RU75231U1 - WELL BUTTER - Google Patents

Abstract

1. The well cutter comprises a spring actuator, a latch mechanism, and an arm. They include a housing interconnected by nuts and bolts passed through holes made on the annular protrusions available at the ends of the housings. A shaft is mounted inside the housing of the latch mechanism, which is fixedly connected at one end to the end of a spring-loaded shaft located in the housing of the spring drive and containing a handle on the free end. At the other end, the latch mechanism shaft is connected to the end of the shaft located in the housing of the bracket, and containing at its free end a sleeve with a shutter in the form of a disk. A cylindrical wheel with a longitudinal recess on the side wall is fixedly mounted on the latch mechanism shaft. A sleeve connected to one end of the torsion spring is fixedly mounted on the shaft of the spring drive. The second end of the torsion spring is connected to another sleeve fixed to the spring drive housing. A cylindrical selection is made from a bracket mechanism end face adjacent to the housing; On the wall of this sample, an aperture is made for turning a threaded journal, wrapped in a threaded sample of the bracket body. The aperture is closed by a cover made in the form of a gutter and fixed with a screw wrapped in a threaded set on the bracket body. At the free end of the bracket body there is a threaded protrusion wrapped in a threaded seam made from the inner side wall of the hollow cylindrical body. From the bottom of the threaded seam, a hole was drilled coaxially to the seam for the bracket shaft. The cavity of the hollow cylindrical body is made with two cylindrical samples. In a cylindrical sample with a large diameter, there is a shutter, and a cylindrical sample with a small diameter is made through. On the side wall of the housing of the latch mechanism is installed opposite the recess of the cylindrical wheel and the annular protrusion of the hollow cylindrical insert of the power adapter is fixedly fixed. In the cavity of the hollow cylindrical insert is a long part of the spring-loaded rod. In a hollow cylindrical cavity

insert, on the side of the latch mechanism housing, an electromagnet sleeve is installed. At the end of this sleeve, adjacent to the body of the electromagnet, there is a sample with a compression spring and a short part of the spring-loaded rod, made with an annular cylindrical protrusion. An electromagnet consists of a housing having a bottom and a cover with through holes in the center, and an electrically conductive coil located between the bottom and the housing cover. In order to simplify and expand technical capabilities, the cover of the bracket opening has the shape of a hollow cylinder and is made with an inner diameter equal to the outer diameter of the bracket body. The housing of the latch mechanism and the housing of the bracket are made without annular protrusions. At the end of the housing of the latch mechanism facing the bracket, a cylindrical protrusion is made with a hole for the shaft and with an outer diameter equal to the inner diameter of the cylindrical sample of the bracket body. On the cylindrical protrusion of the housing of the latch mechanism, four radially arranged threaded selections are made, provided with bolts passed through through holes made on the wall of the bracket housing. The shafts of the latch mechanism and the bracket are rigidly interconnected. At the end of the shaft protruding beyond the housing of the latch mechanism, a handle is fixed in the form of a rod mounted in a radial hole made on the shaft. In another embodiment, the cutoff of the well, the number of threaded samples on the ledge of the housing of the latch mechanism is two times greater than the number of holes on the wall of the housing of the bracket and equal to eight. The cylindrical wheel of the latch mechanism is made with a hollow cylindrical protrusion. It is located at the end of the cylindrical wheel remote from the bracket body and is made with an inner diameter equal to the outer diameter of the torsion spring. A torsion spring is installed in the cavity of the hollow cylindrical protrusion of the cylindrical wheel, connected at one end to the cylindrical wheel, and the second to the lid of the housing of the latch mechanism. The cover of the latch mechanism housing is fixed to the end of this case by bolts passing through its holes and wrapped in threaded seals made from the end face of the latch mechanism housing. In another embodiment, the cutter

wells, the number of threaded samples in the latch mechanism housing is at least two times the number of bolt holes on the lid mechanism housing cover. On the side wall of the housing of the latch mechanism, opposite the cylindrical wheel, a radial through hole is made. Opposite this hole is a cylindrical protrusion with an internal thread. The electromagnet bushing is made with an external thread, installed by a cylindrical set, equipped with a compression spring and a short part of a spring-loaded rod with an annular protrusion, opposite the latch mechanism body and wrapped on the internal thread of the cylindrical protrusion. At the free end of the sleeve of the electromagnet, coaxially with this sleeve, a tube is fixed - the guide of the spring-loaded rod. The tube passes through the opening of the bottom of the electromagnet housing and the upper end is located in the hole of the cover of the electromagnet housing. A long part of a spring-loaded stem is installed in the tube. The electromagnet sleeve is rigidly fixed to the bottom of the electromagnet housing. The recess on the cylindrical wheel is made in the form of a radial hole drilled coaxially to the spring rod, and having a diameter approximately equal to the diameter of the spring rod. On a cylindrical wheel, coaxial to the radial hole, a threaded set is made, equipped with a locking screw in contact with a sharp end with the side wall of the shaft. Near the electromagnet housing cover, the end of the spring-loaded stem is elongated. A plate with an end bent at a right angle is rigidly fixed on the outside of the cover of the electromagnet housing. A through hole with a diameter equal to the outer diameter of the threaded protrusion of the microswitch is made at the bent end of the plate. A threaded protrusion of the microswitch is installed in the hole of the bent end of the plate. On the part of the threaded protrusion of the microswitch protruding beyond the bent end of the plate, the bracket is mounted by a hole and fixed by a nut wrapped on this protrusion. It is made in the form of a U-shaped bent plate with a through hole on the shelf for the threaded protrusion of the microswitch and two coaxial holes made on the protrusions made on the upper faces of the sidewalls. In the holes of the protrusions of the sidewalls of the plate, the ends of the rod are mounted, rigidly fixed by the middle part on a long shoulder near the bend of the bent

at right angles to the two shoulders of the lever. This lever interacts with a long shoulder with the end face of the elongated end of the spring-loaded rod, and with a short shoulder - with the microswitch button. An electromagnet end face has a hollow cylindrical protrusion with an internal thread, onto which an additional cover is screwed, made in the form of a disk with an annular cylindrical protrusion having an external thread.

Description

The invention relates to devices designed to block the passage of fluid pumped through a pipeline.

A well-known OS-2M well shut-off device (TU 39-1030-94, manufacturer LLC “Leninogorsk Experimental Petroleum Automation Plant”, 423250, Republic of Tatarstan, Leninogorsk, Tchaikovsky St., 40), containing a spring drive, a latch mechanism and an arm comprising a housing interconnected by nuts and bolts passed through holes made on annular protrusions at the ends of the housings, and a shaft fixedly connected at one end to the end of the spring-loaded shaft located in the housing is installed inside the housing of the latch mechanism a spring actuator, and containing a handle on the free end, and the other end connected to the end of the shaft located in the bracket body and containing a sleeve with a shutter in the form of a disk on the free end, and a cylindrical wheel with a longitudinal recess on the latch mechanism is fixedly fixed a side wall, and on the shaft of the spring actuator, a sleeve fixed to one end of the torsion spring is fixedly mounted, the second end of the torsion spring being connected to another sleeve fixed to the spring drive housing, a cylindrical selection was made from a bracket body end face adjacent to the housing of the latch mechanism, and an opening was made on the wall of this selection for turning a threaded journal, wrapped in a threaded selection of the bracket housing, the opening being closed by a cover made in the form of a gutter and fixed with a screw wrapped in a threaded selection bracket housing, and on the free end of the bracket housing there is a threaded protrusion wrapped in a threaded selection made from the inner side wall of the hollow cylindrical body, moreover, from the bottom of the threaded sample, a hole was drilled coaxially to this sample for the bracket shaft, and the cavity of the cylindrical body is made with two cylindrical samples and in a cylindrical sample with a large

the diameter is a shutter, and a cylindrical sample with a small diameter is made through, and on the side wall of the housing of the latch mechanism is installed opposite the recess of the cylindrical wheel and the annular protrusion of the hollow cylindrical insert of the power adapter is fixed, and in the cavity of the hollow cylindrical insert there is one part of the spring-loaded rod, and into the cavity of a hollow cylindrical insert, on the side of the latch mechanism housing, an electromagnet sleeve is installed, having at the end adjacent to the housing ektromagnita, sampled with a compression spring and a second part of the spring-loaded rod formed with an annular cylindrical projection, wherein the electromagnet consists of a body having a bottom and a cover with through holes at the center and a conductive coil disposed between the bottom and the cover. In the well-known cutoff of the well, the presence of annular protrusions on the bodies of the spring drive, the latch mechanism, the bracket and the attachment, as well as the presence of three shafts connected to each other, complicate the design of the device. Also, the operator can not visually monitor the health of the electromagnet when a known well shutoff is triggered.

The purpose of the utility model is to simplify the design and expand technical capabilities. This goal is achieved by the fact that in the well cutter containing a spring drive, a latch mechanism and an arm comprising a housing interconnected by nuts and bolts passed through holes made on annular protrusions at the ends of the housings, and inside the housing of the latch mechanism mounted on bearings is a shaft fixedly connected at one end to the end of a spring-loaded shaft located in the spring drive housing and containing a handle on the free end, and connected to the shaft end at the other end, located in the housing of the bracket, and containing on the free end of the sleeve with a shutter in the form of a disk, and on the shaft of the latch mechanism the cylindrical wheel is fixedly mounted with a longitudinal recess on the side wall, and the sleeve connected to one end of the torsion spring is fixedly mounted on the shaft of the spring drive the second end of the torsion spring is connected to another sleeve fixed to the spring drive housing, and a cylindrical selection is made from the closure mechanism of the end face of the bracket housing but on

the wall of this sample has an opening for turning a threaded journal, wrapped in a threaded sample of the bracket body, and the opening is closed by a cover made in the form of a gutter and fixed with a screw wrapped in a threaded sample on the bracket case, and on the free end of the bracket case there is a threaded protrusion wrapped in a threaded sample made from the inner side wall of the hollow cylindrical body, and from the bottom of the threaded sample, a hole was drilled coaxially to this sample for the bracket shaft, and l of the cylindrical body is made with two cylindrical samples and a flap is located in the cylindrical sample with a large diameter, and the cylindrical sample with a small diameter is made through, and on the side wall of the housing of the latch mechanism is installed opposite the recess of the cylindrical wheel and the annular protrusion of the hollow cylindrical insert of the power adapter is fixedly fixed in the cavity of the hollow cylindrical insert there is one part of the spring-loaded rod, and in the cavity of the hollow cylindrical insert, with one hundred the housing of the latch mechanism, an electromagnet sleeve is installed, having at the end adjacent to the electromagnet case a sample with a compression spring and a second spring-loaded stem made with an annular cylindrical protrusion, the electromagnet consisting of a case having a bottom and a cover with through holes in the center, and an electrically conductive coil located between the bottom and the housing cover, the bracket opening cover has the shape of a hollow cylinder and is made with an inner diameter equal to the outer diameter of the housing bracket a, moreover, the housing of the latch mechanism and the housing of the bracket are made without annular protrusions, and at the end of the housing of the mechanism of the latch facing the bracket, a cylindrical protrusion is made with a hole for the shaft and with an outer diameter equal to the inner diameter of the cylindrical sample of the housing of the bracket, and on the cylindrical protrusion of the housing the latch mechanism is made of four radially located threaded samples, equipped with bolts passed through holes made on the wall of the housing of the bracket, and the shafts are mechanically PCA latch and bracket are rigidly connected to one another, wherein the shaft end projecting over the mechanism housing

latches, a handle is fixed in the form of a rod mounted in a radial hole made on the shaft, and the number of threaded samples on the protrusion of the latch mechanism body is twice as many as the number of holes on the wall of the bracket body and is eight, and the cylindrical wheel of the latch mechanism is made with a hollow cylindrical protrusion located on the end face of the cylindrical wheel remote from the bracket body and made with an inner diameter equal to the outer diameter of the torsion spring, moreover, into the cavity of the hollow cylinder A cylindrical wheel has a torsion spring connected at one end to the cylindrical wheel and the other to the latch of the latch mechanism housing, the latch of the latch mechanism housing being fixed to the end of this housing by bolts passing through its holes and wrapped in threaded seals made from the end of the housing the latch mechanism, and the number of threaded samples in the housing of the latch mechanism is at least two times the number of bolt holes on the cover of the housing of the latch mechanism, on the side wall of the housing of the latch mechanism, opposite the cylindrical wheel, a radial through hole is made, and a cylindrical protrusion with an internal thread is made opposite this hole, and the electromagnet sleeve is made with an external thread, a cylindrical set is provided with a compression spring and a short part of the spring-loaded rod made with an annular cylindrical protrusion opposite the housing of the latch mechanism and is wrapped on the internal thread of the cylindrical protrusion, and on the free end electromagnet bushings, a tube — a guide of a spring-loaded rod — is rigidly fixed coaxially with this bushing, and the tube passes through the hole of the bottom of the electromagnet body and the upper end is located in the hole of the electromagnet housing cover, the long part of the spring-loaded rod is installed in the tube, the electromagnet sleeve being rigidly fixed to the bottom of the electromagnet moreover, the recess on the cylindrical wheel is made in the form of a radial hole drilled coaxially to the spring-loaded rod, and having a diameter, p approximately equal to the diameter of the spring-loaded rod, and on the cylindrical wheel, coaxial to the radial hole, is made threaded

a sample equipped with a locking screw in contact with a sharp end with the side wall of the shaft, the end of the spring-loaded rod adjacent to the cover of the electromagnet housing being elongated, and a plate with a bent at right angles is rigidly fixed to the outer side of the cover of the electromagnet housing, and at the bent end of the plate a through hole with a diameter equal to the outer diameter of the threaded protrusion of the microswitch, and a threaded protrusion of the microswitch is installed in the hole of the bent end of the plate eating, and on the protruding beyond the bent end of the plate part of the threaded protrusion of the microswitch is installed with a hole and fixed with a nut wrapped on this protrusion, a bracket made in the form of a U-shaped bent plate with a through hole on the shelf for the threaded protrusion of the microswitch and two coaxial holes made on the protrusions made on the upper faces of the sidewalls, and the ends of the rod are installed in the holes of the protrusions of the sidewalls of the rod, rigidly fixed by the middle part on a long shoulder near the bend at a right angle to the two shoulders of the lever, interacting with a long shoulder with the end of the elongated end of the spring-loaded rod, and with the short shoulder with the microswitch button, and at the end of the electromagnet there is a hollow cylindrical protrusion with an internal thread, into which an additional cover is made, made in the form of a disk with an annular cylindrical protrusion having an external thread.

Figure 1 shows a sectional view of a cutoff well; figure 2 is a view of I figure 1; figure 3 is a view II of figure 1.

The well cutter comprises a bracket 1 (Fig. 1) and a latch mechanism 2. At the left end of the bracket body 3 there is a cylindrical sample 4 and an aperture 5 made on the wall 6. In the middle part of the body 3, a cylindrical 7 and a threaded 8 sample are made. A packing 9 of a shaft 10 is installed in a cylindrical set 7, and a packing follower 11, made with radial holes 12, is screwed into a threaded set. The packing follower 11 is turned through these openings 5. The opening 5 is closed by a lid 13 having the shape of a hollow cylinder, the inner diameter of which is equal to the outer diameter of the housing 3. The cover 13 is fixed against movement

a screw 14 passed through an opening on the cover 13 and wrapped in a threaded seam made on the housing 3. At the right end of the housing 3 of the bracket 1 there is a threaded protrusion 15. It is wrapped in a threaded seam 16 provided with a gasket 17 and made from the side wall of the hollow cylindrical body 18 (hereinafter referred to as building 18). A hole 19 for the shaft 10 is drilled coaxially to this sample from the bottom of the threaded sample 16. In the housing 18 there are cylindrical samples 20 and 21. A cylindrical sample 21 with a small diameter is made through, and in the cylindrical sample 20 with a large diameter there is a right part of the shaft 10, at the end which is fixed by a nut 22 of the sleeve 23. To it is rigidly fixed shutter 24, made in the form of a disk. When the shaft 10 is rotated, the shutter 24 rests with a flat surface on the saddle 25, made in the form of a hollow cylinder, and pressed into the cylindrical selection 21 of the housing 18. Flanges 28 are attached to both ends of the housing 18 with nuts 26 and pins 27. On the right end of the housing 29 of the mechanism latches 2, a cylindrical protrusion 30 is made with a hole (position not given) for the shaft 10 and with a cylindrical selection, into which a sliding bearing 31 having the form of a sleeve is pressed in. A threaded protrusion 15 of the housing 3 of the bracket 1 is provided with a similar bearing. The outer diameter of the cylindrical protrusion 30 is chosen to be equal to the diameter of the cylindrical selection 4 of the housing 3 of the bracket 1. Four radially directed threaded samples are provided on this protrusion, provided with bolts 32 passed through the through holes made on the wall 6 the housing 3 of the bracket 1. Thus, the housing 3 of the bracket 1 and the housing 29 of the latch mechanism 2 are connected to each other. In another embodiment, the cutoff of the well the number of threaded samples in d and twice as many holes made in the wall 6, and is eight. They are located on one circumference, coaxial to the axis of the housing 29, and the angle between them is 45. The shaft 33 of the latch mechanism and the shaft 10 of the bracket are rigidly connected to each other, for example, by electric welding, and represent one common shaft 34. On the shaft end 34 protruding from the housing 29 a through radial hole is provided, equipped with a handle in the form of a rod. The cylindrical wheel 35 is made with a hollow cylindrical protrusion 36, which is located on its left end and is made with

an inner diameter equal to the outer diameter of the torsion spring 37. It is installed in the cavity of the hollow cylindrical protrusion 36 of the cylindrical wheel 35. The right end of the torsion spring 37 is installed in the through hole 38 of the cylindrical wheel 35, and the left end is in the through hole 39 drilled on the housing cover 40 29 of the latch mechanism 2. The cover 40 is fixed to the left end of the housing 29 with three bolts 41, passed through the holes 42 and wrapped in threaded seals made from the end of the housing 29 of the latch mechanism 2. The number of threaded rock in the housing 29 is twice the number of holes 42 in the cover 40 and is equal to six. This achieves smooth control of the torsion force of the torsion spring 37 during the assembly of the well shutoff. On the side wall of the housing 29 of the latch mechanism 2, opposite the cylindrical wheel 35, a radial through hole is made perpendicular to the axis of this housing. Opposite this hole on the side wall of the housing 29 is a cylindrical protrusion 43 (figure 2) with an internal thread. The sleeve 44 of the electromagnet 45 is made with an external thread, installed by a cylindrical set 46, equipped with a compression spring 47, opposite the housing 29 and screwed onto the internal thread of the cylindrical protrusion 43. On the free, upper end of the sleeve 44 of the electromagnet, coaxially to this sleeve, the tube 48 is fixed (guide spring stem). It passes through the opening of the bottom 49 of the body 50 of the electromagnet and the upper end 51 (Fig. 3) is located in the hole of the cover 52 of the body 50. The long part of the spring rod 53 is installed in the tube 48, and the short part, made with an annular cylindrical protrusion 54, is located in a cylindrical a sample of 46 bushings 44 of an electromagnet. This sleeve is rigidly, electrically welded, fixed to the bottom 49 of the electromagnet housing 50 and secured against turning by the locking screw 55. Between the cover 52 and the bottom 49 of the housing 50 of the electromagnet 45 there is a drum 56 with an electrically conductive coil 57. The recess on the cylindrical wheel 35 is made in the form of a radial hole 58 (Fig.2), drilled coaxially to the spring-loaded rod 53. The diameter of this hole is approximately equal to the diameter of the spring-loaded rod 53. On the cylindrical wheel 35, coaxial to the radial hole 58, a threaded sample 59 is made, sn bzhennaya locking screw 60. Acute

the end 61 of the screw 60 is in contact with the side wall of the shaft 34 and prevents axial movement of the shaft 34. On the side wall of the shaft 34 on the opposite side of the screw 60, a groove for the key 62 is made, and a longitudinal groove 63 for the same key is made from the hole of the cylindrical wheel 35. The key 62 prevents rotation of the shaft 34 relative to the cylindrical wheel 35. Near the cover 52 of the housing 50 of the electromagnet 45, the upper end of the spring rod 53 is made with an elongated end 64, the diameter of which is smaller than the diameter of the spring rod 53. On the outside of the cover 52 of the electromagnet 45 with screws 65 a plate is fixed 66 made with a through hole through which the elongated end 64 of the spring rod 53 passes. The plate 66 has a right-angled end 67 at which a through hole with a diameter is made, equal to the outer diameter of the threaded protrusion 68 of the microswitch 69. A threaded protrusion 68 of the microswitch 69 is installed in the hole of the bent end 67 of the plate 66. The part of the threaded protrusion 68 of the microswitch protrudes beyond the bent end 67 of the plate 66 and is fixed with a nut 70 wrapped on this protrusion, the bracket 71 It is made in the form of a U-shaped bent (if viewed from above in FIG. 3) plate with a through hole on the shelf 72 for the threaded protrusion 68 of the microswitch and two coaxial holes 73. They are made on blunts made on the upper faces of the sidewalls 74. The ends of the rod 75 are fixed in these holes, which are rigidly fixed with the middle part near the bend of the two-arm lever 76 bent at right angles. This lever interacts with the long arm 77 with the end face of the elongated end 64 of the spring rod 53 and the short arm 78 - with the button 79 of the microswitch 69. At the end 80 of the housing 50 of the electromagnet 45, a hollow cylindrical protrusion 81 with an internal thread 82 is made. An additional cover 83 is made into this thread, made in the form of a disk with an annular protrusion 84, I have them male thread. The inner diameter of the hollow cylindrical protrusion 81 is selected larger than the inner diameter of the housing 50 of the electromagnet 45. The outer diameter of the cover 52 is chosen equal to the inner diameter of the hollow cylindrical protrusion 81. The cover 52 is attached to the end face 80 with three screws 85.

Cutter wells works as follows. At the initial moment, due to the deformation force of the compression spring 47, the spring-loaded rod 53 of the electromagnet 45 is in its lowest position (as shown in FIG. 2). Its lower end 86 is located in the hole 58 of the cylindrical wheel 35. In this case, the shutter 24, connected with the sleeve 23 to the shaft 34, is parallel to the axis of the hollow cylindrical body 18. Therefore, the liquid from the pipeline through the flange 28 and the cavity of the cylindrical sample 20 enters the cylindrical cavity 21. From there, fluid through another flange 28 enters a pipeline located behind the well shutoff. In case of an accident (rush), as well as a change in the parameters of the pumped liquid, electricity is supplied to the electrically conductive coil 57 of the electromagnet 45. In this case, the spring-loaded stem 53 rises. Its lower end 86 leaves the hole 58 of the cylindrical wheel 35. In this case, the cylindrical wheel 35 under the action of the torsion spring 37 is rotated clockwise at a right angle (as viewed from the left in FIG. 1). Together with the cylindrical wheel 35, the shaft 34 and the shutter 24 rotate. The latter lies flat on the seat 25 and blocks the fluid movement through the cylindrical selection 21. When the spring rod 53 is lifted upward, its elongated end 64 lifts up the left end of the long shoulder 77 of the two-arm lever 76. Because of this, the short arm 78 rotates clockwise (in FIG. 3) and moves the button 79 to the left. In this case, the electric circuit is closed in the microswitch 69 and a green lamp lights up at the control room, signaling the action of the electromagnet 45. After the accident has been eliminated, the shaft 34 is rotated by the handle 87 counterclockwise. Together with it, the flap 24 is rotated. It moves from the seat 25 at a right angle. In this case, the lower end 86 of the spring rod 53 enters the bore 58 of the cylindrical wheel 35. As a result, the rotation of the shaft 34 is stopped. Also, the long arm 77 of the two-arm lever 76 is lowered and the short arm is rotated counterclockwise. Therefore, the button 79, under the action of the compression spring of the microswitch 69, moves to the right and the electrical circuit in the microswitch 69

opens up. In the event of an accident in the pipeline, the operation of the well shut-off occurs similarly to the above.

In the proposed cutoff of the well, in comparison with the prototype, there are no: the insert of the power adapter, the body of the power tool and the spring drive, as well as the shaft and two bushings of the spring drive. Also in the cases of the latch mechanism and the bracket there are no annular protrusions. Instead of two shafts (the latch mechanism shaft and the bracket shaft), one shaft is used without connecting parts: coupling halves and screws. All this simplifies the design of the cutoff well. The presence of a microswitch associated with a spring-loaded rod allows you to remotely monitor the health of the electromagnet and quickly take action in case of failure of the electromagnet. This extends the technical capabilities of the proposed cutoff well.

List of used literature: TU 39-1030-94 OS-2M well cut-off, manufacturing plant LLC Leninogorsk Experimental Petroleum Automation Plant, 423250, Republic of Tatarstan, Leninogorsk, Tchaikovsky St., 40)

Claims (11)

1. A well shut-off device comprising a spring drive, a latch mechanism and an arm including a housing interconnected by nuts and bolts through holes made on annular protrusions at the ends of the bodies, a shaft fixedly connected inside the latch mechanism housing one end with the end of a spring-loaded shaft located in the housing of the spring drive, and containing a handle on the free end, and the other end connected with the end of the shaft located in the housing of the bracket, and containing on the free end of the sleeve with a disk-shaped shutter, and a cylindrical wheel with a longitudinal recess on the side wall is fixedly mounted on the latch shaft, and a sleeve connected to one end of the torsion spring is fixedly mounted on the shaft of the spring drive, the second end of the torsion spring being connected to the other a sleeve fixed to the housing of the spring actuator, and a cylindrical selection is made from the latch mechanism of the end face of the bracket housing adjacent to the housing, and an opening for rotation is made on the wall of this selection and threaded packing followers, wrapped in a threaded sample of the bracket body, and the opening is closed by a cover made in the form of a gutter and fixed by a screw wrapped in a threaded sample on the bracket case, and on the free end of the bracket case there is a threaded protrusion wrapped in a threaded sample made from the inner the side wall of the hollow cylindrical body, moreover, from the bottom of the threaded sample, a hole was drilled coaxially to this sample for the bracket shaft, and the cavity of the cylindrical body is made with two the damper is located in cylindrical samples and in a cylindrical sample with a large diameter, and a cylindrical sample with a small diameter is made through, and on the side wall of the housing of the latch mechanism is installed opposite the recess of the cylindrical wheel and the annular protrusion of the hollow cylindrical insert of the power adapter is fixed, and in the cavity of the hollow cylindrical insert there is the long part of the spring-loaded rod, and in the cavity of the hollow cylindrical insert, from the side of the latch mechanism housing, is installed an electromagnet sleeve having, at an end face adjacent to the electromagnet case, a sample with a compression spring and a short part of a spring-loaded rod made with an annular cylindrical protrusion, the electromagnet consisting of a body having a bottom and a cover with through holes in the center, and an electrically conductive coil located between the bottom and the cover of the housing, characterized in that the cover of the opening of the bracket has the shape of a hollow cylinder and is made with an inner diameter equal to the outer diameter of the housing of the bracket. 2. The device according to claim 1, characterized in that the housing of the latch mechanism and the housing of the bracket are made without ring protrusions, and at the end of the housing of the mechanism of the latch facing the bracket, a cylindrical protrusion is made with a hole for the shaft and with an outer diameter equal to the inner diameter of the cylindrical samples of the bracket body, and on the cylindrical protrusion of the housing of the latch mechanism there are four radially arranged threaded samples provided with bolts passed through through holes made on the wall of the housing and the bracket, and the shafts of the latch mechanism and the bracket are rigidly connected to each other, and at the end of the shaft protruding from the housing of the latch mechanism, a handle is fixed in the form of a rod mounted in a radial hole made on the shaft. 3. The device according to claim 2, characterized in that the number of threaded samples on the protrusion of the latch mechanism housing is two times greater than the number of holes on the wall of the bracket housing and is eight. 4. The device according to claim 1, characterized in that the cylindrical wheel of the latch mechanism is made with a hollow cylindrical protrusion located on the end face of the cylindrical wheel remote from the bracket body and made with an inner diameter equal to the outer diameter of the torsion spring, and into the cavity of the hollow cylindrical protrusion a cylindrical wheel has a torsion spring connected at one end to the cylindrical wheel, and the second to the lid of the housing of the latch mechanism. 5. The device according to claim 1, characterized in that the lid of the latch mechanism housing is fixed to the end of this housing by bolts passing through its holes and wrapped in threaded seals made from the end of the latch mechanism housing. 6. The device according to claim 5, characterized in that the number of threaded samples in the housing of the latch mechanism is at least two times the number of bolt holes on the cover of the housing of the latch mechanism. 7. The device according to claim 1, characterized in that on the side wall of the housing of the latch mechanism, opposite the cylindrical wheel, a radial through hole is made, and a cylindrical protrusion with an internal thread is made opposite this hole, and the electromagnet sleeve is made with an external thread, a cylindrical set is installed equipped with a compression spring and a short part of the spring-loaded rod with an annular protrusion, opposite the housing of the latch mechanism and wrapped on the internal thread of the cylindrical protrusion. 8. The device according to claim 1, characterized in that on the free end of the sleeve of the electromagnet, coaxially to this sleeve, a tube is fixed that guides the spring-loaded rod, and the tube passes through the opening of the bottom of the body of the electromagnet and its upper end is located in the hole of the cover of the electromagnet body, and into the tube a long part of the spring-loaded rod is installed, and the sleeve of the electromagnet is rigidly fixed to the bottom of the body of the electromagnet. 9. The device according to claim 1, characterized in that the recess on the cylindrical wheel is made in the form of a radial hole drilled coaxially to the spring rod, and having a diameter approximately equal to the diameter of the spring rod. 10. The device according to claim 9, characterized in that on the cylindrical wheel, coaxial to the radial hole, a threaded set is made, equipped with a locking screw in contact with a sharp end with the side wall of the shaft. 11. The device according to claim 1, characterized in that the end of the spring-loaded stem adjacent to the cover of the electromagnet housing is elongated, and a plate with a bent at right angles is rigidly fixed to the outer side of the cover of the electromagnet housing, and a through hole with a diameter is made on the bent end of the plate equal to the outer diameter of the threaded protrusion of the microswitch, and a threaded protrusion of the microswitch is installed in the hole of the bent end of the plate, and on the hour protruding beyond the bent end of the plate the threaded protrusion of the microswitch is installed with a hole and fixed with a nut wrapped on this protrusion, a bracket made in the form of a U-shaped bent plate with a through hole on the shelf for the threaded protrusion of the microswitch and two coaxial holes made on the protrusions made on the upper faces of the sidewalls, the ends of the rod are fixed in the holes of the protrusions of the sidewalls of the plate, rigidly fixed by the middle part on a long shoulder near the bend of a two-shouldered lever bent at right angles, interacting about a long shoulder with an end face of the elongated end of the spring-loaded rod, and a short shoulder with a microswitch button, and a hollow cylindrical protrusion with an internal thread is made on the end of the electromagnet housing, where an additional cover is made, made in the form of a disk with an annular cylindrical protrusion having an external thread.