RU2637790C1 - Shut-off pressure valve - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: shut-off pressure valve has a body with a through channel, inlet and outlet branch pipes, shut-off element with a rod, shut-off element seat, pressure means for linear displacement of the shut-off element rod, and a return spring. The valve is additionally provided with a metal bellows chamber placed around the projecting part of the shut-off element rod. At that, the return spring is placed inside the bellows chamber. The outlet branch pipe is located in the side wall of the housing for passing the working medium flow from the housing through the bellows chamber. The pressing device is made in the form of pressure heel with hinged screw.

EFFECT: increased reliability of the shut-off pressure valve.

5 cl, 2 dwg

Description

The invention relates to the field of pipe fittings and can be used as shutoff valves, including devices for water analysis, mainly in water-folding columns.

 A shut-off valve of a water-folding column with a nozzle part is known, in the lower part of which there is a collar with a sealing element located on it, and side holes are made in the middle part, while the valve nozzle with its nozzle part is freely articulated with the lower end of the ejector (RF patent No. 2078178 on invention “WATER DISPLACEMENT COLUMN”, IPC E03B9 / 20, published on 04/27/1997).

Known shut-off pressure valve of the water column, containing a housing, a spring and a sealing ring that blocks the access of water (RF patent No. 2010924 for the invention of the “Water Dispensing Column”, IPC E03B9 / 20, published April 15, 1994).

The closest to the claimed technical solution for the combination of essential features is a pressure shut-off valve, comprising a housing with a through channel; inlet and outlet nozzles; locking body with a stock; valve seat; pressure means for linear movement of the rod of the locking member; return spring; sealing cuff; single-acting hydraulic damper (RF patent No. 114072 for utility model “WATER DISPOSABLE COLUMN OF DOSED WATER DISPOSAL”, IPC E03D3 / 00, published March 10, 2012).

Known shut-off pressure valves operating in a multi-cycle open-close mode have a number of significant drawbacks: insufficient reliability, low service life in a multi-cycle mode, high cost of repair and maintenance costs.

The technical problem, the solution of which the claimed technical solution is directed, is the creation of valves, characterized by improved technical characteristics.

The technical result achieved by solving the problem is to increase the reliability of the shut-off pressure valve.

The specified technical result is achieved by the fact that the shut-off pressure valve comprises a housing with a through channel; inlet and outlet nozzles; locking body with a stock; valve seat; pressure means for linear movement of the rod of the locking member; a return spring and a metal bellows chamber located around the protruding part of the valve stem, wherein the return spring is placed inside the bellows chamber, and the outlet pipe is placed in the side wall of the housing with the possibility of passage of the medium flowing out of the housing through the bellows chamber, and the pressure means is made in in the form of a pressure heel with a hinged screw.

Preferably, the stem of the locking member comprises longitudinal recesses.

Preferably, the valve seat is made of resilient material.

Preferably, the material of the seat of the locking member has less hardness than the material of the locking member.

Preferably, the closure is in the form of a truncated sphere.

A comparative analysis of the claimed invention with the prototype showed that in all cases it is different from the known, closest technical solution:

- the presence of a metal bellows chamber located around the protruding part of the stem of the locking member;

- placement of the return spring inside the bellows chamber;

- the placement of the outlet pipe in the side wall of the housing with the possibility of passing out of the housing flow of the working medium through the bellows chamber;

- the implementation of the pressure means in the form of a pressure heel with a hinged screw.

In a preferred embodiment, the claimed invention differs from the known, closest technical solution:

- the presence of longitudinal grooves on the stock of the locking member;

- the implementation of the saddle locking element made of an elastic material;

- the implementation of the seat of the locking member of a material having lower hardness compared to the material of the locking member;

- the implementation of a locking body in the form of a truncated sphere.

The presence of a metal bellows chamber, placed around the protruding part of the stem of the locking element, ensures the capture and retention of the working medium inside the bellows chamber, preventing it from entering the environment, and eliminates leakage of the working medium. The implementation of the outlet pipe placed in the wall of the housing with the possibility of passing the flow of the working medium coming out of the housing through the bellows chamber provides intensive washing of the internal cavity of the bellows chamber with the valve open in the working environment jets, eliminating the formation of stagnant zones. The use of a bellows chamber as a seal for the stem of a shut-off element reduces the number of rubbing parts and does not require precise accuracy of mating of contacting parts moving relative to each other. The use of the articulated screw relieves the alternating stresses arising from the angular misalignment of the axes of the rod of the locking member and the pressure heel. All this as a whole increases the reliability of the design, increasing the life of the valve in the multi-cyclic mode and reducing repair and maintenance costs. The implementation of the seat of the locking element in the form of a truncated sphere made of an elastic material having less hardness than the material of the locking element also increases the reliability of the locking pressure valve.

The invention is illustrated in the schematic drawings shown in FIG. 12.

In FIG. 1 is a schematic drawing of a shut-off pressure valve in a closed state, longitudinal section.

In FIG. 2 is a schematic drawing of a shut-off pressure valve in an open state, a longitudinal section.

The shut-off pressure valve comprises a housing 1 with a through channel 2; input 3 and output 4 nozzles; locking body 5 with a stem 6; saddle 7 of the locking member 5, pushing means 8 for linear movement of the rod 6 of the locking member 5; a return spring 9. A metal bellows chamber 10 is placed around the protruding part of the stem 6 of the locking member 5. A return spring 9 is placed inside the bellows chamber 10, and the outlet pipe 4 is placed in the side wall of the housing 1 with the possibility of passage of the medium flowing out of the housing 1 through the bellows chamber 10. In a preferred embodiment, the pressure means 8 is made in the form of a pressure heel 11 with a hinge screw 12. The stem 6 of the locking member 5 contains longitudinal recesses (not shown in the drawing). The saddle 7 of the locking member 5 is made of an elastic material having lower hardness compared to the material of the locking member 5. The locking member 5 has the shape of a truncated sphere.

The invention works as follows.

When translational vertical-axial force is applied to the hinge screw 12, he and the pressure heel 11 move linearly downward. Attached to the pressure heel 11, the stem 6 of the locking member 5 lowers the locking member 5, which moves away from the seat 7, opening the valve. The fluid flow, passing along the longitudinal recesses (not shown) of the rod 6 of the locking member 5, enters the cavity of the bellows chamber 10, then, from the cavity of the bellows chamber 10, through the outlet pipe 4, the fluid flow enters the spout.

Opening and closing the shut-off pressure valve is a simple forward effort without unnecessary kinematic gears of this effort. The valve design makes it possible to aggregate it both with mechanical linear actuators and with electromagnetic devices, as well as the ability to operate the valve with various liquid media, including highly toxic ones.

Claims (5)

1. Shut-off pressure valve comprising a housing with a through channel; inlet and outlet nozzles; locking body with a stock; valve seat; pressure means for linear movement of the rod of the locking member; a return spring, characterized in that it further comprises a metal bellows chamber located around the protruding part of the valve stem, wherein the return spring is placed inside the bellows chamber, the outlet pipe is placed in the side wall of the housing with the possibility of passage of the medium flowing out of the housing through the bellows chamber, and the pressing means is made in the form of a pressure heel with a hinged screw. 2. The valve according to claim 1, characterized in that the stem of the locking member comprises longitudinal recesses. 3. The valve according to claim 1, characterized in that the valve seat is made of an elastic material. 4. The valve according to claim 1, characterized in that the seat material of the locking member has less hardness than the material of the locking member. 5. The valve according to any one of paragraphs. 1-4, characterized in that the locking member has the shape of a truncated sphere.

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