KR20120088932A - Back Stream Protection Valve - Google Patents

Abstract

The present invention provides a sudden atmospheric inflow in a piping system for maintaining a constant pressure applied to a semiconductor manufacturing process such as semiconductor and LCD, or a chemical manufacturing process and a general industrial facility including a machine or to maintain a flow of a fluid such as a gas in a forward direction. The present invention relates to a non-return valve that can be quickly shut off and prevented when a reverse flow of a fluid occurs. More specifically, the structure is simple, and the pressure can be smoothly blocked even in an installation environment other than the vertical direction (horizontal or inclined direction). It can also be performed, and also relates to a non-return valve to improve the more reliable reverse flow prevention and durability by minimizing the elastic force degradation due to the elastic fatigue of the elastic member during long-term use.
According to the present invention, when the fluid does not flow or when the fluid flows to the fluid inlet in a forward direction, a fluid passage is formed without bias of the elastic member, and when the fluid flows in the reverse direction, the elastic member is biased by reverse hydraulic pressure so that the blocking plate is And close the fluid inlet of the fluid inlet.

Description

Backflow Protection Valve {Back Stream Protection Valve}

According to the present invention, a sudden atmospheric inflow or a reverse flow of a fluid may occur in a piping system for maintaining a constant pressure applied to a semiconductor manufacturing process such as a semiconductor and an LCD or a chemical product manufacturing process, or for maintaining a flow of a fluid such as a gas in a forward direction. The present invention relates to a non-return valve that can be quickly shut off and prevented. More specifically, the structure is simple, and pressure blocking can be performed smoothly even in an installation environment other than the vertical direction (horizontal or inclined direction). It can be applied to replace the check valve used to prevent the back pressure in the gas pipe, and relates to a non-return valve to improve the more reliable backflow prevention and durability by minimizing the elastic force degradation due to the elastic fatigue of the elastic member during long-term use.

The non-return valve, which is applied to semiconductor manufacturing processes such as semiconductors and LCDs or chemical manufacturing processes, and general industries including machinery, has a sudden inflow of air from piping systems to maintain a constant pressure or to maintain a flow of fluid such as gas in a forward direction. When the reverse flow of the fluid occurs, it plays a role to prevent the blocking by using the blocking plate quickly.

The conventional non-return valve is used to be limited to the pipe in the direction of gravity, that is, the vertical direction, so that the blocking plate for preventing the reverse flow acted by gravity, as disclosed in Patent No. 706641, and its internal structure is also complicated.

 The conventional non-return valve is mainly installed and used in a vertical direction on the vacuum pump and its use range is extremely limited, there is a problem that the artificial control of the pressure blocking the blocking plate is impossible to support.

On the other hand, the conventional check valve is fixed to the blocking plate by the spring, so that the spring is always used repeatedly when the fluid flow is in the forward direction, so the barrier property is reduced due to the elastic force deterioration due to the elastic fatigue of the elastic member in the long-term use process. There was a problem that can not prevent back pressure properly

The present invention has been made to solve the problems of the prior art as described above, the present invention is to maintain a constant pressure applied to an industrial facility including a semiconductor manufacturing process or chemical product manufacturing process and machinery, such as semiconductors and LCDs or gas It is a non-return valve that can prevent and prevent the flow in the case of sudden inflow or reverse flow of fluid in the piping system to keep the flow of fluid in the forward direction. In addition (horizontal or inclined direction), pressure blocking can be performed smoothly, and also, it minimizes the drop of elastic force due to elastic fatigue of elastic member when it is used for a long time, providing more reliable backflow prevention valve and improved durability. It is.

In order to achieve the above object, a non-return valve according to the present invention includes a fluid inlet through which a fluid flows in, a fluid outlet through which a fluid flows out, and a space through which the fluid passes between the fluid inlet and the fluid outlet. In the non-return valve which is formed by the formed space portion to block the reverse flow of the fluid, the one end of the elastic member is fixed to the inside of the fluid inlet, the other end of the elastic member the inner diameter of the fluid inlet in the space A block having a larger diameter is fixedly installed to form a fluid passage at a distance from the fluid inlet, so that the fluid does not flow or the fluid flows in the forward direction without the bias of the elastic member. The fluid passage is formed by the gap, and when the fluid flows in the reverse direction, The barrier plate closes the fluid inlet of the fluid inlet by biasing the elastic member.

In addition, the present invention forms a projection having a stepped inside the fluid inlet portion when the elastic member is inserted into the inside of the fluid inlet portion end of the elastic member is passed through the protrusion and is caught in the step of the protrusion It is characterized in that the fixed installation in the fluid inlet.

In addition, the present invention is characterized in that the other end of the elastic member fixed to the blocking plate by any one method of adhesive, ring, welding.

In addition, the present invention is characterized in that the elastic member is a spring or bellows.

In addition, the present invention is characterized in that the O-ring is installed on the outer periphery of the portion in which the blocking plate is installed in the space to maintain the airtight when the blocking plate closes the fluid inlet.

In addition, the present invention has a cylindrical shape consisting of an upper cover connected to the fluid inlet, a lower cover connected to the fluid outlet, and sidewalls to form a space between the upper cover and the lower cover. The upper cover is integrally formed with the fluid inlet, and the side wall and the lower cover are integrally formed with the fluid outlet.

In addition, the present invention is characterized in that the blocking pressure for blocking the reverse flow of the fluid can be adjusted by the weight of the blocking plate and / and the elastic force of the elastic member.

The non-return valve according to the present invention has a simple structure as opposed to the non-return valve currently used, and is easily applied to various piping structures (various sizes, horizontal and inclinations) to control the expansion of the mounting range and the blocking pressure to adjust the use range. There is an effect that can be enlarged to maximize its application.

In addition, the present invention by allowing the fluid passage to be formed without the bias of the elastic member when the fluid flows in the forward direction. Long-term use has the effect of minimizing the deterioration of the elastic force due to the elastic fatigue of the elastic member to improve the backflow prevention and durability.

In addition, the present invention has the effect of artificially adjusting the blocking pressure by allowing the blocking pressure to block the reverse flow of the fluid can be adjusted by the weight of the blocking plate attached to the elastic member and / and the elastic force of the elastic member.

In addition, since the present invention maintains a cylindrical valve shape, it may have ease of external heating, thereby heating and vaporizing particles generated during the process to avoid particle loading in the valve.

1 is an external view of a first embodiment of a non-return valve according to the present invention;
Figure 2 is an exploded perspective view of the non-return valve shown in Figure 1
3 is a cross-sectional view of the non-return valve shown in FIG.
4A and 4B are a flow chart of FIG. 3
5 is an external view of the system to which the non-return valve of FIG. 1 is applied.
6a and 6b show a second embodiment of the non-return valve according to the present invention.
Figure 7 (a) and (b) is a third embodiment of the non-return valve according to the present invention
8 (a) and (b) show a fourth embodiment of the non-return valve according to the present invention.
9 (a) and 9 (b) show a fifth embodiment of a non-return valve according to the present invention.

Hereinafter, with reference to the accompanying drawings for the non-return valve in accordance with the present invention will be described in detail.

First, the technical content of the non-return valve according to the present invention will be described with reference to FIGS. 1 to 5 showing the first embodiment of the non-return valve according to the present invention.

The non-return valve according to the present invention is designed to maintain a constant pressure applied to a semiconductor manufacturing process such as a semiconductor and an LCD, or a chemical manufacturing process, or to maintain a sudden flow of a fluid such as a gas in a forward direction. It is a non-return valve that can be prevented by quickly blocking when reverse flow occurs, and is installed between the pipe 61 connected to the vacuum pump 60 and the pipe 62 connected to the manufacturing process as shown in FIG. 5. It is a non-return valve 100 that blocks when the fluid is operated in the reverse direction.

As shown in FIGS. 1 to 4, the non-return valve 100 may include a fluid inlet 10 through which a fluid flows in, a fluid outlet 20 through which fluid flows out, and a fluid inlet 10 through Comprising a space portion 30 is formed between the fluid outlet portion 20 through which the fluid passes, and fixed to one end of the elastic member 40 in the fluid inlet 10, the elastic member The other end of the 40 is disposed in the space part 30 to fix the blocking plate 50 having a diameter larger than the inner diameter of the fluid inlet part 10 to be spaced from the fluid inlet part to form a fluid passage. It is installed.

The fluid inlet 10 has a fluid inlet 11 through which fluid can be introduced, and a flange is formed at the end of the fluid inlet 10 to fix the pipe 62. The fluid outlet 20 has a fluid outlet 21 through which fluid can flow out, and a flange for fixing and coupling the pipe 61 to an end thereof.

The space portion 30 includes an upper cover 31 connected to the fluid inlet 10, a lower cover 32 connected to the fluid outlet 20, the upper cover 31 and the lower cover ( It has a cylindrical shape composed of side wall portions 33 to form a space therebetween. Since the cylindrical valve shape may have the ease of external heating, the particles generated during the process may be heated and vaporized to avoid particle loading in the valve.

The upper part 31 is integrally formed with the fluid inlet part 10, and the side wall part 33 and the lower cover 32 are formed in the space part 30 so as to facilitate assembly and reduce parts. It is preferable to form integrally with the fluid outlet 20.

The upper part of the cover 31 and the fluid inlet 10, the part formed integrally, the side wall portion 33, the lower cover 32 and the part formed by the fluid outlet 20, the screw (34) ) Is assembled. At this time, the O-ring 36 is installed for tight airtightness.

In order to easily fix one end of the elastic member 40 inside the fluid inlet 10, a protrusion 12 having a stepped portion is formed inside the fluid inlet 10 to form the elastic member 40. ) Is inserted into the fluid inlet 10, the end of the elastic member 40 passes through the protrusion 12 and is caught on the step of the protrusion 12 so that Fix it inside. The protrusion 12 may have an inverted triangle or a circular shape for easier installation when the elastic member 40 is inserted into the fluid inlet 10. In order to fix the elastic member 40 to the inside of the fluid inlet 10, the protrusion 12 may be fixed by welding or bonding without forming the protrusion 12.

Although the elastic member 40 is illustrated as using a spring in the drawing, an elastic member such as a bellows having elasticity in a linear direction may be used.

In order to fix and install the blocking plate 50 at the other end of the elastic member 40, the fixing member is fixedly installed by any one of an adhesive, a ring, and a welding method.

When the fluid flows in the reverse direction, the elastic member is biased by the reverse hydraulic pressure so that the blocking plate 50 closes the fluid inlet of the fluid inlet to maintain tighter airtightness. It is preferable to install the O-ring 35 on the outer circumference of the portion where the plate 40 is installed.

In the above structure, as shown in FIG. 4A, when the fluid does not flow (as usual) or when the fluid flows in the forward direction to the fluid inlet 10, by the gap without the bias of the elastic member. A fluid passage is formed.

On the other hand, as shown in Figure 4 (b) when the sudden flow of air in the piping system or the reverse flow of the fluid occurs in the reverse direction when the fluid flows in the reverse direction by pressing the elastic member 40 by the reverse hydraulic pressure to the blocking plate ( 50, the fluid inlet 11 of the fluid inlet 10 is closed.

In this case, when the fluid does not flow (as usual) or when the fluid flows to the fluid inlet 10 in the forward direction, the elastic member 40 is not biased, so the elastic force decreases due to elastic fatigue. I never do that.

The blocking pressure at which the blocking plate 50 blocks the reverse flow of the fluid may be adjusted by the thickness or diameter of the blocking plate 50, that is, the weight of the blocking plate 50.

6 (a) and 6 (b) show a second embodiment of the non-return valve according to the present invention, the second embodiment of the present invention is the fluid inlet 10 and the fluid outlet 20 ) Is assembled by screwing, and the space 30 is formed between the fluid inlet 10 and the fluid outlet 20. Figure 6 (a) shows the flow of fluid when the fluid does not flow (as usual) or when the fluid flows forward to the fluid inlet 10, Figure 6 (b) is a sudden atmosphere in the piping system It shows the flow of fluid when the inflow or reverse flow of fluid occurs and the fluid flows in the reverse direction. The second embodiment differs only in the structure of the space portion, in addition to the structure and operating principle of the blocking plate 50 installed in the fluid inlet 10 to block the fluid is the same as the first embodiment.

7 (a) and 7 (b) show a third embodiment of the non-return valve according to the present invention, and the third embodiment of the present invention is the same as the first embodiment in the fluid outlet 20 The fluid inlet 10, the fluid outlet 20, the space 30, the elastic member 40 and the blocking plate 50 having the same structure are further installed. FIG. 7 (a) shows the flow of fluid when the fluid does not flow (as usual) or when the fluid flows forward to the fluid inlet 10, and FIG. 7 (b) shows a sudden atmosphere in a piping system. It shows the flow of fluid when the inflow or reverse flow of fluid occurs and the fluid flows in the reverse direction. In the third embodiment, the structure and operation principle of the blocking plate 50 installed in the fluid inlet 10 to block the fluid are the same as those of the first embodiment.

8 (a) and (b) show a fourth embodiment of the non-return valve according to the present invention, the fourth embodiment of the present invention is an elastic member 40 inside the fluid outlet 20 And to install the blocking plate 50 on the other end of the elastic member (40). Figure 8 (a) shows the flow of the fluid when the fluid does not flow (as usual) or when the fluid flows forward to the fluid inlet 10, Figure 8 (b) is a sudden atmosphere in the piping system It shows the flow of fluid when the inflow or reverse flow of fluid occurs and the fluid flows in the reverse direction. The fourth embodiment has the same structure and operating principle as the first embodiment except for installing the blocking plate 50 at the fluid outlet 20 to block the fluid. .

9 (a) and 9 (b) show a fifth embodiment of the non-return valve according to the present invention, the fifth embodiment of the present invention is the fluid inlet 10 and the fluid outlet 20 ) Is assembled by screwing, and the space 30 is formed between the fluid inlet 10 and the fluid outlet 20, and the elastic member 40 is provided inside the fluid outlet 20. It is installed and the blocking plate 50 is installed on the other end of the elastic member (40). Figure 9 (a) shows the flow of the fluid when the fluid does not flow (as usual) or when the fluid flows forward to the fluid inlet 10, Figure 9 (b) is a sudden atmosphere in the piping system It shows the flow of fluid when the inflow or reverse flow of fluid occurs and the fluid flows in the reverse direction. In the fifth embodiment, the structure of the blocking plate 50 is different from the structure of the space part different from that of the installation of the blocking plate 50 in the fluid outlet 20 to block the fluid. The same as in the first embodiment.

All of the first to fifth embodiments of the non-return valve according to the present invention is simple in its internal structure, the pressure can be smoothly blocked even in the installation environment other than the vertical direction (horizontal or inclined direction), and also for a long time In use, it is possible to minimize the decrease in the elastic force due to the elastic fatigue of the elastic member has the advantage of improving the more reliable backflow prevention and durability.

10: fluid inlet 11: fluid inlet
12: projection 20: fluid outlet
21: fluid outlet 30: space part.
31: upper cover 32: lower cover
33: side wall portion 34: screw
35, 36: O-ring 40: elastic member
50: blocking plate 60: vacuum pump
61, 62: pipe 100: non-return valve

Claims (7)

Backflow prevention valve which is composed of a fluid inlet portion in which the fluid is introduced, a fluid outlet portion in which the fluid flows out, and a space portion formed with a space through which the fluid passes between the fluid inlet portion and the fluid outlet portion. To
One end of the elastic member is fixedly installed inside the fluid inlet, and the other end of the elastic member is spaced apart from the fluid inlet by a barrier plate having a diameter larger than an inner diameter of the fluid inlet. Fixed installation to form,
When the fluid does not flow or when the fluid flows forward to the fluid inlet, a fluid passage is formed by the gap without bias of the elastic member, and when the fluid flows in a reverse direction, the elastic member is urged by reverse hydraulic pressure. The blocking plate to close the fluid inlet of the fluid inlet
Non-return valve, characterized in that.
The method of claim 1,
When the elastic member is formed inside the fluid inlet, the protrusion is formed in the fluid inlet, and the end of the elastic member passes through the protrusion and is caught in the step of the protrusion to be inside the fluid inlet. Intended to be fixed
Non-return valve, characterized in that.
The method according to claim 1 or 2,
Fixing the blocking plate to the other end of the elastic member by any one of an adhesive, a ring, welding
Non-return valve, characterized in that.
The method according to claim 1 or 2,
The elastic member is a spring or bellows
Non-return valve, characterized in that.
The method according to claim 1 or 2,
O-ring is installed on the outer periphery of the space where the blocking plate is installed in the space part to maintain airtightness when the blocking plate closes the fluid inlet.
Non-return valve, characterized in that.
The method according to claim 1 or 2,
The space part has a cylindrical shape including an upper cover connected to the fluid inlet part, a lower cover connected to the fluid outlet part, and a side wall part to form a space between the upper cover and the lower cover,
The upper cover is integrally formed with the fluid inlet, and the side wall and the lower cover are integrally formed with the fluid outlet.
Non-return valve, characterized in that.
The method according to claim 1 or 2,
The blocking pressure for blocking the reverse flow of the fluid to be adjusted by the weight of the blocking plate
Non-return valve, characterized in that.

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