KR100954852B1 - High Pressure Check Valve - Google Patents

Abstract

The present invention discloses a check valve for high pressure to form a streamlined path in the process of passing the high pressure fluid through.

The present invention is provided with inlets and outlets on both sides of the main body in order to minimize the occurrence of noise or vibration, to induce the smooth operation of the elements forming the flow path and to prevent abnormal wear, elastic pruning is installed by the compression spring Folded to the low cost valve seat to open and close the valve,

The valve seat of the inclined surface is fixed, the plunger having an inclined surface folded on the inclined surface of the valve seat, coupled with the extension of the plunger to guide sliding and the plunger guide for guiding the discharged fluid to the outlet It is to be installed so that the central axis of the discharge hole of the discharge hole is inclined to match the path of the fluid.

Accordingly, in the present invention, pulsation does not occur in the process of flowing a high-pressure fluid, thereby minimizing vibration or exerting excessive pressure on a plunger seal or a spring disposed in a path, thereby minimizing operating wear. It is possible to extend the life, increase the flow rate of flow, and have the effect of enabling a stable fluid supply.

Check Valve High Pressure Streamline Vibration Wear

Description

High Pressure Check Valve

The present invention relates to a high pressure check valve, and more particularly, to a high pressure check valve used to prevent a back flow of a high pressure fluid such as CNG (COMPRESSED NATURAL GAS) to flow in one direction.

As is well known, a check valve for a high pressure has been used in various forms, and a representative structure thereof is illustrated in FIG. 1A, and its operation is illustrated in FIG. 1B. In this regard, since the valve disc 130 folded into the valve seat 110 by the elasticity of the spring 120 is in the form of a plate, the fluid pressure on the inlet side is stronger than the elasticity of the spring 120 so that the valve disc 130 is opened. Push and pass through the valve seat 110 to be discharged.

Therefore, according to this structure, as shown by the arrow of FIG. 1B, the direction is rapidly changed while bypassing the high pressure fluid to the through hole 150 formed on the circumferential surface of the valve disc 130, and passes through the spring 120. Partial vortex occurs due to the mutual interference between the process and the flow at the outlet, thereby pulsating the valve disk 130 and the spring 120, and as a result, the valve disk 130 vibrates and the valve disk 130 ) O-ring 140 is also broken or broken.

This pulsation also reduces the overall flow rate and exposes the problem of irregular flow rate.

In addition, the valve seat 110 in which the valve disk 130 is folded also has a problem in that wear occurs due to frequent contact with the valve disk 130 due to pulsation generated when the fluid passes.

The present invention is to solve this problem, by allowing the fluid passing through the check valve for high pressure to be passed through a streamlined path, to minimize the occurrence of noise or vibration and induce the smooth operation of the elements forming the flow path. It is to provide a check valve that can prevent abnormal wear.

In order to achieve the above object, the present invention provides a well-known check valve provided with inlets and outlets on both sides of the main body, and a plunger elastically installed by a compression spring to fold the valve seat to open and close the valve.

The valve seat of the inclined surface is fixed, the plunger having an inclined surface folded on the inclined surface of the valve seat, coupled with the extension of the plunger to guide sliding and the plunger guide for guiding the discharged fluid to the outlet We propose a high pressure check valve installed so that the central axis of the discharge hole is inclined to match the path of the fluid.

In this way, the present invention, according to the present invention, the pulsation does not occur in the process of flowing the high-pressure fluid does not vibrate or apply excessive pressure to the plunger seal (PLUNGER SEAL) or spring disposed in the path It is possible to minimize wear and extend lifespan, increase the flow rate of flow, and enable stable fluid supply, and in particular, it enables quiet operation, which can contribute to quality improvement. do. In addition, the present invention adopts a porous plate for pressure dispersion to uniformly distribute the pressure, thereby preventing a decrease in flow rate or component wear due to pressure deflection, and preventing the inflow of foreign substances by employing the mesh at the inlet of the front end. This can eliminate the cause of abnormal wear.

In addition, the rear end of the plunger is coupled to the plunger guide to prevent the occurrence of vibration and wear caused by the vibration in the operation process is to enable a stable operation. In addition, in the present invention, the material of the valve body is made of high-strength material such as high-strength stainless steel, and by forming a tab so that the pressure gauge can be directly installed without a fitting means such as a nipple, minimizing leakage elements and making compact production possible. There is an effect that makes it possible.

In addition, the present invention can use both the inclined surfaces of the valve seat, and can easily remove and reassemble the valve seat and the plunger seal, it is possible to selectively replace them when worn, so that the entire replacement is unnecessary, greatly increasing the maintenance cost You can save.

Referring to the present invention in more detail with reference to the accompanying drawings as follows. The overall structure of the present invention is shown in FIG. As can be seen from the present invention, the inlet 2 and the outlet 3 are provided on both sides of the main body 1, the valve seat 7 of the ring shape of the inclined surface 8 is fixed, the valve It is coupled to the plunger 5 and the plunger seal 18 and the extension 9 of the plunger 5 to guide the sliding motion with the inclined surface 8 'folded on the inclined surface 8 of the seat 7. It is installed so that the discharge hole central axis 12 of the plunger guide (6) for guiding the discharged fluid to the outlet (3) is inclined to match the path of the fluid, the plunger (5) and the plunger (5) a compression spring 4 is installed between the guides, the plunger 5 and the plunger guide 6 are enclosed, and the fluid introduced into the discharge hole 11 of the plunger guide 6 is provided. It is provided with the cylindrical spacer 20 to guide.

This operation of the present invention is illustrated in FIG. 3A as a standby state and FIG. 3B as an active state.

As can be seen from the present invention, when the high-pressure fluid flows into the inlet 2, the valve seat 7 is reached, and the valve seat 7 in the present invention is closely connected by the compression spring 4. The plunger 5 is pressed. At this time, since the pressure of the incoming fluid is designed to exceed the pressure of the compression spring 4, as the compression spring 4 is compressed, the plunger 5 is pushed to the right in the drawing, as shown in FIG. The flow path is formed between the valve seat 7 and the plunger 5 by a gap between the two inclined surfaces 8 and 8 '.

This flow path is introduced into the main body 1 in a streamline along the gap between the inclined surfaces 8, 8 ', as shown by the arrow, and then out of the compression spring 4, i. Along the inside of the spacer 20, the central shaft 12 is introduced into the discharge hole 11 of the plunger guide 6 formed in an inclined shape and then discharged to the outlet 3.

Therefore, even in the process of passing through the discharge hole 11 of the plunger guide 6, since the central axis 12 coincides with the direction of the streamline in which the fluid flows, the fluid resistance is discharged in a minimized state.

Accordingly, the present invention discharges the inclined flow path and the plunger guide 6 formed obliquely by the gap between the valve seat 7 and the inclined surfaces 8, 8 'of the plunger 5 as shown in FIG. The fluid flowing into the inlet 2 in the direction of the ball central axis 12 is moved in a streamline up to the outlet 3.

Therefore, as shown in FIG. 1B, the present invention minimizes the occurrence of partial vortices caused by the sudden direction break and the interference of the flow caused by the spring 120 and the interference between the flows as shown in FIG. 1B. It becomes possible to do this, and it is possible to perform stable operation by suppressing vibration and noise.

Accordingly, according to the present invention, it is possible to minimize wear between the valve seat 7 and the plunger seal 18, and to prevent the passage flow rate from being reduced.

In addition, in the present invention, the extension 9 of the rear end of the plunger 5 is coupled to the guide tube 15 of the plunger guide 6 to prevent the occurrence and vibration of vibration by the plunger 5. .

In addition, the pressure distribution on the cross section immediately before the high-pressure fluid flowing into the inlet 2 flows through the gap formed by the inclined surfaces 8 and 8 'of the valve seat 7 and the plunger 5 is various. Often the factors are unbalanced. Inflow and outflow in this state are likely to result in partial pressure deviations in the passages that pass through, resulting in a high likelihood of generating vortices or vibrations, resulting in a decrease in the allowable flow rate.

In order to solve such an unreasonable point, the present invention employs the porous plate 14 for pressure dispersion, thereby uniformly distributing the pressure, thereby preventing a decrease in flow rate or component wear due to pressure deflection, and shearing the mesh 13. By adopting the inlet of the to prevent the inflow of foreign matters it is possible to eliminate the cause of abnormal wear. To this end, the present invention is a porous plate 14 having a mesh 13 and a plurality of through-holes at uniform intervals in front of the valve seat 7 and the plunger 5, as shown in the separated perspective view of FIG. 4 and the longitudinal cross-sectional view of FIG. Fixed installation.

In addition, in the present invention, the material of the valve body is made of high-strength material such as high-strength stainless steel, and by forming a tab 16 to allow a fitting means such as a separate nipple to directly install a pressure gauge, minimizing leakage elements and compacting. Production was possible.

In addition, in the present invention, the mesh 13, the porous plate 14, the valve seat 7 and the plunger guide 6 disposed inside the main body 1 are stably supported to ensure durability and ease of assembly work. To ensure the maintenance and ease of maintenance work.

That is, in the present invention, the plunger guide 6, the compression spring 4, the spacer 20, the plunger 5, the valve seat 7, the porous plate 14 in the interior of the main body 1 for the assembly thereof. ), The assembly is completed simply by simply inserting the valve retainer 19 coupled to the mesh 13 and the inlet 2 and rotating the valve retainer 19 to be screwed with the main body 1. This can be carried out efficiently, and its assembled state can be firmly and stably supported. In addition, when the inclined surface 8 of the valve seat 7 wears as time passes, the valve retainer 19, the mesh 13, and the porous plate 14 are reversed in the reverse order of the assembly. Then, the valve seat 7 is removed, and the position is reversed so that the worn inclined surface 8 of the valve seat 7 faces the inlet 2, and then the valve seat 7 is assembled in the original position and the porous plate 14 is disposed. When the reassembly is performed by assembling the mesh 13 and the valve retainer 19, the new inclined surface 8 of the new valve seat 7, the inclined surface 8 ′ of the plunger 5 and the plunger ( 5) The seals come into contact with each other to enable the opening and closing of the flow path as a check valve.

In this way, the present invention is to be able to double the life of the valve seat 7, the plunger seal 18 can also be removed and replaced in the same way can be used semi-permanently, so that the entire replacement Since this is unnecessary, maintenance costs can be reduced.

In addition, according to the present invention, the main body 1 is made of a high-strength material, and as shown in FIG. 6, the tab 16 is formed on the main body 1 so that various gauges such as pressure gauges and thermometers can be used without additional fitting means such as nipples. By installing 17) to check and confirm the operation status, it is possible to remove the leakage element and install the instrument 17 easily and compactly.

Figure 1a is a longitudinal sectional view showing a conventional high pressure check valve structure.

Figure 1b is a longitudinal sectional view showing a conventional high pressure check valve operation.

Figure 2 is an exploded perspective view showing the structure of the check valve for high pressure according to the present invention.

Figure 3a is a longitudinal sectional view showing the structure of a check valve for high pressure according to the present invention.

Figure 3b is a longitudinal sectional view showing the operation of the high-pressure check valve according to the present invention.

Figure 4 is an exploded perspective view showing the structure of a check valve for high pressure according to the present invention according to another embodiment.

Figure 5 is a longitudinal sectional view showing the structure of a check valve for high pressure according to the present invention in another embodiment.

Figure 6 is a longitudinal sectional view showing the structure of the present invention according to another embodiment.

* Explanation of symbols for the main parts of the drawings

1: main body 2: entrance 3: exit

4: Compression Spring 5: Plunger 6: Plunger Guide

7: Valve seat 8, 8 ': Inclined surface 9: Extension part

11: discharge hole 12: discharge hole central axis 13: mesh

14: Perforated version 15: Information Hall 16: Tab

17: Instrument 18: Plunger seal 19: Valve retainer

20: spacer

Claims (6)

Inlet 2 and outlet 3 are provided at both sides of the main body 1, and the plunger 5 elastically installed by the compression spring 4 is folded with the valve seat 7 to open and close the valve. In the check valve, A ring-shaped valve seat 7 having an inclined surface 8 is fixed inside the main body 1; One end is formed with an inclined surface 8 ′ which is folded to the inclined surface 8 of the valve seat 7, and the other end is a plunger having an extended portion 9 extending toward the outlet 3 of the main body 1. (5); A guide tube 15 coupled to the extension 9 of the plunger 5 to guide sliding of the plunger 5 is formed, and the fluid discharged at one end of the guide tube 15 is discharged from the outlet 3. And a plunger guide 6 having a discharge hole 11 for guiding it; Surrounding the plunger (5) and the plunger guide (6), the cylindrical spacer 20 for guiding the fluid introduced into the discharge hole 11 of the plunger guide 6 is provided, High pressure check valve, characterized in that the central axis of the discharge hole (11) of the plunger guide (6) is installed so as to be inclined to match the streamline of the fluid. delete delete delete delete delete

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