RU7465U1 - BALL VALVE - Google Patents

Abstract

1. A ball valve comprising a housing with nozzles and a spherical rotary plug located in the seat seals, with at least one nozzle installed inside the housing, characterized in that an annular bead is made on the end surface of the housing, and the end of the nozzle is also provided with an annular bead, the outer diameter of which is smaller than the inner diameter of the flange of the body by the amount of the gap, while the edges of the flanges are placed in the same plane and connected around the circumference by a weld. 2. The crane according to claim 1, characterized in that the gap lies in the range 0.03 - 0.05 mm.

Description

The utility model relates to the field of valve engineering and can be used to shut off the flow of the working medium transported through the pipeline.

Known ball valves containing a housing with nozzles and a spherical plug interacting with seat seals, in which the connection of the nozzles with the pipeline is threaded, and the nozzles themselves are connected to the housing by means of spline or threaded connections (SU, AC No. 1516703, class F16K 5 / 06, 1986; WO 91/09243, class F16K 5/06, 1991) In this case, the connection of the nozzles to the housing requires additional fixing, for example, using sealant. However, this is unacceptable for valves operating in a wide temperature range of the medium.

The closest technical solution to the claimed one is a ball valve, in which the nozzles connected to the housing by thread are additionally fixed to the housing by rolling (SU utility model No. 3020, class F16K 5/06, 1996).

However, this connection is not reliable enough, and during installation and dismantling of the valve in the pipeline, which requires considerable effort (for example, after a long service life), rolling can fail and the valve can fail.

This utility model solves the problem of increasing the strength of the connection of the nozzles with the housing in the entire possible load range

F16K5 / 06 Ball valve.

and temperatures by combining the materials of said elements on

interatomic level.

The problem is solved in that in a ball valve containing a housing with nozzles and a spherical rotary plug located in the saddles / seals, in which at least one nozzle is installed inside the housing, an annular bead is made on the end surface of the housing, and the end of the nozzle is also provided with an annular bead the outer diameter of which is less than the inner diameter of the flange of the housing by the amount of clearance, while the edges of the flanges are placed in the same plane and are connected around the circumference by a weld.

Since the welded joint of metals is the most durable of all known types of joints and is able to withstand a significant load depending on the penetration depth, there is no need for any other connection of the surfaces of the nozzle and the housing, and, consequently, for additional processing of the mentioned crane parts. The shoulders provide radiant heat transfer during the welding process and thereby protect non-metallic elements of the crane from overheating and deformation.

It has been experimentally established that the optimum value from the point of view of the strength of the weld is the gap between the beads within the range of 0.03 ... 0.05 mm, depending on the dimensions of the crane (crane size).

The utility model is illustrated by the description and the attached drawing, which shows a ball valve in section. The crane consists of a housing 1 with nozzles 2 and 3, a spherical rotary plug 4 with a rotation drive 5, saddle seals 6. The nozzle 2 is made in one piece with the housing, and the nozzle 3 is placed inside the housing. Butt

the housing is equipped with a shoulder 7, and the end of the pipe 3 is a shoulder 8. Both shoulders are connected around the circumference by a weld 9.

The crane works as follows. In the open position, the through hole of the plug 4 is combined with the through holes of the nozzles 2 and 3 and the working medium passes freely through the valve. By turning the plug 4 by means of the actuator 5 at an angle of 90 °, the valve is set to the closed position, while the body of the plug 4 blocks the passage openings of the nozzles, and the seals 6 prevent the medium from penetrating outside the crane.

The ball valve is serially produced from available materials using traditional technology and is used as part of trunk pipelines.

3

Claims (2)

1. A ball valve comprising a housing with nozzles and a spherical rotary plug located in the seat seals, with at least one nozzle installed inside the housing, characterized in that an annular bead is made on the end surface of the housing, and the end of the nozzle is also provided with an annular bead, the outer diameter of which is less than the inner diameter of the flange of the housing by the amount of clearance, while the edges of the flanges are placed in the same plane and are connected around the circumference by a weld. 2. The crane according to claim 1, characterized in that the gap lies in the range of 0.03 - 0.05 mm