BG110916A - Electric-mechanical lock - Google Patents

Abstract

The invention is of the lock devices type and particularly such with electricity driven locks for safe doors, residential buildings, offices or car doors. The electric-mechanical lock includes electric device, locking element and fixing device for it. The construction is simplified and more reliable. The new idea is that the fixing device of the locking element includes at least one sliding detail (8) and at least two coaxially situated rotating details (4), each of which having tooth crown and a radial groove (9). The electric device is an electric motor with output axis having built-in tooth wheel (3) clutched to the rotating details (4) in such way that when the rotating details are driven by the electric motor, they rotate against each other until the radial grooves (9) are in line and displacing the sliding detail (8) in them, thus unlocking the fixing device of the locking element (5).

Description

ELECTROMECHANICAL LOCK

TECHNICAL FIELD

The present invention relates to the type of locking devices and, in particular, to electrically operated locks for use in safes, residential buildings, office premises, as well as automotive doors.

BACKGROUND OF THE INVENTION

In the prior art, a locking device comprising an electric motor coupled to a drive member and indexer having at least one protrusion, at least one actuator designed to be actuated by a corresponding projection of the actuator and indexing element, and means for selectively controlling the electric motor in a predetermined position of the actuator and

indexing, and in particular for actuating the actuator or one of the selected actuators, to perform the necessary action in the locking device for locking and unlocking the lock and / or completing the closing of a door or other closing element (see WO 98 27301, June 25, 1998).

The disadvantage of the known technical solution is the considerable size and weight, as well as the complexity of production, operation and maintenance.

Patent RU 2,191,877, dated October 27, 2002, discloses a known electromechanical lock that includes an exterior and an interior, with respect to the locked room, handles, an unlocking mechanism for locking the exterior handle and a latch including two bushings secured inside the housing and lid, inside which is fitted a locking sleeve having grooves evenly spaced on its outer surface. On the outer surface of the two bushings there are two removably mounted disks, fixedly interconnected by pins, one of which has a locking lever mounted. One arm of the lever is made with a projection that is able to engage with one of the grooves of the locking sleeve, and the other arm is able to interact with a spring wheel. The wheel is made of gear sections and projections with the possibility of contact with the locking lever, as well as thumbs located on the front surface of the wheel, with the possibility of contact with the spring. The latch is fixed to the latch, on which a spring-loaded lever is mounted with a locking pin mounted on it. The lever is located between discs having openings in which the locking pin is mounted. One of the disks is made with a thrust protrusion that can be contacted with a stop. The inner handle is mounted on a plate mounted on the door and removably mounted on it by means of a flange. A thumb is engaged on the flange, located eccentrically with respect to the axis of rotation of the inner handle and entering the groove of one of the disks. The outer handle is mounted on a plate mounted on the door and removably mounted on it by means of the flange. The flange has a square opening in which one end of a square bar is mounted, the other end of which enters a square opening of the locking sleeve and is fixed by locking washers. The lock design provides elimination of forces transmitted through the locking mechanism of the outer handle when the lock is closed. This is due to the lack of connection between the outer handle of the latch and the internal freely rotating handle when locked. When the motor is driven, the locking is performed by actuating the latch from the unlocking mechanism of the outer handle.

As with the previous site, the disadvantage of the known technical solution is the considerable overall dimensions and weight, as well as the complexity of the production, operation and maintenance of the lock.

The electromechanical lock disclosed in U.S. Pat. No. 5,142,890, dated September 1, 1992, comprising a housing with ordered structural features was selected as a prototype.

elements and a solenoid acting as a locking means of the locking element.

Said lock is less reliable because under mechanical action, for example under vibration, linear movement of the solenoid is possible, i. stops the locking element, allowing the lock to be opened incorrectly.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide an electromechanical lock that is easy to operate and maintain and effectively prevents unauthorized opening.

The technical result achieved in the implementation of the present invention is to simplify the construction and improve reliability.

Said technical result is achieved by an electromechanical lock comprising an electrical device, a locking element and its locking means. The novelty of the invention is that the locking means of the locking element comprises at least one sliding member and at least two coaxially arranged rotating parts, each of which has a dental flap and a radial groove. The electrical device is constructed in the form of an electric motor whose output shaft has a gear wheel which engages said rotating parts in such a way that the latter, actuated by said electric motor, rotate to each other and allow radial grooves to match for moving the sliding member inside the radial grooves, thereby securing the locking means of the locking member.

The use of an electric motor to activate a locking means of a locking element eliminates the possibility of unauthorized movement of the structural elements of the lock, which, in combination with the proposed arrangement of the locking means of

The locking element makes it possible to significantly increase the reliability of the electromechanical lock. The use of at least two coaxially rotatable members which, when the radial grooves match, move the sliding member inside the radial grooves, thereby releasing the locking means of the locking member, which also leads to a significant improvement in electromechanical locking.

Attention should also be paid to the fact that the proposed arrangement of the elements makes it possible to simplify the construction of the electromechanical lock, its maintenance and to extend its life, which also leads to improved reliability.

EXPLANATION OF THE FIGURES Attached

The present invention is further disclosed in accordance with the accompanying drawings, wherein:

- FIG. 1 represents view on electromechanical bravo in a closed position, - FIG. 2 represents view on electromechanical bravo in unlocked position, - FIG. 3 represents view on the locking means on

locking element,

- FIG. 4 is a view of the locking element.

EXAMPLES FOR THE IMPLEMENTATION OF THE INVENTION

The grounds of the claim are disclosed in a preferred embodiment of the proposed electromechanical lock, which is, however, only exemplary of the many possible variants, which should be apparent to those skilled in the art.

In order to facilitate disclosure of the proposed technical solution, Figures 1-4 show structural elements of the electromechanical lock located in housing 1. Said embodiment may seem preferable in certain cases. When necessary,

the structural elements of the electromechanical lock may be arranged directly inside the door where the electromechanical lock is intended to be mounted and / or within the door frame.

The electromechanical lock contains an electric motor 2 whose output shaft has a gear wheel 3.

The power and dimensions of the motor 2 may differ and depend on the operating conditions.

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

The power supply to the motor 2 may be standalone, for example from batteries, as well as from an external power source, which does not substantially affect the design of the proposed electromechanical lock and is not the subject of this patent claim.

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

In FIG. 3 shows two rotatable members 4 coaxially arranged and able to interact with their gear teeth with the gear wheel 3 as it rotates.

Both the rotating part 4 and its gear may be made of any material - metal, plastic, etc., which also depends on the operating conditions.

The gear teeth of the gear 3 and the rotating parts 4 are preferably made of a conical shape. This is the most appropriate, though not the only, type of engagement for this construction.

The harvesting of the rotating parts 4 in the position in which the lock is in the closed position provides for the use of a recoil 6, which can be implemented, for example, in the form of a spring whose ends are secured by means of projections 7, provided for rotating parts 4.

4 4 • 4444

The locking means of the locking element 5 comprises, in addition to the rotating parts 4, at least one sliding member 8.

A sliding part 8 is presented on the proposed embodiment, but it is still very clear that this amount can be increased when necessary.

The sliding member 8 is arranged to be positioned in its first position (see Fig. 1), in which it is able to block the rotation of the locking element 5, and to be placed in its second position (see Fig. 2 ), in which the locking element 5 is rotatable.

To allow the sliding member 8 to be positioned in the second position, each of the rotating parts 4 has a radial groove 9. The rotating parts 4 are driven by the motor 2 and as they rotate towards each other, i.e. in different directions, one counterclockwise and the other counter-clockwise, allowing the radial grooves 9 to coincide, with the possibility of moving the sliding member 8 into said grooves 9, thereby securing the locking means of the locking means. element 5.

In order to allow the sliding member 8 to move from the second position to the first position, a first retaining element 10, for example a reversing spring, is provided.

The locking element 5 is a latch made rotatable and also capable of interacting with at least one sliding member 8.

The parts of the locking element 5 and of the sliding member 8 in contact with each other are made with such a radius that they provide smooth mutual motion without being hooked and wedged, with the result of this interaction of the sliding member 8 from its first position to the second.

Removing the locking element 5 in the "closed" position ensures the use of a second retaining element 11, for example a tension spring.

The locking element 5 is connected to the door handle and is configured to rotate about the axis 12. The mounting openings 13 of the axis 12 are oval so that, when the door handle is sharp and / or impacted, the axis 12 can be moved into its mounting holes 13, creating an eccentricity that completely eliminates the possibility of rotation of the locking element 5.

To return the axis 12 to its initial position after removal of the load (shock, vibration, etc.), a third return element 14, for example a leaf spring, is provided.

The electromechanical lock works as follows.

The electromechanical lock is in the "closed" position, the rotating parts 4 are in a position that blocks the movement of the sliding part 8 from the first to the second position. The sliding part 8, in turn, blocks the rotation of the locking element 5 - the door handle does not rotate - the door does not open. In the case of force, shock, vibration, etc., on the door handle, the door and / or lock does not allow the lock to move to the "open" position, since the locking of the rotation of the locking element 5 cannot be removed - it is not possible for moving the sliding member 8 to a second position, such that displacement of the axis 12 of rotation of the locking element 5 causes it to jam with the other elements.

To open the electromechanical lock it is necessary to send an initially defined code signal (a certain set of letters and / or numbers, inserting an electronic / magnetic card with the reader, a radio signal, etc.), which will activate the rotation of the motor 2 and respectively, the rotatable parts 4 with radial grooves 9 connected therewith by the gear unit. It should be noted that, instead of the said gear, it is preferable ·

Conical, it is possible to use a worm, friction or any other known gear in the art and suitable gear for this purpose.

Each of the rotating parts 4 must be rotated at a certain angle so that the displacement of the radial grooves 9 coincides with the end surface of the sliding member 8, allowing the latter to take its second position. A step electric motor or any other known means may be used to rotate the rotating parts 4 at a certain angle. For the free retraction of the rotating parts 4 in the starting position, the motor shaft may be provided with a reciprocating, frelaufen, friction, or any other type of clutch known in the art and suitable for this purpose. .

After the corresponding signal is sent, the motor 2 activates the rotating parts 4, which take such a position that their radial grooves 9 are centered with each other and are opposite to the sliding part 8. Further, rotation of the door handle results in a rotation of the door handle. the locking element 5 which interacts with the sliding member 8 and moves the latter from

his first position to the second. As it moves to its second position, the sliding member 8 unlocks the rotation of the locking element 5, allowing it to make the displacement sufficient to place the electromechanical lock in the open position.

The release of the door handle allows the locking element 5 to return to the initial position under the action of the second return member 11, after which the sliding member 8 is retracted to the starting position (first) under the influence of the first return member 10, which blocks the rotation of the locking member. element 5.

At the same time as the sliding part 8 is harvested in its first position, the rotating parts 4 under the influence of the return means 6 take their initial position, thus blocking

moving the sliding part 8. Thus the electromechanical lock is placed in the "closed" position.

Thus, the claimed electromechanical lock is a device that is not difficult to manufacture, operate and maintain, and the proposed construction and interposition of the elements make it possible to significantly increase its reliability compared to known such solutions, and also easy to use. change its technical characteristics in terms of size and weight, depending on working conditions.

Claims (4)

Patent Claims An electromechanical lock comprising an electrical device, a locking element and a locking means, characterized in that the locking means of the locking element (5) includes at least one sliding part (8) and at least two coaxially arranged rotating parts (4), each of which has a tooth ring and a radial groove (9), the electrical device is in the form of an electric motor (2) whose output shaft includes an integral gear wheel (3) engaged with said rotating parts (4) in such a way that the latter, triggered from the motor (2), rotate to each other and provide for the alignment of the radial grooves (9) with the possibility of moving the sliding workpiece inside the radial grooves (9), thereby securing the locking means of the locking element (5). . Electromechanical lock according to claim 1, characterized in that the gear teeth of the built-in gear (3) and the rotating parts (4) are conical. The electromechanical lock according to claim 1 or 2, characterized in that a corresponding recoil means (6) is provided, allowing the rotating parts (4) to be returned to the initial position in which the radial channels (9) are rotatable. the parts (4) are moved, the locking element is locked and the lock is in the "closed" position. Electromechanical lock according to claim 3, characterized in that said return means (6) is formed, for example, in the form of a spring whose ends are secured to the rotating parts (4). (54) ELECTROMECHANICAL LOCK (57) The invention is of the type of locking devices, in particular with electrically operated locks for use in safes, dwellings, offices or car doors. The electromechanical lock includes an electrical device, a locking element and its locking means. Simplified design and improved reliability have been achieved. The novelty is that the locking means of the locking member comprises at least one sliding member (8) and at least two coaxially arranged rotating parts (4), each of which has a dental flap and a radial groove (9). An electrical device is an electric motor whose output shaft has a gear wheel (3) engaged with rotating parts (4) such that the latter, actuated by the electric motor, rotate to one another to coincide the radial grooves (9) to move the sliding detail (8) them by unlocking the locking means of the locking element (5).