RU2078890C1 - Lock - Google Patents

Abstract

FIELD: codes forming systems. SUBSTANCE: lock made in the form of rim lock or integral lock is mounted on door of guarded premises and is distinguished for increased reliability of interlock. Lock design excludes unauthorized selection of key or damage of key hole. Lock has body, hasp, hasp control member, fixer and fixer control mean. Hasp control member is made in the form of pusher mounted with capability of reciprocation in parallel to hasp. Pusher has tail-end kinematically linked with hasp. Fixer and fixer control mean are located on inner surface of door so, that fixer is capable to be engaged with tail-end and to ensure its fixation in locked position of lock. From the outside in door there is hole facing pusher. EFFECT: increased reliability of interlock. 4 cl, 3 dwg

Description

 The invention relates to security equipment, in particular to locking devices, and can be used in code-forming systems.

 A device is known that includes a housing, a bolt, a bolt control, a latch and a latch control. However, this lock presented has an unnecessarily complicated bolt fixation system. In addition, the bolt control element in the form of, for example, a cylinder mechanism is easily susceptible and needs a key as a code carrier, while the degree of secrecy of known electronic-code devices makes it possible to abandon such mechanisms.

 The technical result of the invention is to simplify the design and increase the reliability of locking the lock, which is achieved by using a pusher as a control element mounted with the possibility of reciprocating movement parallel to the bolt. The pusher is equipped with a shank kinematically connected with the crossbar. The latch is mounted on the inner surface of the door with the possibility of interaction with the shank and ensuring its fixation in the closed position of the lock. A latch control means, such as an electromagnet, is also located on the inner surface of the door. The inputs of the electromagnet are connected to a power source, and the core is connected to a latch. Outside, a hole is made in the door facing the pusher. To reduce the required power of the electromagnet, the latch is made in the form of a rod and installed with the possibility of reciprocating movement in the vertical direction. The latch is connected to the core of the electromagnet through a link made of non-magnetic material, which eliminates the magnetic sticking of the latch. The fixing process is provided by the weight of the latch and the elements attached to it.

In FIG. 1 shows a cross section of the castle in a horizontal plane; in FIG. 2
section by plane AA in FIG. one; in FIG. 3 is a section by plane BB in FIG. one.

 The lock consists of a housing 1 mounted on a door 2, a bolt 3, a pusher 4 with a shank 5 connected to the bolt 3 by means of a finger 6. The latch 7 is mounted vertically in the holes of the bracket 8 and connected to the core 9 of the electromagnet 10 by a link 11 made of non-magnetic material and being simultaneously the limiter stroke of the latch 7. The electromagnet 10 inputs 12 is connected to a power source. The hole 13 of the sleeve 14 faces the pusher 4, on the surface of which the holes are made 15. The shank 5 has an opening 16 for fixing the open position of the lock and is connected to the pusher 4 by means of a shear pin 17.

 The castle operates as follows.

 In the initial state (position I), the latch 7 is lowered and blocks the shank 5 and the associated bolt 3. When applying to the inputs 12 of the electromagnet 10 a power supply, for example, by means of an electronic coding device, the latch 7 moves to the upper position, freeing up the gap in the bracket 8 Through the hole 13 with a pointed rod using the holes 15, the pusher 4 and the crossbar 3 connected with it are shifted to position II corresponding to the open lock. When the power is off, position II is locked by the latch 7 through the hole 16 in the shank 5. Closing the lock is done by pushing the pusher 4 in the opposite direction, having previously lifted the latch 7. From the inside, the bolt 3 is manually controlled by the shank 5. Trying to open the lock without releasing the lock by acting on the pusher 4 excessive force leads to the cutting of the pin 17 and the disconnection of the pusher 4 with the bolt 3. In this case, as with the jamming of the pusher 4, the lock is opened using a special emergency device and (not shown), and lock the door and do not receive additional damage.

 Currently, a prototype of the proposed castle has been manufactured and tested.

Claims (4)

 1. The lock containing located in the housing with the possibility of reciprocating movement of the bolt, the bolt control element, the latch and the control tool of the latch, characterized in that the bolt control element is made in the form of a reciprocating move parallel to the bolt of the pusher equipped with a shank, kinematically connected with the bolt, and the latch and control means of the latch are located on the inner surface of the door with the possibility of interaction of the latch with xv the ostovik and ensuring its fixation in the closed position of the lock, and on the outside in the door a hole is made facing the pusher.  2. The lock according to claim 1, characterized in that the latch is made in the form of a rod mounted with the possibility of reciprocating movement in the vertical direction associated with the latch control means.  3. The castle in paragraphs. 1 and 2, characterized in that the control means of the latch is an electromagnet, the inputs of which are connected to the power source, and the core is connected to the latch.  4. The lock according to claim 3, characterized in that the connection of the core with the lock is made by means of a link of non-magnetic material to prevent magnetic sticking.

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