RU2298623C2 - Electromagnetic lock (variants) - Google Patents

Abstract

FIELD: guard devices, particularly locks.

SUBSTANCE: electromagnetic lock comprises cylindrical body and electromagnet coil installed in the body. Catch comprises central orifice including conical and cylindrical parts. Outer catch surface has two parts, namely the first and the second ones. The first part has diameter equal to inner body diameter. The second part has diameter less than inner body diameter and is provided with orifices with balls arranged therein. Pulling limb end has lesser diameter and comprises turning for retaining ring receiving. Fixer is located in cavity created between cantilever catch part and inner body surface so that the fixer may move in longitudinal direction. Inner fixer surface includes two sections of different diameter, namely inner and outer ones. Outer fixer surface section has radius equal to that of outer surface of cantilevered catch part. Inner fixer surface section has radius exceeding above radius for value equal to distance of ball projection over inner surface of cantilever catch part. Return spring is arranged on the limb and is installed between washer and outer fixer bottom surface. Cross-bar is made as rod passing through orifice made in covering plate. Outer rod end is provided with head having diameter equal to that of cylindrical central catch orifice part. In accordance to the second embodiment inner body cavity is provided with extension so that inner body surface has conical shape between the extension and outer body surface. Fixer abuts upon extension by end surface thereof. Orifices for ball receiving are made in side fixer surface. Trapezoid turning is created in inner body surface. Distance between centers of orifices for ball receiving and turning center is equal to electromagnet limb travel. Turning depth is equal to distance of ball projection over inner fixer surface.

EFFECT: simplified manufacture, increased operational reliability and decreased power inputs.

8 cl, 2 dwg

Description

An electromagnetic lock belongs to the field of security technology, in particular, to locking devices controlled by electronic equipment, and can be used to lock the doors of rooms, cabinets, safes to exclude the possibility of unauthorized access and, in addition, provides the ability to access in case of power failure.

Known electromagnetic lock containing mounted in the housing, with the possibility of longitudinal movement, a 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 cantilever parts of the body of 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, 10.07.1 996).

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 (RU 2171882, ЕВВ 47/02, 08/10/2001), containing a cylindrical body in the form of a glass with a removable bottom and mounted in the housing, with the possibility of longitudinal movement, spring-loaded on the bottom of the housing an internal cavity and two bevels on the locking end, on an axis parallel to the bevel planes, offset relative to the longitudinal axis of the crossbar, is installed with the possibility of locking in two positions: along and across the crossbar the rotating flag is straight an oval form, placed in a slot made on the locking end of the crossbar, the flag length not exceeding the width of the crossbar, and the width not more than half the width of the crossbar, a return spring located between the housing and the crossbar, one end of which abuts against a protrusion on the inner surface of the housing, and the other end - in an annular flange made on the end of the crossbar opposite the locking end, an electromagnet containing a cylindrical electromagnet cantilever located in the inner cavity of the crossbar, inside of which an electromagnet coil with a spring-loaded core of the electromagnet, a ball locking mechanism, the balls of which are placed in the holes of the console part of the body of the electromagnet with support on the spring-loaded core of the electromagnet, having a stepped shape with cylindrical and conical sections in length, the console part of the cylindrical body of the electromagnet and balls made of non-magnetic materials, and the core is made of ferromagnetic.

The disadvantage of this device is the complexity of the technical implementation, a large number of moving parts during operation, which reduces the reliability of operation, as well as significant energy consumption due to the large gap between the core of the electromagnet and its body, which houses the spring.

The aim of the invention is to simplify the technical implementation by reducing the number of parts, increasing reliability due to the simplification of the kinematics of the castle and reducing energy consumption.

This goal is achieved by the fact that in the electromagnetic lock containing a cylindrical body in the form of a cup with a removable bottom, an electromagnet with a cylindrical core located inside the electromagnet coil with the possibility of movement, a cylindrical return spring, balls, a bolt and a pad with a hole for the bolt are additionally introduced: catcher in the form of a cylindrical sleeve, a washer, a locking ring, a retainer in the form of a cylindrical cup, a flat spring, a fixing washer, a lock nut, and the coil of the electromagnet mounted in the inner cavity of the case, one cheek of the coil is adjacent to the bottom of the case, and the second to the washer, the diameter of the central hole of which is equal to the diameter of the central hole of the coil of the electromagnet, and the outer diameter is the internal diameter of the case, the catcher contains a central hole that has a conical part located in the outer part of the trap and expanding to the outer surface of the trap, and cylindrical, located in the inner part of the trap, the outer diametrical surface of the trap has two parts: the first, the diameter of which is equal to the inner diameter of the housing, located at the beginning of the internal cavity of the housing and connected to the inner surface of the housing, and the second, the diameter of which is smaller than the internal diameter of the housing, forming the cantilever part of the catcher, on which there are holes with balls placed in them, holes for balls in the cantilever part of the catcher are made in the form of two parts of different diameters connected by a conical transition, the diameter of the holes located on the outer surface of the cantilever part the trap is equal to the diameter of the balls, and located on the inner surface - less than the diameter of the balls, the depth of the holes of each diameter is such that the surface of the balls located in them coincides with the outer surface of the cantilever part of the trap and protrudes beyond the inner surface of the cantilever part of the trap, the pulling end of the cylindrical core is made with smaller diameter and has a groove for the locking ring, the latch is placed in the cavity formed between the cantilever part of the catcher and the inner surface of the housing with the possibility of longitudinal movement, and the inner surface of the latch is made in the form of two parts of different diameters connected by a conical transition, the outer part, the radius of which is equal to the radius of the outer surface of the cantilever part of the catcher, and the inner one, whose radius is greater than the distance of the protrusion of the balls beyond the inner surface of the cantilever part of the catcher, a hole is made in the central part of the bottom of the latch, inside of which there is a pulling end of a cylindrical core connecting with a locking ring, mounted in the groove of the pulling end of the cylindrical core and located in the inner cavity of the retainer, a retainer with a core with the possibility of their mutual transverse movement, a cylindrical core located between the washer and the outer surface of the bottom of the retainer is located on the cylindrical core. The crossbar, made in the form of a rod passing through an opening in the overlay, the diameter of which should not exceed the diameter formed by the surfaces of the protruding parts of the balls above the cylindrical part of the central hole of the trap, the outer end of the crossbar contains a head with a diameter equal to the diameter of the cylindrical part of the central hole of the trap, and the inner end - a threaded thread on which, using a threaded connection fixed with a lock nut, a fixing washer is installed, one surface of which is adjacent the lining and the other - to the surface of the flat spring having a central opening through which the inner end of the pins, wherein the ends of the leaf spring are fixed to the lining and bolt is mounted in holes of the leaf spring laths and with the possibility of transversal movement. On the outer end part of the catcher, a flange is made for mounting an electromagnetic lock. The body, washer, and cylindrical core are made of magnetically conductive material.

A distinctive feature of this lock is that the bolt in the closed position of the lock is held by balls not due to the force created by the spring, springing the core, but with the help of a latch that requires little effort to move it. In relation to the prototype, this solution significantly reduces the amount of energy consumed by the electromagnet. In addition, in the event of power failure, the lock bolt will be released, as a result of which there is no need for additional mechanical devices that unlock the bolt during power loss, as is required in the prototype.

Figure 1 shows a longitudinal section of an electromagnetic lock.

The electromagnetic lock contains a cylindrical housing 1 in the form of a glass with a removable bottom 2, which can be mounted in the housing by a threaded or pin connection. An electromagnet 3 coil is installed in the inner cavity of the housing 1 in such a way that one cheek 4 of the coil 3 is adjacent to the bottom 2, and the second 5 to the washer 6. The catch 7 contains a central hole consisting of a conical part 8 and a cylindrical 9. The outer diametrical surface of the catcher 7 has two parts. The first is 10, the diameter of which is equal to the inner diameter of the housing 1, connected to the inner surface of the housing 1 by a threaded or pin connection. The second is 11, the diameter of which is smaller than the inner diameter of the housing 1, forming the cantilever part of the trap 7, on which the holes 12 with balls 13 are located. The holes 12 for the balls 13 in the cantilever part of the trap 7 are made in the form of two parts of different diameters connected by a conical transition. The diameter of the holes 13 located on the outer surface 11 of the cantilever part of the catcher 7 is equal to the diameter of the balls, and located on the inner surface 9 - less than the diameter of the balls. The depth of the holes of each diameter is such that the surface of the balls 12 located in them coincides with the outer surface 11 of the cantilever part of the catcher 7 and protrudes beyond the inner surface 9. The pulling end 14 of the cylindrical core 15 is made with a smaller diameter and has a groove for the locking ring 16. The latch 17 is placed in the cavity formed between the cantilever part of the catcher 7 and the inner surface of the housing 1 with the possibility of longitudinal movement. The inner surface of the latch 17 is made in the form of two parts of different diameters connected by a conical transition, an outer part whose radius is equal to the radius of the outer surface of the cantilever part of the trap 7, and an inner one whose radius is greater than the distance of the protrusion of the balls beyond the inner surface 9 of the cantilever part of the trap 7. B a hole is made in the central part of the bottom of the clamp 17, inside of which there is a pulling end 14 of the cylindrical core 15, which connects the lock 17 with the core 15 with a locking ring 16 zhnosti their mutual lateral movement. The locking ring 16 is installed in the groove of the pulling end 14 of the cylindrical core 15 and is located in the inner cavity of the latch 17. On the cylindrical core 15 is a return spring 18 installed between the washer 6 and the outer surface of the bottom of the latch 17. For fixing the lock on the outer end part of the catch 7 flange 19. The bolt 20 is made in the form of a rod passing through the hole 21 in the plate 22, the diameter of which should not exceed the diameter formed by the surfaces of the protruding parts of the balls above the surface bone of the cylindrical part 9 of the central hole of the catcher 7. The outer end of the crossbar 20 contains a head 23 with a diameter equal to the diameter of the cylindrical part 9 of the central hole of the catcher 7, and the inner end 24 is a threaded thread. The head 23 can be made both spherical and cylindrical with chamfers at the edges. A locking washer 26 is installed at the inner end of the crossbar 20 using a threaded connection fixed by a lock nut 25, one surface of which is adjacent to the surface of the lining 22, and the second to the surface of the flat spring 27. The spring 27 has a central hole through which the inner end 24 of the crossbar passes 20. The ends of the flat spring 27 can be fixed on the surface of the lining 22 with a threaded connection, rivets or other means. Also, the spring 27 can simply be clamped by the pad 22 to the surface of the object to be closed. The ratio of the diameters of the holes 21 and the lock nut 25 is such that the crossbar 20 installed in the holes of the lining 22 and the flat spring 27 has the possibility of lateral movement.

The electromagnetic lock (figure 1) works as follows. In the initial state, which occurs after de-energizing the electromagnet coil 3, the return spring 18 moves the lock 17 to the stop with the catcher 7, allowing the balls 13 to move in the holes 12 in the transverse direction. After applying voltage to the coil 3 of the electromagnet, the latch 17 remains in the same position, since the voltage supplied to the coil 3 is small and not sufficient to overcome the force developed by the return spring 18.

When closing the doors, the bolt 20 with the head 23 enters the conical part of the hole 8 of the catcher 7 and is guided during subsequent movement to the cylindrical part of the hole 9 of the catcher 7. In case of misalignment of the positions of the bolt 20 and the hole of the catcher 7, the bolt 20 moves under the action of radial forces along the surface of the lining 22 to alignment of axes. With further movement of the crossbar 20, the ball head 23 pushes the balls 13 and comes into contact with the end surface of the pulling end 14 of the core 15. Further movement of the crossbar 20 sets the core 15 in motion with the latch 17 connected to it, and also compresses the return spring 18. At the same time, the latch 17 with its inner surface of smaller diameter pushes the balls 13 beyond the surface of the cylindrical part 9 of the hole of the catcher 7, eliminating the possibility of movement of the bolt 20 in the opposite direction. With further movement of the crossbar 20, the gap between the core 15 and the bottom 2 of the housing 1 decreases so much that the efforts of the electromagnet created by the magnetic flux passing along the path: the bottom 2, the housing 1, the washer 6, becomes sufficient to attract the core 15 to the bottom 2 of the housing 1. The electromagnetic lock is in the locked position.

To open the lock, the coil 3 of the electromagnet is de-energized. At the same time, along with the movement of the bolt 20 in the opposite direction, the return spring 18 moves the latch 17 to the stop with the catcher 7, allowing the balls 13 to move in the holes 12 in the transverse direction, which allows the head 23 to leave the cylindrical part 9 of the hole of the catcher 7.

Depending on the type of door, the required length of the bolt 20, protruding beneath the outer surface of the lining 22, is set by the position of the locking washer 26 and is fixed by the lock nut 25. The electromagnetic lock itself is fixed by fastening to the flange 19 or the housing 1.

Thus, this electromagnetic lock has a small number of parts of a simple design, which simplifies its technical implementation and, as a result, increases the reliability of operation, has low power consumption, sufficient only to overcome the small force of the return spring in the closed circuit of the electromagnet.

The purpose of the second version of the electromagnetic lock is to simplify the technical implementation by reducing the number of parts, increase reliability due to the simplification of kinematics and expand the functionality by creating a lock constipation mode in the de-energized state of the electromagnet.

This goal is achieved by the fact that in the electromagnetic lock containing a cylindrical body in the form of a cup with a removable bottom, an electromagnet with a cylindrical core located inside the electromagnet coil with the possibility of movement, a cylindrical return spring, balls, a bolt and a pad with a hole for the bolt are additionally introduced: a washer, a locking ring, a retainer in the form of a cylindrical cup, a flat spring, a retaining washer, a lock nut, and an electromagnet coil is installed in the inner cavity of the housing a, one cheek of the coil is adjacent to the bottom of the housing, and the second to the washer, the diameter of the central hole of which is equal to the diameter of the central hole of the coil of the electromagnet, and the outer diameter is the internal diameter of the housing, a cylindrical protrusion is made at the beginning of the internal cavity of the housing, the inner surface of the housing between the protrusion and the outer surface of the housing is made conical and expanding to the outer surface of the housing, the latch is placed in the inner cavity of the housing with the possibility of longitudinal movement and stop torus on the side of the cylindrical protrusion, the outer diameter of the clamp is equal to the inner diameter of the housing, and the inner is the diameter of the cylindrical protrusion, on the side surface of the clamp in a plane parallel to its bottom, there are holes with balls placed in them, holes for balls are made in in the form of two parts of different diameters connected by a conical transition, and the diameter of the holes located on the outer surface of the retainer is equal to the diameter of the balls, and located on the inner surface Surfaces are smaller than the diameter of the balls, the depth of the holes of each diameter is such that the surface of the balls located in them coincides with the outer surface of the latch and protrudes beyond its inner surface, the pulling end of the cylindrical core is made with a smaller diameter and has a groove for the locking ring in the central part of the bottom of the latch a hole is made, inside of which there is a pulling end of a cylindrical core connecting with a locking ring mounted in a groove of the pulling end of a cylindrical core and located in the inner cavity of the retainer, the retainer with the core with the possibility of their mutual transverse movement, on the cylindrical core there is a cylindrical return spring installed between the washer and the outer surface of the bottom of the retainer, a groove made in the trapezoidal shape on the inner surface, and the distance between the centers of the holes for balls and the center of the groove is equal to the stroke length of the core of the electromagnet, and the depth of the groove is equal to the protrusion of the surface w Rikov over the inner surface of the retainer. On the outer end part of the housing there is a flange for attaching an electromagnetic lock. The cylindrical body, washer, and cylindrical core are made of magnetically driving material. The crossbar is made in accordance with figure 1.

A distinctive feature of this lock is that the process of locking the lock is carried out by the movement of the bolt, does not require any significant effort. Electricity consumption by the lock occurs only at the moment of opening and is characterized by its low consumption.

Figure 2 presents a longitudinal section of an electromagnetic lock according to option 2.

The electromagnetic lock contains a cylindrical housing 28 in the form of a cup with a removable bottom 29, which can be mounted in the housing by a threaded or pin connection. An electromagnet coil 30 is mounted in the inner cavity of the housing 28 so that one cheek 31 of the coil 30 is adjacent to the bottom 29 and the second 32 to the washer 33. A cylindrical protrusion 34 is made at the beginning of the inner cavity of the housing 28, the inner surface of the housing between the protrusion 34 and the outer surface of the housing is made conical and expanding to the outer surface of the housing. The latch 35 is made in the form of a cylindrical glass and is placed in the internal cavity of the housing 28 with the possibility of longitudinal movement. The end surface opposite the bottom, the latch 35 abuts against the cylindrical protrusion 34. The outer diameter of the latch 35 is equal to the inner diameter of the housing 28, and the inner diameter of the cylindrical protrusion 34. On the lateral surface of the latch 35 in the plane parallel to its bottom, holes 36 are located in them with balls 37. The holes 36 for balls 37 are made in the form of two parts of different diameters connected by a conical transition, and the diameter of the holes 36 located on the outer surface of the retainer is equal to the diameter of the balls s 37 and disposed on the inner surface - smaller than the diameter of balls 37. The depth of the holes 36 of each diameter such that a surface located therein balls 37 coincides with the outer surface of the retainer 35 and supported its inner surface. The pulling end 38 of the cylindrical core 39 is made with a smaller diameter and has a groove for the locking ring 40. An opening 41 is made in the central part of the bottom of the latch 35, inside which there is a pulling end 38 of the cylindrical core 39, connecting with the locking ring 40 mounted in the groove of the pulling end 38 of the cylindrical core 39, the retainer 35 with the core 39 with the possibility of their mutual transverse movement. A cylindrical return spring 42 is located on the cylindrical core 39, mounted between the washer 33 and the outer surface of the bottom of the latch 35. A groove of a trapezoidal shape 43 is made on the inner surface of the housing 28, and the distance between the centers of the holes 36 for balls 37 and the center of the groove 43 is equal to the stroke length of the cylindrical core 39 is an electromagnet, and the depth of the groove 43 is equal to the protrusion of the surface of the balls 37 above the inner surface of the latch 35.

On the outer end part of the housing 28, a flange 44 is made for attaching an electromagnetic lock.

The cylindrical body 28, the washer 33, the cylindrical core 39 are made of magnetically conductive material.

The crossbar is made in accordance with option 1 of the electromagnetic lock. Its design and description are presented in figure 1 and the description of option 1. Moreover, to reduce the bolt stroke in both versions of the electromagnetic lock, the bolt head can be made in a cylindrical design, as shown in figure 2.

An electromagnetic lock (figure 2) works as follows. In the initial state, which occurs after deenergizing the electromagnet coil 30, the return spring 42 moves the latch 35 to the stop with a cylindrical protrusion 34. In this position of the latch 35, the balls 37 protrude above its inner surface.

When closing the doors, the bolt 20 with the head 23 enters the conical part of the opening of the housing 28 and is guided during subsequent movement into the internal cavity of the latch 35. In case of a misalignment of the position of the bolt 20 and the opening of the housing 28, the bolt 20 moves under the action of radial forces along the surface of the lining 22 until the axes are aligned.

With further movement of the crossbar 20, the head 23 abuts against the balls 37 and begins to move the latch 35 with the core 39. The movement of the latch 35 continues until the balls 37 get into the groove 43. In this case, the balls 37 are moved in the transverse direction until their surfaces coincide with the inner surface of the latch 35, and the head 23 continues to move without moving the latch 35. When the head 23 extends beyond the opening 36, the latch 35 is released from the forces exerted by the head 23, and takes its initial position under the influence of cyl ndricheskoy spring 42.

Balls 37 again protrude above the inner surface of the latch 35, but on the inside of the head 23. The electromagnetic lock is in the closed position. To open the lock, it is necessary to apply voltage to the coil 30. In this case, the cylindrical core 39 is pulled into the coil 30 until it touches the bottom 29. The balls 37 are located opposite the groove 43, which allows the head 23 of the bolt 20 to exit the inner cavity of the latch 35. The electromagnetic lock in this position open.

The electromagnetic lock is fixed by fastening to the flange 44 or the housing 28.

This electromagnetic lock has a small number of parts of simple design, which simplifies its technical implementation, increases the reliability of operation and has low power consumption only when the lock is opened.

Claims (8)

1. An electromagnetic lock containing a cylindrical body in the form of a cup with a removable bottom, an electromagnet with a cylindrical core located inside the electromagnet coil with the possibility of movement, a cylindrical return spring, balls, a bolt and a pad with a hole for the bolt, characterized in that it is additionally inserted catcher in the form of a cylindrical sleeve, a washer, a locking ring, a retainer in the form of a cylindrical cup, a flat spring, a fixing washer, a lock nut, and the electromagnet coil is installed in about the inner cavity of the body, one cheek of the coil is adjacent to the bottom of the body, and the second to the washer, the diameter of the central hole of which is equal to the diameter of the central hole of the coil of the electromagnet, and the external diameter is the internal diameter of the body, the trap contains a central hole that has a conical part located in the outer parts of the trap and expanding to the outer surface of the trap, and cylindrical, located in the inner part of the trap, the outer diametrical surface of the trap has two parts: the first, which is equal to the inner diameter of the housing located at the beginning of the inner cavity of the housing and connected to the inner surface of the housing, and the second, the diameter of which is smaller than the inner diameter of the housing, forming the cantilever part of the catcher, on which the holes with balls placed in them are located, holes for balls in the cantilever parts of the trap are made in the form of two parts of different diameters connected by a conical transition, the diameter of the holes located on the outer surface of the cantilever part of the trap, aven to the diameter of the balls, and located on the inner surface - less than the diameter of the balls, the depth of the holes of each diameter is such that the surface of the balls located in them coincides with the outer surface of the cantilever part of the trap and protrudes beyond the inner surface of the cantilever part of the trap, the pulling end of the cylindrical core is made with a smaller diameter and has a groove for the locking ring, the latch is placed in the cavity formed between the cantilever part of the catcher and the inner surface of the housing longitudinal movement, and the inner surface of the latch is made in the form of two parts of different diameters connected by a conical transition: the outer part, the radius of which is equal to the radius of the outer surface of the cantilever part of the trap, and the inner part, whose radius is greater than the distance of the protrusion of the balls beyond the inner surface of the cantilever part of the trap, a hole is made in the central part of the bottom of the latch, inside of which there is a pulling end of a cylindrical core connecting with a locking ring copulating in the groove the pull end of the cylindrical core and is disposed in the internal cavity retainer lock core with the possibility of mutual lateral movement, on a cylindrical core is cylindrical return spring mounted between the washer and the outer surface of the retainer bottom. 2. The electromagnetic lock according to claim 1, characterized in that on the outer end part of the catcher there is a flange for fastening the electromagnetic lock. 3. The electromagnetic lock according to claim 1 or 2, characterized in that the cylindrical body, the washer, the cylindrical core are made of magnetically conductive material. 4. The electromagnetic lock according to claim 1 or 2, characterized in that the bolt is made in the form of a rod passing through a hole in the overlay, the diameter of which should not exceed the diameter formed by the surfaces of the protruding parts of the balls above the cylindrical part of the central hole of the catcher, the outer end of the bolt contains a head with a diameter equal to the diameter of the cylindrical part of the central hole of the catcher, and the inner end is a threaded thread, on which is installed using a threaded connection fixed by a lock nut and the fixing washer, one surface of which is adjacent to the surface of the lining, and the second to the surface of a flat spring having a central hole through which the inner end of the crossbar passes, and the ends of the flat spring are fixed to the surface of the lining, and the bolt is installed in the holes of the lining and the flat spring with the possibility of lateral movement. 5. An electromagnetic lock containing a cylindrical body in the form of a glass with a removable bottom, an electromagnet with a cylindrical core located inside the electromagnet coil with the possibility of movement, a cylindrical return spring, balls, a bolt and a pad with a hole for the bolt, characterized in that it is additionally inserted a washer, a locking ring, a retainer in the form of a cylindrical cup, a flat spring, a retaining washer, a lock nut, and the magnet coil is installed in the inner cavity of the housing, one cheek the coil is adjacent to the bottom of the housing, and the second to the washer, the diameter of the central hole of which is equal to the diameter of the central hole of the electromagnet coil, and the outer diameter is the internal diameter of the housing, a cylindrical protrusion is made at the beginning of the internal cavity of the housing, the inner surface of the housing between the protrusion and the outer surface of the housing conical and expanding to the outer surface of the housing, the latch is placed in the inner cavity of the housing with the possibility of longitudinal movement and abutting the end face the opposite diameter of its bottom into a cylindrical protrusion, the outer diameter of the retainer is equal to the inner diameter of the housing, and the inner one is the diameter of the cylindrical protrusion, on the lateral surface of the retainer in a plane parallel to its bottom, there are holes with balls placed in them, holes for balls are made in the form two parts of different diameters connected by a conical transition, and the diameter of the holes located on the outer surface of the retainer is equal to the diameter of the balls, and located on the inner surface - is smaller than the diameter of the balls, the depth of the holes of each diameter is such that the surface of the balls located in them coincides with the outer surface of the latch and protrudes beyond its inner surface, the pulling end of the cylindrical core is made with a smaller diameter and has a groove for the locking ring, a hole is made in the central part of the bottom of the latch inside which there is a pulling end of a cylindrical core connecting with a locking ring installed in a groove of the pulling end of a cylindrical core and located in the inner cavity of the retainer, the retainer with the core with the possibility of their mutual transverse movement, on the cylindrical core there is a cylindrical return spring installed between the washer and the outer surface of the bottom of the retainer, a groove made in the trapezoidal shape on the inner surface, and the distance between the centers of the holes for balls and the center of the groove is equal to the stroke length of the core of the electromagnet, and the depth of the groove is equal to the protrusion of the surface of the balls above morning surface of the retainer. 6. The electromagnetic lock according to claim 5, characterized in that on the outer end part of the housing there is a flange for fastening the electromagnetic lock. 7. An electromagnetic lock according to claim 5 or 6, characterized in that the cylindrical body, the washer, the cylindrical core are made of magnetically conductive material. 8. An electromagnetic lock according to claim 5 or 6, characterized in that the bolt is made in the form of a rod passing through a hole in the overlay, the diameter of which should not exceed the diameter formed by the surfaces of the protruding parts of the balls above the cylindrical part of the central hole of the trap, the outer end of the bolt contains a head with a diameter equal to the diameter of the cylindrical part of the central hole of the catcher, and the inner end is a threaded thread, on which, using a threaded connection fixed by a lock nut, and the fixing washer, one surface of which is adjacent to the surface of the lining, and the second to the surface of a flat spring having a central hole through which the inner end of the crossbar passes, and the ends of the flat spring are fixed to the surface of the lining, and the bolt is installed in the holes of the lining and the flat spring with the possibility of lateral movement.

Images