RU2409733C1 - Electromagnet lock (versions) - Google Patents

Abstract

FIELD: construction. ^ SUBSTANCE: electromagnet lock comprises electromagnet with core, crossbar, permanent magnet, fixator, stop mechanism and fixing elements. Fixator is capable of longitudinal displacement. Slots are arranged in fixator for rollers of stop mechanism. Fixing elements are installed inside lock body. In the first version fixing elements are two fixed stops. In the second version fixing elements are plates with oval holes for rollers. In the second version fixator is electromagnet core. It is possible to install lock on any sections of locked object doors. ^ EFFECT: simplicity of lock assembly. ^ 2 cl, 8 dwg

Description

An electromagnetic lock belongs to the field of security technology, in particular to locking devices controlled by electromagnetic means, and can be used to lock doors for various purposes, including doors of refrigerators and safes.

Known electromagnetic lock containing installed in the housing with the possibility of longitudinal movement of the spring-loaded bolt with an internal cavity and a bevel at the locking end, a return spring, one end of which abuts against a protrusion on the inner surface of the housing, and a ball locking mechanism, the balls of which are placed in the holes of the console part of the housing an electromagnet supported by a spring-loaded core of an electromagnet having a stepped shape in length with cylindrical and conical sections (RU 2063505, ЕВВ 47/02, 10.07.199 6).

The disadvantage of this device is that the electromagnet only unlocks the locking mechanism, and to fix the bolt in the open position, it is necessary to move the bolt using the handle connected to it.

The closest in technical essence to the described invention is an electromagnetic lock, which includes an electromagnet with a core installed in the lock case, a latch made with the possibility of longitudinal movement, and a locking mechanism that interacts with the crossbar. The lock case is made in the form of a glass. The lock also contains a catcher in the form of a cylindrical sleeve, and the locking mechanism is made in the form of balls (RU 2298623, ЕВВ 47/02, 01/20/2004).

The disadvantage of this device is the limited technological and operational capabilities of the lock, due to its shape in the form of a glass and dimensions that do not allow it to be installed, for example, on the side wall of the refrigerator door.

The task of the invention is to create an electromagnetic lock, devoid of the disadvantages of the prototype, namely, to obtain a universal lock made with the possibility of installing it on any sections of the doors of locked objects and simplifying its installation.

The claimed invention is presented in 2 versions.

Option 1

According to the first embodiment, the technical result to which the invention is directed is achieved by the fact that the electromagnetic lock, including an electromagnet with a core installed in the lock case, a latch made with the possibility of longitudinal movement, and a locking mechanism interacting with the bolt are supplemented with a permanent magnet and two fixed stops, while a permanent magnet is installed in the housing of the latch with the possibility of interaction with the head of the bolt, the fixed stops are located on the internal counter on the walls of the housing, the clamp has the shape of a bracket with grooves in the upper and lower parts of its sides, and the locking mechanism is made in the form of two rollers with the possibility of their movement in the grooves of the retainer.

The essence of the invention according to the first embodiment consists in the fact that due to the addition of an electromagnetic lock with a permanent magnet, two fixed stops and a flat lock in the form of a bracket having grooves in its upper and lower parts in which the lock mechanism rollers can be moved, the installation of the lock is simplified and achieved the ability to install it on any sections of the doors of lockable objects, which leads to the expansion of its technological and operational capabilities.

In Fig.1 shows a longitudinal section of the electromagnetic lock in the "open" position, in Fig.2 - the same in the "closed" position, Fig.3 is a General view of the latch.

The electromagnetic lock contains a rectangular housing 1 with an electromagnet located in it with a coil 2 and a fixed steel core 3 of a T-shape. In the inner cavity of the housing 1, a latch 4, arranged with the possibility of longitudinal movement, is installed, having the form of a bracket with grooves 5, 6 and 7, 8, respectively, in the upper and lower parts of its sides. Inside the latch 4 is fixed a permanent magnet 9 with the possibility of interaction with the head 10 of the bolt 11, interacting with the rollers 12 and 13 of the locking mechanism. The rollers 12 and 13 are placed respectively in the grooves 6, 7 and 5, 8 of the retainer 4 with the possibility of moving them vertically. The lock also contains two fixed stops 14 and 15, oppositely located in the inner cavity of the housing 1. To secure the lock in the housing 1, oval holes 16, 17 and 18 are provided.

An electromagnetic lock operates as follows. In the initial position, which occurs after disconnecting the coil 2 from the power source, the movable latch 4 under the influence of a magnetic flux of a permanent magnet 9 is attracted to the fixed core 3 of the coil 2. The rollers 12 and 13 can freely move vertically, respectively, in the grooves 6, 7 and 5, 8 of the latch 4. When closing the lock, the rod of the crossbar 11 with the head 10 passes between the rollers 12 and 13 until it contacts the permanent magnet 9. In this case, the magnetic flux of the permanent magnet 9 closes through the movable latch 4, the rollers 12, 13 and the heads 10 bolt 11. When you try to unauthorized unlocking of the lock, the movable latch 4 will begin to move together with the head 10 of the bolt 11 under the influence of a magnetic flux of a permanent magnet 9 to the fixed stops 14 and 15. The rollers 12 and 13 are rolled onto the fixed stops 14 and 15, respectively, and fix the head 10 of the crossbar 11. The lock will be in the closed state. To open the lock, the coil 2 of the electromagnet is connected to a power source. Coil 2 will create a magnetic flux that is insufficient to move the movable latch 4. Therefore, it is necessary to move the bolt rod 11 together with the head 10 and the movable latch 4 with an external action until the core 3 of the coil 2 touches. In this case, under the influence of the total magnetic flux of the permanent magnet 9 and coils 2, the movable latch 4 is attracted to the core 3, the rollers 12 and 13 roll off respectively from the fixed stops 14 and 15 and unlock the head 10 of the crossbar 11. The rod of the crossbar 11 together with the head 10 freely leaves of the movable clamp 4.

Option 2

According to the second embodiment, the technical result to which the invention is directed is achieved by the fact that the electromagnetic lock, including an electromagnet with a core installed in the lock case, a latch made with the possibility of longitudinal movement, and a locking mechanism interacting with the bolt are supplemented with a permanent magnet and two locking plates, the fixing plates are located on the inner opposite walls of the housing and are made with oval holes, and the latch has a rectangular shape with The protrusion at the rear end, serving as the core of the electromagnet, is made with a longitudinal groove having a transverse groove, a permanent magnet is installed at the bottom of the longitudinal groove to interact with the crossbar head, and the locking mechanism is made in the form of two rollers with the possibility of their movement in the transverse groove of the longitudinal groove retainer and oval holes of the fixing plates.

The essence of the invention according to the second embodiment is that due to the addition of an electromagnetic lock with a permanent magnet, two locking plates with oval holes for the possible movement of the rollers in them and the release of the latch with two transverse grooves designed to accommodate the rollers in them, as well as in combining the latch and the core simplifies the design and installation of the lock, increases the reliability and the ability to install it on any part of the doors of locked objects, which leads to races expanding its technological and operational capabilities.

Figure 4 shows a longitudinal section of the electromagnetic lock in the open position, figure 5 is a General view of the lock in the open position, figure 6 shows a longitudinal section of the electromagnetic lock in the closed position, figure 7 is a General view of the lock in the closed position, in Fig.8 is a side view in Fig.5.

The electromagnetic lock contains a rectangular housing 1 with an electromagnet located in it with a rectangular coil 2 and made longitudinally movable by a flat lock 4. The latter has a rectangular shape with a protrusion 19 at the rear end serving as the core of the electromagnet. The latch 4 is made with a longitudinal groove 20 having two transverse grooves 21 and 22. At the bottom of the longitudinal groove 20, a permanent magnet 9 is installed with the possibility of interaction with the head 10 of the bolt 11, interacting with the rollers 12 and 13 of the locking mechanism. The rollers 12 and 13 are placed in the grooves 21 and 22 of the groove 20 of the retainer 4. The lock also contains two locking plates 23 and 24 located on the inner opposite walls of the housing 1 and made with oval holes 25 and 26. For mounting the plates 23 and 24 to the housing 1 rivets 27, 28, 29 and 30 are intended. Oval holes 16, 17 and 18 are provided for fixing the lock in the housing 1.

An electromagnetic lock operates as follows. In the initial position, which occurs after disconnecting the coil 2 from the power source, the movable latch 4 can be in any position. Accordingly, the rollers 12 and 13 can also be located anywhere in the oval holes 25 and 26 of the fixing plates 23 and 24. When closing the lock, the bolt 11 with the head 10 falls into the longitudinal groove 20 of the retainer 4 and with further movement, sliding the rollers 12 and 13 while moving the clamp 4, comes into contact with the permanent magnet 9. In this case, the magnetic flux of the permanent magnet 9 closes through the latch 4, the rollers 12, 13 and the head 10 of the bolt 11. In case of an unauthorized attempt to open the door, the latch 4 will begin to move under the deis magnetic flux relative to the locking plates 23 and 24. In this case, the rollers 12 and 13 will move together with the clamp 4 in the oval holes 25 and 26 of the locking plates 23 and 24, respectively, fixing the head 10 of the crossbar 11. The lock will be in the closed state. To open the lock, the coil 2 is connected to a power source. In this case, the coil 2 will create a magnetic flux, which partially compensates for the magnetic flux of the permanent magnet 9, but insufficient to retract the protrusion 19 into the coil 2. Therefore, to unlock the lock, it is necessary to move the latch 4 until the stop of the protrusion 19 into the housing 1 and thus close the magnetic flux circuit passing through the housing 1, the latch 4 and the protrusion 19. In this case, the magnetic flux creates a force sufficient to hold the latch 4 in the position drawn to the housing 1. With the simultaneous movement of the latch 4 and the rollers 12 and 13, the latter will move along the oval holes 25, 26 of the fixing plates 23, 24 and unlock the head 10 of the bolt 11, which will freely come out of the longitudinal groove 20 of the latch 4. In order to obtain the necessary interaction of the magnetic flux of the coil 2 and a constant magnet 9 it is necessary to observe the polarity of the power source of the coil 2.

Thus, the claimed invention allows to create a universal reliable lock, while expanding its technological and operational capabilities.

Claims (2)

1. An electromagnetic lock, including an electromagnet with a core installed in the lock case, a latch made with the possibility of longitudinal movement and a locking mechanism interacting with the crossbar, characterized in that the lock is supplemented by a permanent magnet and two fixed stops, while a permanent magnet is installed in the latch case with the possibility of interaction with the crossbar head, fixed stops are located on the opposite inner walls of the housing, the latch has the shape of a bracket with grooves in the upper and lower hours Rep its sides, and the locking mechanism is configured as two rollers with the possibility of movement in the lock grooves. 2. An electromagnetic lock, including an electromagnet with a core installed in the lock case, a latch made with the possibility of longitudinal movement and a locking mechanism interacting with the bolt, characterized in that the lock is supplemented by a permanent magnet and two fixing plates, the fixing plates are located on the opposite walls of the housing and made with oval holes, and the latch has a rectangular shape with a protrusion at the rear end, serving as the core of the electromagnet, and is made with a longitudinal th slot, having a transverse groove at the bottom of the longitudinal groove is mounted a permanent magnet capable of cooperating with the bolt head and the locking mechanism is configured as two rollers with the possibility of moving in a transverse groove and longitudinal groove fastener oblong holes fixing plates.

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