RU139605U1 - HALF SEMI-HOUSING AND LATCH - Google Patents

Abstract

1. The valve half-housing, comprising a nozzle and external and internal flanges connected by a threaded connection, as well as an abutment element for thread crimping during connection, characterized in that the abutment element is made in the form of conical surfaces interacting with the assembly on the nozzle and inner flange. 2 . The valve half-body according to claim 1, characterized in that the conical surfaces are made behind the threaded sections of the inner flange and the pipe and have a taper of 1: 4 ... 1: 12.3. A valve containing a housing made of two half-bodies, in which saddles with passage channels are installed, an intermediate ring installed between the half-bodies, in the cavity of which a slide with a passage hole is installed with the possibility of rotation, each half-case containing a pipe, an external flange mounted on the thread and fixed by screw, the inner flange connected to the pipe by means of a threaded connection with a collapse of the thread, the adjacent surfaces of the pipe and flange located after the threaded part weaves are made conical.

Description

The invention relates to the field of petroleum and chemical engineering and can be used as a locking device in oil pipelines transporting oil or industrial water, as well as for blocking the channels of wellhead fittings for fountain, pump and injection wells in industrial oil production.

Known half-body of the slide gate valve according to patent RU 97788 U1, consisting of a nozzle, outer and inner flanges, made separate, at least one of the nozzles is equipped with an annular collar, and the flange is a reciprocal groove, The outer flange is mounted for rotation relative to the nozzle by means of surface interaction formed by an annular flange made on the outer surface of the pipe and a reciprocal groove on the outer flange. The circlip is installed in the groove made on the outer surface of the pipe. The end surfaces of the pipe and the outer flange are installed in different planes.

The inner flange is connected to the pipe by means of a threaded connection, the thread of which ends with an annular groove with a sealing ring installed in it. The pin prevents the flange from unscrewing itself.

The outer flange is mounted to rotate relative to the nozzle by the interaction of surfaces formed by an annular flange made on the outer surface of the nozzle and a mating groove on the outer flange and a retaining ring installed in the groove made on the outer surface of the nozzle.

Known half-valve body according to patent RU 97789 U1, consisting of a pipe, external and internal flanges, made separate, at one end of the pipe made thread ending in an annular groove with a thrust ring installed in it. The inner flange is mounted on the nozzle by means of a retaining ring installed in the annular grooves and the interaction of surfaces formed by an annular bead made on the outer surface of the nozzle and the inner end surface of the inner flange, wherein the joint is sealed by o-rings located in the annular groove made on the outer surface of the pipe.

Known half-body gate valve according to patent RU 70954 U1, consisting of a pipe with external and internal flanges, the pipe is connected to the internal flange by means of a threaded connection, a sealing element is installed between the pipe and the internal flange.

Known half-body slide gate valve according to patent RU 61828 U1, consisting of a pipe, external and internal flanges, made separate, the pipe is equipped with annular flanges, and the outer and inner flange - mating grooves.

The closest technical solution, selected as a prototype, is the valve half-body according to patent RU 2354875 C1, containing a pipe connected to the external and internal flanges by means of a threaded connection with a thread collapse on a thrust ring made on the flange. Collapse of the thread on the flange prevents the flange from self-loosening. The other flange can be mounted on the nozzle by means of a hot seat.

The disadvantages of the prototype.

The connection of the flange with the nozzle by means of a hot fit requires increased precision in the manufacture of mating parts and special equipment.

If the fasteners mounted on the outer flange are overtightened, changes in hot press fit can occur, which will lead to displacement of the seating surfaces and, consequently, to insufficient sealing of the valve body.

To ensure tightness, the method of threading was used after connecting the pipe to the inner and outer flanges, however, the design is quite complicated (the presence of grooves on the pipe, the placement of additional elements - thrust rings), accurate calculation and high-precision manufacturing of connection elements is required.

The holes in the outer flange intended for connection with the pipeline flange must be made in the assembled valve half-bodies.

Sealing elements are required to ensure tightness.

The technical problem to be solved by the claimed invention is directed is to increase the manufacturability of manufacturing half-bodies and gate valves.

The technical result is achieved due to the fact that in the half-housing of the valve containing the pipe and the external and internal flanges connected with it by means of a threaded connection, as well as an abutment element for crimping the thread during the connection, it is proposed that the abutment element be made in the form of a conical surface on the nozzle and the inner flange.

In addition, the technical result is achieved due to the fact that in the valve comprising a housing made of two half-bodies, in which seats with passage channels are installed, an intermediate ring is installed between the half-bodies, in the cavity of which a slide with a passage hole is installed with the possibility of rotation, while each half-housing contains a pipe, an external flange mounted on the thread and fixed by a screw, an internal flange connected to the pipe by means of a threaded connection with a collapse of the thread, and The thread crimping element is adjacent conical surfaces of the nozzle and flange located after the threaded sections.

Patent studies have shown that the claimed technical solution is characterized by novelty. In addition, the claimed design is industrially applicable.

The essence of the proposed technical solution is illustrated by drawings, where in Fig.1 shows the half-body of the valve, and in Fig.2 valve assembly.

The valve half-housing comprises a pipe 1, an external flange 2, an internal flange 3.

The outer flange 2 is mounted on the pipe 1 by means of a threaded connection and is fixed with a screw 4.

The inner flange 3 is also mounted on the pipe 1 by means of a threaded connection.

Adjacent surfaces 5 of the pipe and the outer flange behind the threaded sections are made conical with equal angles and taper 1: 4 ... 1: 12.

These conical surfaces 5 play the role of a thrust element that provides creasing of the thread during twisting, and also perform the function of additional sealing surfaces.

The valve comprises a housing made of two half-bodies, in which an intermediate ring is fixed. 7, in the cavity of which, with the possibility of rotation around axis 8, a gate 9 with a passage opening is placed. Each half-body of the valve, as described above, includes a pipe 1, an external flange 2 and an internal flange 3 .. The external flange 2 is mounted on the thread and fixed with a screw 4. The internal flange 3 is connected to the pipe 1 by means of a threaded connection with the thread being crushed against a conical surface 5 .

The valve half-body is made as follows.

Separately manufactured pipe 1, inner and outer flanges 2 and 3, respectively.

On the pipe 1 at both ends is a thread.

On the side of the outer flange 2, the length of the threaded section of the pipe 1 corresponds to the thickness of the flange 2 in the connection zone, and on the side of the inner flange 3, the length of the threaded section is less than the thickness of the flange 3 in the connection zone and is 0.4 ... 0.6 of the thickness of the flange. On the rest of the pipe 1, corresponding to the thickness of the attached flange 3 (contact zone with the outer flange 3), a conical surface 5 is made with a taper of 1: 4 ... 1: 12. The smaller diameter of the conical surface 5 of the pipe 1 is larger than the diameter of the thread on the outer flange 2.

Flanges 2 and 3 are provided with a reciprocal thread, while on the outer flange 2 the length of the threaded section corresponds to the thickness of flange 2, and the length of the threaded section of flange 3 is less than the thickness of flange 3 and is 0.4 ... 0.6 of the thickness of flange 3. Thus, the length of the threaded of the flange portion 3 corresponds to the length of the threaded portion of the pipe 1 from the side of the inner flange 3. On the rest of the flange 3 in the contact zone with the pipe 1, a conical surface 5 is made. The angle of inclination of the conical surface 5 of the flange 3 corresponds to the angle of inclination of the conical surface 5 of pipe 1.

During assembly, the inner flange 3 is installed on the pipe 1 from the side of the outer flange until the conical surfaces 5 of the flange 3 and the pipe 1 stop. When the inner flange 3 is further screwed onto the pipe 1, the threads are wrinkled and sealed along the tapered surfaces of the inner flange 3 and the pipe 1. the thread protects the flange from self-loosening and ensures a tight joint. At the same time, there is no need to use additional parts, the design is simplified, which generally positively affects the manufacturability of the valve half-body. An o-ring can be installed in the technological groove in the inner flange 3 formed by the tool when cutting the internal thread.

Then, an external flange 2 is mounted on the pipe 1 until the external end surfaces coincide. Then continue wrapping the outer flange 2 until the holes 10 in the outer flange 2 are set to a predetermined position. To install the holes 10 in a predetermined position from any initial position of the outer flange 2 relative to the inner flange 3, the rotation angle will be no more than 45 °. In this case, the end surfaces of the pipe 1 and the outer flange 2 can be installed in different planes. The outer flange 2 is fixed with a screw 4. Thus, the connecting elements of the outer flanges 2 and the pipe 1 with the pipe flanges can be made before the assembly of the valve half-bodies. It also improves manufacturability.

A gate valve with separate half-bodies is assembled as follows. In the semi-bodies assembled in this way, seats are made for seats 6. All valve elements are installed, in particular seats 6, an intermediate ring 7, a gate 9 between the semi-bodies, which are then pulled together by bolts.

During operation of the valve, the gate 9 rotates around in its plane, opening or closing the passage for liquid.

Thus, the valve with the claimed half-bodies is characterized by manufacturability.

Claims (3)

1. The valve half-housing, comprising a nozzle and external and internal flanges connected by a threaded connection, as well as an abutment element for thread crimping during connection, characterized in that the abutment element is made in the form of conical surfaces interacting with the assembly on the nozzle and inner flange. 2. The valve half-body according to claim 1, characterized in that the conical surfaces are made beyond the threaded sections of the inner flange and the pipe and have a taper of 1: 4 ... 1:12. 3. A valve containing a housing made of two half-bodies, in which seats with passage channels are installed, an intermediate ring installed between the half-bodies, in the cavity of which a slide with a passage hole is installed with the possibility of rotation, each half-case containing a pipe, an external flange mounted on thread and fixed with a screw, the inner flange connected to the nozzle by means of a threaded connection with collapse of the thread, and adjacent surfaces of the nozzle and flange located after the threaded stkov, are conical.

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