KR102074521B1 - Cleaning method for water pipe - Google Patents

Abstract

The present invention relates to a water pipe washing method for removing foreign substances in the water pipe, the first discharge step of discharging the water existing in the water pipe to the outside by injecting nitrogen gas into the water pipe, and the And a second discharge step of cleaning the inside of the water pipe by injecting nitrogen gas of a relatively high pressure into the water pipe for a reference time than the nitrogen gas of the first discharge step. In the present invention, since the inside of the water pipe is washed using high pressure nitrogen, the washing rate is improved compared to the washing by the general washing water, and it is possible to inject nitrogen at a high pressure relative to the washing water, so that the washing is more efficient. have.

Description

Cleaning method for water pipe

The present invention relates to a method for washing a water pipe, and more particularly, to a pipe washing method for washing the inside of a water pipe using washing water and high pressure nitrogen to remove foreign substances such as scale accumulated on the inner wall of the water pipe.

In general, the water pipe serves as a passage for guiding and moving water to a predetermined place, and is installed in a form of buried or mainly embedded in the interior, floor or wall of the building. Such water pipes, when prolonged use of oxygen and water (moisture) in the air, oxidizes and corrodes the outer wall, and forms various scales by sticking to the inner wall, and these scales solidify after a long time. This will narrow the flow path.

As described above, the flow passage cross-sectional area of the water pipe is reduced due to the scale, and thus the fluid is not smoothly moved, so that the water pipe function cannot be performed as designed, and in some cases, the water pipe may be damaged due to the moving pressure of the fluid.

In the prior art, a method of cleaning the inside of a pipe by discharging strong water pressure into the water pipe, or removing the scale inside the water pipe using a compression wave together with water pressure, has recently been proposed. In addition, a method of cleaning the inside of the pipe by injecting compressed air is also used.

However, in the case of the prior art, as the length of the water pipe becomes longer, the water pipe efficiency decreases. Compressed air is a gas that cannot be put at a high pressure because the temperature increases and expands as the pressure increases, which is one side of the water pipe. This is because the water pressure of the washing water injected into the gradual decrease in the process, the removal efficiency of the scale, etc. at the end of the water pipe is reduced.

In addition, the water pressure of the washing water injected into the water pipe may be increased in order to improve the washing efficiency of the water pipe, but in this case, the water pipe may be damaged due to the strong water pressure, particularly in the case of deteriorated pipe. Damage can occur more easily, and there are also leaks that significantly reduce the pipe cleaning effect.

And, in order to solve this problem, there is also disclosed a method for cleaning the inside of the water pipes by using the cleaning ball to move the injection ball into the water pipes in recent years. This prior art is a structure to scrape the foreign substances such as scale while the washing ball is moved in the water pipe to be discharged with the washing water, the washing ball is injected into one end of the water pipe is configured in such a way to move to the other end.

However, the prior art using such a washing ball, there is a problem that the moving rate of the washing ball is lowered toward the end of the water pipe, the washing rate is different depending on the position inside the water pipe. In particular, the longer the length of the water pipe, the lower the cleaning rate occurs.

(Patent Document 1) KR10-0778430 B1

The present invention is to solve the problems of the prior art as described above, an object of the present invention is to efficiently remove the scale and foreign matter inside the water pipe using high pressure nitrogen and washing water.

Another object of the present invention is to confirm in advance whether or not leaking water pipes to increase the washing effect.

Still another object of the present invention is to allow even washing to the inside of a long water pipe.

According to a feature of the present invention for achieving the object as described above, the present invention in the water pipe washing method for removing foreign matter in the water pipe, the pressure of the pressure vessel is connected to a pressure vessel containing high pressure nitrogen A first discharging step of injecting nitrogen gas into the water pipe by using a water pipe washing device to adjust and supply the pipe, and a pipe inspection step of detecting whether the pressure is lowered in the first discharging step, and the pipe inspection step In the case where there is no pressure drop in the nitrogen gas of the relatively high pressure than the nitrogen gas of the first discharge step into the water pipe by using the pressure vessel longer than the time to inject the nitrogen gas of the first discharge step And a second discharge step of washing the inside of the water pipe by continuously injecting the pressure vessel, wherein the pressure vessel includes a plurality of pressure vessels. Is connected to each of a plurality of water pipe washing apparatus and then integrated into one adapter is connected to the inlet of the water pipe, the water pipe washing apparatus receives the washing water from the high pressure nitrogen and the washing water supply means through the pressure vessel Supplying at least one of the high pressure nitrogen or the washing water supply means to the water pipe, the adapter is main body coupled to the inlet of the water pipe, and the water pipe washing device protrudes in different directions from the main body One end of the supply tube connected in the connection includes a coupling arm.

delete

The pipe inspection step is calculated using the pressure size and the time to be injected in the water pipe increased by the high-pressure nitrogen gas injected, whether the pressure size is directly proportional to the injection time for a certain time, and the pressure of the water pipe If it increases and then decreases, it is examined through the time until it starts to decrease.

When the pressure injected into the water pipe in the second discharge step is 45kgf / cm ² or less, inject 20 kgf / cm ² to 30kgf / cm ² of nitrogen gas into the water pipe, and use the water pipe washing device. A washing preliminary step of maintaining the pressure in the water pipe at 6kgf / cm ² to 8kgf / cm ² is further included by repeatedly repeating the operation of introducing the washing water into the pipe.

Subsequent to the second discharging step, supplying the washing water to the water pipe further includes a residue removing step of removing foreign matter remaining in the water pipe.

The water pipe washing apparatus is connected to the washing water supply means, the washing water supply unit for supplying the washing water into the pipe, the high pressure nitrogen supply unit for supplying high pressure nitrogen to the pressure vessel connected to the pressure vessel, and the water pipe It is connected to the washing water supply unit or the high pressure nitrogen supply and the washing water and the high pressure nitrogen to the discharge pipe for selectively supplying to the water pipe is configured, the washing water supply and the high pressure nitrogen supply is provided with a check valve, respectively A pressure control valve may be provided at a position adjacent to the discharge tube to adjust the pressure of the high pressure nitrogen discharged through the discharge tube.
In the first discharge step, the water pipe washing device is injected with nitrogen gas of 3 ~ 5kgf / cm ² for 7 ~ 10 seconds into the water pipe, and in the second discharge step using the water pipe discharge device 55kgf / cm ² to 70kgf / cm ² nitrogen gas is continuously injected for 4 to 6 minutes into the pipe to clean the water pipe.

In the water pipe washing method according to the present invention as described above can be expected the following effects.

In the present invention, since the inside of the water pipe is washed using high-pressure nitrogen, the washing rate is improved compared to the washing by the general washing water, and it is possible to inject nitrogen at a high pressure relative to the simple washing water, thereby enabling more efficient washing.

In addition, since nitrogen is an inert gas, there is no risk of corrosion or explosion, and even if a high pressure is applied inside the pipe, the temperature does not rise and does not expand. There is.

In addition, in the present invention, since the use of high pressure nitrogen that can be stored in a relatively light and small container increases the usable place of the water pipe washing method, and because it uses safe and harmless nitrogen, the operation can be made free from environmental pollution or ignition. .

In the present invention, since the leakage of the pipe is measured through pressure measurement after the first stage injection, the abnormality of the pipe can be checked in advance. You can check the pipe condition and clean it again after maintenance. Therefore, there is an effect that can prevent the washing efficiency is lowered by washing the leaked pipe.

In particular, the present invention can predict the leakage position of the pipe to some extent through the time point of increasing the pressure after the high-pressure nitrogen is injected and then falls again, thereby improving the maintenance convenience of the pipe.

In the present invention, a plurality of nitrogen supply means can be connected to the adapter to stably supply nitrogen at a high pressure, so that a longer and larger diameter pipe can be washed. Therefore, the present invention can be applied to a pipe of more various standards, there is a high compatibility effect.

1 is a photograph showing the inlet portion of the pipe is washed by the water pipe washing method according to the present invention.
Figure 2 is a photograph showing a plurality of supply tubes connected to the inlet of the pipe of Figure 1;
Figure 3 is a photograph showing a state connected to a plurality of water pipe washing apparatus used in the water pipe washing method according to the present invention.
Figure 4 is a photograph showing a state in which the high pressure nitrogen supply means (pressure vessel) used in the present invention is connected.
5 is a perspective view showing the configuration of one embodiment of the water pipe washing device shown in FIG.
Figure 6a and Figure 6b is a graph showing the cleaning efficiency in the water pipes according to the pressure when gradually increasing the pressure of the high pressure nitrogen injected into the water pipes of different lengths using the water pipe washing method according to the present invention.
Figure 7 is a state comparing the state before washing to wash the inside of the water pipes using the water pipe washing method according to the present invention.
8 to 12 is a test report for washing the pipe using the water pipe washing method according to the present invention.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even though they are shown in different drawings. In addition, in describing an embodiment of the present invention, if it is determined that the detailed description of the related well-known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In addition, in explaining the component of the Example of this invention, the terms, such as 1st, 2nd, A, B, (a), (b), can be used. These terms are only for distinguishing the components from other components, and the nature, order or order of the components are not limited by the terms. If a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but there is another component between each component. It will be understood that may be "connected", "coupled" or "connected".

Hereinafter, with reference to the accompanying drawings, a specific embodiment of the water pipe washing method according to the present invention as described above will be described in detail.

Figure 1 has an inlet portion of the pipe is washed by the water pipe cleaning method according to the present invention, Figure 2 collects a plurality of supply tubes (H) connected to the inlet of the pipe in FIG.

Briefly describing the water pipe, there is a lock valve (3) near the inlet (1) of the water pipe, by using the lock valve 3 to lock the water pipe first and then work is performed. At this time, the adapter 10 is coupled to the inlet 1 of the water pipe. The adapter 10 is for receiving a high-pressure nitrogen at the same time a plurality of water pipe washing apparatus to be described below, the supply tube (H) extending from the discharge pipe of the water pipe washing apparatus is coupled.

The adapter 10 is composed of a main body coupled to the inlet 1 of the water pipe, and a connection arm 15 protruding from the main body. The connecting arm 15 is a plurality of protruding in different directions so that one end of the supply tube (H) connected in the water pipe washing device is coupled thereto. As the connecting arm 15 protrudes in different directions, the high pressure nitrogens supplied from the plurality of water pipe washing apparatuses may be smoothly supplied without interfering with each other.

3 is a view connected to a plurality of water pipe washing apparatus used in the water pipe washing method according to the present invention. As shown in Figure 3 and 5, the water pipe washing device is connected between the water pipe and the pressure vessel (P), by adjusting the supply amount or pressure of the high-pressure nitrogen gas supplied from the pressure vessel (P) to the water pipe To pass.

Looking at the configuration of the water pipe washing apparatus, including a washing water supply unit 400 for supplying the washing water and a high pressure nitrogen supply unit 500 for the supply of high pressure nitrogen, the main operation to control the supply of water and the high pressure nitrogen to the water supply pipe The part 100 is provided. Although not shown, a flow path is formed in the main operation unit 100 to guide the washing water through the washing water supply unit 400 and the high pressure nitrogen through the high pressure nitrogen supply unit 500 toward the discharge tube 190. The discharge tube 190 is connected to the supply tube (H) to deliver the washing water or high pressure nitrogen to the water pipe.

The washing water supply unit 400 may be configured to include a storage tank and a pump or to be connected directly to the water supply so as to stably supply the washing water into the main operation unit 100.

The high pressure nitrogen supply unit 500 is for supplying a strong high pressure nitrogen into the main operation unit 100, consisting of a pressure vessel (P) containing high pressure nitrogen, or a nitrogen supply device such as a compressor is configured separately In this embodiment, the high pressure nitrogen is supplied from the pressure vessel (P). 4 is a view in which a plurality of pressure vessels P, which are high pressure nitrogen supply means used in the present invention, are connected to each other.

A first check valve V2 is provided between the wash water supply unit 400 and the main operation unit 100 to prevent backflow, and also prevents backflow between the high pressure nitrogen supply unit 500 and the main operation unit 100. The second check valve (V4) is provided for.

In addition, the main operation unit 100 has a pressure control valve (V5) for adjusting the pressure of the washing water and nitrogen supplied from the washing water supply unit 400 and the high-pressure nitrogen supply unit 500. By using the pressure control valve (V5) it is possible to adjust the pressure size of the washing water or high pressure nitrogen discharged to the discharge tube 190. Reference numerals 600 and 700 are gauges showing the pressure supplied when the washing water and the high pressure nitrogen are supplied, respectively.

Hereinafter, the water pipe washing method will be described sequentially.

First, various kinds of water pipes used in various buildings such as apartments, houses, buildings, etc. are used, for example, PB pipes (polybutylene pipes), metal corrugated pipes, copper pipes, stainless steel pipes, PE (polyethylene) pipes, and Excel pipes. A wide variety of water pipes are used, such as (XL: crosslinked polyethylene pipes).

Such water pipes perform a heating or hot water function or perform a water supply function as water flows through the inside thereof.

Sludge (Sludge), Rust (rust), Scale (kabite) generated after a long period of use of the water pipe should be removed by washing, in the present invention the water pipe is washed using the following method.

First, a water blocking step is performed to block a water supply unit for introducing water into the water pipe from the outside so that the water is no longer introduced into the water pipe.

Subsequently, a first discharging step of removing water remaining in the water pipe is followed. To this end, the water pipe washing device is first connected to the inlet 1 of the water pipe. The discharge pipe of the water pipe washing device is connected to the inlet 1 of the water pipe through the supply tube (H). More precisely, one end of the supply tube H is connected to the connection arm 15 of the adapter 10, and the other end is connected to the discharge tube.

The high pressure nitrogen supply unit 500 may be replaced by a pressure vessel (P) and a pressure valve connected thereto. The pressure vessel (P) has a high pressure nitrogen gas therein and the pressure valve has one end thereof. It is connected to the pressure vessel (P) and the other end is connected to the water pipe can adjust the pressure of the nitrogen gas of the high pressure discharged from the pressure vessel (P).

More precisely, the nitrogen gas inside the pressure vessel P is injected into the water pipe. In this embodiment, the pressure vessel P is filled with internal nitrogen N2, and the pressure test pressure is 250 kgf / cm 2. The maximum charging force is 150kgf / cm2 and the container weight is 15kg and 47kg. Nitrogen gas is injected into the water pipe using the pressure of the pressure valve connected to the nitrogen container (low pressure gauge: max. 60kgf / cm2).

In order to discharge the remaining water in the water pipe and inspect the condition of the pipe, a pipe inspection step of injecting nitrogen gas of 3 ~ 5kgf / cm 2 for 7 to 10 seconds is carried out into the water pipe. In this case, the high-pressure nitrogen gas is introduced into the water pipe through the water pipe washing device, the water (water) remaining in the water pipe is discharged to the outside, and the inside of the water pipe is empty.

Of course, it is not necessarily intended to discharge water. In other words, it is the process of checking the condition of water pipes. More precisely, it is possible to inspect the leak of the water pipe through the pipe inspection step. This inspection is performed by confirming that the pressure of the high pressure nitrogen supplied into the water pipe does not increase or decreases after increasing. Initially, the pressure inside the pipe must continue to increase as the high pressure nitrogen is supplied, otherwise leakage or damage to the pipe can be expected.

At this time, it is also possible to roughly predict the location of the leak in the water pipe. It is calculated using the pressure size in the water pipe which is increased by the injected high pressure nitrogen gas and the time of injection, and if the pressure size is directly proportional to the injection time for a certain time, and decreases if the pressure in the water pipe increases and decreases. Prediction is based on the time until the start of doing. For example, if a 15 mm diameter water pipe is extended to 50 m, a leak may be expected at about 42 m if the pressure of the high-pressure nitrogen is no longer increased from about 7 seconds after injection. .

Subsequently, nitrogen washing is performed to inject a relatively high pressure nitrogen gas into the water pipe for a predetermined time, rather than the nitrogen gas of the first discharge step, to wash the inside of the water pipe.

The second discharging step is for washing the water pipe in earnest following the first discharging step, and using 55 kgf / cm 2 to 70 kgf / cm 2 nitrogen gas into the water pipe for 4 minutes to 6 minutes using the water pipe discharge device. Clean the inside of water pipe by continuous injection. At this time, the pressure vessel (P) is composed of a plurality of pressure vessels (P) are each connected to a plurality of water pipe washing apparatus and then integrated into one adapter (10) to the inlet (1) of the water pipe Since it is connected, it is possible to supply high pressure nitrogen uniformly and stably.

At this time, the following experiment was conducted to calculate the optimum value of nitrogen gas and the nitrogen gas inlet time according to the conditions of the nitrogen gas injected into the water pipe, that is, the length of the water pipe.

(Water pipe washing experiment using high pressure nitrogen)

(1) Experimental condition A

A water pipe 50m consisting of a copper pipe with a cross section of 15 cm2 was used. The pressure vessel (P) was filled with internal nitrogen (N2), the pressure test pressure was 250kgf / cm2, and the maximum impact force was 150kgf / cm2 and the weight of the container (P). The pressure was 15kg and 47kg, and the pressure of the pressure valve connected to the pressure vessel (P) (low pressure gauge: 42 kgf / cm2 maximum) was used. And 10 of these pressure vessels P were connected using the adapter.

In this state, the pressure of nitrogen gas was increased from 5 kgf / cm 2 to 70 kgf / cm 2 in units of 10 kgf / cm 2, and then the washing efficiency was measured. The washing efficiency was then calculated from the amount of sludge removed.

As a result, as shown in Figure 6 (a), the washing efficiency is increased in proportion to the pressure of the nitrogen gas, but can be seen to stop the increase at about 40kgf / cm2 as the increase decreases at about 30kgf / cm2. And finally looking at the state of the inner pipe, it can be seen that the pressure of the nitrogen gas is preferably about 55kgf / cm2 to 70kgf / cm2. Here, the state of the inside of the cleaned pipe is based on the amount of sludge discharged and the preservation state of the final inner wall of the pipe.

(2) Experimental condition B

All the same as the previous experimental condition A, but the length of the water pipe was increased to 70m.

The washing efficiency at that time was measured while increasing the pressure of nitrogen gas from 5 kgf / cm 2 to 70 kgf / cm 2 in units of 10 kgf / cm 2. The washing efficiency was then calculated from the amount of sludge removed.

As a result, as shown in Figure 6 (b), the washing efficiency is increased in proportion to the pressure of the nitrogen gas can be seen to stop the increase at about 55kgf / cm2 as the increase decreases at about 40kgf / cm2. And finally looking at the state of the inner pipe, it can be seen that the pressure of the nitrogen gas is preferably about 55kgf / cm2 to 70kgf / cm2. Here, the state of the inside of the cleaned pipe is based on the amount of sludge discharged and the preservation state of the final inner wall of the pipe.

(3) conclusion

From the above experiment, it can be seen that when the length of the water pipe is M (unit meter), the pressure of the nitrogen gas at high pressure is preferably 0.6M to 0.8M kgf / cm 2. In addition, considering both the washing efficiency and the nitrogen gas usage, it is preferable that it is about 55kgf / cm2 to 70kgf / cm2 regardless of the length of the water pipe. For reference, in the present embodiment, 65 kgf / cm 2 of nitrogen gas is continuously injected for 5 minutes to clean the water pipe.

In this case, the second discharging step is preferably performed by repeatedly injecting the high-pressure nitrogen to one end and the other end of the water pipe in order. That is, the second discharging step is not repeated in one direction, it is more preferable in terms of washing efficiency made in both directions of the water pipe.

Then, the residue removal step of removing the foreign matter remaining in the water pipe by supplying the washing water to the water pipe following the second discharge step. The residue removal step is to supply the washing water into the water pipe through the washing water supply unit 400, to finally discharge the residue remaining in the water pipe separated from the inner wall of the water pipe in the second discharge step. will be.

On the other hand, if the pressure injected into the water pipe in the second discharge step is less than a predetermined standard washing step is required. The preliminary washing step is to lower the pressure of the high pressure nitrogen injected into the water pipe when the pressure injected into the water pipe is 45 kgf / cm2 or less, and more precisely, the pressure of the nitrogen gas injected into the 20 kgf / cm2 to 30 kgf / cm2. To lower it. This means that the sludge inside the water pipe is excessively wrapped and the pipe is narrowed, so that the sludge is first removed sequentially by lowering the pressure.

In the preliminary washing step, 20 kgf / cm2 to 30kgf / cm2 of nitrogen gas is injected into the water pipe using the water pipe washing device, and at the same time, the washing water is repeatedly injected a plurality of times, thereby increasing the pressure inside the water pipe by 6 kgf. It will be maintained at / cm2 ~ 8kgf / cm2. Through this process, foreign substances in the water pipes can be removed to some extent, and then the second discharge step is performed again.

7 is a view of washing the water pipe using the water pipe washing method according to the present invention. As shown in Figure 7, the water pipe before washing can be seen that the flow path area was 62.39mm ² but increased 2.36 times to 147.36mm ² after washing. For reference, the water pipe used for the test is the steel pipe of the apartment constructed in 1988. As such, it can be seen that the water pipe washing method according to the present invention has a great effect on the washing of all water pipes regardless of the age of the water pipes.

Experiments were made as follows to more clearly compare the effect of the water pipe washing method according to the present invention through a comparative example.

 More precisely, water pipe cleaning using nitrogen gas and water pipe cleaning using air were compared. Basically, water pipe cleaning using air caused leakage at the pipe joint when a pressure of about 10 kgf / cm 2 or more was applied.

On the other hand, in the case of washing water pipes using nitrogen gas, even if the pressure of nitrogen gas was increased to 65 kgf / cm 2, no leakage occurred at the joint. As such, it can be seen that the water pipe washing method according to the present invention is a stable and efficient washing method.

8 to 12 is a test report showing the results of testing the water pipe washing method according to the present invention. 9, there is a water pipe washing apparatus and a pressure vessel (P) constituting the present invention. 11 is a picture of the pipe cross section after washing, and FIG. 12 includes a picture of the inside of the pipe after washing.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

400: washing water supply unit 500: high pressure nitrogen supply unit

Claims (7)

In the water pipe washing method for removing foreign matter inside the water pipe,
A first discharge step of injecting nitrogen gas into the water pipe by using a water pipe washing device connected to a pressure vessel containing nitrogen of a high pressure to control the pressure of the pressure container;
A pipe inspection step of detecting whether the pressure is reduced in the first discharge step;
When there is no pressure drop in the pipe inspection step, the time of injecting nitrogen gas of the first discharge step into the nitrogen gas of a relatively high pressure than the nitrogen gas of the first discharge step into the water pipe by using the pressure vessel. A second discharge step of washing the inside of the water pipe by continuously injecting for a longer period of time;
The pressure vessel is composed of a plurality of pressure vessels are each connected to a plurality of water pipe washing apparatus and then integrated into one adapter is connected to the inlet of the water pipe,
The water pipe washing apparatus receives the washing water from the high pressure nitrogen and the washing water supply means through the pressure vessel, and supplies at least one of the high pressure nitrogen or the washing water supply means to the water pipe,
The adapter includes a main body coupled to the inlet of the water pipe and the water pipe washing method comprising a connection arm protruding in different directions from the main body is coupled to one end of the supply tube connected to the water pipe washing device. .
delete According to claim 1, wherein the pipe inspection step is calculated using the pressure size and the injection time in the water pipe increases by the high-pressure nitrogen gas injected, whether the pressure size is directly proportional to the injection time for a certain time and If the pressure in the water pipe increases and decreases, the water pipe cleaning method is checked over time until it starts to decrease.
According to claim 1 or 3, In the second discharge step when the pressure injected into the water pipe is less than 45kgf / cm ² Injecting nitrogen gas of 20kgf / cm ² to 30kgf / cm ² into the water pipe Further, a washing preliminary step of maintaining the pressure in the water pipe to 6kgf / cm ² ~ 8kgf / cm ² by repeating a plurality of times in sequence the operation of introducing the washing water into the water pipe by using the water pipe washing device further comprises: How to clean the water pipes.
5. The method of claim 4, further comprising a residue removal step of removing foreign matter remaining in the water pipe by supplying the washing water to the water pipe after the second discharging step.
The method of claim 4, wherein
The water pipe cleaning device
A washing water supply unit connected to the washing water supply means for supplying the washing water into the pipe;
A high pressure nitrogen supply unit connected to the pressure vessel to supply high pressure nitrogen into the pipe;
It is connected to the water pipe is configured to include a discharge pipe for selectively supplying the washing water and the high-pressure nitrogen supplied from the washing water supply or high pressure nitrogen supply to the water pipe,
Each of the washing water supply unit and the high pressure nitrogen supply unit includes a check valve,
And a pressure control valve at a position adjacent to the discharge pipe to control the pressure of the high pressure nitrogen discharged through the discharge pipe.
According to claim 1, In the first discharging step 3 to 5kgf / cm ² nitrogen gas is injected into the water pipe washing device into the water pipe for 7 to 10 seconds,
In the second discharging step, the water pipe washing to continuously clean the inside of the water pipe by continuously injecting 55 kgf / cm ² to 70 kgf / cm ² of nitrogen gas for 4 minutes to 6 minutes using the water pipe discharge device. Way.

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