RU2040681C1 - Electromechanical lock - Google Patents

Abstract

FIELD: locking device for rooms. SUBSTANCE: electromechanical lock has body with side walls and cross-bar mounted for displacement between side walls and engageable with mate slot of frame, when lock is in closed position. Manual cross-bar positioning drive has rotary arms fixed on axle, safety clutch with spring-biased retaining members, spring-biased locking rod and electromagnetic drive for moving rod with control device. Cross-bar is made in the form of round sector and mounted on arm axle for free rotation relative to axle. Safety clutch retaining members are positioned between conjugated end surfaces of cross-bar and inner arm and are spring-biased in axial direction. A portion of cross-bar, which extends from lock in its closed position, may be provided with slot engageable with mate safety member of frame. EFFECT: increased efficiency in preventing unauthorized access. 2 cl, 2 dwg

Description

 The invention relates to locking devices and relates to an electromechanical lock for locking rooms to prevent unauthorized access.

 Known lock [1] comprising a housing with side walls, between which a bolt is movably mounted for interaction in the locked position of the lock with a reciprocal cutout of the frame, a manual drive for moving the bolt, including internal and external rotary knobs, mounted on an axis passing through the housing, movably mounted in the housing has a spring-loaded rod that locks the bolt in the locked position of the lock, a magnetocode device for releasing the rod, and a control device. The manual drive for moving the crossbar includes a safety clutch with spring-loaded locking elements installed between the mating cylindrical surfaces of the inner disk sitting on the axis of the handles and the outer disk kinematically connected with the crossbar.

 However, the known lock has a relatively complex structure and is not reliable enough against breaking.

 The purpose of the invention is the creation of an electromechanical lock of a simpler design having increased reliability against breaking.

 To do this, in a known electromechanical lock containing a housing with side walls, between which a bolt is movably mounted for interaction in the locked position of the lock with a reciprocal cutout of the frame, a manual drive for moving the bolt, including internal and external rotary knobs mounted on an axis passing through the housing, and safety clutch with spring-loaded locking elements, a spring-loaded rod movably mounted in the housing, locking the bolt in the locked position of the lock, and the electromagnetic drive is moved a locking rod with a control device; the bolt is made in the form of a circular sector and mounted on the axis of the handles with the possibility of free rotation relative to it, and the locking elements of the safety clutch are installed between the mating end surfaces of the bolt and the inner handle and are spring-loaded in the axial direction. In the part of the deadbolt protruding from the lock in its locked state, a groove can be made to interact with the counter safety element of the frame.

 The described electromechanical lock according to the invention has a relatively simple design, since it does not contain intermediate kinematic elements, since the force applied to the handle is transmitted directly to the crossbar, and the locking rod also interacts directly with the crossbar. The simplified design of the lock also contributes to the compact design of the safety clutch. The increased reliability of the lock against breaking is achieved by the possibility of increasing the size and corresponding strengthening of the protruding part of the bolt in the locked position of the lock due to the geometric shape and type of working movement of the bolt. The groove in the bolt portion protruding from the housing in the locked position of the lock additionally enhances its reliability against breaking due to the engagement of this groove with the counter safety element of the frame.

 In FIG. 1 shows the proposed electromechanical lock in the locked position, General view; in FIG. 2, section AA in FIG. 1.

 The electromechanical lock, in particular a door lock, comprises a housing 1 with side walls 2 arranged parallel to the door and between each other, in the interval between which the bolt 3 is movably mounted to interact in the locked position of the lock with the reciprocal cutout of the doorway frame 4. A manual drive for moving the crossbar 3 is mounted in the housing 1, including an inner 5 and an outer 6 rotary handle mounted on an axis 7 passing through the housing 1 perpendicular to the side walls 2. The manual drive also includes a safety clutch with spring-loaded locking elements 8. In the guide hole of the housing 1 movably mounted spring-loaded towards the crossbar 3 by the spring 9 of the rod 10, blocking the crossbar 3 in the locked position of the lock. In the housing 1 is also mounted an electromagnetic actuator 11 for moving the blocking rod 10, acting under the control of a standard control device (not shown).

 The crossbar 3 is made in the form of a circular sector, which is mounted on the axis 7 of the handles 5 and 6 with the possibility of free rotation relative to it so that under the action of gravity it occupies one of two stable positions, closed or open. The locking elements 8 of the safety clutch are installed between the mating end surfaces of the henna in the axial direction. In the embodiment of FIG. 2 example, they are spring-loaded in the direction of the bolt 3, while the springs 12 are located in the holes made in the inner handle 5, and in the mating end surface of the bolt 3 there are corresponding sockets for the fixing elements 8.

 A ledge 13 or a similar element is made on the peripheral cylindrical surface of the crossbar 3, with which a spring-loaded locking rod 10 connected to the armature 14 of the coil 15 of the electromagnetic actuator 11 interacts in the locked position of the lock 11. In the part of the crossbar 3 protruding from the housing 1 in the locked position of the lock, a groove 16 or a similar element can be made for interacting with the mating safety element of the frame 4, which can be used as the edge of the mating cutout of the frame 4 (see Fig. 1).

 Electromechanical lock operates as follows.

 In the locked position of the lock, the bolt 3 protrudes from the housing 1 and enters the reciprocal cutout of the frame 4, while catching with its groove 16 (if any) the safety element, in this example, the edge of the reciprocal cutout of the frame 4. At the same time, the locking rod 10 under the action of the spring 9 is in the position of interaction with the step 13 of the crossbar 3 and thereby prevents the rotation of the latter in the direction of recession.

 To unlock the lock on the coil 15 of the electromagnetic actuator 11 serves for a predetermined interval of time a supply voltage; this function is performed by a control device receiving a control pulse, for example, from a known type-setting code device (not shown). To unlock the lock from the inside of the room, the well-known push-button power switch for the coil 15 or the mechanical drive for moving the blocking rod 10 can be applied. After the electromagnetic drive 11 is activated, the armature 14 of the coil 15 is retracted and the locking rod 10 connected to it is sunk out of engagement with the step 13 and releasing the deadbolt 3. Now it is rotated together with the axis 7 with the help of one of the handles 5 or 6 in the recessed position corresponding to the open position of the lock. In this case, the locking rod 10, after the power supply to the coil 15 is cut off, slides along the peripheral cylindrical surface of the bolt 3, being pressed by the spring 9. The torque applied by the handle to the handle 5 or 6 is transmitted to the bolt 3 through the fixing elements 8 of the safety clutch. The limiting value of this moment is determined by the choice of the working force of the springs 12. If this value is exceeded, for example, when trying to open a locked lock with a locked bolt 3, the locking elements 8 are sunk as a result of interaction with the slots under them in the end surface of the bolt 3, while compressing the springs 12 , and the handle 5 or 6 rotates with the axis 7 relative to the locked bolt 3.

 To lock the lock, simply use the handle 5 or 6 to turn the bolt 3 in the locked position. In this case, the crossbar 3 goes beyond the limits of the housing 1 and enters the reciprocal cutout of the frame 4, catching with a groove 16 with the edge of the reciprocal cutout of the frame 4. When the crossbar 3 reaches its fully locked position, the blocking rod 10 blocks the crossbar 3 under the action of the spring 9, interacting with its ledge 13 and thereby obstructing the reverse rotation to the recessed position.

 The proposed electromechanical lock can be used as a door, garage, safe, etc.

Claims (2)

 1. ELECTROMECHANICAL LOCK, comprising a housing with side walls, between which a deadbolt is movably mounted for interaction in the locked position of the lock with a reciprocal cutout of the frame, a manual drive for moving the deadbolt, including internal and external rotary handles fixed to an axis passing through the housing, and a safety clutch with spring-loaded locking elements, a spring-loaded rod movably mounted in the housing, blocking the bolt in the locked position of the lock, and an electromagnetic drive for moving the locking block and a control device, characterized in that the bolt is designed as a circular sector and is mounted on the handle axis with the possibility of free rotation relative thereto, and the locking members of the overload clutch installed between the mating end faces of the pins and the internal handle and biased in the axial direction.  2. The lock according to claim 1, characterized in that in the part of the deadbolt protruding from the lock in its locked position, a groove is made for interaction with the counter safety element of the frame.

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