SU870826A1 - Locking control valve - Google Patents

Description

(54) SPLITTING AND CONTROL VOLTAGE VALVE

one

The invention relates to devices for controlling the flow of fluids and can be used in the metallurgical, chemical and other sectors of the industry, in particular when supplying coolant to the rolls of rolling mills.

A device for controlling the flow rate of a fluid transported through a pipeline is known, which includes a nozzle with a flexible hose embedded in the pipe, which forms a cavity with a variable volume with the inner walls of the nozzle. This cavity is communicated via a connecting pipe and a spool valve with a drain pipe and inlet slurry of pipeline section 1. The valve flow area of this valve is not rectangular, therefore the flow characteristic is not linear, which complicates the adjustment of the working fluid flow regulator in automatic valve systems. flow control. In addition, a flexible hose made, for example, of rubber, shortens the service life of the valve, since alternating loads, high temperatures and oil-containing

Mediums quickly destroy the valve rubber sleeve.

The closest in technical essence is a pneumatic conveying valve for bulk materials, comprising a body and a manually actuated locking member. The locking body is made in the form of a rigid segment, mounted hinged in the housing and interacts with the saddle, covered with a durable material. When opening, the locking organ interacts with a figured spring-loaded visor, the shape of which is chosen from the close fit condition, to the locking organ and the best alignment of the flow path. At the same time, the hard segment and the saddle have, on the working side, convex cylindrical working surfaces with parallel generators and convexes directed towards each other, and their lateral flat faces are perpendicular to forming cylindrical surfaces 2.

However, in the known device, the relationship between the displacement (or rotation) of the locking member and the flow rate of the medium is non-linear, since the locking member performs a rotational, rather than a straight-line motion, which makes it difficult to adjust the flow regulator.

The purpose of the invention is to provide a linear relationship between the movement of the closure member and the flow rate of the working medium.

The goal is achieved by the fact that in the well-known locking-regulating direct-flow valve, comprising a housing, a fixed seat and a movable locking member having convex working surfaces facing each other, the movable locking member is made in the form of a slider mounted in the housing with the possibility of reciprocating the straight-line movement in the direction perpendicular to the direction of movement of the working medium, and forming the working surfaces of the saddle and the locking member are in a straight line.

Fig 1 shows the proposed valve (general view); in fig. 2 is a section A-A in FIG. one.

The valve includes a housing 1, in which the saddle 2 is formed and the locking member is located in the form of a slider 3, and the working surfaces of the saddle 2 and the slider 3 are broken lines 4. The saddle 2 is fastened to the housing 1 with screws 5. In the housing 1 there is an opening 6, in which the slider moves. At the end of the hole there is a groove with a gasket 7, with which the slider shoulders, which are made on the side opposite to its working surface, interact when the valve is fully closed.

A threaded bore is made in the upper part of the slider, into which the rod 8, which is connected to the actuating mechanism 9, is screwed. The rod 8 of the slider extends out through the central hole in the cap. A bushing 10 made of an anti-friction material serves to guide the brush. Seal the stem 8 by means of a sealing ring 11 by clamping the latter with a compression sleeve 12 with the help of a cap nut 13.

In the grooves of the side faces of the slider 4, directed along the flow, sealing gaskets 14 are laid, and on the tips of the convex parts of the saddle 2 and slider 4 there are inserts made of sealing material 15 (copper, aluminum, fluoroplastic, rubber, etc.). The cap is sealed with gaskets 16 and 17. The valve is attached to the pipeline with flanges.

Shut-off control valve-flow valve operates as follows.

The actuator 9 receives a command for a specific change in the flow rate of the working fluid or gaseous medium and reports the forward movement of the rod 8 and the associated slide 4. Moving the slide reduces or increases the flow area of the valve and thereby controls the flow of the working medium.

If it is necessary to completely shut off the valve, the slider 4 is lowered until it stops. The lower end of the slider 4 is pressed into the soft sealing plate 15, the slider shoulders pressed against the soft sealing ring 7 along the entire perimeter, the side seals 14 pressed against the plate 15. This ensures that the valve is almost completely closed and there are no leaks.

The use of the valve of the proposed design in flow control systems

liquids, in particular in the thermal management systems of sheet rolling mills, provides a significant economic effect due to the fact that the linear flow characteristic of the valve provides greater clarity and accuracy of control of the control actions than in the valves currently used account, will lead to a reduction in the length of defective areas of hire.

In addition, the seal design

the working body will ensure reliable operation of the valve both when controlling the flow and when it is completely shut off. At the same time, the reliability of the valve is not reduced if there are mechanical impurities in the working medium that are not in its way

0 obstacles do not accumulate inside the valve.

Claims (2)

1. USSR author's certificate No. 222828, cl. G 05 D 7/01, publ. 1968. 2. USSR author's certificate No. 309191, cl. F 16 K 13/02, published 1971 (prototype).