RU2098588C1 - Electromechanical lock - Google Patents

Abstract

FIELD: apartment and service room locking devices. SUBSTANCE: electromechanical lock has electromagnet secured to body, cross bar with retainer and tongue, which are positioned in guides. Flexible member of cross bar is fixed with its one end on lock body and with its other end on cross bar end and is made in the form of extension spring. Lock is further provided with pusher cooperating with cross bar stop and driving member. Cross bar has wedge-shaped slot and double-armed lever loosely mounted on cross bar pin. Cross bar retainer is formed as catch loosely seated on lock body pin and cooperating with electromagnet core and finger, which is positioned on one arm of double-armed lever. Working portion of catch is received in wedge-shaped slot of cross bar. Tongue is provided with two fingers brought in contact with other arm of double-armed lever and pusher. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 2 cl, 4 dwg

Description

 The invention relates to an electromechanical lock, which is used to lock the doors of office and residential premises.

 Known is an electromechanical lock containing a spring-loaded tongue with a bevel and a crossbar located in the guides of the housing, having a latch in the form of a rotary on the axis of the dog housing controlled by an electromagnet, an elastic element located between the wall of the housing and the end of the crossbar, and an emphasis made on it, in contact with the pusher, associated with the drive body.

 A disadvantage of the known lock is the complexity of the design, which ensures the interaction of the drive body with the bolt, and the high energy intensity of the magnet, the anchor of which must absorb the significant force of the spring of the retainer. In view of this, the operation of the electromagnet cannot be provided by small-sized chemical current sources (cells, batteries). Therefore, for the operation of the lock, it is necessary to use a network voltage converter or a large-capacity electric energy accumulator.

 The technical result achieved by the implementation of this invention is to simplify the design of the castle and reduce energy consumption.

 The specified technical result is achieved by the fact that in the electromechanical lock the crossbar is made with a wedge-shaped groove for placing the dog’s working area, equipped with a two-arm lever movably fixed on it and an emphasis in the form of a finger in contact with the pusher, and the elastic element of the crossbar is made in the form of a tension spring, and the dog freely mounted on the axis of the housing with the possibility of direct interaction with the core of the electromagnet and contact with the faces of the wedge-shaped groove and with a finger fixed to the end of one of the arms of the lever, the thumb lever, in turn, contacts the bolt and the tongue is provided with two fingers, one of which is in contact with the second lever arm and the other with the pusher.

 In FIG. 1 shows the proposed lock in the unlocked state; in FIG. 2 lock in locked condition; in FIG. 3, section AA in FIG. one; in FIG. 4 is a section BB in FIG. 2.

 The lock contains a housing 1 with guides 2 and 3, through which a bolt 4 is passed, made with a wedge-shaped groove 5, having front and rear working faces 6, 7, axis 8 with an emphasis in the form of a finger 9 in contact with the pusher 10, rigidly connected with the body 11 drives. The tension spring 12 is connected at one end to the crossbar 4 and the other end to the housing 1. An electromagnet 13 with a core 14 and an axis 15 of the dog 16 are also fixed to the housing 1. The finger 17 of the two shoulders lever 18, mounted on the axis 8 of the crossbar 4, is in contact with the crossbar 4 or with a dog 16 fixed by the front working face 6 of the wedge-shaped groove 5. When the bolt 4 is locked, it enters the groove of the mating part 19 of the lock mounted on the box 20 of the door 21. On the housing 1, a tongue 24 with a bevel 25 is passed through the guides 22 and 23. The tongue has finger 26, with which the lower arm of the lever contacts 18, and a second finger 27, with which the pusher 10 contacts. The tongue 24 is under the action of a compression spring 28, the second end of which is fixed to the housing 1.

 Locking the door 21 from the outside of the room, after it is slammed and fixed with the tongue 24 relative to the lock mating part 19, is performed by turning the actuator 11, in which the pusher 10 is moved from position I to position II and, acting on the finger 9 of the crossbar 4, moves it to the groove of the mating part 19 of the lock, mounted on the box 20 of the door 21. In this case, the spring 12 is stretched, and the dog 16 enters its wedge-shaped groove 5 of the bolt 4 and is held by its front working face 6, thereby fixing the bolt 4 in the locked position and.

 Unlocking the door 21 from the outside of the room is carried out after applying voltage to the electromagnet 13 (for example, using the appropriate code device, which is not shown in the drawing) and additional rotation of the organ 11 in the same direction as when locking the lock. In this case, the crossbar 4 receives additional movement in the locking direction, and the dog 16 is brought out of the groove 5 by means of the rear working face 7 and is brought close to the core 14 of the electromagnet 13. As a result, the dog 16 is attracted by the core 14, giving permission to move the crossbar 4 to its original position. After releasing the organ 11, the bolt 4 under the action of the tension spring 12 is removed from the groove in the lock mate 19 and moves to the unlocked position, and the pusher 10 is moved to position I, after which the electromagnet 13 is de-energized by the code device. For the final unlocking of the lock, it is necessary by the body 11 to move the pusher 10 from position I to position III. In this case, the pusher 10, acting on the second finger 27 of the tongue 24 and overcoming the action of the compression spring 28, leads to the sinking of the tongue 24 and unlocking the door 21.

 To lock the door 21 from the inside of the room, after it is slammed and fixed with the tongue 24 relative to the lock mate 19, it is necessary to press the lever 18 in the direction of arrow B. As a result, the finger 17 of the lever 18 abuts the crossbar 4, forming a single unit with it, and moves it to the groove of the mate 19 of the castle. In this case, the spring 12 is stretched, and the dog 16 enters the wedge-shaped groove 5 of the bolt 4 and is held by its front working face 6, thereby fixing the bolt 4 in the locked position.

 Unlocking the door 21 from the inside of the room is done by squeezing the lever 18 in the direction of the arrow D of the finger 18. In this case, the finger 17, rotating around the axis 8 of the crossbar 4, acts on the dog 16 and pushes it out of the wedge-shaped groove 5 of the crossbar, which is removed from the groove under the action of the tension spring 12 mating part 19 of the castle and moves to the unlocked position. For the final unlocking of the lock, it is necessary to further press the lever 18, which, acting on the first finger 26 of the tongue 24 and overcoming the action of the compression spring 28, leads to the recession of the tongue 24 and unlocking the door.

 In this lock, when unlocking it from the outside of the room, I will enter the preliminary withdrawal of the dog 16 from the wedge-shaped groove 5 and its supply close to the core 14 of the electromagnet 13, the latter consumes power of the order of 0.1 W, which ensures long-term use (up to 1.5 2 years) in as an autonomous power supply of small-sized electrical elements.

Claims (2)

 1. An electromechanical lock containing a spring-loaded tongue with a bevel placed in the guides of the housing and a bolt, having a latch in the form of a rotary on the axis of the dog body, controlled by an electromagnet, an elastic element placed between the wall of the housing and the end of the bolt, and made on it a stop in contact with the pusher associated with the drive body, characterized in that the bolt is made with a wedge-shaped groove for accommodating the working area of the dog and has a two-arm lever freely mounted on the axis with a finger fixed to one of his shoulders, and the dog is freely mounted on the axis of the housing with the possibility of interaction with the core of the electromagnet and the finger of the lever, and the contact in contact with the pusher is made in the form of a finger, while the elastic element of the crossbar is made in the form of a tension spring fixed at one end to the wall of the housing and the other - associated with the crossbar.  2. The lock according to claim 1, characterized in that the tongue has two fingers made on its end section with the possibility of contact, respectively, with the pusher and the second lever arm.

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