RU2339780C1 - Magnetically-operated secrecy mechanism - Google Patents

Abstract

FIELD: construction industry.

SUBSTANCE: magnetically-operated secrecy mechanism refers to locking devices and is intended for using in doors of private houses and public buildings, transport vehicles as well as in other devices. Magnetically operated secrecy mechanism includes flange with hole provided in front edge in the form of geometric figure which is unsymmetrical in relation to one axis, shell with bottom made from magnetic permeable material, and rotor with pins entering chambers at shell bottom with locking elements made from soft magnetic material in the form of balls, are arranged in the casing coaxially, torque wrench with orienting magnets, which mates the shell, which in its turn is supported by support rigidly fixed in flange and does not move along axis. Rotor kinematically connected with the support ensures its rotation only after locking elements are positioned opposite to rotor pin slots under effect of key orienting magnets and will not interfere with its shift along axis. Key turns the shell with latches provided thereon and loosened for the purpose of impossibility to break open the lock.

EFFECT: improving resistance of secrecy mechanism to breaking open.

5 dwg

Description

The invention relates to locking technology and is intended for use in locks, as well as in other devices in which a controlled movement of the actuating element is necessary.

Magnetically controlled privacy mechanisms include those in which the movement of the blocking elements occurs under the influence of a magnetic field. A number of door locks are known with a magnetically controlled privacy mechanism (patents RU No. 2101449 C1, RU No. 2117128 C1), the locking elements of which are made in the form of magnetically sensitive balls, each of which is in its own cavity.

The closest in technical essence to the claimed technical solution (prototype) is a magnetically controlled lock secret mechanism (patent RU No. 2244087 C1), consisting of a housing housed in a casing with a bottom made of magnetically permeable material, blocking elements made in the form of balls of soft magnetic material and placed in the chambers on the inner side of the bottom, liners with recesses for balls entering the chambers, a clip that rests on a support fixed in the housing and does not move along the axis when on the secreting mechanism of the secret, the liners are made in the form of fingers mounted inside the cage of the rotor, pressed against the end of the support by a spring, on the rotor there is at least one protrusion that enters the groove with beveled walls on the support and a shank for communication with the locking mechanism of the lock, for rotation the holder is a socket wrench with orienting magnets, which is tightly attached to the outer surface of the bottom of the clip of the secret mechanism so that the protrusion of the key is placed between the ends of the open spring ring, and the opening / akryvanie lock occurs when the rotor is rotated, kinematically connected with a holder.

The disadvantage of the secret mechanism of the prototype is that under the action of the key when trying to rotate the cage, the ends of the open spring ring diverge and the ring wedges in the housing, preventing the lock from opening / closing normally.

The technical result achieved in the proposed invention is to eliminate the disadvantages of the prototype, simplifying the design and increasing the resistance of the secretion mechanism to opening.

This is ensured by the fact that the magnetically controlled privacy mechanism proposed by the authors comprises a flange with a window in the front end in the form of a geometric figure asymmetrical with respect to one axis, a glass with a bottom made of magnetically permeable material coaxially placed in the case, and a rotor with fingers entering the chambers at the bottom of the glass with them with blocking elements of soft magnetic material in the form of balls, a socket wrench with orienting magnets, mating with a glass that rests on a fixed the flange supports and does not move along the axis, and the kinematic connection of the rotor with the support ensures its rotation only after the blocking elements under the action of the orienting magnets of the key take places opposite the recesses in the fingers of the rotor and will not prevent it from moving along the axis, differs in that the key turns the glass for the hooks made on it, weakened with the aim of the impossibility of unauthorized opening of the lock.

Figure 1 shows a front view of the magnetically controlled cylinder mechanism; figure 2 is a section aa in figure 1, where the cylinder mechanism is in the closed position; figure 3 is a section bB in figure 2, figure 4 is a cylinder mechanism with a key attached to it; figure 5 - cylinder mechanism in the open position.

The magnetically controlled cylinder secrecy mechanism consists of a flange 1, to which a support 2 is rigidly connected, which also serves to connect with a lock or other device, a flange 3 with a bottom made of magnetically permeable material is placed in the flange. At the bottom there are chambers 4, in which the fingers 5 of the rotor 6 enter. Inside the chambers 4 there are blocking elements 7 of soft magnetic material, for example, in the form of balls. At the ends of the fingers 5, recesses 8 are made for the blocking elements 7. The location of the recesses 8, one per finger, is set by the security mechanism code.

The flange 1 of the secrecy mechanism has a window 9 in the form of a geometric figure asymmetrical with respect to one axis for unambiguous orientation of the socket key 10 applied to the outer surface of the bottom of the cup 3. There are hooks 11 for connecting to the key 10 on the cup 3.

In the support 2, on which the glass 3 rests, a groove 12 is made, into which the wedge-shaped ridge 13 of the rotor 6 fits tightly. The shank 14 of the rotor 6 is used to connect to devices that control the movements of the lock actuator or other device to which the secrecy mechanism is connected.

To return the rotor 6 to its original position, a spring 15 is used, located between the cup 3 and the rotor 6.

In the key 10, in accordance with the code of the secrecy mechanism, orienting permanent magnets 16 are placed, which interact through the magnetically permeable bottom of the glass 3 with the blocking elements 7.

The secrecy mechanism can be in one of two states - closed or open. In the closed state, the locking elements 7 are located in the lower part of the chambers 4, in the gap between the inner surface of the bottom of the glass 3 and the ends of the fingers 5, and do not allow the rotor 6 to move along the axis. In this case, the kinematic connection of the rotor 6 with the support 2 through the ridge 13 and the groove 12 eliminates the rotation of the rotor 6 and, therefore, the opening of the mechanism.

In the open position, the secrecy mechanism is translated using the socket key 10, the base of which has a plan shape that repeats the shape of the window 9. The key 10 with the orientation magnets 16 installed in it is tightly attached to the outer surface of the bottom of the glass 3. Blocking elements 7 under the influence of the magnetic field of the magnets 16 rise and occupy the positions determined by the key code, opposite the recesses 8. When turning the key 10, he turns the glass 3 by the hooks 11, the glass 3, in turn, turns the rotor 6 by the fingers 5, and the kinematic the ide of the rotor 6 with the support 2 provides movement of the rotor 6 along the axis and prevents the ridge 13 from leaving the groove 12, which is not prevented by the blocking elements 7. When the rotor 6 is rotated, its shank 14 drives the devices connected to it. When the key 10 and the associated cup 3 and the shank 14 of the rotor 6 are returned to their original position, the spring 15 moves the rotor 6, the ridge 13 again enters the groove 12, while the magnetic field of the magnets 16 continues to hold the locking elements 7 on the inner surface of the chambers 4. When when the key 10 is disconnected, the locking elements 7 under the influence of gravity fall down, blocking the movement of the rotor 6, thereby translating the privacy mechanism into a closed state.

In order to protect the lock from unauthorized opening (breaking) by any tool that imitates a key, the hooks 11 are weakened to such an extent that, allowing the mechanism to work in normal mode, break off when trying to force, preventing it from opening the lock or actuating another device connected to it.

Claims (1)

A magnetically controlled privacy mechanism containing a flange with a window in the front end in the form of a geometric figure asymmetrical with respect to one axis, a glass with a bottom made of magnetically permeable material coaxially placed in the flange and a rotor with fingers entering the chambers at the bottom of the glass, with magnetically soft blocking elements inside them material in the form of balls, a socket wrench with orienting magnets, mating with a glass that rests on a support fixed in the flange and does not move along the axis, but The mathematical connection of the rotor with the support ensures its rotation only after the blocking elements under the action of the orienting magnets of the key take places opposite the recesses in the fingers of the rotor and do not prevent it from moving along the axis, characterized in that the key rotates the glass for the hooks made on it, weakened in order to prevent the unauthorized opening of the privacy mechanism.

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