RU2253724C2 - Secrecy mechanism for high-reliability lock with increased resistance to breaking-in - Google Patents

Abstract

FIELD: locks, particularly for operating or controlling locks or other fastening devices by electric or magnetic means.

SUBSTANCE: secrecy mechanism comprises case with key groove. Spring-loaded blocker, shaft with arm and tang for lock mechanism operation and key with constant magnets are arranged in the case. Spring-loaded blocker has matrix with blind holes adapted for arranging blocking members. Blocking members are made of m-metal and formed as balls or bodies of revolution with parallel or inclined generating lines. Groove for key insertion is through and located transversely to shaft axis. Shaft carries eccentric member kinematically connected to blocker. Matrixes have blind longitudinal cavities and coded channels extending from the cavities. Coded channels are provided with blocking member pushers rigidly connected to blockers. Constant magnets of the keys are coaxial with coded matrix channels and the case has spring-loaded key fixer. Keys include orifice for receiving fixer.

EFFECT: increased resistance to breaking-in.

4 dwg

Description

The invention relates to locking technology and is intended for use in residential and public buildings, vehicles.

A number of door locks are known without a key hole (patents RU No. 2101449 C1, RU No. 2117128 C1) with a secret mechanism with free locking elements, in which the latter are made in the form of magnetically sensitive balls and move freely in the corresponding cylindrical cavities.

The closest in technical essence to the claimed technical solution (prototype) is a door lock (patent RU No.2002931 C1, E 05 B 47/00). The lock contains a housing with a borehole and a keyway, located in the housing coaxially with a blind cylindrical guide nests made perpendicular to the keyway, and a spring-loaded panel mounted with axial movement and carrying pistons with holes on the free ends, magnetically sensitive delays made in in the form of balls made of magnetically sensitive material and arranged in one cage in each socket with the possibility of placement in the piston holes, a means for controlling the locking device tion, comprising a shaft with a protrusion associated with the shank by means of a locking device and spring-loaded by a cam plate, and the key to the control magnetic blocks and installed in them in order seven magnets to magnetically interact with delays. The holder sockets are filled with an inviscid anticorrosive and non-magnetic fluid that does not freeze at low temperatures. The keyway is located under the nests and is made in the form of a slit with a slope towards the well, and the pistons are equipped with compensation slots for the transition of fluid. At least one of the sockets is provided with one or more additional delays. The magnetic blocks of the key contain additional magnets for interaction with the corresponding additional magnetically sensitive delays. Pistons in the seats are made with an appropriate number of holes for magnetically sensitive delays. The spring-loaded panel has profiled positional openings, and the ends of the pistons connected to the panel are made with corresponding positional faces that can be aligned with the panel openings, while the magnetic key blocks are installed with the possibility of discrete rotation. The lock is equipped with spring-loaded pins located in the holes of the cage for interaction with the movable panel and the key, and the key is made with holes opposite the pins.

The disadvantages of the mechanism of the secret of the prototype are the design complexity, low reliability and resistance to hacking.

The technical result achieved in the invention is to eliminate the disadvantages of the prototype.

This is ensured by the fact that the secret mechanism of the lock of increased resistance to hacking and operational reliability proposed by the authors contains a housing with a turnkey groove, a spring-loaded lock with a matrix located in the housing, in the blind cavities of which are installed blocking elements made of magnetically soft material in the form of balls or bodies of revolution, which form parallel or tilted at a certain angle, the shaft with a handle and a shank for controlling the locking mechanism and a key with permanent magnets, characterized in that the keyway is through and through rminal to the axis of the shaft, the shaft carries an eccentric kinematically connected with the blocker, the matrix is made with blind longitudinal cavities and code channels emanating from them along the normal, equipped with ejectors of blocking elements rigidly connected to the blocker, the permanent magnets in the key are aligned with the code channels of the matrix, housing It has a spring-loaded key lock, and the key has a hole for the lock.

Figure 1 shows a General view of the secret mechanism of the lock increased resistance to hacking and reliability with a flat magnetic key inserted into the groove of the case; figure 2 is a General view of the mechanism of the secret lock of increased resistance to breaking and reliability from the shaft with the eccentric in the closed position; figure 3 is a flat magnetic key; figure 4 is a General view of the secret mechanism of the lock increased resistance to breaking and reliability from the shaft with the clown in the open position.

The design of the secret mechanism of the lock of increased resistance to hacking and operational reliability is illustrated in FIGS. 1-4 and includes a housing 1 with a groove 2 for a flat magnetic key 3, housed in the housing 1 spring-loaded spring 4 lock 5 with a matrix 6. In blind longitudinal cavities 7 are installed blocking elements 8 of soft magnetic material (for example, in the form of balls). The shaft 9 with the handle 10 and the shank 11 are used to control the locking mechanism (not shown in the drawings). The groove 2 is through and normal to the axis of the shaft 9. The shaft 9 carries an eccentric 12 kinematically connected to the blocker 5. The blind longitudinal cavities 7 are connected in accordance with the code of the flat magnetic key 3 along the normal to the code channels 13, which are equipped with ejectors rigidly connected to the blocker 5 14 blocking elements 8. Permanent magnets 15 in a flat magnetic key 3 are installed in accordance with its code and at the same time coaxial with the code channels 13 of the matrix 6. The body 1 of the secret mechanism has a spring 17 lock 17 of the key 3, and Lednov - opening 18 under it (17).

The secret mechanism of the lock of increased resistance to hacking and reliability can be in one of two positions: locked or free. In the locked position, the locking elements 8 are under the influence of gravity in the lower part of the longitudinal blind cavities 7 of the matrix 6. In this state, the blocker 5 eliminates the rotation of the handle 10 of the shaft 9 with the eccentric 12, and thereby open the lock.

In the free position, the secret mechanism is translated using a flat magnetic key 3. When the key 3 is inserted into the groove 2 of the housing 1, its permanent magnets 15, set in accordance with the code, sequentially interact with the blocking elements 8. As a result of this interaction, the blocking elements 8 move to the code position: opposite the code channels 13 of the matrix 6. In this case, the final position of the key 3 in the groove 2 is fixed with the spring 17 of the lock 17 and the hole 18 on it (3). Rotating the handle 10, the eccentric 12 of the shaft 9 acts on the spring 5, the lock 5, as a result of which the locking elements 8 move along the code channels 13 and at the same time the locking mechanism opens through the shank 11.

In the free position, the secret mechanism is translated by rotating the handle 10 with the subsequent removal of the flat magnetic key 3 from the groove 2 of the housing 1. In this case, due to the eccentric 12, under the action of the spring 4, the blocker 5, the ejectors 14 and the blocking elements 8 are moved in the opposite direction, until the latter take up the initial position in the lower part of the longitudinal blind cavities 7 of the matrix 6.

Claims (1)

The mechanism of the secret of the lock of increased resistance to breaking and reliability of operation, comprising a housing with a turnkey groove, a spring-loaded lock with a matrix located in the housing, in the hollow cavities of which are installed blocking elements made of magnetically soft material in the form of balls or bodies of revolution, the forming of which are parallel or inclined at some angle , a shaft with a handle and a shank for controlling the locking mechanism and a key with permanent magnets, characterized in that the keyway is made through and normal to the shaft axis, the shaft carries an eccentric the trick kinematically connected with the blocker, the matrix is made with blind longitudinal cavities and code channels emanating from them along the normal, equipped with ejectors of blocking elements rigidly connected to the blocker, the permanent magnets in the key are aligned with the code channels of the matrix, the housing has a spring-loaded key lock, and the key - hole for the retainer.

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