RU2244087C1 - Magnetocontrolled lock secrecy mechanism - Google Patents

Abstract

FIELD: locking equipment, applicable in residential and public buildings, transport facilities.

SUBSTANCE: the blocking members are moved remotely, under the action of magnets located in the key. The lock, in which the secrecy mechanism is used, is opened without an axial movement of the key, and the control tail end of the secrecy mechanism turns together with the rotor, rotated in its turn by the key through a yoke with the aid of a non-closed spring ring located in the yoke groove and turned over at attempts to use a key for opening with an undue code or some other article.

EFFECT: simplified construction and enhanced resistance to opening.

5 dwg

Description

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

Magnetically controlled secretion 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 secret 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 cylindrical cavity.

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 disadvantage of the secret mechanism of the prototype is that under the influence of blows from outside on the cage, the locking elements (balls) miss the ends of the liners, which allows you to move and rotate the cage and, therefore, open the lock. In addition, it is possible to rotate the clip with any tool, as a result of which the secret mechanism will be spoiled, although the lock will remain closed.

The technical result achieved in the present 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 secret mechanism proposed by the author, consisting of a housing placed in a casing with a bottom made of magnetically permeable material, blocking elements made in the form of balls of magnetically soft material and placed in chambers on the inside of the bottom, inserts with recesses under the balls, included in the camera, characterized in that the clip rests on a support fixed in the housing and does not move along the axis during the functioning of the secret mechanism, the inserts are made in the form of fingers in the rotor installed inside the cage, pressed against the end of the support by the spring, there is at least one protrusion on the rotor that enters the groove with beveled walls on the support and a shank for communication with the locking mechanism of the lock; to rotate the cage, there is a key with orienting magnets and a protrusion included in the gap between the ends of the open spring ring, placed in the groove with a flat on the outside of the bottom, and the opening / closing of the lock occurs when the rotor is rotated kinematically connected to the cage.

Thus, strikes on the clip from the outside are not transmitted to the blocking elements (balls), but are perceived as a fixed support.

Figure 1 shows a view of a magnetically controlled secretion mechanism in front; figure 2 - section aa in figure 1 with the closed position of the secretion mechanism; figure 3 is a section bB in figure 2; figure 4 - secret mechanism with a key inserted; figure 5 - secretion mechanism in the open position.

The design of the magnetically controlled secret mechanism includes a housing 1 in which a ferrule 2 is installed with a bottom 3 made of a magnetically permeable material. On the inner side of the bottom of the bottom 3, chambers 4 are made, which include the fingers 5 of the rotor 6 located inside the holder 2. On the outside of the bottom 3 there is a groove 7 with a flat 8, in which an open spring ring 9 is placed. It keeps the clip 2 from axial movement on the one hand, the inner flange 10 of the housing 1, and on the other, the support 11. To control the locking mechanism (not shown), the shank 12 of the rotor 6 passes through the hole 13 of the support 11. In the closed position, the rotor 6 is pressed against the support 11 by a spring 14, while in the gap between the inside enney surface 3 and bottoms ends of fingers 5 of the rotor 6 in the chambers 4 are locking elements 15 of magnetic material, for example in the form of balls. At the ends of the fingers 5, recesses 16 are made, in which the locking elements 15 can completely enter. The recesses 16, one per finger, are located on the periphery or in the center of the ends of the fingers 5. The location of the recesses 16 is determined by the secret mechanism code. From rotation around the axis of the rotor 6 holds at least one protrusion 17 included in the groove 18 with bevels 19 on the support 11 (see figure 3).

To control the secret mechanism, a key 20 is used, the cylindrical part 21 of which enters the hole 22 of the flange 10 of the housing 1. For a correct orientation of the key, a protrusion 23 is made on the cylindrical part 21, which extends into its corresponding groove 24 of the flange 10. The same protrusion 23 interacts with the ends a spring ring 9 when opening / closing the secret mechanism.

Inside the key 20 of non-magnetic material, orienting magnets 24 are arranged in accordance with the code.

The secret mechanism can be in one of two states - closed or open. In the closed state (figure 2), the locking elements 15 are located in the lower part of the chambers 4, in the gap between the inner surface of the bottom 3 and the ends of the fingers 5 of the rotor 6, which is pressed against the support 11 by the spring 14, while the protrusion 17 of the rotor 6 is located inside the groove 18 . In this position, the rotation of the rotor is impossible, since when the rotor 6 is turned, the protrusion 17, interacting with the bevels 19 of the groove 18 of the support 11, will tend to move the rotor 6 in the direction of the bottom 3 of the cage 2, which is blocked by the locking elements 15. The impossibility of turning the rotor 6 with the shank 12 doing impossible to open / close the lock.

In the open position (figure 5), the secret mechanism is translated using the socket key 20 (figure 4), which is tightly attached to the outer surface of the bottom 3 of the holder 2 of the secret mechanism so that the protrusion 23 of the key 20 is placed between the ends of the open spring ring 9. The locking elements 15 under the influence of the magnetic field of the orienting magnets 24 rise in the gap between the inner surface of the bottom 3 and the ends of the fingers 5 and become opposite to the recesses 16. The rotation of the key 20 through the spring ring 9, interacting with the flat 8 to the mouse 3 is transmitted to the rotor 6 through the fingers 5. The rotor 6 as a result of the interaction of the bevels of the protrusion 17 with the bevels 19 of the depression 18 of the support 11 moves towards the bottom 3 and compresses the spring 14, since the locking elements 15 enter the recesses 16 as the rotor 6 is axially moved fingers 5. Together with the rotor 6, the shank 12 also rotates, thereby actuating the lock bolt drive mechanism.

In the process of rotation of the key 20, its protrusion 23 goes under the inner surface of the flange 10 of the housing 1 and does not make it possible to disconnect the key until it returns to its original position.

Upon the return of the key 20 to the initial position, the cage 2 rotates the rotor 6, and the spring 14 moves the rotor until the protrusion 17 enters the cavity 18 of the support 11. At the same time, a gap forms again between the inner surface of the bottom 3 and the ends of the fingers 5. Since the field of magnets 24 continues to hold the locking elements 15 on the inner surface of the bottom 3, the latter exit the recesses 16 of the fingers 5. When the key 20 is disconnected, the locking elements 15 are lowered by gravity, remaining inside the chambers 4. The secret mechanism goes into a closed state.

If you try to unauthorized opening the lock with a key with an improper code or by using any tool on the ends of the spring ring 9, it will rotate in the bore 7 of the holder 2, since the holder 2 is prevented from turning by the fingers 5 of the rotor 6 entering the chambers 4. In this case, the rotor 6 it is kept from turning by the protrusion 17, which enters the cavity 18 of the support 11 and the locking elements 15, which prevent the axial movement of the rotor 6. When the spring ring 9 is returned to its original position, the lock can be opened by applying the corresponding key.

Claims (1)

A magnetically controlled lock secret mechanism, comprising a housing placed in a casing with a bottom made of magnetically permeable material, blocking elements made in the form of balls of magnetically soft material and placed in chambers on the inside of the bottom, liners with recesses for balls entering the chambers, characterized in that the clip rests on a support fixed in the housing and does not move along the axis when the lock is opened / closed, the bushings are made in the form of rotor fingers installed inside the clip and pressed to the end of the support with 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 connecting to the locking mechanism of the lock, to rotate the cage, there is a key with orienting magnets and a protrusion that enters the gap between the ends an open spring ring placed in a groove with a flat on the outside of the bottom, and the opening / closing of the lock occurs when the rotor is rotated kinematically connected to the holder.

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