RU38808U1 - ELECTROMAGNETIC LOCK - Google Patents

Abstract

The invention relates to locking devices, in particular to keyless locks. The invention can be used in household appliances, for example in refrigerators. An electromagnetic lock contains a housing, which is an electromagnet circuit, an electromagnet anchor passes through the housing opening on the front side and interacts when working with a crossbar, while the anchor return spring is placed in the housing. In accordance with paragraph 2 of the formula, the anchor is equipped with a shank passing through the core of the electromagnet and connected with an adjusting nut located behind the housing on the back side of the said hole for the anchor. In accordance with paragraph 3 of the formula, the bolt is made in the form of a rod, the tip of which has a bevel, and is equipped with a recess, which is the counterpart of the anchor. In accordance with paragraph 4 of the formula, in the said opening of the housing for the anchor is a sleeve made of non-magnetic material. In accordance with paragraph 5 of the formula, the lock is equipped with rings, one of which is located in the housing between the anchor and the core, and the other is located between According to paragraph 6 of the formula, the said rings are made of non-magnetic, elastic material. Fundamentally new in the proposed electromagnetic lock is that the lock case is simultaneously an electromagnet circuit. This is achieved, for example, by the fact that the housing is made of magnetic material and acts as a kind of magnetic circuit and due to the claimed arrangement of elements.

Description

The invention relates to locking devices, in particular to keyless locks. The invention can be used in household appliances, for example in refrigerators.

There are many electromechanical locks for locking or unlocking the doors of office or residential premises using electrical means. Such locks contain a crossbar installed in the housing, an outlet cam and an electromagnet with a movable control element. For example, an electromechanical lock according to the patent of the Russian Federation No. 2174581. However, the design of this lock requires an increase in size while providing the necessary traction.

Known magnetic lock patent RF №2019661. The lock contains a permanent magnet, installed with the possibility of interaction with the reciprocal ferromagnetic part, made in the form of an electromagnet, the magnetic flux of which interacts with the flux of a permanent magnet. This lock can be used in various fields of human activity for coupling and uncoupling of movable and fixed parts of an object, for example, covers, hatches, doors, casement windows, etc. However, the castle considered is relatively cumbersome.

Known electromagnetic lock according to the patent of the Russian Federation No. 2057248. The lock contains a crossbar, which is made with a locking ledge and spring-loaded in the direction of its unlocking. The crossbar in this lock moves by means of electromagnetic means. The lock locks and unlocks without a key.

Known electromagnetic lock according to the patent of the Russian Federation No. 2124104. The electromagnet in the lock is located on a movable blocking element. The anchor is made with the possibility of moving to the electromagnet until it is touched with the supplied electric energy. When the power supply is sufficient to create an anchor retention mode at the poles, the blocking element is moved in order to unlock the lock by acting on the anchor.

Known electromagnetic lock according to the patent of Russian Federation No. 2057248, IPC 6 E 05 B 47/04. The lock unlocks or locks without keys. In this lock, the crossbar is moved by electromagnetic means. The lock bolt is made with a locking ledge and spring-loaded in the direction of its unlocking. Means for fixing the crossbar in the working position is made in the form of a dog spring-loaded to the fixing ledge of the crossbar. The latter is connected by a rod with the rod of the electromagnet and is installed in the housing with the possibility of self-jamming of the bolt when it is pressed in the unlocking direction.

The castle considered is the closest to the claimed purpose and functionality. However, it is not reliable enough. In addition, to ensure the necessary traction, the design requires an increase in the dimensions of the lock, which is unacceptable in the case of using the lock in household appliances, for example, in a refrigerator.

The technical problem, which this solution is directed to, is to provide a relatively small dimensions of the lock, while maintaining the required traction

The technical problem is solved in that in the electromagnetic lock containing the housing, which is an electromagnet circuit, the electromagnet armature passes through the housing opening from the front side and

interacts when working with a crossbar, while the return spring of the armature is placed in the housing.

In accordance with paragraph 2 of the formula, the anchor is equipped with a shank passing through the core of the electromagnet and connected with an adjusting nut located behind the housing on the back side of the said hole for the anchor.

In accordance with paragraph 3 of the formula, the bolt is made in the form of a rod, the tip of which has a bevel, and is equipped with a recess, which is the counterpart of the anchor.

In accordance with paragraph 4 of the formula, in the said opening of the housing for the anchor is a sleeve made of non-magnetic material.

In accordance with paragraph 5 of the formula, the lock is equipped with rings, one of which is located in the housing between the anchor and the core, and the other is located between the housing and the adjusting nut.

In accordance with claim 6 of the formula, said rings are made of a non-magnetic, elastic material.

Fundamentally new in the proposed electromagnetic lock is that the lock case is simultaneously an electromagnet circuit. This is achieved, for example, by the fact that the housing is made of magnetic material and acts as a kind of magnetic circuit and due to the claimed arrangement of elements.

The essence of the utility model is illustrated in the drawing, where

Figure 1 presents a General view of the castle without a bolt;

Figure 2 - General view of the crossbar.

The lock contains a housing 1, in which a core 2 is placed, which interacts with a movable armature 3. In the housing there is an electromagnet coil 4 in contact with a return spring 5, which is in contact with a thrust washer 6 installed in the groove 7 of the armature 3. The armature 3 has a shank 8. The lock is equipped with rings 9 and 10. The ring 9 is located in the housing 1 between the core 2 and the anchor 3, and the ring 10 covers the shank 8 and is located between the housing 1 and the adjusting nut 11. The anchor 3 passes through the sleeve 12 located in the hole of the front side

case 1. On the reciprocal part of the lockable object is fixed bolt 13 (figure 2), having a slope 14 and a recess 15.

The operation of the castle is as follows.

When the electromagnet coil 4 is de-energized, the return spring 5, acting on the thrust washer 6 installed in the groove of the armature 3, holds the armature 3 in the position extended from the housing 1. When closing the door of the object, the bolt 13 with its entry bevel 14 creeps onto the anchor 3 extended from the housing 1, compresses the return spring 5 and then, when the door is completely closed, the anchor 3 enters the recess 15 of the bolt 13, in which it is firmly held. This ensures reliable closing of the door of the object.

The described process of closing the door occurs almost effortlessly and provides guaranteed locking of the door regardless of the presence or absence of power supply.

When you open the door of the object serves power to the coil 4 of the electromagnet. Anchor 3, compressing the return spring 5 under the influence of an electromagnetic field, the lines of force passing through the housing 1, is attracted to the core 2, leaving the recess 15 of the bolt 13. Thus, opening the doors is allowed only when power is supplied to the coil 4.

The shank 8 of the anchor 1 is used to provide emergency opening of the lock during an emergency power outage, as well as to adjust the amount of extension of the armature from the housing using the adjusting nut 11.

The sleeve 12 and the ring 9 prevent the magnetization of the armature to the housing, due to residual magnetization, which significantly reduces power loss during operation of the lock. Rings 9 and 10 provide silent operation of the castle.

Placing the spring inside the housing (inside the electromagnet circuit) made it possible to abandon the intermediate support for the anchor, as a result, the dimensions of the lock were reduced while maintaining traction and the design was cheapened.

In the case of unauthorized opening of the door, the bolt 13 has a lateral effect on the anchor 3, but the anchor 3 rests on the sleeve 12 and transfers force to the housing 1, therefore, destructive effects on the internal elements of the lock are practically minimized.

Thus, the proposed electromagnetic lock is reliable in operation, small-sized, easy to operate and has sufficient power.

Claims (6)

1. An electromagnetic lock containing a housing, which is a circuit of an electromagnet, the anchor of which passes through the housing opening from the front side and interacts when working with a bolt, while the return spring of the armature is placed in the housing. 2. The electromagnetic lock according to claim 1, characterized in that the anchor is equipped with a shank passing through the core of the electromagnet and connected with an adjusting nut located behind the housing on the back side of the said hole for the anchor. 3. The electromagnetic lock according to claim 2, characterized in that the bolt is made in the form of a rod, the tip of which has a bevel, and is equipped with a recess, which is the counterpart of the anchor. 4. The electromagnetic lock according to claim 3, characterized in that in the said opening of the housing for the anchor is a sleeve made of non-magnetic material. 5. The electromagnetic lock according to claim 4, characterized in that it is provided with rings, one of which is located in the housing between the armature and the core, and the other is located between the housing and the adjusting nut. 6. The electromagnetic lock according to claim 5, characterized in that said rings are made of a non-magnetic, elastic material.