movement of the valve, the locking mechanism and the locking mechanism are made autonomously from each other.

In the mechanism, the bolt housing with a slide valve that is movable in several planes is mounted on the plate, the emphasis is adjustable and located on one end of the valve, on the other end of which a pin is fixed to fix it in the locking mechanism by turning the locking sector on the flange located in the locking mechanism and having on the side surface of the groove for interaction with the stop of the anchor of the locking device, on the other side of which a permanent magnet is fixed, which is in interaction with the distribution Proposition opposite poles of an electromagnet, and the locking mechanism is provided with a mechanism cylinder and a rod for the rotation stop of the permanent magnet.

The claimed utility model relates to constructive electrical appliances and devices designed to lock entrance gates and gates both as part of alarm control systems, or individual control panels, and using a key.

Closest to the proposed one is the device described in patent No. 84040, Russia, IPC B05B 47/06, 2009, “Electromechanical locking device”, comprising a locking mechanism and a locking device with an electromagnet installed in its housing, a bolt mechanism with a movable valve located in the body, and with an emphasis restricting the movement of the valve.

A hole is made in the bolt mechanism for fixing it in the locking mechanism by moving a movable locking finger therein, mounted to move the sleeve located in the locking mechanism.

This electromechanical lock has low reliability due to jamming of the finger due to the fact that the locking mechanism of the bolt is carried out by moving the locking finger, which has an evolute groove on the side surface in which the pin is fixed on the inner surface of the flange.

The purpose of this utility model is to increase the reliability and ease of production of the device by getting rid of the above structural unit.

To solve this problem, in a device containing a locking mechanism and a locking device with an electromagnet installed in its housing, a bolt mechanism with a valve that is movable in several planes and located in the housing and an emphasis restricting the movement of the valve, the lock mechanism and the bolt mechanism are made independently of each other . In the mechanism, the bolt housing with a slide valve movable in several planes in several planes is mounted on the cover, the stop is adjustable and located on one end of the valve, on the other end of which a pin is fixed to fix it in the locking mechanism by turning the side surface of the groove for interaction with the lock armature of the locking device , on the other hand of which a permanent magnet is fixed, which is in interaction with the opposite poles of the electromagnet, while the locking mechanism is equipped with a with a linear mechanism and a bar for turning the stop with a permanent magnet.

The electromagnet is made in the form of two serially connected coils with cores, when a control pulse is applied to the voltage of their winding, a magnetic field is created on the end surfaces of the cores, which rotates the armature with a permanent magnet at a certain angle. When voltage is applied to the terminals of coils of opposite polarity, the armature rotates with hot washers.

To increase the reliability of fixing the lock case in the proposed design, an additional mounting plate is used, which is fastened through the holes in the door with clamping screws to the decorative trim. Threaded bushings with red-hot washers installed inside are welded to the inner surface of the lining.

To ensure control of the state of the control mechanisms in the lock, the position sensors of the slide valve in the receiving pocket of the lock housing and the position sensor of the blocking element are used in the lock pocket.

To prevent possible distortions of the door leafs of gates and gates in the design of the crossbar mechanism, there are adjustment screws that allow you to adjust the position of the slide valve moving in several planes by screwing it in and out in the lining case. The selected position of the screws is fixed with self-locking screws.

For the lock to work in emergency (emergency) situations, the case has a cylinder mechanism that allows you to perform mechanical unlocking and locking of the lock with a key. The keyhole is closed by a tight threaded plug.

Figure 1 shows an electromechanical locking device; figure 2 section aa.

The electromechanical locking device consists of a locking mechanism and a bolt mechanism.

The locking mechanism has a prefabricated structure and consists of a housing 1, an outer cover 2, an inner cover 3 and a mounting plate 4.

In the housing 1 there is a locking rotary sector 5 from the rotation of the flange 6 by the handle 7.

The position of the flange 6 is fixed by the locking mechanism 9, made in the form of a swivel bracket with a roller interacting with a recess on the side surface of the flange 6. The locking rotary sector 5 is made on the flange 6 fixed in the housing 1.

On the working surface of the housing, to the right of the flange 6, there is a blocking mechanism 14, which operates both in the electric (remote) mode - from a short-term electrical pulse, and in the mechanical (emergency) mode - from the code cylinder mechanism. The position of the blocking mechanism 14 is controlled by a reed switch 15, which interacts with a permanent magnet 16 located on the side surface of the blocking element 17. The blocking element is located on the axis of the blocking mechanism 14. To limit the axial movement of the blocking element 17 on the inner surface of the lid 2 there is a protrusion. On the opposite side of the housing there is a receiving pocket for introducing into it the head of the valve, which is movable in several planes, in a closed cavity there is a sensor consisting of a reed switch, a spring-loaded lever with a permanent magnet and a rod 21. A connector 22 for connecting the cable 23 is installed in the lower part of the housing.

In the outer cover 2 there is a guide flange 25 with a sealing gland 26 to prevent moisture and dust from entering the castle. A cylinder mechanism 27 with a bar is mounted on the inner surface of the lid. The well is closed with a sealing threaded plug 29.

The inner cover 3 around the perimeter, through the threaded holes of the outer cover 2, is screwed to the housing 1. To fix and prevent displacement during operation, there are two mounting pins in the lock housing that are included in the holes of the cover 2. In the middle part of the cover there is a mushroom-shaped protrusion 30 into the hole of the mounting plate 4 and designed to prevent dismantling of the lock in the closed position.

The mounting plate 4 is designed to install and fix the lock. The plate is pulled together with screws with an overlay located on the opposite side of the gate leaf. On the plate there are threaded bushings with red-hot washers inserted into them, for protection against drilling.

The bolt mechanism consists of a lining 31, movable in several planes, a valve 18, a housing 32 and a stop 33.

The trim 31 is mounted on the opposite gate wing. The trim is screwed together with a bar located on the outside of the gate leaf. On the bar there are threaded bushings with red-hot washers inserted into them, for protection against drilling. The pad 31 is designed to accommodate the housing 32, mounted on it with the possibility of rotation by a certain angle, the value of which is determined by the set screws 34. The position of the screws is fixed by spacers 36.

The housing 32 is designed to direct the movable valve 18 into the receiving pocket of the locking mechanism and serves as a limitation of its movement.

The valve 18, movable in several planes, has a head part with a fixed pin 45. In the closed position of the lock, the pin covers the rotary sector of the flange 5. In the tail part there is a thread for adjusting the position of the stop 33 and its subsequent fixation with a nut 46.

The electromechanical locking device provides two modes of operation - electrical and mechanical.

Electric way of working. The initial state of the device is open. Movable in several planes, the valve 18 by the handle 37 is inserted into the receiving pocket of the locking mechanism. By turning the knob 7 counterclockwise, the pin 45 is blocked by the rotary sector of the flange 5. A short positive positive impulse (from 0.5 to 3 s.) Is supplied to the winding of the coils 38 of the locking mechanism 14. On the end surface of the cores 39, a magnetic field is created, which, acting on the permanent magnet 40 of the armature 42, rotates it by a certain angle. To enhance the effect of a magnetic field, the end surface of the cores has two levels, delimited by a stepped surface having a cylindrical shape. The rotation angle is limited by a pin interacting with the groove of the armature 42. The permanent magnet 40 has a prismatic shape and is mounted on the armature 42. It is magnetized perpendicular to the axis of rotation of the blocking element 17. The blocking element 17 located in the tail blocking mechanism 14 blocks the rotary flange 6.

The position sensor of the locking mechanism 15 shows the status of the lock is locked. The lock is closed and locked. On the coil windings, the state of the lock is locked. A short supply negative pulse (from 0.5 to 3 s.) Is supplied to the winding of the coils 38. The locking element 17 rotates and disengages from the groove of the rotary flange 6. The sensor 15 rotates and disengages from the groove of the rotary flange 6. The sensor 15 shows the position - unlocked. When the handle 7 is rotated clockwise until it stops, the rotary sector of the flange 5 releases the pin 45 of the valve 18, which is movable in several planes, for the handle 37, the valve, which is movable in several planes, is removed from the receiving pocket of the locking mechanism. Using the rod 21, the position sensors of the bolt mechanism show the position of the lock - open.

The mechanical way of working. The same actions are performed as with the electric method, only instead of applying a bipolar short supply pulse, actions are taken from the key of the cylinder mechanism 27. For this, it is necessary to unscrew the sealing plug 29 and insert the key into the keyhole. To lock the lock in the closed position, it is necessary to turn the key clockwise to the stop and return it, under the action of the spring, to its original position. The bar acts on the pin located on the side surface of the edge of the armature 42. To unlock the lock in the closed and locked position, it is necessary to turn the inserted key counterclockwise to the stop. After performing each action, the key is removed from the well and the sealing plug 29 is wrapped.

Claims (1)

An electromechanical locking device containing a locking mechanism and a locking device with an electromagnet installed in its housing, a bolt mechanism with a movable valve located in the housing and an emphasis restricting the movement of the valve, characterized in that the emphasis is made in the form of a threaded sleeve fixed by a nut, fixing the valve carried out by means of a sector made on the flange, the end surface of the cores located opposite the permanent magnet is made of a stepped cylindrical shape we.