RU2629630C1 - Swing-check gate (versions) - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: swing-check gate contains a body with a seat and a locking element mounted rotationally movable on an axis, rigidly fixed in the body. In this case, the contact surface of the seat is made in the form of a depression, and the contact surface of the locking element is designed as a protrusion that is made to cover the cavity with the formation of an internal annular gap and an outer annular gap concentrically arranged relative to one another for throttling the damping fluid, and the total cross-section area is much less than the area of the contact surface, at that the cavity and the protrusion have an annular shape. In this case, a transported medium is used as the damping fluid. A version of the swing-check gate is also provided, in which the contact surface of the seat is designed as a protrusion, and the contact surface of the locking element is made in the form of a depression.

EFFECT: invention allows to simplify the swing-check gate design, reduce the metal capacity of the product, increase the service life, eliminate the need for a damper made in the form of special device to eliminate impact loads at the time of closing.

6 cl, 4 dwg

Description

The claimed group of inventions relates to pipe fittings designed to block the return flow of the transported medium in oil pipelines and oil pipelines.

In the prior art, a butterfly valve (patent for utility model RU 130027 U1, publ. 07/10/2013, IPC F16K 15/03) is known, comprising a hydraulic cylinder with a flange, a cover and working cavities of variable volume, interconnected by calibrated channels with a butterfly valve connected to the bolt through the shaft.

Known reverse butterfly valve (patent RU 2514452 C1, publ. 04/27/2014, IPC F16K 15/03, F16K 47/02) containing as a damper a piston-type working element connected to the shutter shaft by a screw-nut transmission.

A back-lock is known (patent application RU 2005131373 A, publ. 04/20/2007, IPC F16K 15/00), containing as a damping device, blades rigidly fixed to the axis of the rotary disk passed through the walls of the shutter body.

Known devices slow down the shutter speed, which, when starting the pump units, leads to a significant increase in the force on the locking element and, as a result, on the damper in the position of the locking element close to closed. The arising loads lead to frequent breakage of the shafts between the shutter and the damper, breakage of the damper blades and deformation of the hydraulic cylinder rods. The likelihood of damper failure increases significantly with the occurrence of water hammer in oil pipelines and oil product pipelines.

All of these known devices are analogues of the proposed group of inventions.

They are distinguished by the presence of a damper - a technically sophisticated device that requires labor-intensive maintenance during the entire operation process, since the service life of the damper is much less than the service life of body parts. In addition, the damper must be filled with a working fluid (gas) other than the transported medium. The transfer of force from the shutter to the damper (through the shaft, stem, etc.) determines the need to create additional technological holes in the shutter body, the use of detachable connections, which increases the possibility of depressurization during the operation of the reverse shutter.

Also known is a non-return valve (patent RU 2484348 C1, publ. 06/10/2013, IPC F16K 15/03, F16K 47/02) containing a non-linear damper. In the technical literature, the terms “check valve” and “check valve” are used synonymously. The check valve according to the patent RU 2484348 C1 is configured to increase the moment of resistance to the movement of the shutter in the lever position close to the boundary in the closed state of the shutter. It has a bulky, technically difficult to implement design. The arising forces from the action of the working medium on the shutter increase many times in the nonlinear damper due to the difference in the areas of the shutter and the piston of the damper (as in the above technical solutions), which entails either the fragility of the damper assembly with a significant damping force, or the low efficiency of the damper while reducing the load on the damper piston. This check valve containing a housing with a saddle and a locking element mounted movably rotationally on an axis rigidly fixed in the housing, adopted as a prototype.

The problem solved by the group of inventions is to increase reliability and increase the service life of the back-lock.

The technical result in the implementation of the variants of the invention is to simplify the design of the check valve with the exception of shock loads at the time of closing the shutter without the use of a special damper.

The application proposes two versions of the execution of the reverse shutter, equally ensuring the exclusion of shock loads at the time of closing.

In the first embodiment, the backdoor is solved, and the technical result is achieved due to the fact that the backloader contains a housing with a seat and a locking element mounted movably rotationally on an axis rigidly fixed in the housing, and the contact surface of the saddle is made in the form of a cavity, and the contact the surface of the locking element is made in the form of a protrusion made with the possibility of covering the cavity with the formation of an inner annular gap and an outer annular gap concentrically arranged tnositelno each other for throttling the damping fluid, and the total cross-sectional area being substantially smaller than the area of the contact surface, the depression and the projection have a circular shape.

In the second embodiment, the backdoor is solved, and the technical result is achieved due to the fact that the backloader contains a housing with a seat and a locking element mounted movably rotationally on an axis rigidly fixed in the housing, and the contact surface of the saddle is made in the form of a protrusion, and the contact the surface of the locking element is made in the form of a cavity made with the possibility of covering the protrusion made with the possibility of covering the cavity with the formation of an inner annular gap and an outer ring frontal gap, concentrically located relative to each other for throttling of the damping fluid, and the total cross-sectional area of which is much smaller than the contact surface area, while the depression and protrusion have an annular shape.

In addition, in both versions of the back-lock, the contact surfaces of the seat and the locking element are made in the form of a metal overlay, or a metal spraying, or a composite spraying, or a non-metallic coating, and a transported medium is used as a damping liquid.

The invention is illustrated in figures 1 to 4.

In FIG. 1 is a cross-sectional main view of the reverse shutter; 2 is a view A in FIG. 1, revealing the execution of the contact surface of the saddle and the locking element of the first version of the reverse shutter, in FIG. 3 is a view A in FIG. 1, revealing the execution of the contact surface of the saddle and the locking element of the second version of the reverse shutter, in FIG. 4 is a view B in FIG. 2 and 3, revealing the execution of the contact surface of the saddle and the locking element of the first and second versions of the reverse shutter.

In the figures indicated:

1 - housing;

2 - a saddle;

3 - locking element;

4 - contact surface of the saddle;

5 - contact surface of the locking element;

6 - the cavity between the contact surfaces;

S is the contact surface area;

h ₁ is the inner annular gap;

h ₂ - external annular gap;

S _{1 is the} area of the inner annular gap;

S ₂ - the area of the outer annular gap.

The check valve consists of a housing 1 with a seat 2, interacting during closing with a locking element 3, mounted movably rotationally on an axis rigidly fixed in the housing 1. The locking element 3 prevents the return flow of the transported medium - oil or oil products.

The application proposes two versions of the execution of the reverse shutter, equally ensuring the exclusion of shock loads at the time of closing.

In the first embodiment of the reverse shutter, the contact surface 4 of the seat 2 is made in the form of a depression, and the contact surface 5 of the locking element 3 is made in the form of a protrusion configured to cover the cavity. The hollow and protrusion have an annular shape.

When the reverse shutter is completely closed, the protrusion of the locking element 3 is covered by the cavity of the seat 2 with the formation of the inner annular gap h ₁ and the outer annular gap h ₂ concentrically located relative to each other.

In the second embodiment of the reverse shutter, the contact surface 4 of the seat 2 is made in the form of a protrusion, and the contact surface 5 of the locking element 3 is made in the form of a depression configured to cover the protrusion. The depression and protrusion also have an annular shape.

When the reverse shutter is completely closed, the depression of the locking element 3 completely covers the protrusion of the seat 2 with the formation of an inner annular gap h ₁ and an outer annular gap h ₂ concentrically located relative to each other.

The contact surfaces of the seat and the locking element in both versions are made in the form of metal surfacing, or metal spraying, or composite spraying, or non-metallic coating.

The check valve in the first and second variants of execution works as follows.

When closing, the locking element 3 under the action of the transported medium and its own weight moves freely until the formation of the cavity 6 between the contact surfaces of the saddle and the locking element.

When the device is closed, the contact surface, made in the form of a protrusion, will work like a piston with the contact surface area S, and the contact surface in the form of a depression will work like a hydraulic cylinder, the inner and outer annular gaps h ₁ and h _{2 of} which correspond to the holes in the uncontrolled throttle with an area equal to the areas of the inner S ₁ and the outer annular gap S ₂

In the resulting cavity 6 between the contact surfaces there is a region of high pressure. The transported medium due to throttling through the inner and outer annular gaps h ₁ and h ₂ , the total cross-sectional area (S ₁ + S ₂ ) of which is much smaller than the contact surface S, dampens the impact energy of the locking element 3 on the seat 2 at the moment of closing, thereby providing a high shutter speed in the absence of shock loads. Thus, the transported medium acts as a damping fluid.

The invention in both versions simplifies the design of the back-lock, reduces the metal consumption of the product, increases the resource, eliminates the need for a special device - a damper to eliminate shock loads at the time of closing.

Claims (6)

1. A check valve comprising a housing with a saddle and a locking element mounted movably rotationally on an axis rigidly fixed in the housing, characterized in that the contact surface of the saddle is made in the form of a depression, and the contact surface of the locking element is made in the form of a protrusion made with the possibility of coverage a depression with the formation of an internal annular gap and an external annular gap concentrically arranged relative to each other to throttle the damping fluid, and the total cross-sectional area of the cat of which is much smaller than the area of the contact surface, while the depression and protrusion have an annular shape. 2. The backstop according to claim 1, characterized in that the contact surfaces of the saddle and the locking element are made in the form of metal surfacing, or metal spraying, or composite spraying, or non-metallic coating. 3. The check valve according to claim 1, characterized in that the transported medium is used as a damping fluid. 4. A check valve comprising a housing with a saddle and a locking element mounted movably rotationally on an axis rigidly fixed in the housing, characterized in that the contact surface of the saddle is made in the form of a protrusion, and the contact surface of the locking element is made in the form of a cavity made with the possibility of coverage the protrusion, made with the possibility of coverage of the cavity with the formation of the inner annular gap and the outer annular gap, concentric with respect to each other for throttling damping th liquid, and the total area of the cross sections is considerably smaller than the area of the contact surface, the protrusion and depression have an annular shape. 5. The backstop according to claim 4, characterized in that the contact surfaces of the saddle and the locking element are made in the form of metal surfacing, or metal spraying, or composite spraying, or non-metallic coating. 6. The check valve according to claim 4, characterized in that the transported medium is used as a damping fluid.

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