RU36718U1 - MEMBRANE VALVE ACTUATOR - Google Patents

Description

Diaphragm valve actuator.

The proposal concerns a utility model as an object of industrial property relates to actuators of control valves, for example, valve actuators, and can be used to control regulatory or locking - regulating bodies of actuators in the oil, gas and other industries.

A known valve actuator of the valve, comprising a membrane chamber, mounted on a support bracket and formed by at least two covers and placed between them by a membrane attached to the support disk, is spring-loaded on the support bracket rod, one end of which is connected to the support disk of the membrane, the other end is designed to interact with the valve structural element associated with the valve shutter (see the reference book “Modern Designs of Pipe Fittings for Oil and Gas, Kotelevsky Yu.M. et al., M. , "Nedra, 1976, p. 289, hereinafter in the text of the description the membrane actuator, characterized by this set of features, will be called" specified known membrane actuator).

This technical solution is the closest to the described utility model in terms of technical nature and the achieved result.

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Author: Zilonov M.O. The disadvantage of this known membrane actuator is

the fact that it cannot provide the smoothness of the stroke of the rod and the valve shutter necessary for good control of the flow rate of the working medium, as well as the fact that its use can lead to depressurization of the valve. These drawbacks are due to the fact that, due to the fact that the metal rod and the spring adjusting nut form a friction pair, they form seizures that adversely affect the smoothness of the stroke of the rod. In addition, there is a significant gap between these parts to reduce these scoring, which leads to significant angles of rotation of the stem in different directions, its bending, as a result of which the valve seal may be damaged by the rod and its tightness may be impaired.

The utility model is aimed at achieving a technical result: eliminating rod seizures and significant rod rotation angles in the longitudinal plane, due to which the ride smoothness, quality of regulation are increased, valve depressurization is excluded.

The specified technical result is achieved by the fact that the specified known membrane actuator is equipped with a guide; it has a stem sleeve made of polyamide, for example caprolon, and installed in the coaxial rod hole made in the base connected to the specified support bracket.

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slight plastic deformation of said sleeve and then

unidirectionality of the reciprocating motion of the rod is ensured, which eliminates a significant rotation and bending of the rod in the longitudinal plane, as a result of which damage to the valve seal is eliminated. Moreover, as a result of the friction of the metal rod against the polyamide guide sleeve, scoring does not form, which decreases the smoothness of the stroke of the rod and worsens the quality of regulation of the flow rate of the working medium passing through the valve.

Figure 1 shows the proposed membrane valve actuator; figure 2 is the same (embodiment); in Fig.3 is a local view And in Fig.1.

The valve diaphragm actuator contains a membrane chamber 1, fixed by means of bolts 2 on the support bracket 3 and formed by two covers 4 and 5, interconnected by means of bolts 6 and nuts 7, and a membrane (clamped by means of the indicated bolts and nuts) between them 8. The membrane 8 is connected to the support disk 9 and the spring 10 on the support bracket 3 (figure 1, 2). One end of the rod 10 is connected to the membrane support disk 9, the other end is designed to interact with the valve structural member (valve shutter plate, not yet busy). The diaphragm actuator is equipped with a rod guiding sleeve 11 made of polyamide (caprolon) installed in a coaxial hole hole made in the base of the sleeve 11 — an adjusting nut 12 screwed into the support bracket 3. With the end face of the sleeve 11 and nut 12 through the caprolon washer 13 and the support the ring 14 interacts with a spring 15 located between the support disk 9 and

ring 14. The diaphragm actuator can be equipped with a limiter 16 for moving the rod, in a known manner connected to the rod 10.

According to the variant depicted in FIG. 2, the normally-closed valve diaphragm actuator is equipped with a flange 17 located inside the membrane chamber 1 and sealing gaskets 18 and 19. The adjusting nut 20 is screwed onto the stem 10, and the spring 21 is placed between the support ring 22 and the flange 17 and interacts with the nut 20 through the support ring 22 and the washer 23 (figure 2). According to this option, the membrane actuator is equipped with a guide sleeve 1G of the rod made of polyamide (caprolon), installed in the coaxial rod of the hole, made in the base - flange 17, connected to the support bracket using bolts 2, which the membrane chamber 1 is connected to the support bracket 3 . In the flange 17 between the sleeve 1G and the locking ring 24 and the washer 25 is placed a seal 26.

The membrane drive operates as follows.

The input signal P from the control device (not shown) through the hole 27 (figure 2) enters the working cavity of the membrane chamber and acts on the membrane 8 (figure 1). Under the action of this force, the flap 10 moves (Fig. 1 - the flap moves down, Fig. 2 - up), as a result of which the valve closes (Fig. 1). In the embodiment of the drive of FIG. 2, as a result of said movement of the stem 10, the valve opens. In this case, the spring 15

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(figure 2 - spring 21) is compressed. When depressurizing P under the action of

spring 15 (Fig. 2-spring 21), the rod 10 is returned to its original position. During operation of the actuator, due to such a design of the membrane actuator during its operation as a result of rotation of its rod in the longitudinal plane, a slight plastic deformation of the mentioned sleeve occurs, and then the unidirectional reciprocating movement of the rod is ensured, which eliminates significant rotation and bending of the rod in the longitudinal plane, as a result of which damage to the seal is eliminated valve (not shown). In this case, as a result of friction of the metal rod on the polyamide guide sleeve, scoring does not form, reducing the smoothness of the stroke of the rod and worsening the quality of regulation of the flow rate of the working medium passing through the valve. When the caprolon sleeve 11 and the washer 13 interact, due to slight friction between them, the rotation of the rod 10 around its axis and damage to the drive parts caused by the indicated rotation are excluded.

Thus, the use of the proposed technical solution will eliminate the sticking of the actuator stem and significant angles of rotation of the stem, due to which the ride is improved, the quality of regulation, valve depressurization is eliminated. General manager

Claims (1)

A diaphragm valve actuator comprising a membrane chamber mounted on a support bracket and formed by at least two covers and a membrane located between them, attached to a support disk, a rod spring-loaded on the support bracket, one end of which is connected to the membrane support disk, the other end is designed for interacting with a valve structural member associated with the valve shutter, characterized in that it is provided with a stem guide sleeve made of polyamide and installed in a coaxial rod hole formed in the base, connected to said support bracket.