RU198653U1 - ELECTROMECHANICAL LOCK RIG - Google Patents

Abstract

The utility model relates to the field of security technology and is applicable (for example) in locks with ball grips. The bolt can be installed on the doors of rooms, cabinets, refrigerators and other objects on which electromechanical locks with ball grips are installed. The bolt of the electromechanical lock contains a rod 1, at one end of which a ball head 2 is made, and at the other - a thread. At the threaded end of the rod, a round slotted nut is installed by a screw connection 3. The rod 1 is installed with the ability to move into a sleeve with a flange 4. From the side of flange 7 of a sleeve with a flange 4, a disk is pressed into the hole of a larger diameter 6. In a hole of a larger diameter 6, a sleeve with a flange 4 a cylindrical compression spring 9 is installed, one end of which abuts against the disk 8, and the second - against a round slotted nut 3. The base is made in the form of a U-shaped bracket 10 with mounting holes 13, 14. On the transverse part 15 of the U-shaped bracket 10, a longitudinal hole 16, in which a sleeve with a flange 4 is installed, directed by the flange 7 inside the U-shaped bracket 10 of the base. On the outer side of the transverse part 15 of the U-shaped bracket 10, two washers 19, 20 are put on a sleeve with a flange 4. A second cylindrical compression spring 21 is installed between the inner sides of the washers 19, 20, and the outer side of the washer 20 abuts against the surface of the transverse part 15 P- shaped bracket 10, and the outer side of the washer 19 abuts against the lock washer 18. The purpose of the utility model is to simplify the technical implementation of the bolt, expanding the functionality due to self-setting of the bolt rod position when the bolt is displaced relative to the lock in horizontal and vertical directions (for example, when the door slips). 2 ill.

Description

The utility model relates to the field of security technology and is applicable (for example) in locks with ball grips. The crossbar can be installed on the doors of rooms, cabinets, refrigerators and other objects on which electromechanical locks with ball grips are installed.

Known crossbar of electromechanical lock [1], which is a rod with a spherical head formed at the end. The disadvantage of this device is the impossibility of regulating the position of the rod when its position changes (for example, when the door slips) relative to the lock.

Known crossbar of an electromechanical lock [2], which is a rod with a thread at one end and a ball head at the other end, and the ball head of the rod is installed in the inner cavity of the bowl-shaped lowering of the support bar, at the bottom of the lowering there is a hole in which the rod is located. At the threaded end of the rod, a bushing is installed with a threaded connection, at the outer end of which a spherical head is made, and at the inner end - a cup. A cylindrical compression spring is installed between the outer surface of the bowl-shaped lowering of the support bar and the bowl. This design of the bolt only allows you to change the inclination of the position of the bolt axis relative to the support bar. The disadvantage of this device is the impossibility of interlacing the position of the crossbar axis without tilting in order to compensate for the drawdown of the door.

The closest technical solution is a crossbar of an electromechanical lock [3], containing: a connecting bushing, a rod, a bushing with a flange, a support bushing, two bushings of different height, a disk, two strips with longitudinal holes at one end and round at the other, and the strips are interconnected connecting sleeve with two outer flanges, with the ability to move the strips relative to each other. The strips are connected through round holes with a screw connection to the base plate through bushings of different height so that the axis of the bushing hole is perpendicular to the base plate. At one end of the bolt rod, a thread is made, and at the other end, a tapered head, similar to the head of a countersunk screw. A bushing with a flange directed towards the support plate is installed in the hole of the connecting sleeve. Moreover, the flange of the sleeve with the flange is adjacent to the flange of the connecting sleeve. In the sleeve with a flange, a hole is made, consisting of two sections of different diameters, a section of a larger diameter corresponding to the diameter of the cone head of the stem located on the side of the sleeve flange, a section of a smaller diameter equal to the diameter of the stem. On the outer surface of the sleeve with a flange, above the flange of the connecting sleeve, a groove is made in which a locking washer is installed, between which a supporting sleeve is located and the flange of the connecting sleeve. In a hole of a smaller diameter of a sleeve with a flange, a stem is movable, the conical head of which is located in the hole of a sleeve with a flange of a larger diameter. On the side of the flange of the sleeve with the flange, a disk is pressed in, between which a cylindrical compression spring is installed and the taper head of the rod. At the threaded end of the bolt, a bolt head is installed in the form of a ball bushing.

The disadvantage of this device is the complexity of the technical implementation, due to a significant number of structural elements, the technological difficulty of pressing the connecting sleeve together with strips, in order to form one of the sleeve flanges. In addition, the fixed setting of the bolt position by screw connections of the strips does not allow the bolt to self-align when the door slips, and its slump requires constant adjustment of the slats position by the service personnel.

The purpose of the utility model is to simplify the technical implementation of the bolt, expanding the functionality due to self-setting of the bolt rod position when the bolt is displaced relative to the lock in the horizontal and vertical directions (for example, when the door slips).

This goal is achieved by the fact that in the bolt of an electromechanical lock containing a base, a rod, at one end of which a thread is made, a sleeve with a flange, the hole in which consists of two sections of different diameters, larger and smaller, equal to the diameter of the rod, in the hole of the smaller diameter of the sleeve with a flange, a stem is installed with the ability to move, a groove is made on the outer surface of the sleeve with a flange, in which a lock washer is installed, and from the side of the flange of the sleeve with a flange, a disk is pressed into the hole of a larger diameter, a cylindrical compression spring is installed in the hole of a larger diameter of the sleeve with a flange, one the end of which rests against the disk, a second cylindrical compression spring is additionally introduced, a round slotted nut, two washers, a ball head is made at the second end of the rod, and a round slotted nut is installed at the threaded end with a screw connection, the outer diameter of which is equal to the diameter of the hole of the larger diameter of the sleeve with a flange , and the nut to The spline spline is located with the ability to move in the hole with a larger diameter of the sleeve with a flange and abuts against the second end of the cylindrical compression spring, the base is made in the form of a U-shaped bracket with ends bent outward, on which the fastening holes are made, a longitudinal part of the U-shaped bracket is made a hole whose width is greater than the outer diameter of the sleeve with a flange, a sleeve with a flange is installed in the longitudinal hole, directed by the flange into the U-shaped base bracket, and the width of the longitudinal hole and the diameter of the flange of the sleeve with the flange are such that when the sleeve with the flange moves in the longitudinal hole, the flange does not come out of engagement with the edges of the longitudinal hole opposite in width, on the outer side of the transverse part of the U-shaped bracket, two washers are put on the sleeve with the flange, between the inner sides of which a second cylindrical compression spring is installed, and the outer side of one washer abuts against the surface of the transverse part P -shaped bracket, and the outer side of the second washer abuts against the lock washer.

FIG. 1 is a front sectional view of the crossbar, figure 2 is a top view of the crossbar.

The crossbar of the electromechanical lock contains a rod 1, at one end of which a ball head 2 is made, and at the other - a thread. At the threaded end of the stem, a round slotted nut is installed by a screw connection 3. The stem 1 is installed with the ability to move into a sleeve with a flange 4, the hole in which consists of two sections, a section of a smaller diameter 5 equal to the diameter of the stem 1, and a section of a larger diameter 6 equal to the outer the diameter of the round slotted nut 3. From the side of the flange 7 of the sleeve with the flange 4, a disk 8 is pressed into the hole of the larger diameter 6. In the hole of the larger diameter 6 of the sleeve with the flange 4, a cylindrical compression spring 9 is installed, one end of which rests against the disk 8, and the other against circular slotted nut 3. The base is made in the form of a U-shaped bracket 10 with outwardly bent ends I, 12, on which fastening holes 13, 14 are made. On the transverse part 15 of the U-shaped bracket 10, a longitudinal hole 16 is made, the width of which is greater than the outer diameter bushings with a flange 4. A bushing with a flange 4 is installed in the longitudinal hole 16, directed by the flange 7 inside the U-shaped bracket 10 of the base, and w The irina of the longitudinal hole 16 and the diameter of the flange 7 of the sleeve with the flange 4 are such that when the sleeve with the flange 4 moves in the longitudinal hole 16, the flange 7 does not come out of engagement with the edges of the longitudinal hole 16 opposite in width. On the outer surface of the sleeve with the flange 4, a groove 17 is made , in which a lock washer is installed 18.On the outer side of the transverse part 15 of the U-shaped bracket 10, two washers 19, 20 are put on the sleeve with a flange 4, the outer diameter of which is equal to the diameter of the flange 7. Between the inner sides of the washers 19, 20 a second coil spring is installed compression 21, and the outer side of the washer 20 abuts against the surface of the transverse part 15 of the U-shaped bracket 10, and the outer side of the washer 19 abuts against the lock washer 18.

The device works as follows. The crossbar of the electromechanical lock is installed on the door in such a way that the axis of the rod 1 coincides with the axis of the opening of the electromagnetic lock. The technological error in the installation of the bolt relative to the electromagnetic lock in the longitudinal direction is compensated by the movement of the rod 1 inside the sleeve with the flange 4 due to the increased value of the bolt length. When the crossbar moves in the vertical or horizontal directions when the door slips, due to the skew of the rod 1 in the hole of the electromagnetic lock, a lateral force arises, leading to the compression of the second cylindrical compression spring 21 and the movement of the sleeve with the flange 4 in the longitudinal hole 16 in the direction of the door slump.

The movement of the sleeve with the flange 4 leads to the coincidence of the axis of the rod 4 with the axis of the opening of the electromagnetic lock and the implementation of self-adjustment of the position of the bolt when the door slips.

Claims (1)

A crossbar of an electromechanical lock containing a base, a stem, at one end of which a thread is made, a sleeve with a flange, the hole in which consists of two sections of different diameters, larger and smaller, equal to the diameter of the stem, in the hole of a smaller diameter, a sleeve with a flange is installed with the ability to move the stem , a groove is made on the outer surface of the sleeve with a flange, in which a lock washer is installed, and on the side of the flange of the sleeve with a flange, a disk is pressed into the hole of the larger diameter, a cylindrical compression spring is installed in the hole of the larger diameter of the sleeve with the flange, one end of which rests on the disk, which differs by the fact that a second cylindrical compression spring, a round slotted nut, two washers are additionally introduced into it, a ball head is made at the second end of the rod, and a round slotted nut is installed at the threaded end with a screw connection, the outer diameter of which is equal to the diameter of the hole of the larger diameter of the sleeve with a flange, where the nut is round splines th is located with the ability to move in a hole of a larger diameter of a sleeve with a flange and abuts against the second end of a cylindrical compression spring, the base is made in the form of a U-shaped bracket with outwardly bent ends on which fastening holes are made, a longitudinal hole is made on the transverse part of the U-shaped bracket , the width of which is greater than the outer diameter of the sleeve with a flange, a sleeve with a flange is installed in the longitudinal hole, directed by the flange into the U-shaped base bracket, and the width of the longitudinal hole and the diameter of the flange of the sleeve with the flange are such that when the sleeve with the flange moves in the longitudinal hole, the flange does not comes out of engagement with the edges of the longitudinal hole opposite in width, from the outer side of the transverse part of the U-shaped bracket, two washers are put on the sleeve with the flange, the outer diameter of which is equal to the diameter of the flange, between the inner sides of which a second cylindrical compression spring is installed, and the outer side of one washer abuts the surface of the transverse part of the U-shaped bracket, and the outer side of the second washer abuts against the lock washer.

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