RU146470U1 - WELL BUTTER - Google Patents

Abstract

1. A borehole cutter comprising a hollow cylindrical body connected to a torsion spring bracket, the torsion spring bracket having a spring-loaded torsion spring with a shaft having a handle at one end, a damper at the other end, and a cylindrical wheel with a radial a hole, moreover, one end of the torsion spring is connected to the cylindrical wheel, and the second end is connected to the torsion spring bracket, and on the torsion spring bracket, opposite the radial hole of the cylinder of the wheel, a threaded set was made, equipped with a threaded part of the electromagnet sleeve, consisting of a hollow cylindrical body having a bottom and containing a coil of electric wire connected to an AC voltage source, and a rod spring loaded with a compression spring is located in the cavity of the electromagnet sleeve, with the rod part facing the swivel the shaft, in the open position of the valve is located in the radial hole of the cylindrical wheel, characterized in that in the side wall of the hollow cylindrical body With the electromagnet, a radial hole is drilled through the bottom of the electromagnet body and the electromagnet sleeve, and a finger is mounted in this hole with the possibility of rotation of a finger containing a handle in the form of a rod on one end and an eccentrically located cylindrical protrusion on the other end, and this protrusion is located in the radial groove, made on the rod of the electromagnet. 2. The well cut-off according to claim 1, characterized in that an annular groove with a cylindrical bottom and flat walls is made on the side wall of the finger, and with

Description

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

Known well cutter (passport "Cutter well", manufacturer LLC "Leninogorsk pilot plant of petroleum automation", 423250, Republic of Tatarstan, Leninogorsk, Tchaikovsky St., 40), containing a hollow cylindrical body connected to the torsion spring bracket, moreover, the torsion spring bracket is equipped with a spring-loaded torsion spring shaft having a handle at one end, a damper at the other, and between them, fixedly mounted on the shaft, a cylindrical wheel with a radial hole, and with a cylindrical wheel with one end of the torsion spring is connected, and the other end is connected to the torsion spring bracket, and on the torsion spring bracket, opposite the radial hole of the cylindrical wheel, a threaded sample is provided, equipped with a threaded part of the electromagnet sleeve, consisting of a hollow cylindrical body having a bottom and containing a coil of electric wire connected to a source of alternating voltage, and in the cavity of the sleeve of the electromagnet there is a rod spring-loaded with a compression spring, and the part of the rod facing Gate shaft, in the open position the shutter is located in a radial bore of the cylindrical wheel. In the well-known cutoff well, the shutter closes only when electric power is supplied to the electromagnet. In the event of an accident on the power line or when testing the cutoff of a well for strength and tightness, it is necessary to disassemble the electromagnet to manually move its rod away from the bracket. After moving the stem, the shutter closes.

The technical problem to which the proposed utility model is aimed is to expand the technical capabilities of the well cutoff. This technical problem is solved due to the fact that in the well cutter containing a hollow cylindrical body connected to the torsion spring bracket, the torsion spring bracket is equipped with a spring-loaded torsion spring with a shaft having a handle at one end, a damper at the other end, and motionless between them mounted on the shaft, a cylindrical wheel with a radial hole, and one end of the torsion spring is connected to the cylindrical wheel, and the second end is connected to the torsion spring bracket, and on the spring bracket torsion, opposite the radial bore of the cylindrical wheel, a threaded sample was made, provided with a threaded portion of the electromagnet bushing, consisting of a hollow cylindrical body having a bottom and containing a coil of electric wire connected to an AC voltage source, and a rod spring loaded with a compression spring is located in the cavity of the electromagnet bushing, part of the rod facing the rotary shaft, in the open position of the valve is located in the radial hole of the cylindrical wheel, in the side walls a hollow cylindrical body of the electromagnet drilled a radial hole passing through the bottom and the sleeve of the electromagnet, and a finger is mounted in this hole with the possibility of rotation, containing a handle in the form of a rod on one end and an eccentrically located cylindrical protrusion on the other end, and this protrusion is located in the radial groove made on the rod of the electromagnet, and on the side wall of the finger is made an annular groove with a cylindrical bottom and flat walls, moreover, from the outer wall of the bottom of the hollow cylindrical Skog electromagnet housing, opposite the annular groove, a threaded opening provided with a locking screw comprising at one end of the cylindrical protrusion located in the annular groove, wherein the coil electric wire is connected to a DC voltage source.

In FIG. 1 shows a General view of the cutoff of the well with a partial section; in FIG. 2 is a view I of FIG. one.

The well cutter (hereinafter referred to as the cutter) comprises a hollow cylindrical body 1 (hereinafter referred to as the body), (Fig. 1), which is installed between two flanges 2 pressed against each other by means of studs 3 with nuts. The housing 1 has a cylindrical sampling 4, from the bottom of which another through sampling is made 5. The housing 1 is connected to the bracket 6 of the torsion spring 7 using a threaded connection 8 and a sealing gasket (position not given). The bracket 6 is equipped with a rotary shaft 9. This shaft 9 has a handle 10 in the form of a rod on the left (in FIG. 1) end, and on the other a valve 11 in the form of a disk with a sleeve 12. The right end of the shaft 9 is pressed into the hole of the sleeve 12. Between a handle 10 and a shutter 11 on the shaft 9 with a key installed in the groove (key and groove in Fig. not shown), a cylindrical wheel 13 with a radial hole 14 is fixedly mounted on the shaft 9, and one end 15 of the torsion spring 7 is connected to the cylindrical wheel 13 (the end 15 of the spring 7 is located in the hole of the wheel 13), and the second end of this spring 7 is connected not with the cover 16 of the bracket 6. The cover 16 is attached to the bracket 6 by bolts 17, wrapped in threaded seals made on the bracket 6. On the bracket 6, opposite the radial hole 14 of the cylindrical wheel 13, a threaded sample 18 is made, where the threaded part of the sleeve 19 of the electromagnet is wrapped 20. The electromagnet 20 consists of a hollow cylindrical body 21 (Fig. 2), having a bottom 22, and containing a coil 23 of the electric wire. In the cavity of the sleeve 19 of the electromagnet 20, the rod 24 is spring-loaded with a compression spring. The lower part of the rod 24, facing the rotary shaft 9, in the open position of the shutter 11 is located in the radial hole 14 of the cylindrical wheel 13. In the side wall 25 of the hollow cylindrical body 21 of the electromagnet 20, a radial hole 26. It passes through the bottom 22 of the hollow cylindrical body of the electromagnet 21 and the sleeve 19 of the electromagnet 20. In this hole 26 is installed with the possibility of rotation of the finger 27, containing a handle 28 in the form of a rod on the its end face, and an eccentrically located cylindrical protrusion 29 on the right end face. The protrusion 29 is located in the radial groove 30, made on the rod 24 of the electromagnet 20.

In another embodiment, the device on the side wall of the finger 27 is made of an annular groove 31 with a cylindrical bottom and flat walls. A threaded hole 32 is made from the outer wall of the bottom 22 of the hollow cylindrical body 21 of the electromagnet 20, opposite the annular groove 31. It is provided with a locking screw 33 containing at one end a cylindrical protrusion 34 located in the annular groove 31. Also in another embodiment of the device, the coil 23 the electric wire of the electromagnet 20 is connected to a constant voltage source.

Cutter wells works as follows. At the initial moment, due to the deformation force of the compression spring 8, the lower part of the spring-loaded rod 24 of the electromagnet 20 is located in the hole 14 of the cylindrical wheel 13 (as shown in Fig. 1). In this case, the valve 11, connected with the sleeve 12 with the shaft 9, is parallel to the axis of the housing 1. Therefore, the fluid moves through the flanges 2 and the through cylindrical sample 5 of the housing 1. In case of an accident (rush), as well as changing the parameters of the pumped liquid, to the electromagnet 20 electricity is supplied. In this case, the spring-loaded stem 24 rises. Its lower part leaves the radial hole 14 of the cylindrical wheel 13. In this case, the cylindrical wheel 13 is rotated under the action of the torsion spring 7. Together with it, the shaft 9 and the valve 11 rotate. The latter lies on a flat surface at the bottom of the cylindrical sample 4 and blocks the movement of fluid through the through cylindrical sample 5 of the housing 1. When there is no electric power to the electromagnet 20, for example, in case of an accident on the power line, the handle 28 is turned by hand 180 degrees in any direction. Together with the handle 28, the finger 27 is rotated. In this case, the cylindrical protrusion 29 of the finger 27, acting on the upper wall of the annular groove 31, raises the spring-loaded rod 24. Its lower part leaves the radial hole 14 of the cylindrical wheel 13 and this wheel rotates under the action of the torsion spring 7 . In this case, the shutter 11 closes the through cylindrical sample 5 similarly to the above. Next, the handle 28 is set to its original position (as shown in Fig. 2). To open the shutter 11, the shaft 9 is rotated by the handle 10, deforming the torsion spring 7. Together with the shaft 9, the cylindrical wheel 13 also turns. After the end of the lower part of the stem 24 coincides with the radial hole 14, the lower part of the stem 24 is subjected to a compression spring (in FIG. (not shown), enters this hole 14. Thus, the cylindrical wheel 13 is fixed against rotation, and the valve 11 is parallel to the shaft 9, as in the initial state.

The proposed cutter wells expand technical capabilities by moving the rod from a cylindrical wheel without supplying electricity to the electromagnet. In this case, the rod is moved manually by turning a finger containing an eccentrically located protrusion. This provides the opportunity to test the operation (closing the shutter) of the cutter before installing the power line and in the event of an accident on the power line. Also, when testing the cutter for strength and tightness on a test bench, the shutter is closed without disassembling the electromagnet. Therefore, compared with the prototype in the proposed cutter reduces the time for testing. The connection of the coil of the electric wire with a constant voltage source increases the force of movement of the rod. Therefore, a constant voltage electromagnet works more reliably than with an alternating voltage.

List of used literature: Passport "Cutoff well", manufacturer LLC "Leninogorsk pilot plant of petroleum automation", 423250, Republic of Tatarstan, Leninogorsk, st. Tchaikovsky, d. 40)

Claims (3)

1. A borehole cutter comprising a hollow cylindrical body connected to a torsion spring bracket, the torsion spring bracket having a spring-loaded torsion spring with a shaft having a handle at one end, a damper at the other end, and a cylindrical wheel with a radial a hole, moreover, one end of the torsion spring is connected to the cylindrical wheel, and the second end is connected to the torsion spring bracket, and on the torsion spring bracket, opposite the radial hole of the cylinder of the wheel, a threaded set was made, equipped with a threaded part of the electromagnet sleeve, consisting of a hollow cylindrical body having a bottom and containing a coil of electric wire connected to an AC voltage source, and a rod spring loaded with a compression spring is located in the cavity of the electromagnet sleeve, with the rod part facing the swivel the shaft, in the open position of the valve is located in the radial hole of the cylindrical wheel, characterized in that in the side wall of the hollow cylindrical body With the electromagnet, a radial hole was drilled passing through the bottom of the electromagnet housing and the electromagnet bushing, and a finger was mounted rotatably in this hole, containing a handle in the form of a rod on one end and an eccentrically located cylindrical protrusion on the other end, this protrusion located in the radial groove, made on the stock of an electromagnet. 2. A well shut-off device according to claim 1, characterized in that an annular groove with a cylindrical bottom and flat walls is made on the side wall of the finger, and a threaded hole is provided with a locking screw containing a locking screw, from the outer wall of the bottom of the hollow cylindrical body of the electromagnet, opposite the annular groove at one end is a cylindrical protrusion located in an annular groove. 3. The well shut-off device according to claim 1, characterized in that the coil of the electric wire is connected to a constant voltage source.

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