CS265293B1 - Hose valve with core - Google Patents

Abstract

The solution falls into the field of fittings and solves the design of a pinch valve with a core, especially for closing and regulating the flow of non-aggressive fluids with the highest permissible working pressure of 1.6 MPa. The essence of the solution is that on the front surfaces of the valve body, in the places of the spigots, recesses are provided for attaching the connecting flanges. The flange ends of the hose are fixed in the recesses, while the core is terminated on the sides by ribs regularly spaced around the circumference and connected by rings placed in the shoulders formed in the connecting flanges on the side adjacent to the front surfaces of the body. The inner surface of the body is then provided with peripheral grids at the point of supply of the controlled fluid.

Description

The invention relates to a hose valve and a core, in particular for closing and regulating the flow of non-aggressive fluids at a maximum permissible operating pressure of 1.6 MPa.

Currently, a number of hose valves are used, in which the hose in the body is compressed on one or both sides mechanically, hydraulically or pneumatically until the flow is closed. These solutions are demanding on the material design of the hose due to the requirement of perfect elasticity and have relatively lengthy and complicated control elements, with all regulation or closing of the fluid flow necessary through the control device. To control the flow of fluids with a maximum permissible overpressure of 1.6 MPa, hose valves with a streamlined core, axially inserted into the flow cross-section of the valve and fitted with connecting flanges, are then used. The hose inserted into the body is then led out of the body with its flange ends and fastened between the connecting flanges and the body by tightening the connecting screws. The regulating or closing function of the hose is ensured by means of a control fluid supplied by a radial opening located on the circumference of the body, while the flexible hose itself ensures the closing of the flow through the valve at an overpressure up to 0.05 MPa. Despite the very simple construction and manageability, the disadvantages of these valves include the possibility of hose breakage due to over-tightening of the connecting bolts and the possibility of permanent deformation or failure of the hose under unidirectional action of the control and regulated fluid on the hose.

in

Essentially, the invention is that of a core hose valve consisting of a removably connected body and connecting flanges, in which a core is attached in the shoulder by means of rings, a hose is fixed between the flanges and the body and the body is provided with a fluid supply; it is characterized in that recesses are provided on the end faces of the housing at the points of the risers provided for attaching the connecting flanges, in which the flange ends of the hose are fixed, the core being terminated at the sides by ribs regularly spaced circumferentially and joined by rings.

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It is a further object of the invention that the inner surface of the body is provided with peripheral gratings at the point of supply of the control fluid.

The construction of the hose valve according to the invention achieves a higher effect in that, while maintaining the simplicity of the construction and the functional reliability, a firm grip of the hose in the body is guaranteed without the possibility of its failure during assembly. The formation of ribs on the core then avoids excessive swelling of the hose under unilateral overpressure of the working fluid, thereby increasing the life of the hose and reducing the possibility of valve failure due to loss of hose functionality.

A specific embodiment of the invention is schematically shown in the accompanying drawing, wherein Fig. 1 is a vertical axial longitudinal section through the one-way hose valve in the closed position; and Fig. 2 is a partial section through the valve of Fig. 1 at full flow of working fluid.

The hose valve according to the invention is formed by a hollow body 1, which is provided on the outer surface at the end faces 101 with risers 102, in which connection flanges 4 are fastened by studs 2, recesses 103 are formed on the end faces 101 of the body 1. a hose 4, for example made of rubber, is secured by its flange ends 41 and is secured against excessive compression by overlapping of the bosses 102 with the end faces 101 of the body 3L. In the flow cross-section of the body 1, and hence the hose 4, a core-shaped core 6 is inserted, made, for example, of plastic, the outer diameter of which is 60-80% of the flow cross-section of the valve. The core is terminated at the sides by ribs 51 which are regularly spaced around the circumference and terminated and joined by rings 32 housed in shoulders 31 formed in the connecting flanges 6. The connection flanges 11 are further provided with front through holes 32 for connection to a pipe (not shown). One of the connecting flanges 4 is then provided with a radial duct 6, to which is connected, for example screwed, a transfer line 8 with a control valve 8, for example a two-way valve, which opens into an inlet duct 4 formed radially in the central part In the channel 4, the inner surface of the body 1 is then provided with circumferential gratings 10 to allow a uniform action of the control fluid over the entire circumference of the hose 4.

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At a working fluid pressure of up to 0.05 MPa, the flow through the valve is closed by the inherent flexibility of the hose 4 which adheres to the core

When the pressure increases, the working fluid pushes the hose 6, which rests against the circumferential grids 10 of the inner surface of the body 1, thereby releasing full flow through the valve. When closing the fluid flow of more than 0.05 MPa, the control fluid is fed through the inlet channel 2 ^{into the} interior of the body 1, above the hose 4Γ, whereby the hose 4 gradually grips and presses on the core 2 until the valve flow is completely closed. The same pressure as the working fluid is sufficient to press the hose 4 onto the core 2, and therefore the working fluid introduced through the radial channel 6, the overflow pipe 8 with the control armature 8 and the inlet channel 2 ^{into the} interior of the housing 1 above the hose as shown in Fig. 1. When the working fluid pressure drops below 0.05 MPa, the hose 4 automatically shuts off the flow through the valve and re-opens the flow by draining the control fluid from the space above the hose 4. it only partially acts as a throttle valve.

The described embodiment is not the only possible solution according to the invention but, for example, for bidirectional control, the radial channel 6 can be formed in both connecting flanges 2 and the control fitting 8 can be of different types for manual, electrical or automatic control. Also, the control fluid may be supplied from an external source.

The invention can be used as a closing or regulating element in industrial and water supply fittings and industrial equipment.

Claims (2)

A core hose valve comprising a removably connected body and connecting flanges in which a core is mounted in a ring fitting, a hose is fixed between the flanges and the body and the body is provided with a control fluid supply, characterized in that recesses (103) are provided on the end faces (101) of the body (1) at the locations of the risers (102) designed to attach the connecting flanges (3), in which _{x the} flange ends (41) of the hose (4) are fixed; ) is terminated at the sides by ribs (51) regularly spaced around the circumference and joined by rings (52). Hose valve according to claim 1, characterized in that the inner surface of the body (1) is provided with peripheral gratings (10) at the point of supply of the control fluid.