KR100932469B1 - Stagnant water circulation system at the end of water supply system - Google Patents

Abstract

A stagnant water circulation system of a tube end for a water supply system for automatically circulating stagnant water is disclosed. The stagnant water circulation system is installed at the pipe end 20 of the water supply pipe 10 having at least one generation branch pipe 12n so that the tap water supplied from the water supply pipe 10 flows back to the water supply pipe 10 again. One end is connected to the end of the stagnant water backflow prevention valve 30 and the end of the tube 20, and the other end is connected to the water supply pipe 10 of the generation supply region (S) to block the water flow (10) A circulation pipe 40 for communicating the tube end portion 20 and the water supply pipe 10 so that the stagnant water stagnated in 20 may be circulated to the water supply pipe 10, and the tube end portion 20 and the circulation pipe ( When the water pressure in the water supply pipe 10 of the generation supply region S is lower than the water pressure of the end supply region S formed by 40), the stagnant water stagnant in the pipe end portion 20 is the water supply conduit of the generation supply region S. Consists of the circulation opening and closing portion 50 is installed in the circulation pipe 40 is made to be circulated to (10). According to such an apparatus, the phenomenon in which the stagnant tap water is stagnant at the end of the tube can be solved at the source by automatically circulating the stagnant water into the generation supply region due to the difference in the water pressure in the end region and the pressure in the generation supply region.

Water supply, pipe end, pressure reducing valve, stagnant water, circulation

Description

Device for circulating stagnation water of waterpipe edge for a waterworks system

The present invention relates to a stagnation water circulation device of the end of the water supply system, in particular, stagnant water in the end of the water supply pipe formed in the alley of the water supply area in the water supply system is automatically circulated to the water supply pipe due to the difference in water pressure. The present invention relates to a stagnant water circulating device of a pipe end, which can prevent the phenomenon of stagnant water generation at the end of a water pipe.

In general, a water supply system is provided with a water supply pipe in a water supply area, and a generation supply pipe branched from the water supply pipe is connected to each generation.

Referring to the accompanying drawings, at least one generation supply pipe (3) is branched to the water supply pipe (1) as shown in FIG. When the water pipe (1) is disposed in the alley of the water supply area, the end of the water pipe (1), that is, the pipe end 2 is bound to be formed. This end 2 is also to prepare for the water supply pipe (1) is extended or the generation supply pipe (3) is additionally installed.

However, there is a problem that the tap water stagnated in such a pipe part (2). This stagnant water has decayed over time, and some stagnant water has also caused a problem of inflow into the adjacent generation supply pipe (3).

In order to solve the problem of stagnant water, a method of discharging stagnant water by installing a fire fighter or the like at the end part 2 has been proposed. There was an issue that took place.

The technical problem of the present invention is to solve the problems of the prior art as described above, the technical problem of the present invention is to provide a means for allowing the stagnant water stagnated at the end of the water pipe to automatically circulate due to the difference in water pressure There is.

In order to solve the above technical problem, the present invention,

A stagnant water backflow prevention valve installed at a pipe end of the water supply pipe having at least one generation branch pipe, for preventing tap water supplied from the water supply pipe back to the water supply pipe;

One end is connected to the end of the tube end, the other end is connected to the water supply pipe of the generation supply region circulation pipe for communicating the tube end and the water supply pipe so that the stagnant water circulated in the end pipe circulated to the water supply pipe; And

When the water pressure in the water supply pipe of the household supply zone is lower than the water pressure of the end region formed by the pipe end and the circulation pipe, the stagnant water stagnated in the pipe end is circulated to the water supply pipe of the household supply zone, the circulation opening and closing portion installed in the circulation pipe It provides a stagnant water circulator of the end of the water supply system characterized in that it comprises a.

The non-return valve,

It is characterized in that installed on the boundary between the generation supply area and the end area.

The diameter of the circulation pipe is characterized in that formed smaller than the diameter of the water pipe or the same as the diameter of the water pipe.

First and second shutoff valves are provided at both sides of the water supply pipe and the end of the stagnation water check valve to prevent tap water or stagnant water from flowing into the stagnation water check valve when the stagnation water check valve is maintained. Characterized in that each is installed.

A first filtration member is installed in the water supply pipe between the stagnant water check valve and the generation supply region to prevent foreign substances from flowing into the stagnant water check valve.

The other end of the circulation pipe is provided with at least one branch pipe branched, the branch pipe is characterized in that connected to the water supply pipe in the generation supply area.

A discharge valve for discharging stagnant water to the outside is installed in the end of the end of the pipe.

On the other hand, the circulation opening and closing portion,

A pressure reducing valve installed in the circulation pipe to allow the stagnant water of the end area to be circulated to the generation supply area when the water pressure of the end area is higher than that of the generation supply area; And

And a circulation water backflow prevention valve installed in a circulation pipe between the pressure reducing valve and the generation supply region to prevent the tap water on the generation supply region side from being introduced into the pressure reduction valve.

The circulation opening and closing part may further include respective first and second pressure gauges installed in both circulation pipes around the pressure reducing valve so as to measure the water pressure at the end of the end region and the water pressure at the generation supply side.

The circulation shielding part is installed in the circulation pipes on both sides of the pressure reducing valve and the circulation water backflow prevention valve to prevent the stagnant water or the circulation water from flowing into the circulation opening and closing part when the circulation opening and closing part is maintained. Characterized in that further comprises.

A second filtration member is installed in the circulation pipe between the third blocking valve and the pressure reducing valve to prevent foreign substances from flowing into the pressure reducing valve.

The pipe end portion or the circulation pipe is characterized in that the pressure tank for increasing the water pressure in the end area.

The stagnant water circulation system of the end of the water supply system according to the present invention communicates the end of the water supply pipe of the end portion and the generation supply area to the circulation pipe, the end of the stagnation water backflow prevention valve for blocking the flow of stagnant water back into the water supply pipe The circulating pipe is provided with a circulation opening and closing portion that circulates the stagnant water in the end area to the generation supply area when the water pressure in the end area is higher than the pressure in the generation supply area. As a result, the stagnant water is automatically circulated to the generation supply zone, thereby providing an effect that the phenomenon of stagnant tap water at the end of the tube can be solved at the source.

In addition, when the pure pipe is formed of a tube of smaller diameter than the water pipe, construction work efficiency in a narrow space (alley, etc.) is expected to be improved.

On the basis of the accompanying drawings will be described each preferred embodiment according to the present invention.

First, FIG. 1 is a schematic block diagram illustrating a stagnant water circulating device of a pipe for a water supply system according to a first embodiment of the present invention.

As shown in FIG. 1, the stagnant water circulation system of the pipe end for the water supply system according to the first embodiment is installed at the pipe end 20 of the water pipe 10 having at least one generation branch pipe 12n. One end is connected to the end of the stagnant water backflow prevention valve 30, the pipe end 20, the other end is connected to the water supply pipe 10 of the generation supply zone (S) and the circulation pipe 40, and the circulation pipe ( Consists of a pressure reducing valve 52 and a circulating water backflow prevention valve 54 installed in the 40, the circulation opening and closing part 50 is installed in the circulation pipe (40).

The stagnant water backflow prevention valve 30 is to block the tap water supplied from the water supply pipe 10 to the end portion 20, that is, the stagnant water back to the water supply pipe 10 again. Such a valve is used a one-way valve that allows the flow of fluid in only one direction.

The circulation pipe 40 is intended to allow the stagnant water of the end portion 20 to be circulated back to the water supply pipe 10, and the diameter thereof is formed smaller than or equal to the water supply pipe 10. For example, when the water pipe 10 is about 32-80 cm, the circulation pipe 40 is formed to be 15-25 cm. This is because it is difficult to install a large diameter circulation tube 40 in a narrow space (alley, etc.). However, if a space for installing the large diameter circulation pipe 40 is secured, a circulation pipe 40 of the same diameter as or close to the water supply pipe 10 may be used.

And, the end region E is divided based on the boundary point of the water supply pipe 10 and the end portion 20 as shown by the dotted line in FIG. 1, and the end portion E side of the end portion 20. The water supply pipe 10 side is arbitrarily set as the generation supply region S. The boundary point means an area in which the final generation branch engine 12n is formed or an area close to the area.

 Therefore, the stagnant water backflow prevention valve 30 and the circulation opening and closing part 50 are provided at the end portion 20 and the circulation pipe 40 at the boundary point of the end region E and the generation supply region S, respectively.

The circulation opening and closing part 50 is configured to open and close the circulation pipe 40 by the pressure difference between the terminal area E and the generation supply area S. That is, when the water pressure in the water supply pipe 10 in the generation supply region S is lower than the water pressure in the end region E formed by the end portion 20 and the circulation tube 40, the stagnant water stagnated in the end portion 20 is lower. It is configured to be circulated to the water supply pipe 10 of the generation supply area (S).

The circulation opening and closing part 50 is installed in the circulation pipe 40 so that when the water pressure in the end area E is higher than the water pressure in the generation supply area S, the number of stagnant water in the end area E becomes the generation supply area S. Pressure reducing valve 52 operated by the pressure difference so as to circulate, and the circulation pipe between the pressure reducing valve 52 and the generation supply region (S) so that tap water on the large supply region (S) side does not flow into the pressure reducing valve (52). It consists of a circulating water backflow check valve (54) installed at (40).

Since the structures of the pressure reducing valve 52 and the circulating water backflow prevention valve 54 are well known, detailed description thereof will be omitted.

Referring to the operation of the stagnant water circulator according to this embodiment configured as described above are as follows.

As shown in FIG. 1, the tap water supplied from the water supply pipe 10 passes through the stagnant water backflow prevention valve 30 and flows into the pipe end 20. The introduced tap water does not flow back to the water pipe 10 by the stagnation water check valve 30.

In this process, when the tap water continues to flow into the tube portion 20 at a high pressure, the water pressure in the tube region E increases. This is because the pressure reducing valve 52 of the circulation opening and closing part 50 blocks the circulation pipe 40.

Subsequently, when tap water is used in each generation of the generation supply zone S, the tap water flows out into each generation through each generation branch pipe 12n, so that the water pressure in the generation supply zone S is lowered.

When the water pressure in the generation supply region S is lowered, the pressure reducing valve 52 is opened. When the pressure reducing valve 52 is opened, the stagnant water in the end region E passes through the pressure reducing valve 52 and the circulating water backflow prevention valve 54, moves to the generation supply region S, and circulates to the water supply pipe 10. Will be done.

For example, if the water pressure in the end region E is 5 kg, and the tap water in each generation uses 3 kg of water pressure in the generation supply region S, the pressure reducing valve 52 is opened, which causes the end of the end region E. The stagnant water stagnated in the tube end 20 and the circulation pipe 40 flows through the circulation opening and closing part 50 to the water supply pipe 10 to circulate.

In this way, the stagnant water stagnated in the end zone E is automatically circulated by the difference in pressure (hydraulic pressure) between the end zone E and the generation supply zone S. Thus, a separate operation for circulating or removing stagnant water is performed. This becomes unnecessary.

In addition, when the pressure of the end region E and the generation supply region S is the same or the end region E is lower, the pressure reducing valve 52 closes the flow path. The circulating water backflow prevention valve 54 blocks the circulating water circulated to the generation supply region S or the tap water supplied from the water supply pipe 10 to flow back to the pressure reducing valve 52.

On the other hand, Figure 2 is a schematic block diagram illustrating a stagnant water circulating device of the end of the water supply system according to a second embodiment of the present invention.

As shown in FIG. 2, the stagnant water circulator according to the second embodiment includes first and second blocks installed at both sides of the water supply pipe 10 or the pipe end 20 around the stagnant water backflow prevention valve 30. The valves 32 and 34, the first filtration member 36 provided in the water supply pipe 10 between the stagnant water backflow prevention valve 30 and the generation supply region S, and the end of the tube region E. The first and second pressure gauges 56A and 56B installed at both of the circulation pipes 40 centered on the pressure reducing valve 52 and the pressure relief valve 52 provided at the 20 or the circulation pipe 40; Third and fourth shut-off valves 58A and 58B provided in the circulation pipes 40 on both sides around the valve 52 and the circulation water backflow prevention valve 54, and the third shut-off valve 58A and the pressure reduction Except for further comprising a second filtration member 59 is installed in the circulation pipe 40 between the valve 52 and the meter 80 is installed in the circulation pipe 40 in the circulation opening and closing 50 region Is the same as the first embodiment.

The first and second shut-off valves 32 and 34 are used for tap water when the stagnant water backflow prevention valve 30 is broken or replaced, or when the circulation pipe 40 or the pipe end 20 is repaired or replaced. To prevent inflow or to prevent tap water and stagnant water from entering the stagnation water backflow prevention valve 30. Such a valve is satisfied if it is a normal shut-off valve.

The first filtration member 36 is to prevent foreign substances flowing from the water supply pipe 10 to prevent malfunction or malfunction of the stagnant water backflow prevention valve 30 and the pressure reducing valve 52 due to the foreign substances.

In addition, the discharge valve 60 is an emergency valve for forcibly discharging the stagnant water when installed in the end portion 20 or the circulation tube 40 of the end region E. In addition, the discharge valve 60 may be installed between the fourth shut-off valve 58B and the circulating water backflow prevention valve 54, wherein the discharge valve 60 is set when the pressure reducing valve 52 is set (2). The secondary side should have a lower pressure than the secondary side.) Used to lower the pressure on the secondary side (generation supply area S) arbitrarily.

The first and second pressure gauges 56A and 56B installed at both circulation pipes 40 centering on the pressure reducing valve 52 measure the pressure of the end region E side and the pressure of the generation supply region S side to reduce the pressure reducing valve ( 52). That is, the first and second pressure gauges 56A and 56B are pressure reducing valves based on the pressures of both sides such that the pressure reducing valve 52 is opened and closed according to the pressure (water pressure) difference between the end region E and the generation supply region S. It is for setting or installing (52). Since setting the pressure reducing valve 52 is well known, detailed description thereof will be omitted. And through the first and second pressure gauges 56A, 56B, it is possible to grasp the pressure at the end of the end region E and the pressure at the generation supply region S.

The third and fourth shut-off valves 58A and 58B provided at the circulation pipes 40 of the pipe end area E on both sides of the pressure reducing valve 52 and the circulating water backflow prevention valve 54 are pressure reducing valves 52. (B) When maintenance, replacement, etc. of the circulating water backflow prevention valve 54 is made to prevent the stagnant water or the circulating water from flowing into the pressure reducing valve 52 or the circulating water backflow prevention valve 54. Such a valve is satisfied if it is configured to block the flow of fluid.

In addition, the second filtration member 59 is for blocking foreign matters contained in the stagnant water from being introduced into the pressure reducing valve 52.

On the other hand, the meter 80 is to measure the amount of stagnant water is installed in the circulation pipe 40 of the circulation opening and closing part 50 area.

At this time, each of the shutoff valves are always open.

The operation of the stagnant water circulator according to the second embodiment is the same as that of the first embodiment, but in the case of maintenance, replacement, construction, inspection, measurement, etc. It becomes possible to carry out.

3 is a schematic block diagram illustrating a stagnant water circulating device of a pipe for a water supply system according to a third embodiment of the present invention.

As shown in FIG. 3, each of the embodiments of the stagnant water circulator according to the third embodiment of the present invention further includes a branch pipe 42n branched to at least one other end of the circulation pipe 40. Same as

Each branch pipe 42n is connected to the water supply pipe 10 in the generation supply zone S, and when tap water is used in each generation, the water pressure in the generation supply zone S is rapidly lowered to circulate the stagnant water. This is to make it more smooth.

That is, since the pressure drop due to tap water consumption in the generation supply zone S is caused by a large difference by each generation branch pipe 12n, the pressure in the generation supply zone S and the end region E The pressure difference is more prominent, and thus the opening degree of the pressure reducing valve 52 is large and sure. Therefore, the circulation of the stagnant water can be made quickly.

At this time, each branch pipe 42n may be connected to each generation branch pipe 12n.

4 is a schematic block diagram illustrating a stagnant water circulation system of a pipe for a water supply system according to a fourth embodiment of the present invention.

The stagnant water circulator according to the fourth embodiment shown in FIG. 4 is provided with a pressure tank 70 for increasing the water pressure in the end region E in the end portion 20 or the circulation pipe 40. It is the same as each embodiment mentioned above. The pressure tank 70 maintains the water pressure in the end region E above a certain water pressure so that the water pressure in the end region E is always higher than the water pressure in the generation supply region S, thereby opening the pressure reducing valve 52. This is to allow the stagnant water to easily flow into the generation supply region (S).

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic block diagram illustrating a stagnant water circulating device of a pipe for a water supply system according to a first embodiment of the present invention.

Figure 2 is a schematic block diagram illustrating a stagnant water circulation device of the end of the water supply system according to a second embodiment of the present invention.

Figure 3 is a schematic block diagram for explaining a stagnant water circulating device of the end of the water supply system according to a third embodiment of the present invention.

Figure 4 is a schematic block diagram illustrating a stagnant water circulating device of the end of the water supply system according to a fourth embodiment of the present invention.

Figure 5 is a schematic diagram showing the end of the water supply system according to the prior art.

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

10: water supply pipe 12n: generation branch

20: end portion 30: stagnant water backflow check valve

32,34: 1st and 2nd valve 36: 1st filtration member

40: circulation pipe 42n: branch pipe

50: circulation opening and closing 52: pressure reducing valve

54: circulating water backflow check valve 56A, 56B: first and second pressure gauge

58A, 58B: 3rd and 4th shutoff valve 59: 2nd filtration member

60: discharge valve 70: pressure tank

E: Terminal area S: Household supply area

80: Meter

Claims (15)

Stagnant for preventing the tap water supplied from the water supply pipe 10 back to the water supply pipe 10 is installed in the pipe end 20 of the water supply pipe 10 having at least one generation branch pipe 12n. A water backflow check valve 30; One end is connected to the end of the tube portion 20, the other end is connected to the water supply pipe 10 of the generation supply area (S), the stagnant water circulated in the tube end 20 is circulated to the water supply pipe (10) A circulation pipe 40 for communicating the tube end 20 with the water supply pipe 10 so as to communicate with the water pipe 10; And When the water pressure in the water supply pipe 10 of the generation supply region S is lower than the water pressure in the end region E formed by the end portion 20 and the circulation pipe 40, the stagnant water stagnated in the end portion 20 is reduced. Congestion water circulation system of the end of the water supply system characterized in that it comprises a; circulating opening and closing portion 50 is installed in the circulation pipe 40 is made to be circulated to the water supply pipe (10) of the generation supply area (S). The method of claim 1, wherein the stagnant water backflow check valve 30, The stagnant water circulation system of the end of the water supply system, characterized in that installed on the boundary between the generation supply area (S) and the end area (E). The apparatus of claim 1, wherein the diameter of the circulation pipe (30) is smaller than the diameter of the water supply pipe (10). The apparatus of claim 1, wherein the diameter of the circulation pipe (30) is equal to the diameter of the water supply pipe (10). The method of claim 1, wherein the water supply pipe 10 and the end portion 20 on both sides of the stagnant water backflow check valve 30, the maintenance of the stagnant water backflow check valve 30 in the maintenance of the stagnant water backflow check valve 30 (30) The stagnant water circulation system of the end of the water supply system for water supply system, characterized in that the first and second shut-off valves (32, 34) are installed to prevent the tap water or stagnant water flow into the side. The first filtration member of claim 5, wherein foreign matter is not introduced into the stagnant water check valve 30 in the water supply pipe 10 between the stagnant water check valve 30 and the generation supply region S. A stagnant water circulation system for the end of the water supply system, characterized in that 36 is installed. The method of claim 1, wherein the other end of the circulation pipe 40 is provided with at least one branch pipe 42n, the branch pipe 42n is connected to the water supply pipe 10 in the generation supply area (S). Stagnant water circulator of the end of the water supply system characterized in that the water supply system. The method of claim 5, wherein the other end of the circulation pipe 40 is provided with at least one branch pipe 42n, the branch pipe 42n is connected to the water supply pipe 10 in the generation supply area (S). Stagnant water circulator of the end of the water supply system characterized in that the water supply system. The stagnant water circulation system of a pipe end for a water supply system according to claim 1, characterized in that a discharge valve (60) for discharging stagnant water is provided in the end area (E) of the end portion (20). The method according to any one of claims 1 to 9, wherein the circulation opening and closing part 50, Installed in the circulation pipe 40 to allow the stagnant water of the end area E to be circulated to the generation supply area S when the water pressure of the end area E is higher than the pressure of the generation supply area S. A pressure reducing valve 52; And Circulating water backflow installed in the circulation pipe 40 between the pressure reducing valve 52 and the generation supply region S to prevent tap water on the generation supply region S side from flowing into the pressure reduction valve 52. Prevention valve (54); stagnant water circulator of the end of the water supply system characterized in that it comprises a. The method according to claim 10, The circulation opening and closing part 50,  Each of the first and second pressure gauges 56A and 56B installed at both circulation pipes 40 around the pressure reducing valve 52 so as to measure the water pressure at the end region E side and the water pressure at the generation supply region S side. Stagnant water circulator of the end of the water supply system characterized in that it further comprises a. The method according to claim 10, The circulation shield 50, The pressure reducing valve 52 and the circulating water backflow prevention valve 54 are installed in the circulation pipes 40 on both sides, so that the stagnant water or the circulating water when the circulation opening / closing part 50 is maintained, and the pressure reducing valve 52 And a third and fourth shut-off valves (58A, 58B) for preventing the inflow of the circulating water backflow prevention valve (54).  The water supply system of claim 12, wherein a second filtration member 59 is installed in the circulation pipe between the third shutoff valve and the pressure reducing valve to prevent foreign substances from entering the pressure reducing valve. Of stagnant water circulator. 11. The water circulation of stagnant water of a pipe end for a water supply system according to claim 10, characterized in that a pressure tank (70) for increasing the water pressure in the end area (E) is installed in the pipe end portion (20) or the circulation pipe (40). Device. 11. The stagnant water circulation system of a pipe end for a water supply system according to claim 10, wherein the circulation switch unit (50) is provided with a meter (80) for measuring the circulation amount of the stagnant water.

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