RU2543411C1 - Electromagnetic lock - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: electromagnetic lock is related to locking devices controlled by electronic equipment and may be used for closure of free end of the bike fixing control device, which is made as a cable wire with electroconductive lead at facilities for parking bikes, baby buggies and similar transport facilities as well as for closure of cabinets, safes and rooms. The electromagnetic lock comprises body (1) consisting of at least one layer, it has magnetoconductivity and electric conductivity and in its cavity there is electromagnet (4) and locking gear containing at least stopping elements (8) and latch (9), crossbar shaped as a rod (14) with head (15) that interacts with locking mechanism, wherein to body (1) insulated electrically at bearing base signal wire (6) is coupled, crossbar wire (7) is coupled to inner end (16) of the crossbar. The above wires are coupled to signalling inputs of the electromagnetic lock control device, crossbar and latch (9) form magnetic pair and at least one element in it is magnetic. The crossbar is electroconductive and at least one of the lock elements ensuring electric contact between crossbar and body (1) in closed position of crossbar is electroconductive as well.

EFFECT: reliability improvement.

12 cl, 6 dwg

Description

An electromagnetic lock belongs to the field of security technology, in particular to locking devices controlled by electronic equipment, and can be used to lock the free end of a bicycle fixing control device, made in the form of a cable with an electrically conductive core, on devices for parking bicycles, prams and the like vehicles, as well as for locking the doors of cabinets, safes, rooms.

Known electromagnetic lock (RU 2382861 C1, EV 47/02, 10/21/2008) containing a bolt, a housing in the cavity of which an electromagnet and a locking mechanism are installed, consisting of locking elements made in the form of balls and a latch on the side surface of which are made conical holes in which the balls are placed, at the bottom of which there is a permanent magnet, supplemented by a sleeve, on the inner end of which the inner bevel is removed.

Known electromagnetic lock (RU 2409733 C1, EV 47/00, 06/16/2009), containing a deadbolt, a housing in the cavity of which an electromagnet and a locking mechanism are installed, consisting of locking elements made in the form of rollers, and a latch made in the form of a bracket with grooves in which the rollers are placed with the possibility of moving in them, with a permanent magnet installed at the bottom, complemented by two fixed stops or two locking plates with oval holes.

Known electromagnetic lock (RU 90831 U1, EV 47/02, 06.03.2009) containing a bolt, a housing in the cavity of which an electromagnet and a locking mechanism are installed, consisting of locking elements made in the form of balls, a catcher, on the side surface of which are conical holes in which the balls are placed, and a latch on the bottom of which a permanent magnet is installed.

Known electromagnetic lock (RU 125239 U1, EV 47/00, 08/13/2012) containing a bolt, a housing in the cavity of which an electromagnet and a locking mechanism are installed, consisting of locking elements made in the form of balls and a latch made in the form of a stepped glass , on the bottom of which a permanent magnet is installed, and on its side surface there are conical holes in which balls are placed, the inner surface of the housing is made stepwise, the first and second sections of which are connected by a conical transition.

A disadvantage of the known devices is the relatively high energy consumption associated with the lack of the ability to automatically adjust the duration of the supply voltage pulse to the solenoid of the electromagnet, and the area of independent use limited by functionality.

The purpose of the claimed technical solution is to expand the scope of the device without the additional need to use lock closure status sensors at facilities with increased security requirements and improve operational characteristics: reducing power consumption and improving the reliability of operation and ease of use.

This goal is achieved in that in an electromagnetic lock containing a housing made, for example, in the form of a cup or a piece of a rectangular pipe of at least one layer of magnetically and electrically conductive material or of magnetically and electrically conductive material, but the housing is fixed to the installation surface insulated, for example, by dielectric fasteners, or coated with insulation at least at the fixation points to the mounting surface, the bottom of which can be made removable and contain a groove or hole for I conclusions of the electromagnet solenoid, a signal conductor is connected to the housing, the other end of which is connected to the signal input of the electromagnetic lock control device, an electromagnet whose solenoid can be wound on a cylindrical coil with a hole installed in the housing cavity, a locking mechanism installed in the housing cavity and containing at least locking elements made, for example, in the form of balls or rollers, and a latch made, for example, in the form of a glass or in the form of a stepped glass, cat The second one can be supplemented with a catcher and an inner sleeve, and the elements of the locking mechanism can be made electrically conductive, a bolt in the form of a rod with a head, made electrically conductive, the inner end of which is connected by a bolt conductor to the signal input of the electromagnetic lock control device directly, or through a locking control device that can be locked a lock made, for example, in the form of an electrically conductive cable coated with insulation, one end of which is connected to the inner end of the crossbar, For example, a crimp sleeve and the other is fixed to the mounting surface and connected by the bolt conductor to the signal input of the electromagnetic lock control device, the bolt and the latch forming a magnetic pair, at least one of the elements of which is made magnetic, and the magnetic element of the magnetic pair may be a latch, made, for example, of a magnetically conductive material, and supplemented with a permanent magnet or a crossbar, made of an electrically conductive, for example, of a magnetic material or containing a head, up to filled with a permanent magnet, and the locking elements of the locking mechanism, consisting of a retainer and balls placed in the through conical holes of the retainer, made in the form of a stepped cylindrical cup, on the inlet of which an inner chamfer is made, said holes being made on its side surface, and the diameter of the conical holes located on the outer surface of the retainer, not less than the diameter of the balls, and the diameter of the conical holes located on the inner surface the latch is smaller than the diameter of the balls, the diameter of the bolt rod does not exceed the diameter formed by the surface of the protruding parts of the balls above the inner cylindrical surface of the latch, the diameter of the head of the bolt does not exceed the diameter of the inner cylindrical surface of the latch, or consisting of a latch and rollers placed in the through transverse holes of the latch made in the form of a stepped cylindrical glass, and the said holes are made on its side surface, the diameter of the bolt rod does not exceed the diameter of the diameter formed by the surface of the protruding parts of the rollers above the inner cylindrical surface of the retainer and the inner cylindrical surface of the retainer, the diameter of the bolt head does not exceed the conditional diameter formed by the inner cylindrical surface of the retainer, or supplemented by a catcher made in the form of a sleeve, on the inlet of which an inner chamfer is made, the locking elements of which are made in the form of balls placed in the through conical holes of the catcher, made on and its side surface, and the diameter of the conical holes located on the outer surface of the trap is not less than the diameter of the balls, and the diameter of the conical holes located on the inner surface of the trap is less than the diameter of the balls, the diameter of the crossbar rod does not exceed the diameter formed by the surface of the protruding parts of the balls over the inner the cylindrical surface of the trap, the diameter of the head of the bolt does not exceed the diameter of the inner cylindrical surface of the trap, a latch made in the form of a cylindrical steel A magnetically conductive material is located in the cavity formed between the outer surface of the trap and the inner surface of the electromagnet, and the inlet of the lock can be supplemented by an external sleeve made of electrically conductive, on the inlet of which there is an internal chamfer, which partially fulfills the function of centering the bolt when it is locked .

Figure 1 shows a longitudinal section of an electromagnetic lock with a cross-section in the axisymmetric locking elements (8) of the plane and a longitudinal section of a crossbar. The housing (1) coated with insulation (3) is made cylindrical, and the inner surface is in the form of two sections of different diameters connected by a conical transition, in the cavity of which an electromagnet (4) is installed, the conclusions of the solenoid (5) of which are allotted through an opening in the removable bottom (2) of the housing (1) connected to the signal input of the electromagnetic lock control device by the signal conductor (6), in the cavity of the housing (1) there is a locking mechanism consisting of locking elements (8) made in the form of balls and a latch (9) in addition a permanent magnet (10) mounted on its bottom, the bolt is made in the form of a rod (14) with a head (15), the inner end (16) of which is connected to an electrically conductive cable (17) covered by electrical insulation (19) by a compression sleeve (18 ) and is connected to the signal input of the electromagnetic lock control device by the crossbar conductor (7).

Figure 2 presents a longitudinal section of an electromagnetic lock with a cross section in the axisymmetric locking elements (8) of the plane and a longitudinal section of a crossbar. The housing (1) is cylindrical in the form of a segment of a rectangular pipe. The locking mechanism consists of locking elements (8), made in the form of rollers, and a latch (9). The crossbar is made magnetic, the head of which is supplemented with a permanent magnet (10).

Figure 3 presents a longitudinal section of an electromagnetic lock, the housing (1) of which is covered with insulation (3), is made cylindrical, the bottom (2) of the housing (1) of which serves as the core of the electromagnet (4). The locking mechanism consists of locking elements (8), a latch (9) and an inner sleeve (12), at the ends of which the chamfers are removed from the inside.

Figure 4 presents a longitudinal section of an electromagnetic lock, part of the latch (9) which serves as the core of the electromagnet (4).

Figure 5 shows a longitudinal section of an electromagnetic lock, the locking mechanism of which consists of locking elements (8), a latch (9) and an inner sleeve (12), on the end facing the bottom of the housing (1) which has an internal bevel. The inlet of the lock is supplemented by an outer sleeve (13), on the inlet of which a chamfer is made, which partially fulfills the function of centering the crossbar when it is locked.

Figure 6 shows a longitudinal section of an electromagnetic lock, the locking mechanism of which consists of locking elements (8) made in the form of balls, a retainer (9) and a catcher (11), in the conical holes of which the balls are placed. The lock inlet is supplemented with an outer sleeve (13).

The electromagnetic lock (figure 1) works as follows. In the initial state, in which the solenoid of the electromagnet is de-energized, the movable latch (9) can be in any position. From the control device of the electromagnetic lock, such as a controller, signals are sent through the signal conductor (6). When closing the lock, the crossbar with the head (15) pushes the balls (8) with the simultaneous movement of the lock (9) and comes into contact with the permanent magnet (10) of the lock (9). In this case, the signal circuit is closed: the signal input of the controller, the signal conductor (6), the housing (1), the balls (8), (the latch (9)), the bolt, the electrically conductive cable (17), the bolt conductor (7), the signal input of the controller . The electromagnetic lock is protected by the controller. The magnetic flux of a permanent magnet (10) closes the magnetic circuit: lock (9), permanent magnet (10), head (15) of the crossbar. In case of an unauthorized attempt to open the lock, the lock (9) will begin to move under the action of the magnetic flux of the permanent magnet (10), while the balls (8) will move together with the lock (9), blocking the head (15) of the crossbar. The castle is closed and is under guard.

When an unauthorized break of the signal circuit is attempted, for example by biting the electrically conductive cable (17) or opening the door with a mechanical force exceeding the bolt holding force in the lock, an alarm is triggered (an alarm is sent from the controller to the alarm unit of the security system in which the lock is installed, since the lock is previously was not disarmed).

In case of authorized opening, the lock is disarmed, the supply voltage is applied to the solenoid of the electromagnet (4), the magnetic flux of the solenoid demagnetizes the magnetic circuit, allowing the latch (9) and, accordingly, the balls (8) to move freely. In this case, when the lock is opened, the balls (8) do not fix the head (15) of the crossbar. The castle is open.

The presence of feedback elements in the design of the lock expands the scope of independent use of the device and allows, due to the possibility of autonomous monitoring of the state of closing the lock, to reduce its energy consumption: the power supply voltage of the electromagnet solenoid is turned off immediately as soon as the bolt is removed from the lock, that is, automatically, as soon as it is authorized to open signal circuit. There is no need to supply voltage to the solenoid for the entire specified time provided for unlocking the lock.

If the lock has not been opened or has not been opened within the time allotted for this period of time, a reinforced or elongated impulse of the supply voltage is supplied to the solenoid automatically, without the need to re-enter the key, which increases the reliability of operation and ease of use of the lock.

A variant embodiment of the elements of the magnetic pair, in which the bolt can be made by the magnetic element, expands the arsenal of means for this purpose.

Claims (12)

1. An electromagnetic lock comprising a housing (1), consisting of at least one layer made of magnetically and electrically conductive, in the cavity of which an electromagnet (4) and a locking mechanism are installed, containing at least locking elements (8) and a latch (9 ), a bolt in the form of a rod (14) with a head (15), interacting with the locking mechanism, characterized in that a signal conductor (6) is connected to the inner end (16) to the housing (1) fixed to the mounting surface electrically isolated crossbar conductor is connected 7), said conductors being connected to the signal inputs of the electromagnetic lock control device, the bolt and the latch (9) form a magnetic pair, at least one of the elements of which is made magnetic, and the bolt is electrically conductive, at least one of the elements of the lock providing electrical the contact between the crossbar and the housing (1) in the locked position of the crossbar is made electrically conductive. 2. The device according to claim 1, characterized in that the housing (1) is electrically isolated from the mounting surface at least at the points of fixation to it. 3. The device according to p. 1, characterized in that the housing (1) is covered with electrical insulation (3). 4. The device according to claim 1, characterized in that the magnetic element of the magnetic pair is a latch (9) made of a magnetically conductive material and supplemented with a permanent magnet (10). 5. The device according to claim 1, characterized in that the magnetic element of the magnetic pair is a crossbar, the head (15) of which is supplemented with a permanent magnet (10), the crossbar being made electrically conductive. 6. The device according to p. 1, characterized in that the locking elements (8) of the locking mechanism are made in the form of balls placed in the through conical holes of the retainer (9), made in the form of a stepped cylindrical glass, the inlet of which is made of an inner bevel, said holes are made on its side surface, the diameter of the conical holes located on the outer surface of the retainer (9) not less than the diameter of the balls, and the diameter of the conical holes located on the inner surface the latch (9), smaller than the diameter of the balls, the diameter of the rod (16) of the bolt does not exceed the diameter formed by the surface of the protruding parts of the balls above the inner cylindrical surface of the latch (9), the diameter of the head (15) of the bolt does not exceed the diameter of the inner cylindrical surface of the latch (9). 7. The device according to claim 1, characterized in that the locking elements (8) of the locking mechanism are made in the form of rollers placed in the through transverse holes of the latch (9), made in the form of a stepped cylindrical glass, said holes being made on its side surface, the diameter of the bolt rod (16) does not exceed the conditional diameter formed by the surface of the protruding parts of the rollers above the inner cylindrical surface of the retainer (9) and the inner cylindrical surface of the retainer (9), the diameter of the head (15) ri gel does not exceed the conditional diameter formed by the inner cylindrical surface of the retainer (9). 8. The device according to claim 1, characterized in that the locking mechanism is supplemented by a catcher (11), made in the form of a sleeve, on the inlet of which an inner chamfer is made, the locking elements (8) of which are made in the form of balls placed in through conical holes of the catcher (11) made on its side surface, and the diameter of the conical holes located on the outer surface of the trap (11) is not less than the diameter of the balls, and the diameter of the conical holes located on the inner surface of the trap (11) is less than the diameter of the groove rik, the diameter of the rod (16) of the bolt does not exceed the diameter formed by the surface of the protruding parts of the balls above the inner cylindrical surface of the trap (11), the diameter of the head (15) of the bolt does not exceed the diameter of the inner cylindrical surface of the trap (11), the clamp (9) made in in the form of a cylindrical cup of magnetically conductive material, located in the cavity formed between the outer surface of the trap (11) and the inner surface of the electromagnet (4). 9. The device according to claim 1, characterized in that the locking mechanism is supplemented by an inner sleeve (12) made electrically conductive. 10. The device according to claim 1, characterized in that the inlet of the lock is supplemented by an outer sleeve (13) made electrically conductive. 11. The device according to claim 1, characterized in that the crossbar conductor (7) is connected to the inner end of the crossbar (16) through a locking control device, locked by a lock made in the form of an electrically conductive cable (17) coated with insulation (19), one end which is connected to the inner end of the bolt (16) using a crimp sleeve (18), and the other to the bolt conductor (7) connected to the signal input of the electromagnetic lock control device. 12. The device according to p. 1, characterized in that the bottom (2) of the housing (1) is removable, and the bottom (2) contains a hole for the conclusions of the solenoid (5) of the electromagnet (4).

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