RU2409731C1 - Electromechanical lock - Google Patents

Abstract

FIELD: construction. ^ SUBSTANCE: electromechanical lock comprises electric device, locking element and blocking facility. Locking element blocking facility comprises at least one shifted element and at least two coaxially arranged rotary elements, on every of which there is a tooth rim and radial slot. Electric device is arranged in the form of electric motor, on output shaft of which there is a toothed wheel engaged with rotary elements. Toothed wheel engages with rotary elements so that the latter driven by motor, rotating towards each other, provide for match of radial slots with the possibility to displace shifted element inside specified slots, thus providing for unlocking of locking element blocking facility. ^ EFFECT: development of electromechanical lock, simple in operation and maintenance, efficiently preventing unauthorised opening, simplified design and increased reliability of lock. ^ 4 cl, 4 dwg

Description

The invention relates to the class of locking devices, in particular to locks having an electric drive, and can be used for safes, residential, office buildings, as well as for automobile doors.

It is known from the prior art a locking device comprising an electric motor connected to a rotating drive and indexing member having at least one protrusion, at least one drive member configured to be driven by a corresponding protrusion from the drive and indexing member, and means for selectively controlling the electric motor for setting the drive element and indexing into a predetermined position, and thereby for driving the drive element or a selected one of the drive 's elements to perform the necessary steps in the locking device for locking or unlocking and / or complete closing of the door or other closure member (see. WO 98/27301 of 25.06.1998).

A disadvantage of the known technical solution is the large overall dimensions and weight, as well as the complexity in the manufacture, operation and maintenance.

An electromechanical lock is known from RU 2191877 dated 10.27.2002, which comprises an external and an internal handle relative to the lockable object and an external handle and deadbolt locking-unlocking mechanism, which contains two bushings fixed in the housing and the cover, inside which a locking sleeve is installed, which is evenly spaced on the outer surface of the grooves. On the outer surface of the two bushings, two disks are movably mounted, rigidly interconnected by struts, on one of which a locking lever is mounted. One shoulder of the lever is made with a persistent protrusion having the ability to engage with one of the grooves of the locking sleeve, and the other shoulder has the ability to interact with the spring-loaded wheel. The wheel is made with gear sectors and protrusions for the possibility of contact with the locking lever, as well as the fingers located on the end surface of the wheel, for the possibility of interaction with the spring. An axis is fixed on the crossbar, on which a spring-loaded lever with a locking finger fixed to it is movably mounted. The lever is located between the discs having holes in which the locking pin is mounted. One of the disks is made with a persistent protrusion having the ability to contact with the limiter. The inner handle is mounted on a cover plate mounted on the door and is movably fixed to it by means of a flange. A finger is mounted on the flange, which is located eccentrically relative to the axis of rotation of the inner handle and is included in the groove of one of the disks. The external handle is mounted on a cover plate mounted on the door and is movably fixed to it by means of a flange. The flange has a square hole in which a square rod is installed at one end, the other end of which enters the square hole of the locking sleeve and is secured by thrust washers. The design of the lock eliminates the forces transmitted through the locking-unlocking mechanism by the external handle with the lock closed, which is achieved due to the fact that when the lock is closed, the external handle is not locked with the deadbolt and the internal handle and rotates freely. When the engine is triggered, blocking is carried out by connecting the bolt through the lock-release mechanism with an external handle.

As in the first case, the disadvantage of the known technical solution is the large overall dimensions and weight, as well as the complexity in the manufacture, operation and maintenance of the castle.

The electromechanical lock disclosed in US 5142890 dated 09/01/1992 containing structural elements and a solenoid located in the housing, acting as a means of locking the locking element, was selected as the prototype.

This lock is not reliable enough, because during mechanical action, for example during vibration, the solenoid gets the possibility of linear movement, i.e. stops blocking the locking element, thereby allowing unauthorized opening of the lock.

The task of the invention is to provide an easy-to-operate and maintain electromechanical lock that effectively prevents unauthorized opening.

The technical result achieved by the implementation of the invention is to simplify the design and increase reliability.

The specified technical result is achieved due to the fact that the electromechanical lock contains an electrical device located in the housing, a locking element and means for blocking it. New is that the locking means of the locking element contains at least one movable element and at least two coaxially arranged rotating elements, on each of which there is a gear ring and a radial groove, the electric device is made in the form of an electric motor, the output shaft of which a gear wheel is provided, which engages in gearing with said rotating elements in such a way that the latter, driven by said motor, rotating towards each other Yeah, ensure the coincidence of the radial grooves with the possibility of displacement of the movable element inside the specified grooves, thereby unlocking the locking means of the locking element.

The use of an electric motor to drive the locking means of the locking element eliminates the possibility of unauthorized movement of the structural elements of the lock, which, combined with the proposed layout of the locking means of the locking element, can significantly increase the reliability of the electromechanical lock. The use of at least two coaxially arranged, rotating towards each other elements, which, when the radial grooves coincide, make it possible to displace the movable element inside these grooves, thereby unlocking the locking means of the locking element, also increases the reliability of the electromechanical lock.

It should also be noted that the proposed arrangement allows to simplify the design of the electromechanical lock, its maintenance, extend its service life, which also leads to increased reliability.

Further, the invention will be disclosed in more detail, with reference to graphic materials on which:

- figure 1 - electromechanical lock in the closed position,

- figure 2 - electromechanical lock in the open position,

- figure 3 - means for locking the locking element,

- figure 4 is a locking element.

The materials of this application disclose a preferred embodiment of the proposed electromechanical lock, which, however, is not the only possible one, which should be obvious to any person skilled in the art.

For ease of disclosure of the essence of the proposed technical solution in figures 1-4, the structural elements of the electromechanical lock are located in the housing 1. This design may be preferred in some cases. But, if necessary, the structural elements of the electromechanical lock can be placed directly on the door where the electromechanical lock is supposed to be installed, and / or in the door frame.

The electromechanical lock contains an electric motor 2, on the output shaft of which a gear wheel 3 is provided.

The power and overall dimensions of the electric motor 2 can be different and depend on operating conditions.

The gear wheel 3 can be made of any material - metal, plastic, etc., which also depends on the operating conditions.

The power supply of the electric motor 2 can be both autonomous, for example from batteries, and from an external energy source, which does not fundamentally affect the design of the proposed electromechanical lock and is not the subject of this application.

The gear wheel 3 of the electric motor 2 is made with the possibility of contact with the gear rims of at least two rotating elements 4 of the locking means of the locking element 5.

Figure 3 shows two rotating elements 4, placed coaxially and having the ability to interact with their gear rims with gear 3 when it is rotated.

And the rotating element 4 and its gear ring can be made of any material - metal, plastic, etc., which also depends on operating conditions.

The gear rims of the gear wheel 3 and the rotating elements 4 are preferably conical. This is the most convenient, although not the only possible, type of gearing with this layout.

To return the rotating elements 4 to the position in which the lock is in the "closed" position, a return means 6 is provided, which can be made, for example, in the form of a spring, the ends of which are fixed with the protrusions 7 provided on the rotating elements 4.

The locking means of the locking element 5 contains, in addition to the rotating elements 4, at least one movable element 8.

In this case, one movable element 8 is provided, although it is obvious that, if necessary, this amount can be increased.

The sliding element 8 is made with the possibility of placement in its first position (see figure 1), in which it has the ability to block the rotation of the locking element 5, and with the possibility of placement in its second position (see figure 2), in which the locking element 5 has the ability to rotate.

To ensure that the movable element 8 can be placed in the second position, a radial groove 9 is provided in each of the rotating elements 4. The rotating elements 4 are driven by an electric motor 2 and, rotating towards each other, i.e. in different directions: one - clockwise, and the other - counterclockwise, ensure the coincidence of the radial grooves 9 with the possibility of displacement of the movable element 8 inside the specified grooves 9, thereby unlocking the locking means of the locking element 5.

To enable the movable element 8 to be moved from the second position to the first position, a return element 10 is provided, for example a compression spring.

The locking element 5 is a deadbolt, made with the possibility of rotation, as well as with the possibility of interaction with at least one movable element 8.

The parts of the locking element 5 and the sliding element 8 in contact with each other are made in a radius so as to ensure their smooth mutual movement without hooks and jamming, with the movement, as a result of this interaction, the sliding element 8 from its first position to its second position.

To return the locking element 5 to the closed position, a return element 11 may be provided, for example a tension spring.

The locking element 5 is connected with the door handle and is made to rotate around the axis 12. The seating holes 13 of the axis 12 are made oval so that when the door handle is abrupt and / or impacted, the axis 12 is displaced in its landing holes 13, creating an eccentricity, completely eliminating the possibility of rotation of the locking element 5.

To return the axis 12 to its original position after unloading (shock, vibration, etc.), a return element 14 is provided, for example a leaf spring.

Electromechanical lock operates as follows.

The electromechanical lock is in the "closed" position, the rotating elements 4 are in such a position that they block the movement of the movable element 8 from the first to the second position. In turn, the sliding element 8 blocks the rotation of the locking element 5 - the door handle does not rotate - the door does not open. Power, shock, vibration, etc. the impact on the door handle, door and / or lock does not allow the lock to be moved to the “open” position, since the rotation lock of the locking element 5 cannot be removed - there is no possibility of moving the sliding element 8 to the second position and the displacement of the rotation axis 12 of the locking element 5 causes it jamming about other elements.

To open the electromechanical lock, it is necessary to supply the initially set code signal (a certain set of letters and / or numbers, the proximity of the electronic / magnetic card to the reader, the radio signal, etc.), which will rotate the electric motor 2 and, accordingly, associated with it by means of a gear transmission, rotating elements 4 with radial grooves 9. It should be noted that instead of said gear transmission, preferably bevel gear, worm, friction or any other known Supply Return in the art and suitable for this purpose, the transmission.

The rotation of each of the rotating elements 4 must be carried out at a certain angle so that the radial grooves 9 are aligned with the end face of the movable element 8, allowing the latter to occupy its second position. To implement the rotation of the rotating elements 4 at a certain angle, a stepping electric motor or any other known method can be used. To implement the smooth return of the rotating elements 4 to their original position on the shaft of the electric motor can be installed return, overtaking, friction or any other coupling known from the prior art and suitable for this purpose.

After applying the appropriate signal, the electric motor 2 drives the rotating elements 4, which occupy such a position that the radial grooves 9 made in them coincide with each other and are opposite the movable element 8. Then, when the door handle is rotated, the locking element 5 is rotated, which interacting with the movable element 8, moves the last of its first position to its second position. Moving to the second position, the sliding element 8 unlocks the rotation of the locking element 5, allowing it to make a movement sufficient to translate the electromechanical lock into the "open" position.

Removing the load from the door handle allows the locking element 5 under the influence of the return element 11 to return to its original position, after which there is a return to the original (first) position of the sliding element 8 under the influence of the return element 10, which blocks the rotation of the locking element 5.

Simultaneously with the return of the sliding element 8 to its first position, the rotating elements 4 under the influence of the returning means 6 occupy their original position, thereby blocking the movement of the sliding element 8. The electromechanical lock is moved to the closed position.

Thus, the inventive electromechanical lock is a device that is simple to manufacture, use and maintain, and the proposed design and layout can significantly increase its reliability compared to known analogues, as well as easily change its weight and size characteristics depending on operating conditions.

Claims (4)

1. Electromechanical lock containing an electrical device, a locking element and means for blocking it, characterized in that the locking means for the locking element contains at least one movable element and at least two coaxially located rotating elements, each of which is provided ring gear and radial groove, the electric device is made in the form of an electric motor, on the output shaft of which a gear wheel is provided, which engages in gearing with the said rotating Xia elements so that the latter, driven by said motor, rotating towards one another, provide coincidence radial slots slidably displaced member inside said slots, thereby providing a locking means to unlock the locking member. 2. The electromechanical lock according to claim 1, characterized in that the gear rims of the gear wheel and the rotating elements are made conical. 3. The electromechanical lock according to claim 1 or 2, characterized in that a return means is provided that allows the rotating elements to return to their original position, in which the radial grooves on the rotating elements do not match, the locking element is locked, and the lock is in the "closed" position. 4. The electromechanical lock according to claim 3, characterized in that said return means is made, for example, in the form of a spring, the ends of which are fixed on rotating elements.

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