RU177883U1 - HOSE VALVE AND CONTROL VALVE - Google Patents

Abstract

The utility model relates to valve manufacturing, namely to hose shut-off and control valves intended for installation on production lines and pipelines transporting viscous, liquid, pulp-like slightly aggressive and aggressive working environments. The hose shut-off and control valve contains an elastic hose 1 with flanged ends mounted in a detachable housing 2. The valve is equipped with a manual actuator 3 of the double-sided clamping mechanism of the hose 1, made in the form of a power frame including a pressure beam 4 connected to the drive spindle 3, and the base 5 for a hose with two parallel rods 6 fixed to it, each of which is fixed by the other end to the drive housing 3 and passes through a sliding fit through the crosshead 4 and the split housing 2. In this case, the split housing 2 is made closed, and the traverse base 4 and 5 for the hose installed inside the housing 1 and 2 are in the form of plates with a trapezoidal occluded surface. On the edges of the traverse there are made semicircular grooves in contact with the rods 6, and in the detachable body 2 there are through holes with anti-friction bushings (not shown) installed in them for directional movement of the rods 6. The valve is equipped with an element for visualizing the destruction of the elastic hose 1 and the occurrence of leaks, made in view of the through hole 7 in the lower part of the detachable housing 2. To increase the rigidity and structural strength of the hose shut-off and control valve, the detachable housing 2 is made by milling on a machine computer numerical control (CNC). The manual drive 3 is made in the form of a hollow rod 8 with a threaded sleeve 9 fixed in its hole, into which a threaded rod 11 equipped with a flywheel 10 is screwed, having a shoulder 12, abutting against the sleeve 13, mounted in the actuator housing 3. To increase the reliability of the valve due to Exclusion of dry friction and wear of parts between the shoulder 12 of the threaded rod 11 and the sleeve 13 of the drive housing 3 is installed thrust needle roller bearing 14. At the same time, the hose shut-off and control valve can also be equipped with an electric and pneumatic actuator for remote and / or automatic control. The use of the utility model can significantly increase the reliability and maintainability of the hose shut-off and control valve.

Description

The utility model relates to valve manufacturing, namely, to hose shut-off and control valves intended for installation on production lines and pipelines transporting viscous, liquid, pulp-like slightly aggressive and aggressive media.

Known hose valve comprising a housing with an elastic hose located inside the housing and a mechanism for bilateral clamping of the hose [Gurevich DF, Shpakov ON "Handbook of pipeline fittings designer." L., Engineering Leningrad Branch, 1987, p. 104, Fig. 2.54c)].

Also known is a hose valve containing an elastic hose and a pinch mechanism, comprising a power frame with a concave base for the hose, a driving nut for a drive screw spindle and guide rods for a push beam, connected to the drive screw spindle and provided with a convex working surface [patent of the Russian Federation No. 2300037 IPC F16K 7/06, publ. 08/10/2006 Bull. No. 22].

The disadvantages of the known hose valves are the design complexity due to the presence of two lead nuts with left and right threads, as well as increased material consumption and manufacturing complexity.

As a prototype, a hose valve is selected comprising a housing, an elastic element and a pinch mechanism made in the form of a power frame including a pressure beam, a hose base connected by means of rods to a beam, in which a screw spindle is installed, characterized in that the housing further comprises guides in which the pressure beam and the base for the hose are made, made of a T-shape, while the rods of the power frame are located in the holes of the guides [patent of the Russian Federation No. 2371622, M PC F16K 7/06, publ. 10/27/2009 Bul. No. 30].

A disadvantage of the known hose gate valve is its low reliability, due to the fact that the traverse elements, hose bases and threaded rods are outside the body during valve operation and are exposed to negative environmental influences (chemical corrosion, deposition of abrasive particles, etc.), which can lead to jamming movable valve elements and render it unusable. An additional factor that reduces the reliability and durability of the known hose shut-off and control valve is the different clamping force of the hose with the traverse and the base for the hose: since the axis of the actuator rod is vertical, the additional gravity of the actuator acts on the traverse - therefore, the upper part of the hose is deformed more .

The task to which the claimed utility model is directed is to increase the reliability of a hose shut-off and control valve.

The problem is solved in that in a hose shut-off and control valve containing a detachable body with an elastic hose mounted therein with flanged ends and a two-way clamping mechanism of the hose, made in the form of a power frame including a pressure beam connected to the drive spindle and a hose base with two parallel rods fixed to it, each of which is fixed by the other end to the drive housing and passes through a sliding fit through the yoke and the split housing, according to of the first model, the detachable case is closed, and the traverse and the base for the hose are installed inside the case and made in the form of plates with a trapezoidal pinch surface, while the edges of the traverse are made of semicircular grooves, and in the detachable case there are through holes with anti-friction guides installed in them bushings to move the rods, and the valve is equipped with an element for visualizing the destruction of the elastic hose and the appearance of leaks.

To reduce weight and increase rigidity and structural strength, the split valve body is milled.

In this case, the drive can be made manual, electric or pneumatic.

In an embodiment of a manually operated valve, the actuator comprises a hollow stem with a threaded sleeve fixed in its hole, into which a threaded rod equipped with a flywheel is screwed, having a collar abutting against a sleeve fixed in the actuator body.

To increase the reliability and durability of the manual drive, an axial rolling bearing is installed between the shoulder of the threaded rod and the sleeve of the drive housing. In order to ensure the compactness of the drive, the thrust roller bearing is made needle-shaped.

To simplify the design of the valve, the visualization element of the destruction of the elastic hose and the appearance of leaks is made in the form of a through hole in the lower part of the detachable body.

In order to ensure the same two-sided clamping of the hose with the traverse and the base for the hose by eliminating the additional force of the actuator weight on the traverse, the axis of the valve actuator stem is horizontal.

The inventive utility model is illustrated by drawings, which show a General view of a hose shut-off and control valve in the embodiment with a manual actuator: Fig. 1 is a longitudinal section through a valve in the open position: FIG. 2 fragment of a manual drive with a thrust needle roller bearing in section.

The list of positions in the drawings:

1 - elastic hose with flanged ends;

2 - split housing;

3 - manual drive;

4 - traverse;

5 - the basis for the hose;

6 - a directing bar;

7 - a hole in the lower part of the detachable body to visualize the destruction of the elastic hose and leaks;

8 - stock;

9 - threaded sleeve;

10 - flywheel;

11 - threaded rod;

12 - shoulder threaded rod;

13 - sleeve;

14 - thrust needle roller bearing.

Hose shut-off and control valve (see Fig. 1) contains an elastic hose 1 with flanged ends mounted in a detachable housing 2. The valve is equipped with a manual actuator 3 of the double-sided clamping mechanism of the hose 1. made in the form of a power frame including a pressure beam 4 connected to the drive spindle 3, and the base 5 for the hose with two parallel rods 6 fixed to it. Each of which is fixed by the other end to the drive housing 3 and passes through a sliding fit through the yoke 4 and the split housing 2.

In this case, the detachable housing 2 is made closed, and the crosshead 4 and the base 5 for the hose 1 are installed inside the housing 2 and are made in the form of rails with a trapezoidal pinch surface. On the edges of the traverse there are made semicircular grooves in contact with the rods 6 (not shown), and in the detachable body 2 there are made through holes with anti-friction bushings installed (not shown) for the directed movement of the rods 6. The valve is equipped with an element for visualizing the destruction of the elastic hose 1 and occurrence of leaks, made in the form of a through hole 7 in the lower part of the detachable housing 2.

To increase the rigidity and structural strength of the hose shut-off and control valve, the detachable body 2 is made by the method of milling on a machine with numerical control (CNC).

The milling version of the manufacture of the detachable body 2 allows to improve maintainability and increase the operational performance of the valve due to:

- reducing the mass of the product by reducing the wall thickness of the split body, which is technologically difficult and sometimes impossible to provide in the manufacture of half-bodies by casting (this is especially evident on valve bodies with a small diameter of the flow part, where it is necessary to manufacture walls with a thickness of several millimeters);

- excluding the presence of pores, looseness and other defects that are possible in the manufacture of casings by casting, and accordingly, eliminating the costs of finalizing these defects;

- improving the reliability of the detachable housing by increasing the strength and rigidity of the structure as a whole.

The manual actuator consists of a hollow rod 8 with a threaded sleeve 9 fixed in its hole, into which a threaded rod 11 equipped with a flywheel 10 is screwed, having a shoulder 12, abutting against the sleeve 13, mounted in the actuator housing 3. To increase the reliability of the valve by eliminating dry friction and wear of parts between the shoulder 12 of the threaded rod 11 and the sleeve 13 of the housing 3 of the drive mounted thrust needle roller bearing 14.

In order to ensure the same two-sided clamping of the hose 1 by the cross-beam 4 and the base 5 for the hose by eliminating the additional force of the weight of the actuator 3 on the cross-beam 4, the axis of the rod 8 of the valve actuator 3 can be located horizontally (not showing).

At the same time, the hose shut-off and control valve can be equipped with an electric and pneumatic actuator for remote and / or automatic control.

Hose shut-off valve operates as follows.

Using the flywheel 10, a threaded rod 11 is brought into rotation, which engages with the threaded sleeve 9 of the rod 8, which, abutting the pressure beam 4. pushes it down the guide rods 6 and moves up the actuator 3 with the rods 6 and the base 5 fixed to them for hose 1.

There is a two-sided clamping of the hose 1. regulated by the actuator 3. It can be carried out from the "Open" position (Fig. 1) to the "Closed" position (not shown). In the oncoming movement of the pressure beam 4 and the base 5, a clamping of the hose 1 occurs, which ensures reliable shutoff of the flow of the working medium. Due to the presence of a thrust bearing 14, little effort is required to turn the flywheel 10 of the manual drive 3, wear of the mating surfaces of the shoulder 12 of the threaded rod 11 and the sleeve 13 is eliminated.

The multivariate valve design allows you to choose any type of actuator and hose material depending on the parameters of the working environment.

Moreover, the valve design allows replacing the elastic hose 1 by dismantling only the lower part of the detachable body 2 and the base 5 for the hose 1, which significantly reduces the complexity of the repair and installation work.

The use of the utility model can significantly increase the reliability of the hose shut-off and control valve.

Claims (10)

1. Hose shut-off and control valve, comprising a detachable body with an elastic hose mounted therein with flanged ends and a double-sided clamping mechanism for the hose, made in the form of a power frame including a pressure beam connected to the actuator spindle and a hose base with two fixed on it parallel rods, each of which is fixed at one end to the drive housing and passes through a sliding fit through the yoke and split housing, characterized in that the split housing is closed and the traverse and the base for the hose are installed inside the detachable body and made in the form of rails with a trapezoidal clamping surface, while the edges of the traverse are made of semicircular grooves, and in the detachable body there are through holes with antifriction guide bushings installed in them for moving the rods. 2. Hose shut-off and control valve according to claim 1, characterized in that the detachable body is milled. 3. Hose shut-off and control valve according to claim 1, characterized in that the actuator is made manual. 4. Hose shut-off and control valve according to claim 2, characterized in that the manual actuator is made in the form of a hollow rod with a threaded sleeve fixed in its hole, into which a threaded rod equipped with a flywheel is screwed, having a collar resting against the sleeve fixed in the drive housing . 5. Hose shut-off and control valve according to claim 3, characterized in that a thrust roller bearing is installed between the shoulder of the threaded rod and the sleeve of the drive housing. 6. Hose shut-off and control valve according to claim 5, characterized in that the thrust bearing is needle-shaped. 7. Hose shut-off and control valve according to claim 1, characterized in that the actuator is electric. 8. Hose shut-off and control valve according to claim 1, characterized in that the actuator is pneumatic. 9. Hose shut-off and control valve according to claim 1, characterized in that the visualization element of the destruction of the elastic hose and the appearance of leaks is made in the form of a through hole in the lower part of the detachable body. 10. Hose shut-off and control valve according to claim 1, characterized in that the axis of the actuator stem is horizontal.

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