RU2666294C1 - Electromechanical lock - Google Patents

Abstract

FIELD: locks; electrical equipment.SUBSTANCE: electromechanical lock relates to the field of security equipment, in particular to the electronic equipment controlled locking devices. Electromechanical lock with the body in the form of U-shaped bracket 1, mounted on the chest body 2 profile, with the motor 4, which shaft 5 is directed into the lock body. On the body bracket 7 second side, coaxially with the motor 4 shaft 5 a hole 8 is made. On the motor 4 shaft 5 a body 10 with the integrated permanent magnet 9 is installed, rotating in the hole 8. On the chest upper door 24 a locking mechanism body in the form of U-shaped bracket 22 is installed, with the threaded bushing 26 installed in the upper door opening and fastened with the nut 27. In the body 22 inner cavity, a rocker 29 is arranged, which is made in the form of the L-shaped bracket 30 with axis 34 in the corner, located in the holes on the body side surfaces. On the bracket external surface a permanent magnet 35 is installed, located opposite to the magnet 9, mounted on the chest body profile 2. At the L-shaped bracket 30 surface 32 end face, an open groove 36 is made, in which a groove 37 is arranged, made at the stem 28 upper end. In the lock open state, the permanent electric drive 9 magnet and the permanent locking mechanism 34 magnet magnetic fields are directed in different directions, and in the closed one, are unidirectionally. In the lock closed state, the magnets 9 and 35 magnetic fields are unidirectional, creating the magnets mutual attraction force. 9 and 35, resulting in the torque generation on the axis 34, the L-shaped bracket 30 end face 32 and the open groove 36 lowering. Stem 28 is lowering blocking the doors 24 and 41 mutual movement. To open the lock, to the motor 4 a voltage is applied, which causes the shaft 5 and the permanent magnet electric drive 9 magnet housing 10 to rotate, until the lock 20 open state sensor tripping moment under the eccentric 19 action, which causes the motor 4 to stop. In this position, the magnets 9 and 35 magnetic fields are unidirectional, the magnets 9 and 35 mutual repulsion causes force the stem 28 to rise. Lock opens, allowing the chest doors 24, 41 movement. To close the lock, to the motor 4 a voltage is applied, causing the shaft 5 and the magnet body 10 to rotate until the lock 21 closed state sensor tripping moment, which causes the motor 4 to stop. During the upper door 24 closing to the initial closed position, the magnets 9 and 35 are aligning, by the magnets 9 and 35 mutual attraction force the stem 28 is moved to the lock locked position.EFFECT: electromechanical lock can be used for the chests sliding doors locking, to exclude the unauthorized access possibility.1 cl, 4 dwg

Description

An electromechanical lock belongs to the field of security technology, in particular to locking devices controlled by electronic equipment, and can be used to lock the sliding doors of chests, to exclude the possibility of unauthorized access.

Removable mechanical locks for locking sliding doors of chests (www.market.sakh.com chest lock; www.zipkomplect.ru chest lock ITALFROST; www.prom-katalog.ru chest lock LIEBHERR; www.polarfrio.com lock for (POLAIR chest), the mechanism of which is located directly on the doors that block the mutual movement of the chest doors by the lock rod fixed on the upper door. Since the doors are opened in the chests by the oncoming movement of the upper and lower doors, there are two options for installing mechanical locks to block the doors with a rod.

In the installation of the lock, for the case of mutual overlapping of closed doors, the lock rod installed in the hole of the upper door blocks the mutual movement of the doors by installing the rod in the hole in the lower door. If there is no mutual overlap of the doors, the lock with the rod, the installation depth of which is lower than the level of the lower door, is located on the edge of the upper door adjacent to the lower door.

To lock and open doors, installation and removal of locks from doors is required, as well as locking of locks with mechanical keys. This process requires operator action and eliminates the possibility of remote control for opening and locking doors.

The main problems of creating remotely controlled locks for sliding doors is the location of the electric drive of the locking device of the lock. When placing an electrically operated locking mechanism directly on the doors, voltage and control signals are required for the moving doors, and therefore such locks are not developed and are not used.

As a result of a patent search for electromechanical locks for sliding doors, with a locking mechanism on the doors and not having a wire connection for supplying voltage and control signals, it was not revealed.

The aim of the invention is to expand the functionality of locks for sliding doors of chests by creating an electromechanical lock with divided functional blocks: locking, mechanical, mounted on the doors, and drive, electromechanical, installed outside the doors that do not have mechanical and wire connections.

This goal is achieved due to the fact that the electromechanical lock containing the housing of the electric drive of the lock is made in the form of a U-shaped bracket of the housing of the electric drive mounted on the upper surface of the profile of the chest case.

An engine is installed on the outer surface of the first side of the U-shaped bracket, the shaft of which, through the hole, is directed inside the U-shaped bracket of the lock electric drive housing. On the second lateral side of the U-shaped bracket of the electric drive housing, a hole is made coaxially with the motor shaft. A permanent magnet of an electric drive, in the form of a rectangular bar magnetized across, is installed in a magnet body made of non-magnetic material consisting of the first and second bushings, with blind internal grooves each, interconnected by end surfaces with grooves, inside of which there is a permanent magnet. At the first end of the magnet body of the electric drive, a blind hole is made in which the motor shaft is mounted, and at the second end there is a shaft of the magnet body installed in the hole in the second side of the U-shaped bracket of the electric drive housing. An eccentric is mounted on the magnet housing of the electric drive. On the inner surface of the second side of the U-shaped bracket of the electric drive housing, an open position sensor of the lock and a closed position sensor of the lock are installed. The configuration and location of the eccentric on the magnet housing is such that the eccentric includes a lock open state sensor when the magnetic field of the permanent magnet magnet is directed parallel to the base of the U-shaped bracket of the electric drive housing in one direction, and the lock closed state sensor is directed in the opposite direction. The case of the lock of the lock, made in the form of a U-shaped bracket, made of magnetically conductive material, mounted on a base surface on the upper surface of the chest top door. The lateral surfaces of the U-shaped bracket are perpendicular to the edge of the upper chest door, and the end surface of the base of the U-shaped bracket is located on the edge of the upper chest door. On the inner surface of the base of the U-shaped bracket, on the side opposite the edge of the upper door, a hole of the blocker is made in which a threaded sleeve is installed on the outside of the U-shaped bracket. The threaded sleeve, in the hole of which the rod is mounted with the ability to move, is located in the hole of the upper chest door, and is fixed in it by a nut. In the inner cavity of the U-shaped bracket, there is a rocker arm made in the form of a L-shaped bracket, in the corner of which an axial sleeve is installed. The first outer surface of the L-shaped bracket is parallel to the end surface of the U-shaped bracket facing the edge of the upper chest door, and the second is parallel to the upper end surface of the U-shaped bracket. On the side surfaces of the U-shaped bracket, on the side located to the edge of the upper door, there are two oppositely located openings in which an axis passing through the axial sleeve is installed. On the first outer surface of the L-shaped bracket, a permanent lock magnet is installed, in the form of a rectangular beam magnetized across, whose magnetic field is parallel to the base of the U-shaped bracket, located opposite to the permanent magnet of the electric drive. At the end of the second outer surface of the L-shaped bracket, an open groove is made in which a groove is located made at the upper end of the rod. Two support pins are installed on one of the inner side surfaces of the U-shaped bracket. The first is the open state of the lock, when the second end of the rod touches the second outer surface of the L-shaped bracket inside the threaded sleeve, and the second is the closed state of the lock, when the second inner surface of the L-shaped bracket is touched, the lower end of the rod is in the lower door area chest. In the open state of the lock, the magnetic fields of the permanent magnet magnet and the permanent lock magnet are directed in different directions, and in the closed state, they are unidirectional.

In Fig.1 presents a view of the lock in the open state, in Fig. 2 - view of the lock in the closed state. Figure 3 presents an axonometric view of the castle. Figure 4 is a view of the housing of a permanent magnet magnet.

An electromechanical lock comprises a lock electric drive housing made in the form of a U-shaped bracket of the electric drive housing 1, mounted on a top surface of the chest profile 2 of the chest (for example, by screw connection). On the outer surface of the first side of the bracket of the motor housing 3, an engine 4 is installed (for example, by screw connections to the motor housing), the shaft 5 of which, through the hole 6, is directed inside the U-shaped bracket of the motor housing 1. On the second side of the U-shaped bracket of the housing of the electric drive 7, coaxial to the shaft 5 of the motor 4, a hole is made 8. The axis of the shaft 5, inside the bracket of the housing of the electric drive 1, between the sides of the bracket 3, 7, is the magnet of the electric drive 9, made in the form of a rectangular bar magnetized perpendicular to the axis of the shaft 5. The magnet housing of the electric drive 10 is made of non-magnetic material, and consists of the first 11 and second 12 bushings, with blind internal grooves 13, 14, interconnected (for example, by gluing) end surfaces with grooves. A permanent magnet of the electric drive 9 is located inside the slots 13, 14. A blind hole 16 is made in the first end 15 of the magnet body of the electric drive 10, into which the shaft 5 of the motor 4 is installed (for example, by a key or other connection). At the second end 17, a shaft 18 of the magnet body of the electric drive 10 is installed, installed in the hole 8. On the magnet body of the electric drive 10, an eccentric 19 is installed in front of the shaft 18. the state of the lock 20 and the position sensor of the closed state of the lock 21. Installing the eccentric 19 on the magnet housing of the electric drive 10 (for example, by glue connection) and its configuration is such that the eccentric 19 includes an open state sensor of the lock 20, when the magnetic field of the permanent magnet magnet 9 is directed parallel to the base of the U-shaped bracket of the housing of the electric drive 1, in one direction, and the closed state sensor of the lock 21 is directed in the opposite direction. The case of the lock lock, made in the form of a U-shaped bracket 22, of a magnetically conductive material installed by the base 23 on the upper surface of the upper door of the chest 24. The side surfaces of the U-shaped bracket 22 are perpendicular to the edge of the upper door of the chest 24, and the end surface of the base is U-shaped the brackets 22 are located on the edge of the upper door of the chest 24. On the inner surface of the base 23 of the U-shaped bracket 22, on the side opposite the edge of the upper door of the chest 24, an opening of the lock 25 is made in which is installed (for example, a roller with a hole in the hole) on the outside of the base 23 of the U-shaped bracket 22, the threaded sleeve 26. The threaded sleeve 26 is located in the hole of the upper door of the chest 24 and fixed in it by the nut 27. The rod 28 is mounted in the hole of the threaded sleeve 26 with the possibility of movement. In the inner cavity of the U-shaped bracket 22, there is a rocker 29, made in the form of a L-shaped bracket 30, so that the first outer surface 31 of the L-shaped bracket 30 is parallel to the end surface of the U-shaped bracket 22 facing the edge of the upper door 24 and the second 32 is parallel to the upper end surface of the U-shaped bracket 22. An axial sleeve 33 is installed in the corner of the L-shaped bracket 30. On the side surfaces of the U-shaped bracket 22, on the side located to the edge of the upper door 24, two oppositely arranged hole eggs in which an axis 34 is installed, passing through the axial sleeve 33 and secured therein (for example, a locking screw). On the first outer surface 31 of the L-shaped bracket 30, a permanent magnet 35 is mounted (for example, by glue connection), made in the form of a rectangular beam magnetized across, the magnetic field of which is parallel to the base of the U-shaped bracket 22, and the permanent magnet of the lock 35 is located opposite a permanent magnet of the electric drive 9. At the end of the second outer surface 32 of the L-shaped bracket 30, an open groove 36 is made, in which a groove 37 is located, made at the upper end of the rod 28. At the inner to the surface 38 of the U-shaped bracket 22, two support pins 39, 40 are installed (for example, by rolling into holes on the surface). The first support pin 39 is the open state of the lock, when the second external surface 32 touches the L-shaped bracket 30, the lower end of the rod 28 is inside the threaded sleeve 26. The second support pin 40 is the closed state of the lock, when the second internal surface 32 G touches it, the shaped bracket 30, the lower end of the rod 28 is in the region of the lower door 41 of the chest. In the open state of the lock, the magnetic fields of the permanent magnet magnet 9 and the permanent lock magnet 34 are directed in different directions, and in the closed state - unidirectionally.

The castle operates as follows.

In the initial, closed state of the lock, the magnetic fields of the permanent magnet magnet 9 and the permanent lock magnet 35 are directed - unidirectional. This creates a force of mutual attraction of the magnets 9 and 35, leading to the creation of torque on the axis 34, lowering the end face of the second outer surface 32 of the L-shaped bracket 30 and the open groove 36, acting on the groove 37 of the rod 28. The rod 28 is lowered, blocking mutual movement doors 24 and 41. The position of the rod 28 in the closed state of the lock is determined by limiting the position of the L-shaped bracket 30 by the second support pin 40 of the closed state of the lock.

To open the lock, a voltage is applied to the motor 4, leading to the rotation of the shaft 5 and the magnet body 10 with a permanent magnet of the electric drive 9, until the sensor of the open state of the lock 20 is triggered by the action of the eccentric 19, which stops the motor 4. In this position, the magnetic fields of the magnet permanent drive 9 and the permanent magnet 35 are multidirectional. This creates a mutual repulsion force of the magnets 9 and 35, which leads to the creation of a torque on the axis 34, which leads to the raising of the end face of the second outer surface 32 of the L-shaped bracket 30 and the open groove 36, limited by the first support pin 39. The rod 28 rises, unlocking mutual movement of doors 24 and 41. The lock opens, allowing the movement of doors 24, 41 chest.

When moving the upper door 24, the magnets 9, 35 cease to interact, and the rod 28 is held in the open state of the lock due to the attractive forces of the magnet of the permanent lock 35 with the base of the U-shaped bracket of the lock 23.

When moving the lower door 41, the magnets 9, 35 continue to interact, and the stem 28 is held in the open state of the lock.

To close the lock, a voltage is applied to the motor 4, leading to the rotation of the shaft 5 and the magnet body 10 with a permanent magnet of the electric drive 9, until the sensor of the closed state of the lock 21 is activated by the action of the eccentric 19, which stops the engine 4. When the upper door is closed, 24 the initial closed position, the magnets 9 and 35 are combined, by the force of mutual attraction of the magnets 9 and 35, the rod 28 is moved to the closed position of the lock. If the lower chest door 41 is in the closed position, the stem 28 is lowered, blocking the mutual movement of the doors 24 and 41. If the lower chest door 41 is in the open position, the stem 28 abuts against the upper surface of the lower door 41 and becomes blocking the movement of doors 24, 41 when the door 41 is completely closed.

The lock comes to its original, closed state.

Claims (2)

1. An electromechanical lock comprising a lock electric drive housing made in the form of a U-shaped bracket of the electric drive housing mounted on the upper surface of the chest case profile, on the outer surface of the first side of which a motor is installed, the shaft of which, through the hole, is directed inside the U-shaped staples of the electric drive lock housing, on the second side of the U-shaped bracket of the electric drive housing, made a hole coaxially to the motor shaft, a permanent magnet of the electric drive, in the form of a rectangular b The whisker, magnetized across, is installed in a magnet body made of non-magnetic material consisting of the first and second bushings, each with blind internal grooves, interconnected by end surfaces with grooves, inside of which there is a permanent magnet, at the first end of the magnet body a blind hole in which the motor shaft is mounted, and on the second a magnet housing shaft is mounted, installed in the hole in the second side of the U-shaped bracket of the electric drive housing, and an eccentric is mounted in front of the shaft of the magnet of the electric drive; an open position sensor of the lock and a closed position sensor of the lock are installed on the inner surface of the second side of the U-shaped bracket of the electric drive, and the configuration and location of the eccentric on the magnet housing is such that the eccentric includes sensor of the open state of the lock when the magnetic field of the permanent magnet magnet is directed parallel to the base of the U-shaped bracket of the electric drive housing ode in one direction, and the lock closed state sensor - when directed in the opposite direction. 2. The electromechanical lock according to claim 1, comprising a body of the lock of the lock, made in the form of a U-shaped bracket, made of magnetically conductive material, installed by the base on the upper surface of the upper door of the chest, and the side surfaces of the U-shaped bracket are perpendicular to the edge of the upper chest door, and the end surface of the base of the U-shaped bracket is located on the edge of the upper chest door, on the inner surface of the base of the U-shaped bracket, on the side opposite to the edge of the upper door, a hole in the catcher is made The threaded sleeve is installed on the outside of the U-shaped bracket, the threaded sleeve is located in the opening of the chest's top door and fixed with a nut in it, the rod is movable in the hole of the threaded sleeve, the rocker arm made in the form of -shaped bracket, in the corner of which an axial sleeve is installed, the first outer surface of the L-shaped bracket is parallel to the end surface of the U-shaped bracket facing the edge of the upper chest door, and the second is pa parallel to the upper end surface of the U-shaped bracket, on the side surfaces of the U-shaped bracket, on the side located to the edge of the upper door, there are two oppositely arranged holes in which an axis passing through the axial sleeve is installed on the first outer surface of the L-shaped bracket a permanent lock magnet is installed in the form of a rectangular beam magnetized across, the magnetic field of which is parallel to the base of the U-shaped bracket, located opposite to the permanent magnet water, an open groove is made at the end face of the second outer surface of the L-shaped bracket, in which there is a groove made on the upper end of the rod, two support pins are installed on one of the inner side surfaces of the U-shaped bracket, the first is the open state of the lock, when you touch it the second outer surface of the L-shaped bracket, the lower end of the rod is inside the threaded sleeve, and the second is the closed state of the lock, when the second inner surface of the L-shaped bracket is touched, the lower end of the rod is in the region and the bottom of a chest door in the open position lock magnetic field of the magnet permanent magnet DC motor drive and lock are aimed in different directions, and in a closed - unidirectionally.

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