RU2253727C1 - Magnetic lock secrecy mechanism with radial key - Google Patents

Abstract

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

SUBSTANCE: lock comprises blocking members displaced from remote location under the action of magnets arranged in key. Secrecy mechanism is protected against unauthorized opening by rotary head made of material having hardness and strength enough to increase time of criminal lock breakage resistance up to value exceeding that for high-class resistance to breaking-in governed by standards. Rotary head is secured to body having cylinder with pusher arranged inside thereof. Blocking members may move one by one in gaps between valleys of vertical corrugations formed on inner surface of cylinder bottom and protrusions of corrugations formed on pusher end. Pusher end corrugations are equidistant to that of cylinder. Depressions are formed in pusher end corrugation protrusions and are adapted for blocking member receiving during lock opening. Key with aligning magnets is inserted into rotary head hole from below in radial lock direction and connects with outer side of cylinder bottom.

EFFECT: possibility of lock usage for locking doors in buildings or vehicles, extended capabilities.

15 dwg

Description

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

A number of door locks are known with a magnetically controlled secret mechanism (patents RU No. 2101449 C1, RU No. 2175373 C1), the locking elements of which 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 without a key hole (patent RU No. 2156343 C1). The lock contains a magnetically controlled secret mechanism and includes a housing, 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 a locking member . The recesses in the liners for the blocking elements are made to a value of more than half of their diameter and are equipped with elastic elements, and grooves and corresponding protrusions are made on the end surfaces of the holder and key along the periphery. Opening / closing of the lock occurs when the cage is rotated, which becomes possible when it is axially moved due to the fact that the blocking elements under the action of orienting magnets took places opposite the recesses in the liners.

The disadvantages of the secret mechanism of the prototype is that the end surface of the clip, behind which the locking elements are located, is accessible for criminal opening, and the secret mechanism does not have safety elements that protect the clip from destruction when it is rotated by any tool.

The technical result achieved in the present invention is to eliminate the disadvantage of the prototype and expand operational capabilities.

This is ensured by the fact that the end surface of the cage, made in the form of a glass, is closed by a rotary head made of material, the hardness and strength of which is sufficient to counteract criminal tampering, the rotary head is fixed to the housing and connected to the glass by a spring clip, the locking elements can move one at a time in the gaps between the troughs of the vertically oriented corrugations of the inner surface of the bottom of the glass and the protrusions of the corrugations of the end of the pusher, and the corrugations of the pusher are made equidistant p To the cup holes, in the protrusions of the pusher corrugations, recesses are made to place the locking elements in them when the lock is opened, the key with orienting magnets is inserted radially from below into the groove made in the rotary head, mating with the outside of the bottom of the cup.

Figure 1 shows a view of a magnetically controlled secret mechanism in the closed position without an inserted key; figure 2 is a section aa in figure 1; figure 3 - section bb in figure 2; figure 4 is a section bB in figure 1; in Fig.5 - callout E in Fig.4; in Fig.6 is a section GG in Fig.2; Fig.7 is a section DD in Fig.2; in Fig.8 is a radial key; figure 9 is a view of the key in the direction of the arrow; figure 10 - magnetically controlled secret mechanism with an inserted key; figure 11 is a cross section ZZ in figure 10; in Fig.12 - section FJ in Fig.10; in Fig.13 - magnetically controlled secret mechanism after turning into an open position; on Fig - section KK in Fig.13; on Fig - section II in Fig.13

The design of the magnetically controlled secret mechanism includes a housing 1, closed at one end with a plug 2, and at the other with a glass 3 placed inside it, at the bottom of which 4 vertically oriented corrugations 5 are made from the inside and the bottom 4 is made of magnetically permeable material. The bottom of the glass 3 is closed by a rotary head 6 made of a material whose hardness and strength allows it to resist attempts of criminal tampering for longer than required by regulatory documents for locks of the highest class of resistance to tampering. The rotary head 6 is mounted on the housing 1, for example, by means of a ring 7. Inside the glass 3 there is a pusher 8. At the end of the pusher 8, facing the bottom 4 of the glass 3, there are corrugations 9 arranged equidistantly relative to the corrugations 5. In the closed state of the secretion mechanism between the corrugations of the cup and the pusher there is a gap 10, in the lower part of which blocking elements II are made of soft magnetic metal, for example, in the form of balls, one for each pair of corrugations. The relative position of the corrugations of the cup and the pusher and the size of the gap 12 do not allow the blocking elements 11 to move across the direction of the corrugations.

In each protrusion of the corrugation 9 of the pusher 8, in accordance with the secret code, a recess 13 of the required dimensions is made for the blocking element 11.

The pusher 8 has only one degree of freedom with respect to the cup 3, for example, due to the protrusions 14 that enter the slots 15 of the cup 3. The springs 16 located between the protrusions 14 of the pusher 8 and the bottom 4 of the cup 3 press the pusher 8 against the plug 2.

For axial (longitudinal) movement of the pusher 8 relative to the glass 3 are, for example, balls 17 fixed therein, which interact with the walls of the conical holes 18, made in the plug 2.

To actuate the actuator of the locking mechanism (not shown in the figures) is the control rod 19, movably connected to the pusher 8.

To communicate with the glass 3 in the rotary head 6 is installed spring clip 20.

The secret mechanism is opened with a key 21, which mates with the outside of the bottom 4 of the glass 3. To pass the key 21, a groove 22 is made in the rotary head 6, and a cutout 23 is made in the wall of the housing 1.

The key 21 consists of a code plate 24, in which, in accordance with the code, permanent magnets 25 are installed, closed by covers 26. On the side of the code plate 24 of the key 21, which mates with the bottom 4 of the glass 3, a step 27 is made. The key also has a flag 28 to manipulate the key when unlocking / locking the lock.

Magnetically controlled secret mechanism works as follows. In the closed position of the secret mechanism, the locking elements 11 are located in the lower part of the gap between the corrugations 5 and 10 of the glass 3 and the pusher 8, respectively. When trying to rotate the rotary head 6, the cup 3 connected to it by a spring clip 20 will tend to turn the pusher 8, while the balls 17, interacting with the walls of the holes 18, will, in turn, tend to move the pusher 8 towards the bottom 4 of the cup 3, which is blocked by the elements 11 located in the gap between the corrugations 5 and 10. Therefore, the control rod 19 connected to the pusher 9, will not be able to rotate and actuate the locking mechanism.

To open or close the lock, insert the key 21 into the groove 22 of the rotary head 6, which is opposite the cutout 23 of the housing 1, and push it up. As the key advances, the magnetic field of the orienting magnets 25 will capture the blocking elements 11 located in the gap between the corrugations 5 and 10, and move them up. When the key 21 reaches its highest position, the blocking elements 11, in accordance with the code embedded in the code plate 24, will take places opposite the corresponding recesses 13. Now, when the rotary head 6 is rotated, rotating together with the key 21 and the cup 3, the pusher 8 has the opportunity compressing the springs 16, move along the axis due to the interaction of the balls 17 with the walls of the holes 18. Together with the pusher 8, the control rod 19 is rotated, actuating the locking mechanism.

When turning the key 21, its step 27 enters the housing 1, preventing the key from being removed in intermediate positions.

After the return of the rotary head 6 with the key 21 to the initial position of the spring 16, the pusher 9 will be pressed against the plug 2, the gap between the corrugations of the cup 3 and the pusher 8 will be restored, and the blocking elements 11 under the influence of the magnetic field of the orienting magnets 25 will come out of the holes 13. Now , as the key 21 is pulled down from the rotary head 6, the locking elements 11 will move to the lower position, again occupying the gap between the corrugations of the cup 3 and the pusher 8 in their lower part.

If you try to criminally open the lock with the wrong key or any tool behind the rotary head 8, the spring clip 20 will bend and release the rotary head 6 from communication with the cup 3, as a result of which the rotation of the rotary head 6 will not be transmitted to the cup 3 and, accordingly, will not be able to lead to the opening of the lock.

Claims (1)

Magnetically controlled lock secret mechanism, consisting of a body with a cap, a glass placed in it with a bottom made of magnetically permeable material, inside of which, in turn, a spring-loaded plunger, blocking elements made in the form of balls and located between the bottom of the glass and the plunger are placed with the possibility of longitudinal movement , a key with orienting magnets, mating with the bottom of the glass from the outside, characterized in that the bottom of the glass is closed by a rotary head made of a material whose hardness and strength are sufficient for for counteracting criminal tampering, the rotary head is fixed to the housing and connected to the glass by a spring clip, the locking elements can move one at a time between the troughs of vertically oriented corrugations of the inner surface of the glass bottom and the protrusions of the corrugations of the pusher end, and the corrugations of the pusher are made equidistant to the corrugations of the glass, in the protrusions pusher corrugations are made recesses for placement of locking elements in them when opening the lock, a key with orienting magnets S THE bottom in radial direction into a groove formed in the rotating head, matching with the outside of the cup bottom.

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