HU216691B - Breaked closing check valve - Google Patents

Abstract

BACKGROUND OF THE INVENTION The present invention relates to a braked-closed non-return valve having a closing plate extending towards the seat of the valve, an axially sealed dowel shaft and a camshaft shank at the end of the valve housing opposite to the closure plate. The essence of the shut-off valve according to the invention is the lid (6) extending in the casing (5) of the leather (5) perpendicular to each other in the circumference of the housing (1), in the circumferentially spaced distance, and the lid (6) of the cover (3) is lifted. an open-end outer cylinder (11) rigidly fixed to the wall of the nest (7), a dowel (13) formed as a hollow roller, a dowel (14) formed at its end end by a single-axis through-hole (17), a tapered seat at the inner end of the groove (14) of the dowel (14); and by means of a pinch (18) held in the hub direction (15) by a pin (15) held in the hub direction by a pin (15) in the hinge direction (12) which engages in the dowel pin, engages in an elongate member (16) of the dowel (14). ŕ

Description

BACKGROUND OF THE INVENTION The present invention relates to a shut-off non-return valve having a spring-loaded locking disk which is concentricly fixed to the closing disk and fixed inside the valve housing, and has a piston rod extending uniaxially to the locking piston.

The purpose of non-return valves is to prevent backflow of flowing fluids and to open the interior of pipeline networks for a short period of time. Various non-return valves have already been made, but there is no one that satisfies all the requirements for them.

An example of one known type is disclosed in German Patent No. 36,109,665. In this embodiment, the inside of the housing has a conical structure at both ends which is coaxial with the housing, one end of which is rigidly secured to the inside of the housing by a rib and the other end of which is pressed from the rigidly attached end to the conical seat.

The problem with this solution is that it is complicated and difficult to produce. The end portion of the inner member attached to the outer casing is made of thin sheet material and is therefore inevitably deformed, especially at higher temperatures. As a result of the deformation, the movable end portion is trapped in its opening, rendering the valve inoperative. The operating process, the deceleration, cannot be controlled, and the viscosity, temperature, etc. of the flowing media. change is often needed. It is difficult to assemble and has a large construction length. Practically only applicable for large volumes of media and lower media pressures.

Another known solution is disclosed in German Patent No. 3427,131. In this solution, the fluid is diverted by 90 °. It is a mistake to bring the closure back to the seat by its own weight, so that a slight wear on the piston and piston rod housing and the piston or piston numbers is sufficient to render the valve inoperative. This solution can only be used for substantially lower pressures and high volume media.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a non-return valve whose structural elements, in terms of volume, pressure, viscosity, temperature, remain safely in their original shape and position so that they function equally well after a long period of use. , inexpensive and easy to install.

The present invention solves the object by providing a stop-closed non-return valve which has a spring-loaded locking plate pressed against the valve seat, a piston rod extending unilaterally to the locking plate and fixed to the inside of the valve housing, and a plunger having a piston, characterized in that the lid is formed at a defined distance and extends into grooves in the ribs perpendicular to the sealing plate; a through-hole plug, a tapered seat on the inside of the hole in the plug, and a plunger attached to the inside of the hole or to the tapered seat having a longitudinally slidable pin located in a bore at the end of the shank and a spring-loaded locking member of the plug bore.

It is a further feature of the invention that there is a fluid-permeable hole in the lower wall of the piston between the unchanged interior space of the piston and the variable space between the lower surface of the piston and the bottom of the cylinder.

It is also typical that the cylinder wall has one or more holes of the same or different diameters connecting the space below the piston to the interior of the housing.

A further feature is that the bore connecting the space below the piston to the interior of the housing has an adjusting screw that controls the through hole of the bore.

It is also within the scope of the present invention to have a fork mounted on the lid and surrounded by its ribs.

Finally, it is also typical that the surface of the piston rod head to the closure plate is a spherical surface, while its opposite surface is an annular conical surface which is surrounded by a conical surface in the fixing plate which secures the head to the sealing plate.

The non-return valve of the invention will be described in detail with reference to an embodiment outlined in the drawing.

Figure 1 is a schematic longitudinal sectional view of an exemplary embodiment of a non-return valve.

Fig. 2 is a sectional view taken along the line II-II in Fig. 1.

At the bottom of the housing 1 there is a pressed seat ring 2 on which is placed a plate 3 for closing the flow. The outer grooves 4 of the housing 1 receive the connecting screws (not shown in the drawing) for connection to the pipeline network. Inside the housing 1, at defined angular distances, are ribs 5 which are perpendicular to the abutment plane of the seat ring 2. The ribs 5 have grooves defined at an equal distance from the plane of the seat ring 2 in which a corner part of the lid 6 is inserted. The lid 6 is preferably a rectangular plate with a recess 7 in the center thereof. At least one corner portion of the lid 6 is provided with a plate-like fork body 8, the legs of the fork body 8 enclosing the rib 5, thereby preventing the lid 6 from rotating, the corner portions of the lid 6 turning away from the grooves in the ribs 5.

In the cover wall 6 of the lid 6 there is an aperture in the same axis as the housing 1 into which a cylindrical shoulder 9 and a cylinder 11 are fastened. The cylinder 11 has a cylindrical opening at the top and a cylindrical hole at the bottom which is coaxial with the housing 1, through which the piston rod 12 attached to the plate 3 extends into the interior of the cylinder 11. A piston 13 is attached to the upper end of the piston rod 12 by means of a thread and a counter nut, the piston 13 having a closed hollow cylindrical shape. A 13 du2

The piston is closed at the top by a plug 14 which is secured to the piston 13 by a screw thread 14.

At the upper end of the piston rod 12, there is a bore with the piston rod 12 in which the pin 15 is movably movable in the longitudinal direction. The pin 15 has a tapered closure 16 at its upper and outer ends. The closure member 16 may be mounted on a counter-conical surface at the inner end of the bore 17 formed in the plug 14 and coaxial with the closure member. Between the lower surface of the closure member 16 and the upper surface of the piston rod 12, a spring 18 surrounds the pin 15, which constantly pushes the closure member 16 towards the bore.

The lower wall of the piston 13 has through holes 19 which connect the interior of the piston 13 with the space between the cylinder 11 and the lower walls of the piston 13. From the space between the cylinder 11 and the lower walls of the piston 13 one or more openings 20 open into the interior of the housing 1, into which the adjusting screws or the like can be inserted. There is a sealing ring between the cylinder 11 and the piston 13 and the bore in the lower wall of the piston rod 12 and the cylinder 11.

The head portion 21 of the piston rod 12 is formed as a lens head having a spherical surface on its lower surface and a conical surface on its upper surface. The head 21 is fastened to the plate 3 by a mounting plate 22. The retaining plate 22 has an opening for passing the piston rod 12 around the head 21 or its conical surface with a corresponding counter-conical surface. A spring 23 is disposed between the retaining plate 22 and the seat 7.

In the opening direction, when the appropriate pressure is reached, the plate 3 moves against the spring 23 and the flow of the medium begins through the housing 1. Simultaneously, the piston rod 12 pushes the piston 13 out of the bottom cylinder. As a result of these movements, the pressure inside the piston 13 and the fluid inside the cylinder 11 is reduced by the throttle-tight bore 20, thereby creating a pressure differential between the two opposing surfaces of the closure 16, thereby opening the closure 16 against the spring 18. The opening allows the interior of the piston 13 and cylinder 11 to be filled with fluid. Thus, in the opening direction, the pressure of the medium practically only has to be overcome by the compression force of the spring 23, so that the opening takes place rapidly.

When the pressure of the medium drops below the opening pressure defined by the spring 23, the plate 3 starts to move in the closing direction due to the spring force and the flow of fluid in the opposite direction. As a result, the pressure of the piston 13 and the fluid inside the cylinder 11 is increased due to the throttling effect of the narrow bores 20, so that the pressure difference between the two opposing faces of the closure 16 is again created. Subsequently, the greatly reduced amount of fluid remaining inside the piston 13 and cylinder 11 can only escape through the throttle bores 20, which significantly reduces the closing speed of the plate 3 at the end of the closing process.

The most important advantageous features of the non-return valve of the invention are as follows:

Its structural components are shaped and positioned such that their post-assembly state is consistent with any property of the fluid, such as volume, pressure, viscosity, temperature, etc. - they remain unchanged in their original form, remain in their original shape and position, and therefore continue to function as well after prolonged use. It is also an advantage that the parts can be manufactured by normal machining and therefore the structures are inexpensive and easy to install. A further advantage is that each non-return valve can be adjusted to a condition corresponding to the particular application conditions within a relatively wide range by controlling the size of the orifice opening between the cylinder and the interior of the housing.

Claims (6)

PATENT CLAIMS 1. A shut-off non-return valve having a spring-loaded locking plate towards the seat of the valve, a piston rod which is uniaxially attached to the locking plate and is fixed inside the housing of the valve, and has a plurality of piston numbers at its opposite end, a lid (6) extending in the grooves (5) in the housing (1) extending in grooves (5) perpendicular to the sealing plate (3) perpendicularly spaced apart, fixed to the wall (7) of the lid (6) opening towards the sealing plate (3), an open-ended cylinder (11), a piston (13) in the form of a hollow cylinder, a plug (14) with an uniaxial through hole (17) at its outer end, a tapered seat in the bore (17) of the plug (14) and a bore (17). connected to a conical seat at its inner end, f. at the end of the piston rod (12) has a locking member (16) held by a longitudinally slidable pin (15) and pressed against a conical seat (17) of the plug (14) by means of a spring (18). A non-return valve according to claim 1, characterized in that the piston (3) has a variable size between the unchanged interior space of the piston (13) and the lower surface of the piston (13) and the bottom of the cylinder (11). the lower wall has a well-formed fluid-passing hole (19). Non-return valve according to Claim 1 or 2, characterized in that one or more bores (20) of the same or different diameters connect the space below the piston (13) in the wall of the cylinder (11) with the inner space of the housing (1). it is. A non-return valve according to claim 1 or 3, characterized in that the bore (20) connecting the space below the piston (13) with the inner space of the housing (1) has a control screw for changing the through hole of the bore (20). A non-return valve according to claim 1, characterized in that there is a fork body (8) attached to the lid (6) and surrounded by a rib (5). A non-return valve according to claim 1, characterized in that the surface of the piston rod (12) lying on the closure plate (3) has a spherical surface and the opposite face has a frustoconical conical surface around the conical surface (21). ) having a conical surface formed in the fastening plate (22) for fastening the sealing plate (3).