KR102687865B1 - Apparatus for supplying and discharging water - Google Patents

Abstract

The present invention improves the reliability of temperature and flow measurement, for example, when testing performance by supplying water to a plurality of coolers, as well as water supply and discharge that can easily, quickly, and safely discharge water. Regarding the device, the water supply and discharge device according to one embodiment includes a support body; a supply unit disposed on the support body and having a first main pipe and a plurality of first branch pipes branching from the first main pipe; a discharge unit disposed on the support body and having a second main pipe and a plurality of second branch pipes branching from the second main pipe; And it may include an air inlet installed in at least one second branch pipe to provide compressed air to the discharge unit.

Description

Apparatus for supplying and discharging water}

The present invention relates to, for example, a water supply and discharge device capable of supplying water to a plurality of coolers and discharging water from each cooler.

Water can be supplied to multiple large coolers that cool the transformer to test the performance of the transformer or cooler, and then the water can be discharged. In this case, water is supplied by connecting a plurality of coolers in series. In other words, water is supplied from a water supply source to the first cooler, and water discharged from the first cooler is supplied back to the second cooler.

When water is supplied and discharged in this way, the water heated in the first cooler is supplied to the second cooler, so the cooling performance of the second cooler is inevitably reduced due to the raised water, and the temperature of the transformer rises, thereby reducing performance. Accurate measurement of the relevant temperature and flow rate cannot be guaranteed.

In addition, conventionally, when discharging water from each cooler, approximately 50,000 liters of water is placed in a large water tank and transported outside the test site several times, which takes a lot of time and exposes workers to the risk of safety accidents. there is.

(Patent Document 1) KR 2015-0004367 U

The present invention improves the reliability of temperature and flow measurement, for example, when testing performance by supplying water to a plurality of coolers, as well as water supply and discharge that can easily, quickly, and safely discharge water. The purpose is to provide a device.

A water supply and discharge device according to an embodiment of the present invention includes a support body; a supply unit disposed on the support body and having a first main pipe and a plurality of first branch pipes branching from the first main pipe; a discharge unit disposed on the support body and having a second main pipe and a plurality of second branch pipes branching from the second main pipe; And it may include an air inlet installed in at least one second branch pipe to provide compressed air to the discharge unit.

The support body may be equipped with a plurality of lifting lugs.

A plurality of wheels may be mounted on the support body.

The support body may include a plurality of first brackets installed on the upper surface of the support body to support the supply unit, and a plurality of second brackets installed on the upper surface of the support body to support the discharge unit. .

The first bracket and the second bracket have different heights, and the supply unit and the discharge unit can be disposed on the upper surface of the support body without interfering with each other.

The supply unit may further include a plurality of valves mounted on each first branch pipe, and the discharge unit may further include a plurality of valves mounted on each second branch pipe.

A stopper or blind flange may be coupled to an unused end of the first branch pipe and an unused end of the second branch pipe.

The supply unit may further include a flow meter installed in at least one of the first branch pipes to measure the flow rate of water.

The air inlet is connected in communication with the air compressor, and compressed air is injected and sprayed from the air compressor into the air inlet, thereby pushing out and discharging the water in the discharge unit.

According to the water supply and discharge device according to an embodiment of the present invention, for example, when applied to a plurality of coolers, a plurality of coolers are connected in parallel to the water supply source, so that water under the same conditions and conditions is uniform to each cooler. This has the effect of improving the reliability of temperature and flow measurement.

In addition, according to the water supply and discharge device according to an embodiment of the present invention, water can be discharged using compressed air introduced into the discharge unit through the air inlet, thereby discharging water easily, quickly, and safely. There is a possible effect.

1 is a perspective view of a water supply and discharge device according to an embodiment of the present invention.
Figure 2 is a side view of Figure 1.

Hereinafter, the present invention will be described in detail through exemplary drawings. When adding reference numerals to components in each drawing, it should be noted that identical components are given the same reference numerals as much as possible even if they are shown in different drawings.

Figure 1 is a perspective view of a water supply and discharge device according to an embodiment of the present invention, and Figure 2 is a side view of Figure 1.

The water supply and discharge device according to an embodiment of the present invention may include a support body 10, a supply unit 20, a discharge unit 30, and an air inlet 40.

The support body 10 is a substantially plate-shaped member placed on the ground or the bottom of a facility. However, it is not necessarily limited to this shape.

The support body 10 is movable. For this purpose, a plurality of lifting lugs 11 may be mounted on the upper surface or side of the support body. Accordingly, the support body and the water supply and discharge device including it can be transported by being lifted by a crane via a lug.

Additionally, a plurality of wheels 12 may be mounted on the bottom or side of the support body 10. Pushing or pulling the support body causes the wheels to rotate, allowing the water supply and discharge device to be easily moved to the required position.

Therefore, the water supply and discharge device according to an embodiment of the present invention has the advantage of being convenient to use and store.

The support body 10 includes a plurality of first brackets 13 installed on the upper surface of the support body to support the supply unit 20, and a plurality of first brackets 13 installed on the upper surface of the support body to support the discharge unit 30. It may further include 2 brackets (14).

The first bracket 13 and the second bracket 14 may have different heights. For example, the first bracket may be formed higher than the second bracket. However, it is not necessarily limited to this, and the first bracket may be formed lower than the second bracket.

Additionally, the first bracket 13 and the second bracket 14 may be disposed at positions offset from each other on the upper surface of the support body 10 to support the corresponding pipe.

Accordingly, the supply unit 20 and the discharge unit 30 can be positioned on the upper surface of the support body 10 without interfering with each other.

The supply unit 20 may include a first main pipe 21 and a plurality of first branch pipes 22 branching from the first main pipe. An inlet 23 through which water flows may be formed on one side of the first main pipe. An outlet 24 through which water flows out may be formed at the end of each first branch pipe.

The first main pipe 21 and the plurality of first branch pipes 22 may be supported by a plurality of first brackets 13 on the upper surface of the support body 10.

Accordingly, in the supply unit 20, water flows from the water supply source into the first main pipe 21 through a connection hose (not shown) and the inlet 23, and through a plurality of first branch pipes 22. It may be discharged through a plurality of outlets (24). For example, the outlet of each first branch pipe may be connected to the supply port of the corresponding cooler among the plurality of coolers through a connecting hose.

Here, a pump for pumping water may be connected to the water supply source or connection hose.

Among the plurality of first branch pipes 22, the distance between two neighboring first branch pipes may be the same as the distance between the other two first branch pipes. Additionally, the plurality of first branch pipes may have the same diameter. In this case, the flow rate of water supplied through the plurality of first branch pipes may be the same.

By keeping the arrangement and size of the first branch pipes 22 the same with respect to each other in this way, the flow rate of water supplied to each cooler through the outlet 23, for example, becomes more precisely the same, supplying water to each cooler at the same flow rate. can be supplied.

When the plurality of first branch pipes 22 are each connected to a plurality of coolers via connection hoses, the flow rate of water supplied through each first branch pipe is the same, so the plurality of coolers have uniform cooling performance. This allows cooling to be achieved throughout the transformer.

The supply unit 20 may further include a plurality of valves 25 mounted on each first branch pipe 22. As such a valve, an on-off valve that opens and closes the first branch pipe may be employed, but it is not necessarily limited thereto, and for example, a flow control valve may be employed.

Optionally, the supply unit 20 may further include a flow meter 26 installed in at least one first branch pipe 22 to measure the flow rate of water. The flow meter may be interposed between the outlet 24 and the connecting hose.

In the supply unit 20, flanges for mounting other members such as a connecting hose (not shown) or a flow meter may be formed at each of the inlet 23 and the plurality of outlets 24. Accordingly, other members such as connecting hoses or flow meters can be connected to each first branch pipe 22 by bolting.

For example, in FIGS. 1 and 2, the number of first branch pipes 22 is shown as three, but the number is not necessarily limited to this and may be less or more than this.

Additionally, a stopper 27 or a blind flange may be coupled to the outlet 24 of the first branch pipe 22, which is not used because it is not connected to the cooler.

The water supply and discharge device according to an embodiment of the present invention connects a plurality of coolers to a water supply source in parallel, so that water under the same conditions and conditions can be uniformly supplied to each cooler. Accordingly, for example, when testing performance by supplying water to a plurality of coolers, the reliability of temperature and flow measurement can be improved.

Here, the temperature can be measured through a temperature sensor installed in the cooler or the transformer associated therewith.

The discharge unit 30 may include a second main pipe 31 and a plurality of second branch pipes 32 branching from the second main pipe. An outlet 33 through which water is discharged may be formed on one side of the second main pipe. An inlet 34 through which water to be discharged flows may be formed at the end of each second branch pipe.

The second main pipe 31 and the plurality of second branch pipes 32 may be supported by a plurality of second brackets 14 on the upper surface of the support body 10.

Accordingly, in the discharge unit 30, water flows into the plurality of second branch pipes 32 from, for example, a plurality of coolers through the connection hose and the inlet 34, and through the second main pipe 31 to the outlet. It can be released as (33). For example, the outlet of the second main pipe may be connected to an external wastewater treatment storage or transport tank via a connecting hose. Additionally, the inlet port of each second branch pipe may be connected to the drain port of the corresponding cooler among the plurality of coolers via a connecting hose.

Among the plurality of second branch pipes 32, the distance between two neighboring second branch pipes may be the same as the distance between the other two second branch pipes. Additionally, the plurality of second branch pipes may have the same diameter. In this case, the flow rate of water discharged through the plurality of second branch pipes may be the same.

By keeping the arrangement and size of the second branch pipes the same with respect to each other in this way, the flow rate of water discharged from, for example, a cooler through the inlet 34 can be made more precisely the same.

The discharge unit 30 may further include a plurality of valves 35 mounted on each second branch pipe 32. As such a valve, an on-off valve that opens and closes the second branch pipe may be employed, but it is not necessarily limited thereto, and for example, a flow control valve may be employed.

In the discharge unit 30, flanges for mounting other members such as connection hoses may be formed at each of the discharge port 33 and the plurality of inlet ports 34. Accordingly, other members such as connecting hoses can be connected to each second branch pipe 32 by bolting.

For example, in FIGS. 1 and 2, the number of second branch pipes 32 is shown as three, but the number is not necessarily limited to this and may be less or more than this.

Additionally, a stopper 37 or a blind flange may be coupled to the inlet 34 of the second branch pipe 32, which is not used because it is not connected to the cooler.

As described above, there is a height difference between the first bracket 13 supporting the supply unit 20 and the second bracket 14 supporting the discharge unit 30, so the supply unit and the discharge unit are supported by the support body ( 10) can be placed on the upper surface without interference with each other. For example, when the first bracket is formed higher than the second bracket, the supply unit can be supported at a higher position than the discharge unit.

In the water supply and discharge device according to an embodiment of the present invention, one first branch pipe 22 of the supply unit 20 and one second branch pipe 32 of the discharge unit 30 are connected to the same cooler. can be connected The first branch pipe may be connected to the supply port of the cooler through a connecting hose, and the second branch pipe may be connected to the drain port of the cooler through a connecting hose.

In other words, the first branch pipe 22 and the second branch pipe 32 are matched in pairs and connected to one cooler, so that water can be supplied to and discharged from the cooler.

The water supply and discharge device according to an embodiment of the present invention may include an air inlet 40 installed in at least one second branch pipe 32 to provide compressed air to the discharge unit 30.

The air inlet 40 may be a so-called nipple-type inlet, but is not necessarily limited thereto, and for example, a valve-type inlet may be used.

The air inlet 40 may be connected in communication with the air compressor by a connecting tube (not shown). Compressed air generated from the air compressor may be injected into the air inlet and sprayed into the second branch pipe 32.

Accordingly, the water along with the compressed air injected through the second branch pipe 32 can be smoothly discharged to the outside through the second main pipe 31 and the outlet 33.

Compressed air has a high pressure, and generates a large blowing force when the compressed air passes through the air inlet 40. As a result, water is blown into the second branch pipe 32 and the second main pipe (32) by the strong blowing force of the compressed air. 31) and is able to exit the discharge unit 30.

The water supply and discharge device according to an embodiment of the present invention is capable of smoothly discharging water using compressed air introduced into the discharge unit through the air inlet, thereby discharging water easily, quickly, and safely. It will have an effect.

The above description is merely an illustrative explanation of the technical idea of the present invention, and various modifications and variations will be possible to those skilled in the art without departing from the essential characteristics of the present invention.

Accordingly, the embodiments disclosed in the specification and drawings are not intended to limit the technical idea of the present invention, but are for illustrative purposes, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted in accordance with the claims below, and all technical ideas within the equivalent scope should be construed as being included in the scope of rights of the present invention.

10: Support body 11: Lug
12: wheel 13: first bracket
14: second bracket 20: supply unit
21: first main pipe 22: first branch pipe
23: inlet 24: outlet
25, 35: valve 26: flow meter
27, 37: stopper 30: discharge unit
31: 2nd main pipe 32: 2nd branch pipe
33: outlet 34: inlet
40: air inlet

Claims (9)

Support body;
a supply unit disposed on the support body and having a first main pipe and a plurality of first branch pipes branching from the first main pipe;
a discharge unit disposed on the support body and having a second main pipe and a plurality of second branch pipes branching from the second main pipe; and
An air inlet installed in at least one second branch pipe to provide compressed air to the discharge unit.
A water supply and discharge device comprising a.
According to paragraph 1,
A water supply and discharge device equipped with a plurality of lifting lugs on the support body.
According to paragraph 1,
A water supply and discharge device equipped with a plurality of wheels on the support body.
According to paragraph 1,
The support body is,
A plurality of first brackets installed on the upper surface of the support body to support the supply unit, and
A plurality of second brackets installed on the upper surface of the support body to support the discharge unit
A water supply and discharge device comprising a.
According to clause 4,
The first bracket and the second bracket have different heights,
A water supply and discharge device wherein the supply unit and the discharge unit are disposed on the upper surface of the support body without interference with each other.
According to paragraph 1,
The supply unit further includes a plurality of valves mounted on each first branch pipe,
The water supply and discharge unit further includes a plurality of valves mounted on each second branch pipe.
According to clause 6,
A water supply and discharge device in which a stopper or blind flange is coupled to an unused end of the first branch pipe and an unused end of the second branch pipe.
According to paragraph 1,
The water supply and discharge device further includes a flow meter installed in at least one of the first branch pipes to measure a flow rate of water.
According to any one of claims 1 to 8,
The air inlet is connected in communication with an air compressor, and compressed air is injected and sprayed from the air compressor into the air inlet, thereby pushing out and discharging the water in the discharge unit.