RU2156343C1 - Door lock without key hole - Google Patents

Abstract

FIELD: locks. SUBSTANCE: the door lock without a key hole has a secret mechanism provided with a housing accommodating a spring-loaded yoke for its longitudinal movement, matrix with inserts and yoke, blocking members made in the form of balls, socket wrench with orienting magnets conjugate to the yoke end surface, and a locking member. Recesses in the inserts for the blocking balls have a size exceeding a half of their diameter and are provided with flexible members, and grooves and bosses corresponding to them are made on the yoke end surfaces around the edges. EFFECT: enhanced resistance to burglary. 5 dwg

Description

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

 Known magnetic magnetomechanical lock [RU 2117128 C1, 03/31/97], containing a secret mechanism with a housing with an annular groove and a groove for installing a key, a rotatable holder with blind holes placed therein, a matrix with inserts installed in the holder, a socket wrench with orienting magnets, having a kinematic connection with the end surface of the holder, a locking member. The clip of the secret mechanism is spring-loaded and has the possibility of longitudinal movement, magnetically sensitive blocking elements are made in the form of balls and are installed in cylindrical cavities formed by the bases of the blind holes of the clip and the ends with recesses of the matrix inserts, at least one of which is eccentric, the socket wrench with orienting magnets is spring-loaded and has the ability to autonomously rotate.

The well-known lock has a number of disadvantages, which to a certain extent reduces its reliability, tamper resistance and other consumer properties. The main ones are:
- a small amount of recesses in the inserts of the matrix for blocking ball elements (not more than half of their diameters, since otherwise the balls can remain in the inserts during locking / unlocking the lock and thereby lead to its unauthorized opening) deliberately reduces the working stroke of the clip of the secret mechanism , leads, on the one hand, to toughening the design requirements for parts and components of the secret mechanism, its articulation with a locking body and thereby increase the cost of the lock, and on the other hand, a sharp decrease in resistance ty to the lock opening. An increase in the diameter of the blocking balls will lead to a decrease in their number (for given dimensions of the secret mechanism) and to a decrease in the security of the code, a sharp increase in the dimensions and energy consumption of the orienting magnets of the socket wrench and, accordingly, the cost of the lock;
- the lack of the possibility of forcibly pushing the blocking balls out of the recesses in the matrix inserts during the locking / unlocking process of the lock requires in order to prevent its unauthorized opening of the exact vertical installation of the front part of the secret mechanism;
- the presence of recesses and protrusions on the end parts of the key and the holder of the secret mechanism to ensure their rigid mechanical articulation during the locking / unlocking of the lock leads to a decrease in the reliability of its operation and resistance to opening.

 The technical result achieved in the present invention is to increase the reliability and resistance of the lock to breaking. This is ensured by the fact that in the door lock proposed by the authors without a key hole containing a locking member, a secret mechanism with a housing, a spring-loaded, longitudinally movable, rotary holder and a matrix with inserts, a socket key with orienting magnets, having kinematic connection with the end surface of the cage, in contrast to the known lock recesses in the liners for blocking balls, are made to a value of more than half their diameter and are equipped with elastic elements, and the end parts clips secret key mechanism and instead protrusions / depressions have corresponding grooves and projections on the periphery to ensure reliable communication key and the holder when unlocking / locking the lock.

 In FIG. 1 shows a secret mechanism of a door lock without a key hole in a locked state, FIG. 2 is a view of the secretion mechanism along arrow A, in FIG. 3 - magnetic key, in FIG. 4 is a view along arrow B of a magnetic key; FIG. 5 - secret mechanism in the open state after connecting it with a magnetic key.

 The secret mechanism (Fig. 1) of the lock consists of a housing 1 in which a rotary holder 2 and a matrix 3 with inserts 4 are placed. At the end of each insert 4 there is a hole 5 with an elastic element (for example, a spring) 6 placed in it, and at least in at least one insert it is axial. The matrix 3 is connected with the locking element of the lock 7 and can be rotated around the axis for unlocking / locking. The rotary holder 2 has the ability to rotate around the axis and move along it between the edges 8 of the housing 1 and the matrix 3. Between the rear part of the end surface of the rotary holder 2 and the ends of the liners 4 there are blocking elements 9 (passive media carriers in the form of magnetically sensitive balls), which form a gap 10, not allowing the rotary holder 2 to enter into a connection with the matrix 3.

 On the periphery of the front part of the end surface of the rotary holder 2 (Fig. 2), protrusions 11 are made, which are included in the slots 12 on the flange 8 of the housing 1, thereby blocking the rotation of the holder 2. In the protrusions 11, grooves 13 of different widths are made for connection with the corresponding protrusions of the key.

 The key (Fig. 3) consists of a housing 14, in which the orienting magnets 15 are placed in accordance with the location of the holes 5 in the liners 4 of the secret mechanism. On the periphery of the end face of the key body 14 (Fig. 4), there are protrusions 16 corresponding to the width of the grooves 13 of the holder 2, which together with these grooves provide the connection of the end surfaces of the key and the rotary holder in the only possible way.

 In FIG. 5 shows the interaction of the parts of the lock during unlocking. In the locked position, the rotary holder 2 by the protrusions 11 is fixed against rotation in the slots 12 of the housing 1, and its longitudinal movement is prevented by the locking balls 9 located in the gap 10. To unlock the key, the key is tightly attached to the end surface of the rotary holder 2 so that its protrusions 16 entered the grooves 13 of the holder 2. In this case, the locking balls 9 under the action of the orienting magnets 15 are installed opposite the corresponding holes 5 of the inserts 4. When you press the key, the gap 10 is selected, the rotary holder 2 moves along l axis and enters into a rigid connection with the matrix 3. At the same time, the protrusions 11 of the rotary holder come out of the grooves 13 of the housing 1, allowing rotation of the holder 2. When the key is rotated, the holder 2 is rotated together with the matrix 3, and the lock 7 is unlocked. After disconnecting the socket wrench from the rotary holder 2, the protrusions 16 exit the grooves 13, the spring-loaded rotary holder 2 returns to its original position, the locking balls 9 are pushed out of the holes 5 by the elastic element 6 and form a gap 10, occupying a position determined by the force of gravity. Locking with a socket wrench occurs in the same sequence, except for the direction of its rotation.

 In the case of using a key with a code different from the lock code, at least one blocking ball 9 will remain between the rotary holder 2 and the insert 4, maintaining the gap 10 and thereby preventing the lock from being opened.

 The code is changed, for example, by turning the inserts 4 with axial holes 5 in the secret mechanism and a corresponding change in the location of the orienting magnets 15 in the housing 14 of the socket wrench.

Claims (1)

 A door lock without a key hole, containing a secret mechanism, having a body, a spring-loaded clip placed in it with the possibility of its longitudinal movement, a matrix with inserts and a clip, blocking elements made in the form of balls, a socket key with orienting magnets, mating with the end surface of the clip and locking member, characterized in that the recesses in the liners for the locking balls are made to a value of more than half of the diameter and are equipped with elastic elements, and on the end surfaces of the cage and key and on the periphery are made grooves and ridges corresponding to them.

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