RU2215923C2 - Valve - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: invention relates to gas or liquid flow control devices and it is designed for use in pipelines as check and distributing valves. Proposed valve has housing, shutoff member moving inside housing, and cover. Housing in made in form of bundle of resilient rods rigidly secured by one end in valve cover. Shutoff member is formed by group of resilient rods filling the space of bundle. Invention is aimed at control of distribution of gas or liquid flow over volume of vessel. EFFECT: simplified design of valve. 4 cl, 4 dwg

Description

 The invention relates to devices for controlling the flow of gas or liquid and can be used in pipe fittings, namely as a check and distribution valve.

 Known valve for pipe fittings (analogue) [Gurevich DF, Shpakov O. N. Reference designer of pipe fittings, Leningrad, "Engineering", Leningrad branch, 1987, p. 20], (Fig. 1.1), comprising a housing, a shutter (slide valve), a cover, a spindle, a flywheel, as well as an oil seal, a running nut and a pressure sleeve.

 The disadvantages of this valve are the inability to control the distribution of the flow of liquid or gas over the volume of the vessel (pipeline), as well as the complexity of the design due to the presence of a large number of constituent elements.

 Also known is a valve for pipe fittings (prototype) [Gurevich D.F., Shpakov O.N. Pipeline Valve Designer Handbook, Leningrad, Mechanical Engineering, Leningrad Branch, 1987, p. 97] (Fig. 2.51), characterized in that the shutter is made in the form of a cylinder (piston) that overlaps the seat of the housing and cuts off the annular flow cavity of the housing.

 The disadvantages of this valve are the inability to control the distribution of fluid or gas flow over the volume of the vessel and the complexity of the structure due to the presence of a large number of constituent elements (including the need to use drive and transmission mechanisms).

 The essence of the invention lies in the fact that the valve comprises a body, a shutter moving inside the body, and a cover, the body being made in the form of a bundle consisting of elastic rods rigidly fixed at one end in the valve cover, and the shutter is made of groups of elastic rods filling the whole space of the bundle. The groups of rods that form the shutter are rigidly fixed from the second end to the end plate and crimped with a flexible spiral or rings of different degrees of rigidity with different pitch along the length of the ligament.

 The present invention allows to control the distribution of the flow of liquid or gas over the volume of the vessel and simplifies the design of the valve.

 The distribution of fluid or gas flow over the volume of the vessel is ensured by the fact that the body is made in the form of a bundle consisting of rods rigidly fixed at one end in the valve cover, and the shutter is made of groups of elastic rods filling the entire space of the bundle; at the same time, the casing is crimped with a flexible spiral or rings of different degrees of rigidity with various steps along the length of the ligament. Different degrees of rigidity and the steps of the location of the rings, the step of the spiral determine the amount of substance (gas, liquid, steam) supplied at a given point in the vessel.

 Simplification of the valve design is achieved by the fact that the valve contains a smaller number of constituent elements, the design of which is changed, namely, the body is made in the form of a bundle consisting of rods rigidly fixed at one end in the valve cover, and the shutter is made of groups of elastic rods filling the entire space ligaments.

 The invention is illustrated by drawings (figures 1, 2, 3, 4).

 The valve comprises a housing 1 made in the form of a bundle consisting of elastic rods rigidly fixed at one end in the valve cover 3, a shutter 2 made in the form of several groups of elastic rods filling the entire space of the bundle, as well as a cover 3. Groups of rods forming a shutter , from the second end they are rigidly fixed with the end plate 4 and crimped with a flexible spiral 5 or rings 6 of different degrees of rigidity with a different step along the length of the bundle.

 The proposed valve operates as follows.

The valve divides the vessel (pipeline) into two compartments (see drawings). When P ₁ ≤P ₂ (P ₁ - pressure in compartment 1, P ₂ - pressure in compartment 2), the proposed valve acts as a check valve. The passage sections formed by the spaces between the rods that form the shutter tend to zero, thereby preventing the substance (gas or liquid) from compartment 2 from penetrating into compartment 1. The presence of a flexible spiral, rings leads to complete sealing of the compartments. With P ₁ > P _{2, the} valve depicted in FIGS. 3 and 4 also acts as a control valve. The passage sections formed by the spaces between the rods forming the valve at different points of the valve body will be different depending on the pitch of the spiral, rings or ring stiffness. In the valve shown in FIGS. 3 and 4, the shutter parts diverge in length by different sizes due to different stiffness of the rings and different distances between them (Fig. 4), or different stiffness of the spiral and the distance between its steps (Fig. 3).

 Different values of the flow cross sections at different points of the housing leads to the supply of a different amount of substance (gas, liquid) from compartment 1 to different points in the volume of compartment 2.

 Thus, the proposed valve allows you to adjust the distribution of the flow of liquid or gas over the volume of the vessel while simplifying the design of the valve.

Claims (4)

 1. A valve comprising a housing, a shutter moving inside the housing, and a cover, characterized in that the housing is made in the form of a bundle consisting of elastic rods rigidly fixed at one end in the valve cover, and the shutter is made of groups of elastic rods filling the entire space ligaments.  2. The valve according to claim 1, characterized in that the groups of rods that form the shutter are rigidly fixed to the end plate from the second end.  3. The valve according to claim 1 or 2, characterized in that the housing is crimped by a flexible spiral along the entire length of the ligament.  4. The valve according to claim 1 or 2, characterized in that the groups of rods that form the valve are compressed along the entire length of the ligament with rings of varying degrees of stiffness, spaced at different sizes.

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