RU2492305C1 - Magnet-controlled cylinder mechanism - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: device for lock control comprises a body with a base, a sleeve of a magnetically permeable material installed in the body, inside of which there is a secrecy mechanism, made in the form of a spring-loaded rotor, a leash arranged in the rotor slot, serving for connection with the lock, and locking elements, differing by the fact that in order to expand the functional capabilities of the device it is equipped with an additional spring, the leash is made in the form of a plate arranged in the slot as capable of axial displacement, and the additional spring is placed between the rotor and the leash, and is also equipped with a cam, in which there is a dead hole at the side, which is opposite to the leash, and at the side of the leash there is a slot for its placement, a handle with a ledge is installed in the base as capable of rotation and axial displacement, and the handle ledge is located in the cam slot.

EFFECT: provision of the possibility to control a lock at both sides of a door.

9 dwg

Description

The invention relates to locking technology and is intended for use with door locks of residential, public buildings and vehicles [E05B 9/06, E05B 15/02, E05B 63/14, E05C 9/04].

Known magnetically controlled privacy mechanism (patent RU No. 2339780), the blocking elements in which are made in the form of magnetically sensitive balls, and move under the influence of a magnetic field. The disadvantages of such a device include its lack of protection against criminal hacking.

The closest in technical essence to the claimed technical solution (prototype) is a magnetically controlled lock secret mechanism with a radial key (patent RU No. 22253727), consisting of a housing with a base, a rotary head mounted on the outside of the housing, a glass of magnetically permeable material placed inside the housing, inside which secrecy mechanism is located, made in the form of a spring-loaded rotor, a control rod, which serves to communicate with the lock, and blocking elements.

The disadvantage of this device is that this solution has limited functions, namely, the control of the lock is possible only on one side of the door.

The technical result is the ability to control the lock on both sides of the door.

The specified technical result is achieved due to the fact that the device for controlling the lock, consisting of a housing with a base placed in the housing with a glass of magnetically permeable material, inside of which there is a secrecy mechanism made in the form of a spring-loaded rotor, a leash located in the groove of the rotor used for communication with a lock and locking elements, characterized in that in order to expand the functionality of the device it is equipped with an additional spring, the leash is made in the form of a plate, located axially displaced in the groove, and an additional spring is placed between the rotor and the leash, and is also equipped with a cam in which a blind hole is made from the side opposite the leash, and from the leash side there is a groove for its placement, a handle with a protrusion is located at the base with the possibility of rotation and axial movement, and the protrusion of the handle is located in the groove of the cam.

The invention is illustrated by drawings.

Figure 1 shows a cross section of a magnetically controlled cylinder mechanism.

Figure 2 is a section aa in figure 1.

Figure 3 is a section bB in figure 1.

Figure 4 is a section bb in figure 1.

Figure 5 is a cross section GG in figure 4.

6 is a magnetic key.

In Fig.7 is a section DD in Fig.6.

On Fig - the position of the cylinder parts when opening the key lock outside the room.

In Fig.9 - the position of the parts when opening the lock from the inside of the room.

The implementation of the invention

The mechanism consists of a head 1, mounted on the housing 2 by means of a ring 3. Inside the housing 1, a cup 4 is installed, inside of which a rotor 5 enters. The rotor 5 rests on a base 6 fixed in the housing 2 by means of a ring 7. There is a ridge 8 on the rotor, which goes into the cavity 9 of the base. On the opposite side ledge on the rotor 5 are fingers 10, which enter the chambers 11 of the glass 4.

In the chambers 11 between the ends of the protrusions 8 of the rotor 5 are placed balls 12 of soft magnetic metal. In the fingers 10 of the rotor, recesses 13 are made, in which balls 12 can entirely fit.

Between the cup 4 and the rotor 5 is placed a spring 14, with which the necessary clearance is created between the bottom of the chambers 11 and the ends of the fingers 10 for free movement of the balls 12.

A hole is made in the shank of the rotor, in which a spring 15 is placed, which abuts against the leash 16 located in the slot of the shank. The leash 16 enters the slot 17 of the cam 18 and serves to connect the rotor with the cam when opening / closing the lock from the outside. The cam 18 is placed in the slot 19 of the base 6. A blind hole is made in the cam, a handle 20 enters into it, the axial movement of which is limited by a spring washer 21. To turn the cam 18 when opening / closing the lock from the inside, the protrusion 22 of the handle 20 is used.

To facilitate the installation of the head 1 in a position in which you can enter the key between the body 2 and the head 1, a latch of ball 23 and spring 24 is installed.

The magnetic key 25 is made in the form of a plate, inside which the permanent magnets 26 are located. The arrangement of the magnets corresponds to the location of the holes 13 of the rotor 5. To fix the key inside the head when turning it on the surface of the key, an arcuate groove 27 is made.

The cylinder mechanism can be in one of two states - closed or open. In the closed state, the balls 12 are in the lower part of the chambers 11 in the gap between the inner surface of the bottom of the glass 4 and the ends of the fingers 10 and do not allow the rotor to move along the axis. In this case, the kinematic connection of the rotor 4 with the cylinder 6 through the ridge 8 and the cavity 9 eliminates the rotation of the rotor and, therefore, the opening of the mechanism.

In the open position, the cylinder mechanism is translated using a magnetic key 25, which must be inserted from below into the slot of the head 1. Balls 12 under the action of the magnetic field of magnets 26 rise and occupy the positions determined by the key code, opposite the recesses 13. When the key 25 is rotated together with the head, it the cup 5 rotates, the cup 5, in turn, rotates the rotor 4 by the fingers 10, and the kinematic connection of the rotor 4 with the base 6 provides the rotor 4 to move along the axis, which is not prevented by the balls 12. When the rotor 4 is rotated, its x ostovik actuates connected thereto a leash 16 and the cam 18, which moves the bolt lock.

When the key 25 returns to its original position, the spring 14 moves the rotor 4 to its stop on the base 6, while the magnetic field of the magnets 26 continues to hold the balls 12 on the inner surface of the chambers 11. When the key is disconnected, the balls fall down by gravity, blocking the movement of the rotor, thereby translating the mechanism into a closed state.

To open / close the lock from the inside of the room, press the handle 20 and turn it. In this case, the protrusion 22 will push the leash 16 out of the slot 17 of the cam 18 and will be able to rotate it. After turning a full turn and stopping pressure on the handle, the leash 16, under the influence of the spring 15, pushes the protrusion 22 of the handle out of the cam slot and takes its place.

Claims (1)

A device for controlling a lock, consisting of a housing with a base housed in a housing made of a magnetically permeable material, inside of which there is a secrecy mechanism made in the form of a spring-loaded rotor, a leash located in the groove of the rotor used to communicate with the lock, and blocking elements, characterized in that it is equipped with an additional spring, the leash is made in the form of a plate located in the groove with the possibility of axial movement, and the additional spring is placed between the rotor and the leash, as well as It is fitted with a cam, in which a blind hole is made on the side opposite the leash, and a groove is made on the side of the leash for its placement, a handle with a protrusion is located at the base with the possibility of rotation and axial movement, and the protrusion of the handle is located in the groove of the cam.

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