KR200313870Y1 - A decompression coupling stainless pipe - Google Patents

Abstract

The present invention relates to a joint pipe connecting the water supply pipe and the valve buried underground, and more particularly, a stainless joint designed to reduce the pressure of the valve depending on the installation position of the valve. It's about the coffin.

According to the present invention, in order to prevent the high pressure of the valve from acting regardless of the installation position of the valve in the water supply system, the orifice is placed in the center of the inside of the water supply pipe to reduce the water pressure in the stainless fitting pipe itself. And a concave pressure reducing plate having a central water flow groove and a plurality of soft water flow grooves between the inlet of the pipe and the orifice, and a convex pressure plate having a plurality of soft water flow grooves between the orifice and the outlet of the pipe. It is provided with a stainless steel pipe for pressure reduction to further increase the pressure reduction effect.

Description

A decompression coupling stainless pipe

The present invention relates to a joint pipe connecting a water supply pipe and a valve buried underground, and more specifically, a pressure reducing device designed to reduce the pressure of water that can be handled by the valve installation position. It is about stainless steel fittings.

A typical water supply system is designed to supply or shut off water by operating the handle of a valve connected to a buried water pipe underground. In the conventional system as described above, the structure of the joint pipe connecting the water supply pipe and the valve is simply configured to have a flange attached to both ends of the pipe.

However, the conventional joint pipe as described above has a problem of preventing damage to the valve and leakage due to high water pressure depending on the installation position of the valve. In other words, the joint pipes currently used have the same water flow cross-sectional area along the flow path, so that water flows through the inlet water supply pipe and the outlet valve at the same pressure. For example, when the inlet pressure is 10Kg / cm2 and the outlet side receives a pressure of 10Kg / cm2, the actual pressure of the valve used is only 5Kg / cm2. Since the cause is caused, there is a problem that the waste of tap water. In addition, the valve may increase the water pressure acting on the valve depending on the installation position relative to the water supply pipe as compared to the inlet pressure.

The object of the present invention is to reduce the water pressure in the stainless steel pipe itself, which joins the water supply pipe and the valve in order to prevent the high water pressure acting on the valve regardless of the installation position of the valve in the water supply system in view of the conventional problems as described above. A concave pressure reducing plate provided with an orifice in the center thereof, and having a central channel and a plurality of edge channels between the inlet of the joint and the orifice, and a plurality of outlets between the orifice and the outlet of the joint. The present invention provides a pressure-sensitive stainless steel fitting tube having a pressure-sensitive effect plate formed by forming a convex pressure-sensitive plate formed with edge passing grooves.

1 is a partially cutaway perspective view of the present invention

2 is a cross-sectional view of the present invention

Figure 3 is a front view of the concave pressure reducing plate which is part of the present invention

Figure 4 is a front view of the convex pressure-sensitive plate that is part of the present invention

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

1: Flange 2: Pipe 3: Center Water Groove

4: edge passing groove 5: concave pressure reducing plate 6: orifice

7 convex pressure reducing plate 100 joint pipe

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is a stainless steel joint pipe for reducing pressure in which the flanges (1) are formed at both ends of the tube (2), in which the central water passage (3) and a plurality of edge water passages (4) formed inside the tube (2). The concave pressure reducing plate 5 and the convex pressure reducing plate 7 in which the orifice 6 and the plurality of edge passing grooves 4 are formed are sequentially formed.

The present invention as described above is reduced by the pressure on the inlet side of the tubular body 2 by the concave pressure reducing plate 5 and the orifice 6 and the convex pressure-reducing plate 7 sequentially formed inside the tubular body 2 To protect the valve attached to the side.

Looking at the conventional water supply system, the purified water flows through the water supply pipe in the water purification plant, and a valve for controlling the supply of water near the receiving place is installed, the water supply pipe and the valve is connected to the joint pipe (100). However, there is a difference in the pressure head according to the installation position of the valve, the pressure acting on the valve is changed by the inclination or curvature of the water supply pipe. In most cases, the pressure at the actual receiving place is smaller than the constant discharge pressure.

In the case of the conventional fitting pipe 100, the inlet pressure of the fitting pipe 100, which is the delivery pressure, is the same as the outlet pressure of the fitting pipe 100, which is often larger than the receiving pressure of the valve. Therefore, the valve does not withstand high pressure and ruptures, water leakage, etc. will occur.

However, the stainless pipe 100 of the present invention is to solve the problems as described above, the concave pressure reducing plate 5 and the orifice 6 and the convex pressure reducing plate (sequentially formed in the inside of the tube 2) 7) will play that role.

That is, when water, which is always conveyed at a constant discharge pressure, flows into the inlet of the stainless pipe 100, the plate surface of the concave pressure reducing plate 5 in which the central water passage 3 and the plurality of edge water passages 4 are formed. The first pressure is reduced, the pressure reaches the center of the tube (2), and hits the wall surface of the orifice (6) provided in the center of the tube (2), the second pressure is reduced, and then the water flowing out into the hole of the orifice (6) Is hit by the plate surface of the convex pressure-sensitive plate (7) formed a plurality of edge passing grooves (4) to the third pressure reduction and exit to the outlet of the stainless joint pipe (100).

Here, in order to increase the effect of the pressure reduction, the concave pressure reducing plate 5 and the convex pressure reducing plate 7 are installed in such a manner that each plate body blocks the mutually passing through grooves 4, and the concave pressure reducing plate 5 ) Is formed in the central channel (3) to protect the plate from the strong water pressure flowing from the inlet pipe 100, the convex pressure-sensitive plate (7) has no channel in the center of the orifice (6) from the hole The convex is formed in the advancing direction of the water in order to protect the plate by dispersing the pressure of the water flowing out and hitting the plate.

In this way, in the flow of water, the concave pressure reducing plate 5 and the orifice 6 and the convex pressure reducing plate 7 sequentially installed in the inside of the tubular body 2 continuously generate backflow and vortex, By reducing the energy, the water pressure drops.

In addition, the size of the central water passage 3 of the concave pressure reducing plate 5 of the present invention, or the size or number of the edges of the water passing groove 4 of the concave pressure reducing plate 5 or the convex pressure reducing plate 7, orifice ( The degree of decompression can be adjusted by adjusting the area of 6).

Therefore, the conventional joint pipe 100 receives a pressure of 10 Kg / cm 2 at the outlet side when the pressure at the inlet side is 10 Kg / cm 2, and when the rated pressure of the valve actually used is only 5 Kg / cm 2, There was a problem of waste water due to the damage of the valve or leakage caused by the valve, but the pressure of 10Kg / ㎠ by the concave pressure reducing plate 5, the convex pressure reducing plate 7 and the orifice 6 of the present invention Is decompressed to about 5 Kg / cm 2 so as not to damage the valve or the like.

In this way, the present invention is to reduce the pressure by repeatedly generating a reverse flow and vortex by the concave pressure reducing plate 5 and the orifice 6 and the convex pressure reducing plate 7 formed in the interior of the stainless pipe 100 It is very effective, and it protects the joints of the valves and pipes regardless of the installation position of the valves and prevents the breakage of the valves and the joints. There is an effect that can be solved.

Claims (2)

In the pressure-reducing stainless steel joint pipe 100 having the flanges 1 formed at both ends of the tubular body 2, a central water passage 3 and a plurality of edge water passages 4 are provided inside the inlet side of the pipe 100. A condensation pressure reducing plate (5) having a concave pressure reducing plate (5) formed thereon and a convex pressure reducing plate (7) having a plurality of edge passing grooves (4) formed inside the outlet side of the conduit pipe (100). The stainless steel fitting tube for pressure reduction according to claim 1, wherein an orifice (6) is formed inside the center of the tube (2).