RU2750794C1 - Electromechanical lock - Google Patents

Abstract

FIELD: locks.

SUBSTANCE: electromagnetic lock relates to the field of security equipment, particularly, to locking apparatuses controlled by means of electronic technology. The lock can be used to lock sliding doors in order to exclude the possibility of unsanctioned access, and to open doors while unlocking the lock. The electromechanical lock is comprised of a base (1) installed whereon are: a fastener (5), a blocker (13) with a blocker lever (21) on axial sleeves (4), (20), spring-loaded by torsion springs (26), (27). In the closed state of the lock, the fastener (5) is restrained by the blocker (13) due to the interaction of the bevel surfaces (11) and the protrusion (23), and the blocker (13) is restrained by a flag (33) due to the interaction of the end surfaces of the protrusion of the blocker lever (23) and the cutting of the flag (33) located rotatably on the axis (40), holding the end surfaces in the closed state of the lock with a torsion spring (42). The bridge of the bolt therein is located in the area of the base (1) formed by the base groove (2) and the fastener groove (7). To open the lock, a voltage is applied to the outputs of the electromagnets (41), (42) the field of the electromagnets (29), (30) draws the flag (33) to the anchors (31), (32). The flag (33) rotates as a result, overcoming the impact of the flag torsion spring (42), and the protrusion of the blocker lever (23) exits the cutting of the flag (34), releasing the blocker lever (21) and the blocker (13). Under the impact of the blocker torsion spring (26) and the torsion spring (27), the blocker lever (21) rotates with the blocker (13) and the fastener (5), wherein the end bevel surface of the fastener (11) and the end surface of the second side (17) of the protrusion (16) are disengaged, releasing the fastener (5) for further rotation. When the lock (5) is rotated under the impact of the torsion spring (27), the bridge (50), abutting the lower end surface of the fastener groove (7), pushes the bolt (47) from the base groove (2) together with the door. Upon the end of the movement, the fastener (5) and the blocker (13) with the blocker lever (21) take a position corresponding with the open state of the lock. The lock is opened, the bolt (47) with the door is removed from the base groove (2). When the voltage is removed from the outputs of the electromagnets (44), (45), the flag (33) under the impact of the flag torsion spring (42) rotates, abutting the end surface of the protrusion of the blocker lever (23). The lock returns to the original open state. The open and closed states of the lock are determined by the end switch (46) interacting with the end surface of the blocker lever (21).

EFFECT: expanded operational capabilities of the lock and eliminated external forces in opening the door required to overcome the friction forces and the forces of the torsion spring of the bolt are ensured.

4 cl, 5 dwg

Description

An electromechanical lock belongs to the field of security technology, in particular to locking devices controlled by means of electronic technology, and can be used to lock doors to exclude the possibility of unauthorized access.

Known electromechanical lock (RF patent for invention No. 2644402), containing a base made in the form of a box, on the side of the inner surface of which a cover is installed, attached to the base by hollow support bushings, and with a base groove made perpendicular to the upper side of the cover, a crossbar, in the form deadbolt bushings, a base groove is made on the base surface, similar to the cover groove and located opposite the cover groove, an axial retainer sleeve located in adjacent holes of the cover and base, a retainer made in the form of a rectangular plate with a hole for the axial retainer sleeve, on the upper lateral surface of the retainer a hook is formed in the form of a groove adjacent to the right end surface of the retainer, with a width equal to the diameter of the bolt sleeve, the upper end surface of the retainer is made in the form of a sector of a circle with a center in the hole for the axial retainer sleeve, a torsion spring fastening groove is made on the right end surface of the retainer the retainer, the torsion spring of the retainer, the restrictive sleeve of the retainer, and the retainer is mounted for rotation on the axial retainer sleeve passing through the retainer hole, under the action of the retainer torsion spring, one end of which is fixed in the hole in the side wall of the base, and the other in the groove made in the end part of the lock, in the lower part of the lock, on the left side, an open rectangular cut is made, and in the closed state of the lock, the horizontal and vertical surfaces of the cut are parallel to the lower and lateral sides of the base, the lock on the axial sleeve of the lock is installed so that the slot of the lock faces the upper side of the base, in the open state of the lock, the position of the lock is determined by the stop of the lower corner of the lock groove on the inner side upper surface of the base, while the hook of the lock is located outside the slots of the cover and base, leaving the slots of the base and cover free, in the closed state of the lock the position of the lock is determined it is placed by the stop of the horizontal surface of the cut-out against the bushing of the limiter of the retainer, while the hook is positioned in such a way that it overlaps the outer part of the groove of the base and cover, leaving the inner part of the grooves unobstructed and free, in which the bushing of the deadbolt is located, on the side surface of the base, is made adjacent to the groove of the base, the groove of the side, in which, outside the base, the outer end surface of the hook is located, made in the form of a sector of a circle, on the axis located in the adjacent holes of the axis of the cover and the base, a lock lock is installed, made in the form of a rectangular magnetic conductive plate installed in parallel the lower lateral surface of the base, and the right end surface of the blocker is located opposite the vertical cutting surface, on the left lateral side of the blocker directed towards the upper inner lateral surface of the base, two permanent magnets are installed with opposite poles, magne parallel to the base, the hole for the blocker axis is located on a line perpendicular to the side surface of the blocker and passing between the adjacent surfaces of the permanent magnets, a flat L-shaped magnetic circuit is connected with the L-shaped part by the L-shaped part, located parallel to the base surface, the end part opposite Of the L-shaped part, which is formed by an air gap between the magnets, and the end part of the L-shaped magnetic circuit is displaced relative to the center of the axis of the lock blocker, an electromagnet coil is located on the magnetic circuit, the leads of which are the lock control leads.

The disadvantage of this invention is the need when opening the door opening lock due to the application of external force to the door, sufficient to overcome the forces of friction and the forces of the torsion spring of the crossbar.

The aim of the invention is to expand the functionality by opening the door with a lock when the lock is opened.

This goal is achieved due to the fact that in an electromechanical lock containing a crossbar, an electromagnet, a lock, an axial bushing, a lock torsion spring, a bollard with a bollard hole, a base made in the form of a rectangular box, with a base groove made on the base perpendicular to the upper side, on the upper side surface of the base there is a lateral groove adjacent to the groove of the base, the latch is made in the form of a rectangular plate, with a hole for the axial bushing, installed on the inner surface of the base, with the ability to move on the axial sleeve, on the upper side surface of the latch, a hook is formed in the form of an adjoining to the right end surface of the retainer groove, the upper end surface of the retainer is made in the form of a sector of a circle with the center in the hole for the axial sleeve, and the retainer is installed for rotation on the axial sleeve passing through the retainer hole, under the action of the retainer torsion spring, in the open In the state of the lock, the position of the latch is determined by the stop of the corner of the lower part of the latch groove against the inner side surface of the base, while the hook of the latch is located outside the groove of the base, and the groove of the latch is located opposite the groove of the base, forming an open space of the grooves of the latch and the base, in the closed state of the lock the hook is positioned in this way , which overlaps the upper part of the base groove, forming a closed space with the base groove and the retainer groove,

characterized in that the base is made of a magnetically conductive material, the groove width of the side base corresponds to the width of the base groove, an additional stop, a second electromagnet, a flag made of magnetically conductive material, a flag axis, a flag washer, a lock washer, a lock lever, a lock torsion spring , the flag torsion spring, the radius of the sector of the upper end surface of the retainer is such that the length of the upper part of the retainer groove forming the hook is shorter than the lower part of the retainer groove; in the lower right part of the retainer, a rectangular cut is made, the horizontal and vertical surfaces of which are parallel to the sides of the rectangular retainer plate, and on the part of the plate of the rectangular retainer formed between the vertical end surfaces of the rectangular cut-out and the plate of the rectangular retainer there is a hole for the axial sleeve, and on the left side of the hook there is a through hole for the retainer, on the right side there is a layer In the rectangular retainer formed between the retainer groove and the rectangular cutout, the bevel of the retainer is made directed towards the hook, and on the horizontal end surface of the rectangular retainer plate formed by the cutout, the retainer protrusion is made, the axial bushing is installed on the inner surface of the base in such a way that the end surface of the sector the hook is located at the inner upper lateral surface of the base with the ability to move, the blocker is made in the form of an L-shaped plate, with short and long sides, the thickness corresponding to the thickness of the retainer plate, a protrusion in the form of a trapezoid is made at the end of the inner end surface of the short side of the L-shaped plate, one side of which is perpendicular to the bases and adjoins the inner end surface of the short side of the L-shaped plate, and the second has a bevel angle similar to the angle and direction of the bevel of the latch, in the corner of intersection of the short and long sides of the L-shaped plate is made There is a hole for the blocker, and on the opposite short side of the L-shaped plate a through hole for the blocker is made, the blocker is mounted for movement on the bushing of the axial blocker located on the base, so that the long side of the L-shaped plate in the closed state of the lock is parallel to the lower side side base, the blocker is mounted with the ability to move on the bushing of the axial blocker located on the base, so that the long side of the L-shaped plate in the closed state of the lock is parallel to the lower lateral side of the base, and the end surface of the bevel of the lock coincides with the end surface of the second side of the protrusion, when in this case, the center of the axial blocker sleeve is on a line running parallel to the lower side of the base and the center of the axial retainer sleeve, in the closed state of the lock, the protrusion of the lock touches the upper end surface of the long side of the L-shaped plate, and when the blocker moves to b Along the axial bollard, the left end surface of the long side of the L-shaped plate does not touch the latch, the bollard lever is made in the form of a rectangular plate of the bollard lever with a lever hole installed on the upper surface of the bollard in such a way that the lower and right end surfaces, as well as the axial bollard hole and the blocker levers coincide, on the left end surface, in the lower part of the blocker lever plate, a rectangular protrusion of the blocker is made, and a longitudinal groove is made on the lower part of the blocker lever plate, the depth of which is such that in the closed state of the lock it contains the axial retainer sleeve, and the width of the plate lever does not overlap the closed space of the grooves of the lock and the base, the blocker is located with the ability to move along the inner surface of the base due to the locking blocker washer installed on the axial blocker bushing above the surface of the blocker lever plate, on the axial blocker bushing torus, above the washer of the locking blocker, there is a torsion spring of the blocker, one bent end of which is installed in the hole of the through blocker, and the other rests against the inner surface of the lower side wall of the base between the bushing of the axial blocker and the axial bushing, and the torsion spring of the blocker tends to turn the blocker in the direction clockwise, on the axial bushing, above the upper surface of the lock lever arm plate, there is a lock torsion spring, one bent end of which is installed in the hole through the lock, and the other rests against the inner surface of the lower side wall of the base between the axial lock bushing and the axial lock bushing, and the lock torsion spring tends to turn the lock counterclockwise, in the open state of the lock, the upper left corner of the lock lever plate abuts against the stop, while the angle of rotation of the lock lever with the lock is such that the end surface of the bevel is fixed pa and the end surface of the second side of the projection do not touch each other, and the blocker lever does not overlap the groove of the base, an electromagnet and a second electromagnet are installed on the left inner side surface of the base, the anchors of which, respectively, are located parallel to the inner surface of the base at the same height and have the same length, flag made in the form of a U-shaped rectangular magnetically conductive plate, in the upper part of which, on the lateral surface, two holes of the flag axis are made in such a way that the line passing through the centers of the holes is parallel to the inner surface of the U-shaped rectangular plate and its upper end, in the lower left the corner of the U-shaped rectangular plate made a rectangular cutting of the flag, and in the center a hole through the flag, in the upper and lower lateral sides of the base there are two holes of the flag axis, in which the axis of the flag is installed parallel to the base, on which, at the inner lower lateral surface of the base, a locking flag washer is installed, between the locking flag washer and the upper inner side surface of the base, on the flag axis, a flag is rotatably placed, and the inner surface of the U-shaped flag plate is directed towards the retainer, and the inner surface of the U-shaped rectangular flag plate is directed to side of the latch, the flag axis is located above the anchors of the electromagnets, and an air gap is formed between the ends of the anchors and the outer surface of the flag, in the center of the flag axis, on the flag axis there is a flag torsion spring, one end of which is installed in the hole of the through flag, and the other in the hole on the left the side wall of the base, and the flag torsion spring tends to turn the flag towards the lock, in the closed state of the lock, with the electromagnet and the second electromagnet de-energized, the rectangular protrusion of the lock lever is located in the notch of the flag and abuts against its end surface, and the flag, under the action of the spring the flag is twisted, the inner surface of the U-shaped rectangular plate of the flag rests on the left end surface of the blocker lever, and when the electromagnets are on, and the flag is attracted by electromagnetic forces to the anchors, the rectangular protrusion of the blocker lever comes out of engagement with the end surface of the flag, in the open state the lock, with the electromagnet on, the second electromagnet, and, under the action of electromagnetic forces, the flag pulled to the anchors of the electromagnets, the rectangular protrusion of the blocker lever comes out of engagement with the end surface of the flag, and the flag, under the action of the flag torsion spring, abuts against the end surface. of the blocker lever, an electromagnet and a second electromagnet create multidirectional magnetic fluxes, and the leads of the electromagnet and the second electromagnet are the leads for controlling the lock, on the inner surface of the base, under the longitudinal groove, between the retainer and the left end surface of the groove, there is a limit switch interacting with the upper end surface of the longitudinal groove, including the limit switch 46 in the closed position of the lock and turning it off - in the open position of the lock, the bolt of the electromagnetic lock is made in the form of a U-shaped bracket, one side of which is rectangular, with a width smaller than the width the base groove, and the second side is made in the form of a trapezoid, the width of the bases of which is greater than the width of the base groove, a jumper is installed in the upper part of the U-shaped crossbar bracket, the width of which does not exceed the width of the base groove, and on the base of the U-shaped crossbar bracket there are crossbar attachment holes ...

FIG. 1 is a top view of the lock in a closed state, FIG. 2 is a top view of the open state of the lock. FIG. 3 shows the position of the lever protrusion relative to the flag in the closed state of the lock, and FIG. 4 - in the open state of the lock. FIG. 5 shows the crossbar of the lock.

The electromechanical lock contains (Fig. 1) a base 1 made in the form of a rectangular magnetic conductive box, with the same width of the slots of the base 2 and side 3. On the inner surface of the base 1, an axial bushing is installed (for example, by rolling) 4. The latch 5 is made in the form of a rectangular plate , with a hole 6 for the axial bushing 4, and is installed on the axial bushing 4 with the ability to move on the axial bushing 4 passing through the hole 6. On the upper side surface of the lock 5, a hook is formed in the form of a lock 7 adjacent to the right end surface of the groove and the upper end surface 8 of the retainer 5. The upper end surface 8 of the retainer 5 is made in the form of a sector of a circle centered in the hole for the axial bushing 4, and the radius of the sector of the upper end surface 8 of the retainer 5 is such that the length of the upper part of the groove of the retainer 7, forming a hook, is shorter than the lower part of the groove of the retainer 7. In the lower right part of the retainer 5, a rectangular cut is made 9, horizontal The ny and vertical surfaces of which are parallel to the sides of the rectangular retainer plate 5. On the part of the rectangular retainer plate 5 formed between the vertical surfaces of the rectangular notch 9 and the rectangular retainer plate 5, there is a hole 6 for the axial bushing 4, and on the left side of the hook there is a through hole for the retainer 10. On the right side of the plate of the rectangular retainer 5 formed between the groove of the retainer 7 and the rectangular notch 9, the bevel of the retainer 11 is made, directed towards the hook. On the horizontal end surface of the plate of the rectangular retainer 5, formed by the rectangular cut-out 9, the protrusion of the retainer 12 is made. The axial bushing 4 is installed on the inner surface of the base 1 in such a way that the upper end surface 8 of the retainer 4 is located at the inner upper lateral surface of the base 1 for movement. The blocker 13 is made in the form of an L-shaped plate, with a short 14 and a long 15 sides, the thickness corresponding to the thickness of the plate of the retainer 4. On the inner end surface of the short side 14 of the L-shaped plate there is a protrusion 16 in the form of a trapezoid. One side of the projection 16 is perpendicular to the bases of the trapezoid and adjoins the upper part of the inner end surface of the short side 14 of the L-shaped plate, and the second side 17 of the projection 16 has a bevel angle similar to the angle and direction of the bevel of the retainer 11. At the intersection of the short 14 and long 15 sides The L-shaped plate has a hole for the blocker 18, and on the opposite short side of the L-shaped plate there is a through hole for the blocker 19. The blocker 13 is movable on the axial blocker bushing 20 located on the base 1, so that the long side 15 Г- the shaped plate in the closed state of the lock is parallel to the lower side of the base 1, and the end surface of the bevel of the lock 11 coincides with the end surface of the second side 17 of the projection 16, while the center of the bushing of the axial blocker 20 is on a line running parallel to the lower side of the base 1 and the center of the bushing axial 4 clips 5. In a closed pump When the lock is pressed, the protrusion of the latch 12 touches the upper end surface of the long side 15 of the L-shaped plate, and when the blocker 13 moves on the bushing of the axial lock 20, the left end surface of the long side 15 of the L-shaped plate does not touch the latch 5. In this case, the end surface of the bevel of the latch 11 and the end surface of the second side 17 of the projection 16 touch each other. On the upper surface of the blocker 13 there is a blocker lever 21 (for example, by spot welding), made in the form of a rectangular plate with an opening of the lever 22, so that the lower and right end surfaces of the blocker lever 21, as well as the hole of the axial blocker 18 and the opening of the lever 22 of the blocker 13 are the same. On the left end surface, in the lower part of the blocker lever plate 21, a rectangular protrusion of the blocker lever 23 is made, and on the lower part of the blocker lever plate 21 there is a longitudinal groove 24, the depth of which is such that in the closed state of the lock it contains the axial bushing 4 of the lock 5, and the width of the blocker lever plate 21 does not overlap the free cavity formed by the groove of the base 2 and the groove of the lock 7. The blocker 13 is movable along the inner surface of the base 1 due to the lock blocker washer 25 installed on the bushing of the axial blocker 20 above the surface of the blocker lever plate 21 . On the bushing of the axial bollard 20, above the washer of the locking bollard 25, there is a torsion spring of the bollard 26, one bent end of which is installed in the hole of the through bollard 19, and the second one rests against the inner surface of the lower side wall of the base, between the bushing of the axial bollard 20 and the axial bushing 4 retainer a 5, and the torsion spring of the blocker 26 tends to turn the blocker 13 clockwise. The latch 5 is positioned for movement between the inner surface of the base 1 and the lower surface of the lock lever plate 21. On the axial bushing 4 of the lock 5, above the upper surface of the lock lever plate 21, there is a torsion spring of the lock 27, one bent end of which is installed in the through hole of the lock 10 , and the second rests against the lower side wall of the base, between the bushing of the axial lock 20 and the bushing of the axial 4 of the lock 5, and the torsion spring of the lock 27 tends to turn the lock 5 counterclockwise.

In the open state of the lock, the upper (Fig. 2) end surface of the plate of the lock lever 21 abuts against the stop 28 (made, for example, in the form of a sleeve mounted on the inner surface of the base 1), while the angle of rotation of the lock lever 21 with the lock 13 is such that the end surface of the bevel of the lock 11 and the end surface of the second side 17 of the projection 16 do not touch each other. On the left inner side surface of the base 1, an electromagnet 29 and a second electromagnet 30 are installed, the armatures of which 31, 32, respectively, are located parallel to the inner surface of the base 1 at the same height and have the same length. The flag 33 (Figs. 3, 4) is made in the form of a U-shaped rectangular magnetically conductive plate, in the upper part of which, on the lateral surface, two flag holes 34, 35 are made in such a way that the line passing through the centers of the holes 34, 35 is parallel to the inner surface U-shaped rectangular flag plate 33 and its upper end. In the lower left corner of the U-shaped rectangular plate of the flag 33, a rectangular cut of the flag 36 is made, and in the center there is a through hole of the flag 37. In the upper and lower lateral sides of the base 1, two holes 38,39 of the axis of the flag 40 are made, in which the axis of the flag is installed parallel to the base 40, on which, at the inner lower side surface of the base 1, a lock flag washer 41 is installed. Between the lock flag washer 41 and the upper inner side surface of the base 1, on the flag axis 40, a flag 33 is rotatably placed, and the inner surface is U-shaped the flag plate 33 is directed towards the latch 5. The axis of the flag 40 is located above the armatures of the electromagnets 31, 32, and an air gap is formed between the ends of the armatures of the electromagnets 31, 32 and the outer surface of the flag 33. In the center of the axis of the flag 40, on the axis of the flag 40, there is a torsion spring of the flag 42, one end of which is installed in the hole of the through flag 37, and the second in the through hole 43 of the left side wall of the base 1, and the torsion spring of the flag 42 tends to rotate the flag 40 in the direction to the retainer 5.

In the closed state of the lock, when electromagnet 29 and the second electromagnet 30 are de-energized, (Fig. 3) the rectangular protrusion of the lock lever 23 is located in the notch of the flag 36 and abuts against its end surface, and the flag 33, under the action of the torsion spring of the flag 42, with the inner surface P -shaped rectangular flag plate 33 abuts against the left end surface of the lock lever 21.

In the open state of the lock (Fig. 4) with electromagnet 29 turned on, the second electromagnet 30, and the flag 33 pulled to the armatures 31, 32 under the action of the electromagnetic forces of the electromagnets, the rectangular protrusion of the lock lever 23 disengages with the end surface of the flag 33, and the flag 33 , under the action of the torsion spring of the flag 42, abuts against the end surface of the protrusion of the lock lever 23. Moreover, the electromagnet 29 and the second electromagnet 30 create multidirectional magnetic fluxes, and the leads 44, 45 of the electromagnet 29 and the second electromagnet 30 are the terminals for controlling the lock. On the inner surface of the base 1, under the longitudinal groove 24, between the latch 5 and the left end surface of the groove 24, a limit switch 46 is installed, interacting with the upper end surface of the longitudinal groove 24, turning on the limit switch 46 in the closed position of the lock and turning it off in the open position of the lock.

Crossbar 47. of the electromagnetic lock is made in the form of a U-shaped bracket (Fig. 5), and one side of the crossbar 48 is rectangular, with a width less than the width of the groove of the base 2, and the second side of the crossbar 49 is made in the form of a trapezoid, the width of the bases of which is greater than the width of the groove bases 2.

In the upper part of the U-shaped bracket of the bolt 47, a jumper 50 is installed (for example, by rolling), the width of which does not exceed the width of the groove of the base 2, and on the base of the U-shaped bracket of the bolt 47, the bolt fastening holes 51, 52 are made.

The lock works as follows.

In the initial, open state of the lock, the lock lever 21 under the action of the torsion spring of the lock 26 abuts the upper end surface against the stop 28. In this case, the end surface of the bevel of the lock 11 and the end surface of the second side 17 of the projection 16 do not touch each other, and the lock 5, under the action of the spring twist 27, rotates to the stop with the end surface of the bevel of the lock But the inner upper side surface of the base 1. In this case, the flag 33, under the action of the torsion spring of the flag 42, abuts against the end surface of the protrusion of the lock lever 23. Also, in the open state of the lock, the hook with the upper end surface 8 is not covers the groove of the base 2, and the limit switch 46 does not interact with the upper end surface of the longitudinal groove 24, remaining disconnected. When closing the door, the bolt 47 with its side 48 enters the groove of the side 3, and with the side 49 overlaps the groove of the base 2 from the outer side of the base, while resting with the jumper 50 against the lower end surface of the groove of the retainer 7 and turning the retainer 5 clockwise, overcoming the resistance of the torsion spring 27 lock 5. The lock 5 with the end surface of the projection of the lock 12 abuts against the upper end surface of the long side of the lock 15, and rotates counterclockwise the lock 13 together with the lock lever 21, overcoming the force of the torsion spring of the lock 27 and the friction force of the end surface of the projection of the lock lever 23 against the inner the surface of the flag 33. When the protrusion of the blocker lever 23 is positioned in the process of turning the blocker lever 21 opposite the cutout of the flag 36, the flag 33 rotates under the action of the torsion spring of the flag 42 and the protrusion of the blocker lever 23 is located in the cutout of the flag 36 and rests against its end surface, blocking the possibility of gates of the blocker 13. In this case, the end surface of the bevel of the latch 11 and the end surface of the second side 17 of the projection 16 touch each other, blocking the possibility of rotation of the latch 5, and the limit switch 46 is turned on, interacting with the upper end surface of the longitudinal slot 24. The lock is closed, the limit switch 46 switched on. When the lock is opened, a voltage is applied to the terminals of the electromagnets 44, 45, the generated magnetic field of the electromagnets 29, 30 attracts the flag 33 to the armatures 31, 32. As a result, the flag 33 rotates, overcoming the action of the torsion spring of the flag 42 and the protrusion of the lock lever 23 comes out of the cut of the flag 36 releasing the lock lever 21 and the lock 13. Under the action of the torsion spring of the lock 26 and the torsion spring 27, the lock lever 21 together with the lock 13 and the lock 5 rotate, while the end surface of the bevel of the lock 11 and the end surface of the second side 17 of the projection 16 come out of engagement between itself, freeing for further rotation of the latch 5. When the latch 5 is rotated under the action of the torsion spring 27, the jumper 50, resting against the lower end surface of the latch groove 7, pushes the bolt 47 out of the base 2 groove together with the door. At the end of the movement of the lock 5, the lock 13 together with the lock lever 21 take a position corresponding to the open state of the lock. The lock is open, the bolt 47 with the door is removed from the groove of the base 2. When the voltage is removed from the terminals of the electromagnets 44, 45, the flag 33, under the action of the torsion spring of the flag 42, rotates, resting on the end surface of the protrusion of the lock lever 23. The lock returns to its original state.

Claims (4)

1. An electromechanical lock containing a crossbar, an electromagnet, a retainer, an axial bushing, a torsion spring of the retainer, a blocker with a blocker hole, a base made in the form of a rectangular box, with a base groove made on the base perpendicular to the upper side, a groove is made on the upper lateral surface of the base the lateral, adjacent to the groove of the base, the latch is made in the form of a rectangular plate, with a hole for the axial sleeve, installed on the inner surface of the base, with the ability to move on the axial sleeve, on the upper lateral surface of the latch, a hook is formed in the form of a latch groove adjacent to the right end surface of the groove, the upper end surface of the lock is made in the form of a sector of a circle with the center in the hole for the axial bushing, and the lock is installed with the possibility of rotation on the axial bushing passing through the hole of the lock, under the action of the lock torsion spring, in the open state of the lock the position of the lock determines with the stop of the corner of the lower part of the retainer groove against the inner side surface of the base, while the hook of the retainer is located outside the groove of the base, and the groove of the retainer is located opposite the groove of the base, forming an open space of the grooves of the retainer and the base, in the closed state of the lock, the hook is located in such a way that it overlaps the upper part of the base groove, forming a closed space with a base groove and a retainer groove, characterized in that the base is made of a magnetically conductive material, the width of the side base groove corresponds to the width of the base groove, an additional stop, a second electromagnet, a flag made of magnetically conductive material, an axis of a flag, a washer are introduced lock flag, lock washer, lock lever, lock torsion spring, flag torsion spring, the radius of the sector of the upper end surface of the lock is such that the length of the upper part of the lock groove forming a hook is shorter than the lower part of the lock groove, in the lower right part of the lock a rectangular cut is made, the horizontal and vertical surfaces of which are parallel to the sides of the rectangular retainer plate, moreover, on the part of the rectangular retainer plate formed between the vertical end surfaces of the rectangular die cut and the rectangular retainer plate, there is a hole for the axial bushing, and on the left side of the hook there is a through hole for the retainer , on the right side of the rectangular retainer plate formed between the retainer groove and the rectangular cutout, the bevel of the retainer is made directed towards the hook, and on the horizontal end surface of the rectangular retainer plate formed by the cutout, the retainer protrusion is made, the axial sleeve is installed on the inner surface of the base in this way that the end surface of the hook sector is located at the inner upper side surface of the base with the ability to move, the blocker is made in the form of an L-shaped plate, with short and long sides, thickness corresponding to the thickness of the retainer plate, at the end of the inner end surface of the short side of the L-shaped plate there is a protrusion in the form of a trapezoid, one side of which is perpendicular to the bases and adjoins the inner end surface of the short side of the L-shaped plate, and the second has a bevel angle similar to the angle and the direction of the bevel of the lock, in the corner of intersection of the short and long sides of the L-shaped plate a hole of the blocker is made, and on the opposite short side of the L-shaped plate a through hole is made for the blocker, the blocker is installed with the possibility of movement on the bushing of the axial blocker located on the base, thus that the long side of the L-shaped plate in the closed state of the lock is parallel to the lower side of the base, the blocker is mounted for movement on the bushing of the axial blocker located on the base, so that the long side of the L-shaped plate in the closed state of the lock is parallel the bottom side of the base, and the end surface of the bevel of the lock coincides with the end surface of the second side of the projection, while the center of the axial blocker bushing is on a line running parallel to the lower side of the base and the center of the axial retainer bushing, in the closed state of the lock, the lug of the lock touches the upper end the surface of the long side of the L-shaped plate, and when the blocker moves on the bushing of the axial blocker, the left end surface of the long side of the L-shaped plate does not touch the retainer, the blocker lever is made in the form of a rectangular plate of the blocker lever with a lever hole installed on the upper surface of the blocker in this way, that the lower and right end surfaces, as well as the axial bore of the bollard and the bollard lever coincide, on the left end surface, in the lower part of the bollard lever plate, a rectangular protrusion of the bollard is made, and a longitudinal projection is made on the lower part of the bollard lever plate a groove, the depth of which is such that, in the closed state of the lock, the axial retainer sleeve is located in it, and the width of the lever plate does not overlap the closed space of the grooves of the retainer and the base, the blocker is located with the ability to move along the inner surface of the base due to the locking washer installed on the axial sleeve the bollard torsion spring is located above the surface of the bollard lever plate, on the bushing of the axial bollard, above the washer of the locking bollard, there is a torsion spring of the bollard, one bent end of which is installed in the hole of the through bollard, and the other rests against the inner surface of the lower side wall of the base between the bushing of the axial bollard and the axial bushing, moreover, the lock torsion spring tends to turn the lock clockwise, on the axial bushing, above the upper surface of the lock lever plate there is a lock torsion spring, one bent end of which is installed in the through hole of the lock, and the second one rests on the inner surface of the lower side wall of the base between the bushing of the axial lock and the bushing of the axial lock, and the spring of the lock tends to turn the lock counterclockwise, in the open state of the lock, the upper left corner of the lock lever plate rests against the stop, while the angle of rotation the blocker lever with the blocker is such that the end surface of the bevel of the lock and the end surface of the second side of the projection do not touch each other, an electromagnet and a second electromagnet are installed on the left inner side surface of the base, the armatures of which are respectively located parallel to the inner surface of the base at the same height and have the same length, the flag is made in the form of a U-shaped rectangular magnetically conductive plate, in the upper part of which, on the side surface, two holes of the flag axis are made in such a way that the line passing through the centers of the holes is parallel to the inner surface of the П- shaped rectangular plate and its upper end, in the lower left corner of the U-shaped rectangular plate, a rectangular cut-out of the flag is made, and in the center a through-hole of the flag, in the upper and lower lateral sides of the base there are two holes of the flag axis, in which the flag axis is installed parallel to the base, on which a locking flag washer is installed at the inner lower side surface of the base, between the locking flag washer and the upper inner side surface of the base, on the flag axis, a flag is rotatably placed, and the inner surface of the U-shaped flag plate is directed towards the retainer, and the inner surface The U-shaped rectangular flag plate is directed towards the retainer, the flag axis is located above the anchors of the electromagnets, and an air gap is formed between the ends of the anchors and the outer surface of the flag, in the center of the flag axis, on the flag axis there is a flag torsion spring, one end of which is installed in the hole through the flag, and the second - in the hole of the left side wall of the base, and the torsion spring of the flag tends to turn the flag towards the lock, in the closed state of the lock, with the electromagnet and the second electromagnet de-energized, the rectangular protrusion of the lock lever is located in the notch of the flag and rests on its end surface, and the flag, under the action of the flag torsion spring, the inner surface of the U-shaped rectangular plate of the flag rests on the left end surface of the blocker lever, and when the electromagnets are on, and the flag is pulled under the action of electromagnetic forces to the anchors, the rectangular protrusion of the blocker lever comes out of engagement with the end surface of the flag, in the open state of the lock, with the electromagnet turned on, the second electromagnet, and under the action of electromagnetic forces attracted to the armatures of the electromagnets, the rectangular protrusion of the blocker lever disengages with the end surface of the flag, and the flag under the action the torsion spring of the flag rests against the end surface of the protrusion of the lock lever. 2. Electromagnetic lock according to claim 1, characterized in that multidirectional magnetic fluxes are created by the electromagnet and the second electromagnet, and the terminals of the electromagnet and the second electromagnet are the terminals for controlling the lock. 3. Electromagnetic lock according to PP. 1, 2, characterized in that a limit switch is installed on the inner surface of the base, under the longitudinal groove, between the retainer and the left end surface of the groove, interacting with the upper end surface of the longitudinal groove, turning on the limit switch in the closed position of the lock and turning it off in the open position of the lock. 4. Electromagnetic lock according to PP. 1-3, characterized in that the crossbar of the electromagnetic lock is made in the form of a U-shaped bracket, one side of which is rectangular, with a width smaller than the width of the base groove, and the second side is made in the form of a trapezoid, the width of the bases of which is greater than the width of the base groove, in In the upper part of the U-shaped crossbar bracket, a jumper is installed, the width of which does not exceed the width of the base groove, and the crossbar fastening holes are made on the base of the U-shaped crossbar bracket.

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