RU2337263C2 - Two-way control gate - Google Patents

Abstract

FIELD: mechanics.

SUBSTANCE: two-way control gate comprises a body with a flange and two through branch pipes, a cover with a union for control medium and a membrane fitted in between the body flange and the cover and a partition arranged inside the body. The through inlet and outlet branch pipes, arranged on opposite sides of the partition, are jointed to the body. The said union is jointed to the body on the inlet branch pipe side. A screen with holes is furnished in the body on the flange side. The width or diameter of the holes is equal to the membrane thickness. The adapter, membrane and cover are fitted above the said screen provided with the second hole and union coupled with the remote control button and communicating the cover inner space with atmosphere.

EFFECT: higher reliability, simpler design, ease of manufacture, longer life.

2 cl, 4 dwg

Description

The invention relates to pipe fittings and is intended for industrial enterprises using an extensive air supply network, such as mining enterprises, metal processing plants and so on.

Known diaphragm locking device containing a baffle with passage channels, apertures located on its opposite sides, and covers attached to the baffle with the formation of the diaphragm cavities in communication with the source of the control medium (see patent RU No. 2053427, IPC ⁸ F16K 7/17 , published on January 27, 1996).

The disadvantages of this device are the complexity of manufacturing the housing and covers, the large stroke of the membranes, the need for an additional control medium.

Known two-way distributor containing a housing with a flange and two passage pipes, a cover with a fitting for the control medium and a membrane sandwiched between the housing flange and the cover, a partition placed in the housing, from different sides of which the inlet and outlet pipes are connected to the housing, and the side of the inlet pipe the fitting is connected to the housing (see patent FR No. 2314413 A1, IPC ⁸ F16K 7/16, 7/17, 01/07/1077, Figs. 1-4 (23 s).

The disadvantages of the prototype are the large size of the holes in the housing under the membrane from the side of the inlet pipe, the small stroke of the membrane, low reliability and short life.

The objective of the proposed technical solution is to create a reliable, easy to use, durable two-way distributor.

The solution to the technical problem is achieved by the fact that in the well-known two-way distributor comprising a housing with a flange and two passage pipes, a cover with a fitting for the control medium and a membrane clamped between the housing flange and the cover, a partition placed in the housing, from which the outlet pipes are connected to the housing, and on the inlet pipe side the fitting is connected to the housing, according to the invention, the housing on the flange side is provided with a mesh with holes having a width or diameter of ny membrane thickness, and the top spacer grid installed, the membrane and the cover, the second hole with a nozzle connected to a remote control button, and a cavity connecting the lid with the atmosphere formed in the latter.

The partition placed in the housing is made flat.

This device will improve reliability, simplify operation and increase its service life.

The invention is illustrated by drawings, where figure 1 shows a top view, section aa in figure 2. Figure 2 is a front view, a section bB in figure 1. In Fig.3 and 4 - sections bb and dg in Fig.2.

The two-way distributor consists of a housing 1, a mesh 2, a spacer 3, a membrane 4 and a cover 5, interconnected by bolts 6. The housing, for example of a cylindrical shape, is closed on one side by a cover 7, the resulting cavity is divided into two parts by a partition 8. To one cavity suitable inlet pipe 9 with a through hole S ₁ , to another - outlet pipe 10 with a through hole S ₅ . The cavity of the housing 1, to which the inlet pipe 9 is connected, is connected to the cavity of the cover 5 by a pipe 11 (FIG. 3), which in turn is connected to the button 12 by a pipe 13 (FIG. 4). In the housing 1, a hole is made with a plug 14 (see figure 4).

Two-way valve operates as follows.

For example, a two-way distributor is designed for switching compressed air, and the button 11 is closed, as shown in figure 4. Then, compressed air through the supply pipe 9 enters the distributor housing 1 and through the pipe 11 into the cavity of the cover 5. Since the button 12 is closed, compressed air pressure equal to the pressure in the supply pipe 9 is created in the cavity of the cover 5. The membrane 4 will begin to bend due to the forces acting on it to the grid 2 and block the holes in it, which in turn will stop the movement of compressed air from one cavity of the housing 1 to another. The deflection of the membrane 4 in the direction of the mesh in this case will occur due to the fact that the area of the membrane 4 from the side of the cover 5 is larger than from the side of the mesh 2. The area of impact of compressed air on the membrane 4 is equal to the sum of the areas of the holes in the mesh 2 from the side of the supply pipe 9, and the area of impact of compressed air on the membrane 4 from the side of the cover 5 is equal to the area of the entire cover 5. When you press the button 12, the outflow of compressed air into the atmosphere entering the cavity of the cover 5 is provided. squeezing compressed air through the holes in the grid from the cavity of the housing 1 with a supply pipe 9 into the cavity of the housing 1 with a discharge pipe 10.

Two-way valve can be made in almost any size and configuration. The cavity in the cover 5 is small in volume, therefore, the pipelines 11 and 13 may have a small diameter, the size of which can control the response time of the two-way distributor. If the pipe 11 is connected to the hole with a closed plug 14 (see Fig. 4), and the vacated hole (see Fig. 3) is closed with this plug 14, then the outlet pipe 10 will become the inlet and the inlet pipe 9 will be the outlet.

The membrane 4 can be made of any flexible material, for example rubber, plastic, thin metal plate. The most affordable and traditional material is rubber, which has the greatest flexibility and surface tightness. To prevent rupture of the membrane when pressure is exerted on it by the lid when overlapping holes in the mesh 2, the width of the slots or the diameter of the holes should be less than or equal to the thickness of the membrane 4. This condition will prevent breakthrough of the material of the membrane 4 in the holes and increase the service life of the distributor. In addition, during operation, the membrane material is stretched, therefore, when the membrane is exposed to pressure from the side of the cover, the membrane 4 of the hole in the grid 2 overlaps with the folds, which does not completely overlap these holes. In order to eliminate this phenomenon and increase the reliability of the distributor between the grid and the membrane, a spacer 3 has been installed, which ensures that the membrane travels in the direction of the cover 5 and in the direction of the grid 2 from its installation position. In this case, the total height of the spacer 3 and the curvature of the cover 5 should ensure that the areas of the passage opening S _{1 of the} inlet pipe are equal, the holes in the grid above the driving pipe are conventionally shown S ₂ , the cross-sectional areas S _{3 of the} cavity of the cover 5 with the spacer 3 above the flat partition 8, the areas of the holes in grid 2 is shown conventionally S ₄ above the outlet pipe and a cross-sectional area S _{5 of the} passage opening of the outlet pipe. This will reduce the resistance of the flow of switched air or liquid through the distributor and increase the reliability of its operation.

The two-way distributor can be used for switching not only air, but also any gases and homogeneous liquids, if the appropriate utilization of the control medium is ensured after the remote control button 12, or if a two-way distributor of compressed air is used for control. Then the pipe 11 is connected to a source of compressed air having a pressure equal to the pressure of the switched medium, and the hole in the housing to which the pipe 11 is connected must be plugged.

Using the proposed two-way distributor will allow, in comparison with the prototype, to increase reliability, reduce the complexity of operation and increase its service life.

Claims (2)

1. A two-way distributor comprising a housing with a flange and two passage pipes, a cover with a fitting for the control medium and a membrane sandwiched between the housing flange and the cover, a partition placed in the housing, on which sides of the inlet and outlet pipes are connected to the housing, and on the inlet pipe side, the nozzle is connected to the housing, characterized in that the housing on the flange side is equipped with a mesh with holes having a width or diameter equal to the thickness of the membrane, and a spacer is installed on top of the mesh a, a membrane and a lid, the latter having a second hole with a fitting connected to the remote control button and connecting the lid cavity to the atmosphere. 2. Two-way valve according to claim 1, characterized in that the partition is made flat.

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