KR200244645Y1 - reverse flow prevention valve - Google Patents

Abstract

The present invention can prevent backflow of the fluid flowing through the pipe line without installing a separate check valve, etc., and relates to a non-return valve that can reduce the cost, such as facility costs.

According to the present invention, a flow path 5 is formed therein, and a housing 15 having a valve seat 10 in a direction crossing the supply direction of the fluid at a predetermined position of the flow path 5, and the housing 15. A stem (28) coupled to the stem (28) and spirally coupled to the stem (28) provided with a handle (24) at its upper end to move closer to or away from the valve seat (10) as the handle (24) is rotated. In the valve configured to include a valve body 35 for opening and closing the flow path 5 while being in close contact with or spaced from the valve seat 10, the valve body 35 so that the cross-sectional area is narrower toward the valve seat (10) Is formed and coupled to the stem 28 so as to be elevated, and between the stem 28 and the valve body 35 is provided with a spring 45 for holding the valve body 35 toward the valve seat 10 is provided When the valve is opened, the valve body 35 overcomes the elastic force of the spring 45 by the pressure of the fluid The fluid is spaced apart from the valve seat 10 to supply the fluid. When the fluid is to flow backward, the valve body 35 is brought into close contact with the valve seat 10 of the flow path 5 by the elastic force of the spring 45 to reverse the flow of the fluid. There is provided a non-return valve, characterized in that configured to prevent the.

Description

Reverse flow prevention valve

The present invention relates to a non-return valve, and more particularly, to a non-return valve that can prevent the flow of the fluid flowing through the pipe line back.

Typically, water pipes are equipped with valves to supply and shut off fluids or to control flow rates. At this time, the valve used, as shown in Figure 1, is provided with a flow path 5 and the valve seat 10 therein, the housing 15 is connected to the supply end (1) and the discharge end (2) of the piping line ), A stem 28 that is spirally coupled to one side of the housing 15 and rotated so as to be adjacent to or away from the valve seat 10, and is coupled to a lower end of the stem 28 to the valve seat. It is comprised including the valve body 35 which opens and closes (10). When the valve 24 rotates the handle 24 provided at the top of the stem 28, the stem 28 is lifted and the valve body 35 is in close contact with or spaced from the valve seat 10 to open and close the flow path 2 to open the fluid. Shut off or supply.

However, when the valve is opened in the open state or when the fluid supply pump is stopped due to a power failure, the fluid flows back from the discharge end 2 to the supply end 1 to cause a malfunction of the meter or the fluid supply pump. There is a problem. In addition, in some cases, in order to prevent such a backflow phenomenon, a separate check valve is installed in the piping line. In this case, the piping facility becomes complicated and the cost of the facility cost is high.

The present invention has been proposed in view of the above-described problems, and an object of the present invention is to prevent backflow of a fluid flowing through a pipe line without installing a separate check valve, etc., thereby reducing costs such as facility costs. It is an object of the present invention to provide a non-return valve.

1 is a side view of the state of use of the conventional valve

2 to 4 is a side cross-sectional view of the use state of the non-return valve according to the present invention

<Description of the symbols for the main parts of the drawings>

10. Valve seat 15. Housing

28.Stem 35.Valve Body

45. Spring

According to the present invention, a flow path 5 is formed therein, and a housing 15 having a valve seat 10 in a direction crossing the supply direction of the fluid at a predetermined position of the flow path 5, and the housing 15. A stem (28) coupled to the stem (28) and spirally coupled to the stem (28) provided with a handle (24) at its upper end to move closer to or away from the valve seat (10) as the handle (24) is rotated. In the valve configured to include a valve body 35 for opening and closing the flow path 5 while being in close contact with or spaced from the valve seat 10, the valve body 35 so that the cross-sectional area is narrower toward the valve seat (10) Is formed and coupled to the stem 28 so as to be elevated, and between the stem 28 and the valve body 35 is provided with a spring 45 for holding the valve body 35 toward the valve seat 10 is provided When the valve is opened, the valve body 35 overcomes the elastic force of the spring 45 by the pressure of the fluid The fluid is spaced apart from the valve seat 10 to supply the fluid. When the fluid is to flow backward, the valve body 35 is brought into close contact with the valve seat 10 of the flow path 5 by the elastic force of the spring 45 to reverse the flow of the fluid. There is provided a non-return valve, characterized in that configured to prevent the.

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows.

2 to 4 show an embodiment of a non-return valve according to the present invention. Referring to this, the non-return valve has a housing 15 having a flow path 5 formed therein and a valve seat 10 provided at a predetermined position of the flow path 5, and a spiral coupling to the housing 15. 20) is configured to be raised or lowered adjacent to or away from the valve seat 10 and composed of a stem 28 having a handle 24 at the top thereof is the same as in the prior art. The valve body 35 is liftably coupled to the lower end of the stem 28, and a spring 45 is interposed between the stem 28 and the valve body 35.

The housing 15 is made of a tubular body and is connected between the supply end 1 and the discharge end 2 of the water pipe, and an inner wall of the valve seat 10 protrudes, and the tip of the valve seat 10 is formed. Tapered so that the diameter becomes narrower toward the lower side. The valve body 35 is composed of a substantially U-shaped elevating member 36 and a disk 37 fixedly coupled to the lower side of the elevating member 36. The elevating member fitted to the lower end of the stem 28 is provided. It is configured to be able to slide up and down by the member 36. In particular, since the disk 37 is tapered so that its cross-sectional area becomes narrower toward the lower side, the disk 37 is tightly coupled to the valve seat 10.

The spring 45 is interposed between the stem 28 and the valve body 35, the upper end of which is caught by the lower end of the stem 28, and the lower end of which is caught by the upper end of the valve body 35. The sieve 35 is pressed against the valve seat 10. The spring 45 is compressed toward the stem 28 when the pressure of the water acts to separate the valve seat 35 from the valve seat 10, while the pressure of the water drops and flows in the opposite direction from the water flow. Attempting to flow back causes the valve element 35 to be held in close contact with the valve seat 10 to be tightly coupled to the valve seat 10.

At this time, since the valve seat 10 and the valve body 35 are tightly coupled to each other by the respective tapered portions, the spring 45 does not have to have an excessively large elastic force, but the valve body ( It is only necessary to have an elastic force enough to grip the 35) toward the valve seat 10.

According to the non-return valve configured as described above, when the stem 28 is raised by turning the handle 24 of the upper end of the stem 28 to one side, as shown in FIG. By defeating the elastic force of the spring (45) by opening the flow path (5) spaced apart from the valve seat 10 to supply water from the supply end (1) to the discharge end (2), the pressure of the water drops to discharge the water At the stage 2, the valve body 35 is brought into close contact with the valve seat 10 by the elastic force of the spring 45, as shown in FIG. By blocking the water can be prevented from flowing back.

Therefore, when the backflow prevention valve is about to flow back, the spring 45 holds the valve body 35 close to the valve seat 10 inside the housing 15 to block the flow path 5. Since the reverse flow is prevented, malfunction of the meter or the fluid supply pump due to the reverse flow of water can be effectively prevented. In addition, the backflow prevention valve does not need to install a separate check valve, etc. in order to prevent the backflow of water, it is possible to prevent a complicated piping facility and a large cost of facility costs.

At this time, the valve is applicable to all the piping facilities for supplying a fluid, such as chemicals or oil supply pipe.

As described above, according to the present invention, the backflow prevention valve can automatically block the flow path when the fluid is about to flow back, thereby preventing the backflow of the fluid, and there is no need to install a separate check valve, so that the facility becomes complicated. There is an advantage that can prevent a lot of costs such as facility costs.

Claims (1)

A flow path 5 is formed therein, and at a predetermined position of the flow path 5, the housing 15 having the valve seat 10 is provided in a direction crossing the supply direction of the fluid, and is spirally coupled to the housing 15. A handle 24 is provided at an upper end thereof, and the stem 28 is elevated to move closer to or away from the valve seat 10 as the handle 24 is rotated, and the valve seat 10 is coupled to the stem 28. In the valve configured to include a valve body 35 that opens and closes the flow path 5 while being in close contact with or spaced apart), the valve body 35 is formed such that its cross-sectional area becomes narrower toward the valve seat 10 so that the stem ( 28 is coupled to the lifting and lowering, and between the stem 28 and the valve body 35 is provided with a spring 45 for holding the valve body 35 toward the valve seat 10, when the valve is opened The valve body 35 overcomes the elastic force of the spring 45 by the pressure of the fluid to the valve seat 10 When the fluid is to be spaced apart to supply the back flow, the valve body 35 is in close contact with the valve seat 10 of the flow path (5) by the elastic force of the spring 45 is configured to prevent the back flow of the fluid Non-return valve characterized in that.