RU2525994C1 - Valve - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: valve comprises a body with coaxial branch pipes 1 and 2, slide valve 4, rod 5, travel bushing 6 and control assembly 7. Branch pipe 1 on the side of feeding the working medium under the slide valve is made with a smaller length, with small inclination angle and bigger inner diameter as compared with the similar parameters of branch pipe 2 on the side of feeding the working medium to the slide valve. Slot 3 is made inside branch pipe 1 in its upper part. The length of branch pipe 2 on the side of feeding the working medium to slide valve 4 will increase so that the value of the delivery length of valve body L (for particular diameter of nominal diameter) remains constant L=l₁+l₂.

EFFECT: decreased coefficient of resistance for shut-off and non-return valves for increase of nominal flow characteristics for control valves, for decreasing hydraulic losses in the system, where the valves will be installed, which will help use less powerful pumps.

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Description

The technical solution relates to valves, in particular to valves, and can be used in the design of shut-off, control and check valves in the chemical, energy and other industries.

To reduce costs when laying pipelines, fittings with the location of nozzles on the same axis are most often used. It can be straight-through valves or with coaxial arrangement of nozzles. At the same time, the straight-through reinforcement has the smallest coefficient of resistance, but it, due to the inclined arrangement of the valve axis with respect to the pipeline, is not very convenient for maintenance. Therefore, fittings with a coaxial arrangement of nozzles are often used, in which the valve axis is perpendicular to the axis of the pipeline, which is more convenient for maintenance.

Known shutoff valves NG26526 and NG26524 with coaxial arrangement of nozzles (see. Catalog of Corporation Alloy CJSC Pipe fittings and special equipment for nuclear facilities. Nomenclature catalog, ninth edition, PKTI Atomarmproekt, 2011).

Valves contain a housing with coaxial nozzles that are located at the same distance from the valve axis, a spool (plunger), a rod, a bushing, a control unit.

The disadvantages of these valves include the fact that they have a large coefficient of resistance.

The task to which this technical solution is directed is to reduce the coefficient of resistance of valves with coaxial nozzles.

The problem is solved due to the fact that the valve contains a housing with coaxial nozzles, a spool (plunger), a rod, a bushing and a control unit, and the pipe on the supply side of the working medium for the spool (plunger) is made shorter, with a smaller angle of inclination and a larger inner diameter, with the possibility of making grooves inside this nozzle (in its upper part), while the length of the nozzle from the supply side of the working medium to the spool increases so that the length of the valve body construction length (for a specific diameter pa of conditional passage) remained constant L = l ₁ + l ₂ , where

L is the construction length of the valve body;

l ₁ - the length of the pipe on the supply side of the working medium under the spool (plunger);

l ₂ - the length of the pipe on the supply side of the working medium to the spool (plunger).

The figure shows the design of the valve.

The valve contains a housing with coaxial nozzles: a nozzle on the supply side of the working medium for the slide valve - 1, a nozzle on the supply side of the hydraulic medium for the slide valve - 2, the groove - 3, the slide valve (plunger) - 4, the stem - 5, the bushing - 6, the unit management - 7.

The valve operates as follows.

Due to the rotation of the bushing of the chassis 6 by the control unit 7, the rod 5 moves up or down due to the running thread and accordingly moves the spool (plunger) 4? connected to a stock 5? blocking or opening the valve body seat.

When the slide valve (plunger) 4 is raised, by changing the direction of flow of the working medium (by reducing the angle α ₁ and making a groove 3), increasing the cross-sectional area of the inner pipe 1 (by increasing the diameter d ₁ ), the valve resistance coefficient significantly decreases (for shut-off valves) or increases the conditional throughput characteristic (for control valves).

Due to the elongation of the pipe 2, it becomes possible to reduce the angle of inclination of the pipe α ₂ and increase its inner diameter d ₂ , which gives an additional reduction in the coefficient of resistance.

For the shut-off valve DN50, the coefficient of resistance of the valve with coaxial nozzles (with the same valve stroke, seat diameter and construction length), due to the proposed changes, decreased:

- from 8.2 to 6.2 - when applying the working medium under the spool,

- from 9.0 to 7.1 - when applying the working medium to the spool.

The angle α ₁ decreased from 18 ° to 10 °, the angle α ₂ decreased from 18 ° to 15 °, the diameter d ₁ increased from 43 mm to 46 mm, the diameter d ₂ increased from 42 mm to 43 mm, the length of the pipe on the side the supply of the working medium for the spool decreased from 115 mm to 98 mm and, accordingly, the length of the nozzle on the side of the working medium to the spool increased from 115 mm to 132 mm

It is also effective for check valves. Thus, the proposed technical solution allows for valves with a coaxial arrangement of nozzles to significantly reduce the resistance coefficient both when applying the working medium to the spool and when supplying the working medium to the spool by 20-30%, which is very important for meeting the general technical requirements of NP-068 -05 to pipeline valves for nuclear power plants in terms of the set resistance coefficients.

Claims (1)

A valve comprising a housing with coaxial nozzles, a spool (plunger), a stem, a bushing, and a control unit, characterized in that the pipe on the supply side of the working medium under the spool (plunger) is made of a shorter length, with a smaller angle of inclination and a larger internal diameter, with the possibility of making grooves inside this nozzle (in its upper part), while the length of the nozzle from the supply side of the working medium to the spool increases so that the construction length of the valve body (for a specific diameter of the nominal passage) remains constant constant L = l ₁ + l ₂ , where
L is the construction length of the valve body;
l ₁ - the length of the pipe on the supply side of the working medium under the spool (plunger);
l ₂ - the length of the pipe on the supply side of the working medium to the spool (plunger).