RU43937U1 - BALL VALVE - Google Patents

Abstract

The utility model relates to pipe fittings, in particular to ball valves and can be used to block the flow of the working medium transported through the pipeline. The design of the ball valve comprises a metal body, a passage channel located in the passage channel on elastic cuffs made of polyurethane spherical rotary tube, integral with the body. The contact of the spherical rotary tube with the spherical surface of the elastic cuffs is carried out on a narrow annular surface. This ensures high reliability of the ball valve and the tightness of the valve assembly. When operating a ball valve in aggressive environments, it is possible to apply a protective coating, for example, epilame or fluoroplastic, to the surface of a polyurethane spherical rotary tube. The manufacture of a spherical rotary plug from polyurethane by injection molding or by mechanical processing is much simpler and more technologically advanced than the manufacture of a steel ball plug. In addition, the use of a polyurethane spherical plug reduces the moment of control of the ball valve and increases the wear resistance of the shutter assembly. This design is easy to manufacture and operable in any direction of supply of the working medium.

Description

The utility model relates to pipe fittings, in particular to ball valves and can be used to block the flow of the working medium transported through the pipeline.

Known ball valves in which spherical rotary plugs are placed in saddle seals, pressed to the surface of the plug by elastically deformable elements, ensuring tightness of the saddle-plug pair (EP No. 0474312, class F 16 K 5/06).

Ball valves are known in which the tightness of a saddle-plug pair is ensured by the elastic properties of the saddle element itself.

The closest technical solution to the claimed one is a ball valve containing a housing, a spherical rotary plug and seats made in the form of cup springs connected to the housing by their supporting surface, and the other surface of the springs in contact with the plug is covered with plastic material (RU patent 2138719 class F. 16 K 5/06).

The disadvantage of this design is the rapid abrasion of the contact surface of the spherical rotary tube with plate springs and the violation of the shutter tightness at the slightest occurrence of misalignment of the tube and housing, in addition, the design disadvantage is the complexity of the design and manufacturing technology.

The technical task that was posed during the development of this utility model is to increase the reliability of a ball valve by improving the tightness of the seat – spherical rotary plug contact, simplifying the design and manufacturing technology of the valve, and also reducing the moment of control of the ball valve.

The problem is solved due to the fact that the ball valve contains a metal body, a passage channel, a spherical rotary tube and seats, and the spherical rotary tube is made of

polyurethane with the possibility of applying to its surface a chemically resistant coating, such as epilame, fluoroplastic, etc., and the seats are made in one piece with the body of the ball valve in the form of elastic cuffs located in the continuation of the surface of the passage channel from the input and output side of the working medium and formed that they form a convex spherical surface from the side of the spherical rotary tube.

The figure shows the construction of a ball valve in section. The ball valve comprises a metal body 1, a passage channel 2, located on the elastic cuffs 3 in the passage channel 2, a polyurethane spherical rotary tube 4. Contact of the spherical rotary tube 4 with elastic cups is carried out on the contact surface 5.

Ball valve works as follows.

Before assembling the crane, the surface of the elastic cuffs 3 is formed (for example, by flaring) in order to give them a convex spherical surface from the side of the spherical rotary plug 4 so that the saddle-plug pair (contact surface 5) is contacted by a sphere along the sphere.

When the working medium is fed into the passage channel 2, the spherical rotary plug 4 is pressed away from the input flexible cuff 3 and pressed to the output flexible cuff 3, which ensures the tightness of the ball valve. The design is operable in any direction of supply of the working medium.

Due to the elasticity of the polyurethane spherical rotary plug and cuffs, the contacting of the saddle-plug pair (sphere along the sphere) occurs not along the line, but along the annular surface, which guarantees high reliability of the ball valve for tightness of the shutter assembly. When operating a ball valve in aggressive environments, it is possible to apply a protective coating, for example, epilame or fluoroplastic, to the surface of a polyurethane spherical rotary tube.

The manufacture of a spherical rotary plug from polyurethane by injection molding or by mechanical processing is much simpler and more technologically advanced than the manufacture of a steel ball plug. In addition, the use of a polyurethane spherical plug reduces the moment of control of the ball valve and increases the wear resistance of the shutter assembly.

The use of saddles in the form of flexible cuffs, made in one piece with the body, greatly simplifies and cheapens the design of the ball valve in comparison with the use of saddles in the form of disk-shaped springs with a coating.

Claims (1)

The ball valve contains a metal body, a passage channel, a spherical rotary tube and seats, characterized in that the spherical rotary tube is made of polyurethane with the possibility of applying a chemically resistant coating, such as epilame, fluoroplastic, to its surface, and the seats are made in one piece with the ball valve body in the form of elastic cuffs located in the continuation of the surface of the passage channel from the input and output sides of the working medium and formed so that they form a convex spherical surface on the side us spherical rotary valve.