RU3471U1 - THREE-WAY BALL VALVE - Google Patents

Abstract

1. A three-way ball valve containing a housing, a rod of a leash, three nozzles, two of which are made coaxial with a geometric axis perpendicular to the axis of rotation of the rod, a ball plug with a groove for the rod in contact with two elastic saddles with sealing elements in contact with the two nozzles and having three holes, the geometrical axes of which lie in one plane perpendicular to the axis of rotation of the rod, and two holes are made coaxial, and the geometrical axis of the third hole is perpendicular to the geometrical axis of the first two holes characterized in that a fourth hole is made in the ball plug coaxially with the axis of rotation of the rod, the first and second holes, as well as the third and fourth, being connected by insulated channels. 2. The crane according to claim 1, characterized in that one of the nozzles is coaxial to the axis of rotation of the rod, the ball plug is hollow, and the first and second holes or the third and fourth are connected by a pipe. The crane according to claim 1, characterized in that the geometric axes of the three nozzles lie in one plane perpendicular to the axis of rotation of the rod, the ball plug is hollow, and the first and second holes or the third and fourth are connected by a pipe, and the gap between the ball plug and the housing is selected from ensuring proportional conditional passage of the crane.

Description

THREE-WAY BALL VALVE

The utility model relates to armature engineering and can be used as a distributing device for aggressive and non-aggressive liquids, steam, and difficult-to-flow media that do not contain mechanical impurities in technological processes of the medical, food, chemical, petrochemical, and other industries.

Known three-way ball joints containing a body, a rod leash, three nozzles, two of which are coaxial and their geometric axis perpendicular to the axis of rotation of the rod, and the third pipe is coaxial to the axis of rotation of the rod. The ball plug of the valve is made with a groove under the rod and contacts through two elastic seats with sealing elements. Two holes are made in the plug, one of which is aligned with the axis of rotation of the rod, and the geometric axis of the second is perpendicular to the axis of rotation of the rod. The holes are interconnected by a channel (French patent N 2539S04, MKI F 16 K 11/087; application POT N 83/00908, No. E1 F 16 K 11/08).

The disadvantage of these cranes can be attributed to their improved functionality, since in them the pipe, coaxial to the axis of rotation of the rod, is connected to one willow of two coaxial pipes, which do not ruin the ability to connect with each other.

As a prototype, a three-way ball valve containing a housing, three nozzles, a ball valve with a groove for the rod is selected. In the ball valve there are three holes connected by a T-shaped channel. The crane allows you to open all three passes or two passes in any combination (A.s. N 1643838, MKI F 16 K 5/06).

SHI F 16 to 11/087

The third branch pipe, when connecting any two, requires two More seats with sealing elements: for each pipe and an additional one, which complicates the design, its assembly and adjustment for sealing pipes for each pipe.

In this utility model, the design of the crane has been simplified, ensuring the opening of any two passes, as well as simplified adjustment of the preload of the sealing seats to the ball plug, by installing it in the housing by means of two elastic seats.

To do this, in a three-way valve that provides the opening of any two passages and containing a sherpus, a rod of the lead, three nozzles, a ball plug with a groove under the rod, which contacts two elastic seats with sealing elements and three holes with geometrical axes lying in one plane perpendicular to the axis of rotation of the rod, with two holes made coaxial, and the geometric axis of the third hole perpendicular to the geometric otsi of the first two holes; a fourth hole is made in the ball plug, coaxial to the axis of rotation of the rod, the first and second holes, as well as the third and fourth, being connected by channels.

To simplify the manufacture of the ball plug, it is hollow, the first and second coaxial holes are connected by a channel formed by an insulated pipe, mainly cylindrical, and the space between the pipe and the spherical part of the tube acts as a second channel connecting the remaining two holes: the third and fourth. It is possible to connect the third and fourth holes with a channel in the form of a cylindrical or bent pipe, then the space between the cork and the pipe acts as the first channel // fJf /

la connecting two coaxial holes: the first and second.

The crane can be made about two coaxial pipes, the geometric axis of which is perpendicular to the axis of rotation of the rod, and a third pipe, coaxial to the axis of rotation of the rod. The crane can also be made when the geometric axes of all three nozzles lie in one plane perpendicular to the axis of rotation of the rod, in this case the gap between the plug and the housing must be selected to ensure proportional conditional passage of the crane.

The invention is illustrated by drawings. Figure 1 shows a longitudinal section of the crane when the third pipe is coaxial to the rod, and two coaxial holes are connected by a cylindrical pipe; figure 2 section aa figure 1; in Fig.3 - rotated 90 degrees the position of the tube of Fig.1; figure 4 is a longitudinal section of the crane, when the geometric axis of the nozzles are in the same plane perpendicular to the axis of rotation of the rod, the design of the tube is similar to figure 1; figure 5 is a section bb In figure 4; figure 6 - rotated 90 degrees the position of the tube of figure 4; in Fig.7 is a section GG of Fig.6; in Fig.8 is a section DD DD of Fig.6; figure 9 - design of the crane, when two holes of the tube are connected by a curved pipe; figure 10 is a section EE of figure 9; 11, IS - cross-sectional plugs with two isolated channels.

A three-way ball valve contains a housing 1, three nozzles 2,3,4, a rod 5 of a lead, a ball plug 6, in which four holes are made. The first 7 and second 8 holes are made coaxial. The geometric axis of the third hole 9 is perpendicular to the geometric axis of the first two holes 7.8 and lies in the same plane as it is perpendicular to the axis of rotation of the rod 5. In plug 6, a fourth hole 10 is made coaxial with the axis of rotation of the rod 5. The spherical hole 7.8 is connected by an insulated pipe 11, for example, cylindrical (Fig. 1.4), or the third 9 and fourth 10 holes are connected by a pipe 12, for example, concave (Fig. 9). The ball plug 6 is installed in the housing 1 by means of two seats 13 with sealing elements 14 and elastic pressure rings 15. The flanges 16 of the coaxial nozzles 2 and 3 are pulled together by bolts 17 with nuts 18 with a predetermined force providing the necessary seal. The sealing element 19 seals the joint between the housing 1 m flanges 16 pipes 2 and 3 with an elastic ring 15.

If the crane BHnojffleH is designed, when the geometric axis of the nozzles 2,3,4 lie in the same plane perpendicular to the axis of rotation of the rod 5, then the housing 1 is made so that the vazor between the housing 1 and the ball plug 6 provides a proportional value to the conditional passage crane. For this, a groove 20 can be made on the inner surface of the housing 1.

The ball valve p is as follows. For the passage of the working medium between the two coaxial nozzles 2,3, the rod 5 lead the ball plug 6 to the position where the holes 7.8 become coaxial nozzles 2,3 (Fig. 1,4). the medium passes through the pipe willow 2 into the pipe 3 through the pipe 11. The third pipe 4 is isolated from the first two sealing elements 14. The working medium can also pass through the cavity of the plug 6. In this case, the third pipe is isolated by the concave pipe 12 and sealing elements 14 (Fig. 10 )

To pass the working medium between the nozzle 4 and one of the nozzles 2 or 3, the ball plug is rotated 90 degrees to the position where the third hole 9 of the plug 5 is aligned with the corresponding nozzle, in this case, with nozzle 2. Then

the working medium passes between the nozzles g and 4 through the cavity between the plug 6 and the pipe 11 for the case when two coaxial holes 7.8 of the plug 6 are connected by the pipe 11 and the nozzle 4 is coaxial to the axis of rotation of the rod 5 (Fig. 3), and additionally through the groove 20, when the geometric axis of the pipe 4 is located in the same plane with the axes of the pipes 2,3, perpendicular to the axis of rotation of the rod 5 (Fig.6,7). If the third hole 9 and the fourth hole 10 are connected by a pipe 12, then the working medium passes directly through it (Fig. 9). The pipe 3 for the DS1 position of the plug 6 is isolated from the pipes 2.4 of the sealant1 with elements 14. During operation of the valve, the wear of the sealing elements 14 is compensated by the additional tightening of the bolts 17 with nuts 18.

Thus, the claimed design of the three-way valve is simple, since the ball plug is mounted on two saddles, which greatly simplifies the assembly of the three-tube valve and its adjustment. In addition, the claimed design retains the functionality of the crane, namely, the crane allows you to connect any of the three pipes in pairs, with reliable sealing of the third pipe.

Claims (3)

1. A three-way ball valve containing a housing, a rod of a leash, three nozzles, two of which are made coaxial with a geometric axis perpendicular to the axis of rotation of the rod, a ball plug with a groove for the rod in contact with two elastic saddles with sealing elements in contact with the two nozzles and having three holes, the geometrical axes of which lie in one plane perpendicular to the axis of rotation of the rod, and two holes are made coaxial, and the geometrical axis of the third hole is perpendicular to the geometrical axis of the first two holes characterized in that a fourth hole is made in the ball plug coaxially with the axis of rotation of the rod, the first and second holes, as well as the third and fourth, being connected by insulated channels.  2. The crane according to claim 1, characterized in that one of the nozzles is coaxial to the axis of rotation of the rod, the ball plug is hollow, and the first and second holes or the third and fourth are connected by a pipe.  3. The crane according to claim 1, characterized in that the geometrical axes of the three nozzles lie in one plane perpendicular to the axis of rotation of the rod, the ball plug is hollow, and the first and second holes or the third and fourth are connected by a pipe, and the gap between the ball plug and the housing selected from ensuring proportional nominal passage of the crane.