KR100909861B1 - Boundary side flow control device to eliminate stagnant water in water supply system - Google Patents

Abstract

The present invention discloses a boundary valve flow control device having a function of eliminating stagnant water in a tap water supply system capable of preventing stagnant tap water in a water pipe. The present invention relates to a boundary flow control device having a function of eliminating stagnant water in a water supply system, comprising: a main water pipe connected to a monastery where water supplied to each block is stored; A first block and a second block connected to the main water pipe sequentially and receiving water from the monastery; The main block between the first block and the second block so that water flows from the first block to the second block when the pressure of the water stored in the first block is higher than the pressure of the water stored in the second block; A first auxiliary water pipe installed branched from the water pipe, and having a pressure reducing valve; When the pressure of the water stored in the second block is higher than the pressure of the water stored in the first block so that water flows from the second block to the first block and the first auxiliary conduit separately from the first auxiliary conduit The second water pipe is installed branched from the main water pipe between the second block and includes a second auxiliary water pipe provided with a pressure reducing valve, so that the water quality is stagnated for a predetermined period of time in the water pipe on the boundary side connecting the block and the block. It can be prevented from being lowered and harming user's hygiene.

Water supply, pressure reducing valve, check valve, pressure gauge

Description

BOUNDARY AREA FLOWING CONTROL DEVICE HAVING THE FUNCTION OBLITERATING REMAINING WATER FOR TAP WATER PIPELINE SUPPLY SYSTEM}

The present invention relates to a boundary flow control device having a function of eliminating stagnant water in a water supply system, and more particularly, water quality is reduced due to stagnation of tap water for a predetermined period of time in a water pipe at a boundary side connecting blocks and blocks. The present invention relates to a boundary side flow control device having a function of eliminating stagnant water in a water supply system capable of preventing harm to user's hygiene.

1 is a schematic view showing the structure of a conventional water supply system.

As shown in the figure, the conventional water supply system, the main water pipe 20 connected to the monastery 10 is stored water supplied to each block, the branch water pipes branched from the main water pipe 20 connected to each block 30, and an auxiliary water pipe 40 for connecting each block and the blocks.

Since the plurality of branch water pipes 30 branched from the main water pipe 20 are connected to the blocks one by one in sequence, as a result, the water supply system has a configuration in which each block and the block are connected in parallel.

Further, since some of the branched water pipes 30 branched are damaged, separate auxiliary water pipes between each block and the block to prevent the supply of tap water to the block connected to the broken branch water pipe 30 are prevented. (40) is further provided, and the auxiliary water pipe (40) is provided with a boundary valve (50).

The boundary valve 50 is branched from the main water pipe 20 and is locked when the branch water pipe 30 connected to each block is normally operated, and a part of the branch water pipe 30 is broken and through the branch water pipe 30. When the water cannot be supplied to the block, the lock state of the boundary valve 50 is released to open the water supplied to the other block.

By the way, in the conventional water supply system, the tap water stagnated in the auxiliary water pipe 40 is damaged when the branch water pipe 30 is normally operated, the tap water stagnated in the auxiliary water pipe 40 is capped. If the basin water pipe 30 is damaged and the tap water is supplied to each block through the auxiliary water pipe 40, the upper limit water is supplied to the user, thereby harming the user's hygiene.

The object of the present invention devised in view of the above point, the supply of tap water to prevent the water quality is deteriorated due to stagnation of the tap water for a certain period of time in the water pipe at the boundary side connecting the block and the block interconnection. It is an object of the present invention to provide a boundary flow control device having a function of eliminating stagnant water in a system.

In order to achieve the object of the present invention as described above, the boundary side flow control device having a function of eliminating stagnant water in the water supply system includes: a main water pipe connected to a monastery where water supplied to each block is stored; A first block and a second block connected to the main water pipe sequentially and receiving water from the monastery; The main block between the first block and the second block so that water flows from the first block to the second block when the pressure of the water stored in the first block is higher than the pressure of the water stored in the second block; A first auxiliary water pipe installed branched from the water pipe, and having a pressure reducing valve; When the pressure of the water stored in the second block is higher than the pressure of the water stored in the first block so that water flows from the second block to the first block and the first auxiliary conduit separately from the first auxiliary conduit It is characterized in that it comprises a second auxiliary water pipe is installed branched from the main water pipe between the second block and provided with a pressure reducing valve.

As described above, the boundary side flow control device having a stagnant water elimination function of the water supply system according to an embodiment of the present invention, because the tap water is stagnated for a predetermined period of time in the water pipes of the boundary side connecting the block and the block. There is an effect that can prevent the water quality is degraded to harm the hygiene of the user.

Hereinafter, a boundary flow control device having a stagnant water elimination function of a water supply system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic diagram schematically illustrating a structure of a boundary side flow control apparatus having a stagnant water release function of a water supply system according to an embodiment of the present invention.

As shown in the figure, the boundary flow control device having a stagnant water elimination function of the water supply system according to an embodiment of the present invention, the main water pipe 100 connected to the monastery 10 is stored water supplied to each block ), The first block 200 and the second block 300 which are sequentially connected to the main water pipe 100 and supplied with the water of the monastery 10, and the pressure of the water stored in the first block 200 are the second. When the pressure of the water stored in the block 300 is higher than the main water pipe between the first block 200 and the second block 300 so that water flows from the first block 200 to the second block 300 ( When the pressure of the water stored in the first auxiliary water pipe (500) and the second auxiliary pipe 300, which is installed branched from the 100 and the pressure reducing valve 400, the second block 300 is higher than the pressure of the water stored in the first block (200) The first block 200 and the second block separately from the first auxiliary water pipe 500 to allow water to flow from the second block 300 to the first block 200. 300 is disposed is branched from the main water pipe (100) between and is configured to include a pressure-sensitive valve 400 is provided with a second auxiliary water pipe (500).

A plurality of ball valves 510 and 610 and pressure gauges 520 and 620 are respectively installed in the first auxiliary water pipe 500 and the second auxiliary water pipe 600 positioned between the pressure reducing valve 400 and the first block 200. Ball valves 530 and 630 and pressure gauges 540 and 640 are respectively provided in the first auxiliary water pipe 500 and the second auxiliary water pipe 600 positioned between the pressure reducing valve 400 and the second block 300. It is provided.

Tap water supplied to each of the blocks on the first auxiliary water pipe 500 and the second auxiliary water pipe 600 between the pressure gauges 520 and 620 and the ball valves 530 and 630 installed in close proximity to the pressure gauges 520 and 620. Filter sieves (570, 670) is further installed to filter foreign matter that may be included in.

The pressure reducing valve 400 is generally used in the case of maintaining high pressure steam, air, gas, etc. by depressurizing and maintaining a constant pressure. The pressure is applied to the valve by dead weight, spring, diaphragm, and the like. When the pressure is lower than the pressure, the fluid flows by pushing the valve. In the opposite case, the pressure of the fluid overcomes the opening force of the valve to close the valve to prevent the fluid from flowing in.

Reverse flow prevention that prevents water from flowing back between the downstream pressure reducing valve 400 and the pressure gauges 530 and 630 along the direction in which water flows inside the first auxiliary water pipe 500 and the second auxiliary water pipe 600. Valves 550 and 650 are provided.

The non-return valves 550 and 650 reduce an error in checking the flow rate of the water meters 560 and 660 through the first auxiliary water pipe 500 and the second auxiliary water pipe 600, and the pressure reducing valve 400 It helps to operate correctly.

On the lines of the first auxiliary water pipe 500 and the second auxiliary water pipe 600, water meters 560 and 660 capable of detecting a flow rate flowing through the first auxiliary water pipe 500 and the second auxiliary water pipe 600, respectively. Each is provided.

The first auxiliary water pipe 500 and the second auxiliary water pipe 600 are branched between the upstream pressure gauges 510 and 610 and the pressure reducing valve 400 in a direction in which water flows, respectively, so that the pressure reducing valve 400 and the counter flow are reversed. A first branch pipe 700 and a second branch pipe 800 are respectively connected to the first auxiliary water pipe 500 and the second auxiliary water pipe 600 between the prevention valves 550 and 650.

Ball valves 710 and 810 are installed in the first branch pipe 700 and the second branch pipe 800, respectively.

The operation of the boundary side flow control device having a stagnant water elimination function of the water supply system according to an embodiment of the present invention configured as described above is as follows.

First, when tap water is supplied to the first block 200 through the main water pipe 100, the tap water flows to the second block 300 through the first auxiliary water pipe 500, and thus, the first block 200 and the second block. The tap water is supplied to the user 300, and the user who lives in the first block 200 and the second block 300 uses tap water, and the amount of tap water used by the water meter 560 is measured.

At this time, the pressures of both sides are checked in real time by pressure gauges 520 and 540 installed on the upstream side and the downstream side of the first auxiliary water pipe 500 on the basis of the pressure reducing valve 400, that is, the upstream side and the downstream side, When the pressure on the first block 200 side is higher than the pressure on the second block 300 side, the pressure reducing valve 400 installed in the first maintenance conduit 500 is opened and the ball valve of the first branch pipe 700 is opened. 710 is closed, and the pressure reducing valve 400 installed in the second auxiliary water pipe 600 is closed because the pressure at the side of the first block 200 is higher than the pressure at the side of the second block 300. Since the valve 810 is also closed, the tap water flows from the first block 200 to the second block 300 through the first auxiliary water pipe 500.

On the contrary, the pressures of both sides are checked in real time by pressure gauges 540 and 520 respectively installed on the downstream side and the upstream side of the first auxiliary water pipe 500 based on the pressure reducing valve 400. When the pressure on the second block 300 side is higher than the pressure on the first block 200 side, the pressure reducing valve 400 installed in the second auxiliary water pipe 600 is opened and the ball valve of the second branch pipe 800 is opened. 810 is closed, and the pressure reducing valve 400 installed in the first auxiliary water pipe 500 is closed because the pressure on the second block 300 side is higher than the pressure on the first block 200 side. Since the valve 810 is also closed, the tap water flows from the second block 300 to the first block 200 through the second auxiliary water pipe 600.

When the water pressures of the first block 200 and the second block 300 are the same, since the pressure reducing valve 400 does not operate, the ball valves installed in the first branch pipe 700 and the second branch pipe 800 respectively ( 710 and 810 are opened to allow the tap water to flow freely between the first block 200 and the second block 300.

By repeating the operation as described above, the boundary valve flow control device having the function of eliminating the stagnant water of the water supply system according to an embodiment of the present invention is the first block 200 and the second block by the pressure reducing valve 400 Since the water pipe of (300) is in communication with each other, the repeated flow of the tap water occurs between the first auxiliary water pipe (500) and the second auxiliary water pipe (600) due to the subtle pressure difference. Due to this, the water quality can be prevented from deteriorating.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a schematic diagram schematically showing the structure of a conventional water supply system;

2 is a schematic diagram schematically illustrating a structure of a boundary side flow control apparatus having a stagnant water release function of a water supply system according to an embodiment of the present invention.

** Description of the symbols for the main parts of the drawings **

100: main water pipe 200: the first block

300: second block 400: pressure reducing valve

500: first auxiliary water pipe 510: ball valve

520: pressure gauge 530: ball valve

540: pressure gauge 550: check valve

560: water meter 570: strainer

600: second auxiliary water pipe 610: ball valve

620: pressure gauge 630: ball valve

640: pressure gauge 650: non-return valve

660: water meter 670: strainer

700: first branch pipe 710: ball valve

800: second branch pipe 810: ball valve

Claims (6)

A main water pipe connected to the monastery where the water supplied to each block is stored; A first block and a second block connected to the main water pipe sequentially and receiving water from the monastery; The main block between the first block and the second block so that water flows from the first block to the second block when the pressure of the water stored in the first block is higher than the pressure of the water stored in the second block; A first auxiliary water pipe installed branched from the water pipe, and having a pressure reducing valve; When the pressure of the water stored in the second block is higher than the pressure of the water stored in the first block so that water flows from the second block to the first block and the first auxiliary conduit separately from the first auxiliary conduit A boundary valve flow control device having a function of relieving stagnant water in a water supply supply system, characterized in that it is installed branched from the main water pipe between the second block and comprises a second auxiliary water pipe provided with a pressure reducing valve. The method of claim 1, A ball valve and a pressure gauge are installed in the first auxiliary water pipe and the second auxiliary water pipe located between the pressure reducing valve and the first block, and the first auxiliary water pipe and the first auxiliary water pipe located between the pressure reducing valve and the second block. The second auxiliary water pipe is a boundary valve flow control device having a function to eliminate the stagnant water of the water supply system, characterized in that the ball valve and the pressure gauge is installed. The method of claim 2, A water supply valve is further provided between the pressure reducing valve and the pressure gauge downstream of the first auxiliary water pipe and the second auxiliary water pipe in order to prevent water from flowing back. Boundary flow control device having a function of eliminating stagnant water in a supply system. The method of claim 3, The first auxiliary water pipe and the first auxiliary water pipe between the pressure reducing valve and the non-return valve are respectively branched between the pressure gauge on the upstream side and the pressure reducing valve in a direction in which water flows inside the first auxiliary water pipe and the second auxiliary water pipe. A boundary valve flow control device having a function of quenching stagnant water in a water supply system, wherein the first branch pipe and the second branch pipe are respectively connected to each of the two auxiliary water pipes and provided with a ball valve. delete The method of claim 4, wherein A sieve net for filtering foreign matters is further provided on the first auxiliary water pipe and the second auxiliary water pipe between the pressure gauge and the ball valve installed at a position close to the pressure gauge. Boundary flow control device having a.

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