KR102342632B1 - Cleaning method of water pipes - Google Patents

Abstract

The present invention relates to a method for cleaning a water supply pipe. More specifically, washing areas are set up step by step for washing the water supply pipe buried in basements of a building, a shopping mall, a main house, an officetel, and so on, thereby reducing a cleaning time of the water supply pipe. A high pressure air of an air wave apparatus is continuously sprayed at 0.3 second intervals inside the water supply pipe, and cleaning work efficiency is improved by an action of a shock wave delivered to a washing water and a compressed air which cleans the water supply pipe. At the same time, in order to prevent a flow rate from being lowered due to flow friction during cleaning operations, an accelerated air supplied from an air accelerator is supplied through a branch pipe, so that a cleaning operation can be performed quickly without being limited by a cleaning operation length. The method for cleaning the water supply pipe of the present invention comprises: a setting step; a control step; a first washing step; a second washing step; and a finishing step.

Description

Cleaning method of water pipes

The present invention relates to a waterworks conduit cleaning method, and more particularly, by setting a washing zone step by step to wash a water pipe buried under a building, such as a building, a shopping mall, a main house, an officetel, etc. The high-pressure air of the air wave device is continuously sprayed into the air at 0.3 second intervals to improve the cleaning work efficiency by the action of the shock wave delivered to the washing water and compressed air that cleans the water pipe, and at the same time, it prevents the flow rate decrease due to friction in the flow rate during cleaning. In order to do this, it relates to a water supply pipe cleaning method that can perform cleaning work quickly without limiting the length of the cleaning work by supplying the accelerated air supplied from the air accelerator to the branch pipe.

In general, a water pipe serves as a passage for guiding water to a predetermined place and moving it, and is installed in a buried form or mainly embedded in the interior, floor or wall of a building. When used for a long period of time, when oxygen and water (moisture) in the air are introduced into the water pipe, the external wall is oxidized and corroded, as well as various foreign substances sticking to the internal wall to generate scale. It causes the euro to narrow.

As described above, as the flow passage area of the water pipe becomes smaller due to the scale, the flow of the fluid is not smooth, so the water pipe cannot function as designed. There is a risk of damage.

In the case of this prior art, a method of cleaning the inside of the water pipe by discharging washing water of strong water pressure into the water pipe, or removing the scale inside the water pipe using a compression wave along with water pressure, etc. have been proposed, and recently with washing water A method of cleaning the inside of the water pipe by injecting compressed air is also used.

However, in the case of such a prior art, as the length of the water pipe increases, the water pipe efficiency decreases. Compressed air is a gas that cannot be injected with high pressure because the temperature rises and expands when the pressure is increased, which is injected into one side of the water pipe. This is because the water pressure of the washing water is gradually reduced in the process, and the removal efficiency of scale and the like is lowered at the end of the water pipe.

Moreover, in the process of cleaning the inside of the water pipe, the flow rate is lowered due to friction of the flow rate, the longer the water pipe is, the less the cleaning efficiency is. There is a problem that takes a long time.

In the case of Patent Registration No. 10-0778430 Patent Document 1, the pipe is washed using a washing ball, but the flow rate of the washing ball is reduced due to the problem that the washing ball can damage the inner wall of the pipe and the flow rate friction occurring inside the pipe There is a problem of deterioration and difficulty in working when the pipe is suitable for a short distance, but the length of the pipe is long.

Patent Document 2 In the case of the water supply pipe cleaning and leak location detection method, a work port and a drain port are installed in the water supply pipe to inject high-pressure compressed air, and the technology to clean the inside of the water supply pipe by the shock wave action of high-pressure air and fluid, and the cavitation action Although mentioned, the overall work method is complicated, so it takes a long time to work, and although it is checked by injecting nitrogen mixed gas by measuring whether there is a leak, it is difficult to accurately identify the location of the leak because the length of the water supply pipe is long, and the leak point Even if it is confirmed, the difficulty of repairing it and the method of simply supplying high-pressure air to the water supply pipe to proceed with the cleaning work is a method that is being used in the prior art, and is only applied to places where the length of the water pipe is short, and the length of the water pipe is actually If the length is long, there is a problem that the cleaning operation efficiency is lowered.

In general, all of the methods of cleaning by supplying compressed air to the water supply pipe cause a decrease in the flow rate due to friction within the water pipe. The difficulty of length extension and the problem of taking a long time to work have not been solved.

In the case of Patent Documents 1 and 2, since the work is carried out without setting a washing area for washing the water pipe, the work time is long, and the washing efficiency is lowered due to the inability to proceed with the washing work according to the length of the water pipe. The problem and the problem that the compressed air supplied from the work port is not uniformly supplied to the outlet port has not been solved until now.

Republic of Korea Patent Publication No. 10-0778430 Republic of Korea Patent Publication No. 10-2076094

The present invention is to solve the above conventional problems, an object of the present invention is to install a starting work tool and an end point work tool at the upper end of the water pipe, and a building, a shopping mall, a main building, The flow rate of compressed air and washing water supplied to the water pipe by turning ON/OFF the flush valve installed in the washing area while setting the washing zone from step 1 to step 4 for the water pipe buried in the basement of an officetel, etc. It is to provide a water supply pipe cleaning method that can reduce the cleaning work time by increasing the

Another object of the present invention is to install the body of the washing device in the starting working tool to form the first, second, and third connectors integrally, and to combine the first and second connectors with the first, second, and third connectors. Compressed air for washing the water pipe by supplying washing water to the connecting pipe, supplying compressed air from the compressed air supplying device to the second connecting pipe, and continuously spraying high-pressure air from the air wave device to the third connecting pipe at 0.3 second intervals and to provide a water supply pipe cleaning method that improves the cleaning work efficiency by the shock wave action transmitted to the washing water.

Another object of the present invention is to connect the compressed air supply member between the compressed air supply device and the air wave device to supply compressed air to the air wave member of the air wave device, and to provide an air injection control unit, a compression control member, and an air wave member to the air wave member; It is to provide a water supply pipe cleaning method capable of continuously injecting high-pressure air into the third connection pipe at 0.3 second intervals by forming a pressure regulating member, a pressure gauge, and a pressure safety valve.

Another object of the present invention is to increase the flow rate of the washing water by continuously transmitting a shock wave to the compressed air and the washing water by the compressed air and washing water supplied into the washing device by the air wave device, and compressed air moving along the water pipe The washing water and the washing water supply accelerated air from the air accelerator through the branch pipe connected between the water pipe and the building to further increase the flow rate while the washing water forms a swirling air flow. It is to provide a method for cleaning a water supply pipe that has

Another object of the present invention is to switch the washing water flow by controlling ON/OFF of the drain valve according to the method of setting the washing zone of the water pipe to enable both horizontal and vertical washing of the water pipe, and to move along the water pipe. By accelerating the washing water and compressed air, it is possible to prevent the decrease in the flow rate due to friction in the flow rate, thereby reducing the construction of the work area, and the water supply conduit pipe cleaning method that can proceed with the washing work without being limited by the working length of the water pipe. will provide

Another object of the present invention is to provide a water supply pipe cleaning method that can reduce the construction cost by improving the cleaning method of the water pipe, shortening the overall cleaning work time, and improving the cleaning work efficiency.

In order to achieve the object of the present invention as described above, the waterworks conduit cleaning method according to the present invention forms a hole in the upper end of the conduit located at the starting point and the end point to wash the water pipe, and installs a start work tool and an end point work tool, and the Setting up a washing zone to wash the water pipe buried in the basement of buildings, such as buildings, shopping malls, houses, officetels, etc. within the working section in which the starting work zone and the ending point work zone are located; ON/OFF blocking and switching control of the water drain valve of the water pipe installed in the washing area; The body of the washing device is installed at the upper end of the starting work tool, and the second connector is coupled to the first connector of the first connector protruding from the side of the body to supply washing water to the start work tool, and the washing water is supplied to the upper end of the body. Compressed air is supplied by coupling the second connector connected to the compressed air supply device to the first connector of the protruding second connector, and to the first connector of the third connector protruding from the side of the upper body of the first connector. Combine the second connector connected to the air wave device,

The air wave device is connected to the compressed air supply member of the compressed air supply device by installing an air wave member and a compression control member, and continuously sprays high pressure air into the compressed air and washing water supplied to the inside of the water pipe at 0.3 second intervals for compression. a first washing step of washing the inside of the water pipe by the action of a shock wave transmitted to air and washing water; A first connector is installed in a plurality of branch pipes connected between the building and the water pipe, a second connector connected to an air accelerator is coupled to the first connector, and the washing water is washed by the accelerating air supplied from the air accelerator. a second washing step of increasing the flow rate to shorten the washing operation time; When the internal cleaning of the water pipe is completed, remove the cleaning device of the starting tool and combine the cover with the upper flange of the starting tool, remove the drain device installed on the end point, and combine the cover with the upper flange of the end point to start work It is characterized in that it includes; finishing the work while using the sphere and the end point work tool as an inspection tool.

The present invention is characterized in that the washing zone is divided into steps 1 to 4, and the ON/OFF blocking and switching control of the water valve installed in the washing zone enables both horizontal and vertical washing of the water pipe.

The present invention installs the body of the washing device in the starting work port, and integrally forms the first, second, and third connecting pipes on the body, and combines the first and second connectors with the compressed air of the compressed air supply device inside the washing device. It has the characteristic of improving cleaning work efficiency by continuously spraying washing water and high-pressure air from the air wave device.

The present invention is characterized in that the flow velocity of compressed air and washing water is increased by supplying the accelerated air of the air accelerator through a branch pipe installed between the water pipe and the building.

According to the present invention as described above, the present invention installs a start work tool and an end work tool in the water pipe, a washing device is installed in the start work section, and a water discharge device is installed in the end work section, respectively, and the start work tool and the end point work tool are located Set the washing zone for the water pipe buried in the basement of buildings, shopping malls, main houses, officetels, etc. in the section from step 1 to step 4, and turn the water valve ON/OFF and switch operation step by step to operate the compressed air supply device, air wave device, By using the air accelerator to increase the flow rates of the compressed air and washing water supplied to the water pipe, there is an effect that can shorten the cleaning work time.

The present invention installs the body of the washing device in the starting work port to integrally form the first, second, and third connectors, and combines the first and second connectors with the first, second, and third connectors, so that the first connector has The washing water is supplied, the compressed air of the compressed air supply device is supplied to the second connection pipe, and the high-pressure air of the air wave device is continuously sprayed to the third connection pipe at 0.3 second intervals to supply the water pipe to the supplied compressed air and washing water. It has the effect of improving the cleaning work efficiency by continuously transmitting the shock wave.

According to the present invention, compressed air and washing water supplied into the washing device continuously transmit shock waves to the compressed air and washing water by an air wave device to increase the flow rate of washing water primarily, and the compressed air and washing water moving along the water pipe are supplied to the water pipe. By supplying the accelerated air of the air accelerator through the branch pipe connected to the building, the washing water forms a swirling airflow and increases the flow rate a second time. have.

The present invention provides the effect that both the horizontal and vertical washing operations of the water pipe are possible by blocking ON/OFF and switching control of the water valve according to the method of setting the washing zone of the water pipe,

By accelerating the washing water and compressed air moving along the water pipe, it is possible to prevent the flow rate decrease due to flow velocity friction. It has the effect of uniformly proceeding the cleaning operation while maintaining the pressure until

The present invention has the effect of reducing the overall cleaning work time by improving the water pipe cleaning method, and improving the cleaning work time and work efficiency to reduce the construction cost.

1 is a flow chart for explaining the water supply pipe washing method of the present invention.
Figure 2 is a block diagram showing the first-stage washing zone in the washing zone setting of the present invention.
Figure 3 is a block diagram showing a two-step washing zone in the washing zone setting of the present invention.
4 is a configuration diagram showing a three-step washing zone in the washing zone setting of the present invention.
5 is a configuration diagram showing a four-step washing zone in the washing zone setting of the present invention.
6 is a block diagram conceptually showing a water pipe for explaining the water pipe cleaning method of the present invention.
7 is a configuration diagram showing a state in which the washing device is separated from the starting work tool of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 7 , the present invention provides the steps of setting a washing zone from steps 1 to 4 so as to wash the inside of the water pipe W, and after setting the washing zone, a septic tank 12 installed in the washing zone ) of ON/OFF blocking and switching control, installing the body 20a of the washing device 20 in the starting work tool 10, and connecting the first, second, and third connections integrally formed with the body 20a By coupling the first and second connectors 24 and 26 to the pipes 21, 22, and 23, washing water is supplied to the first connecting pipe 21, and compressed air is supplied to the second connecting pipe 22. A first cleaning step of supplying compressed air of the device 30 and supplying high-pressure air of the air wave device 40 to the third connection pipe 23 to perform a cleaning operation, between the building and the water pipe (W) A second washing step of increasing the flow rate by supplying accelerated air by connecting the air accelerator 50 to the branch pipe (P) formed in the to proceed.

Setting the washing area of the water pipe (W) (S10),

A plurality of water pipes (W) are buried in the basement of buildings, such as buildings, shopping malls, houses, and officetels, and a plurality of branch pipes (P) are installed and connected to each other between the water pipe (W) and the building, and the building Buildings, shopping malls, houses, and officetels are divided into blocks, and washing is carried out in a state where the water pipe (W) of at least 50-100M and at least 1KM is extended for a long time, the length of the water pipe (W) is extended Or, in the process of passing the washing water through the curved part of the water pipe (W), the flow rate decreases due to friction of the flow rate inside the water pipe (W). The washing zone that can wash the There is a characteristic.

The step (S20) of blocking and switching control of the divisor 12 is,

After setting the washing zone for the water pipe (W), ON or OFF blocking and switching control of the drain valve (12) installed in the water pipe (W) of the first stage washing zone is controlled from the starting tool (10) to the ending point (11) direction Set the movement path so that the compressed air and washing water to be described later can move, and the compressed air and washing water moving along the water pipe (W) move in the horizontal direction as shown in FIG. 2 and then move in the vertical direction to work at the end point It allows rapid movement to the sphere 11, and blocks and switches the water valve 12 located at the top or left/right of the path through which the compressed air and washing water move so that the compressed air and washing water do not leave the washing area. .

The first washing step (S30) of washing the water pipe (W) using the compressed air supply device 30 and the air wave device 40,

The flange 20b formed at the lower end of the body 20a of the washing device 20 is closely attached to the upper flange 10a of the starting work tool 10 and fixed with a bolt, and the product protruding from the side of the body 20a One end of the first connector (24) is coupled to the first connector (21), and a fixing groove (25) is formed on the front peripheral surface of the other end of the first connector (24) to be coupled to the first connector (24). 2 connector 26 is coupled to surround the fixing groove 25, a fixing frame 27 is formed on the outer circumferential surface of the second connector 26, and a fixing handle ( 28) by integrally coupling the eccentric rotating protrusion 28a to the end of the fixed handle 28 to rotate around the rotating protrusion 28a, and the eccentric rotating protrusion in the process of rotating the fixed handle 28 The protruding portion of (28a) is fixed in close contact with the fixing groove 25 of the first connector 24 to fix the second connector 26 to the first connector 24, and the second connector 26 has By coupling the hose 29, the washing water is supplied into the first connecting pipe 21 and the water pipe (W).

The second connector 22 is integrally formed on the upper end of the body 20a and protrudes upward, and the first and second connectors 24 and 26 are connected to the second connector 22 by the first connector. The hose 29 coupled to the second connector 26 and connected to the same as (21) is connected to the compressor (C) installed inside the compressed air supply device (30) to form the second connection pipe (22). Compressed air is supplied to the inside, and a compressed air supply member 31 is installed on a side surface of the compressor (C) to connect them to each other, and a third The connector 23 is integrally formed to protrude in a diagonal direction, and the first and second connectors 24 and 26 are coupled to the third connector 23 and coupled to the second connector 26 . The hose 29 is connected to the air wave member 41 of the air wave device 40 and continuously sprays high pressure air into the compressed air and washing water supplied to the inside of the water pipe (W) at 0.3 second intervals to obtain compressed air and It has the characteristic of improving the cleaning efficiency by quickly cleaning the inside of the water pipe (W) by the action of the shock wave transmitted to the washing water.

The air wave member 41 of the air wave device 40 is connected to the compressed air supply member 31 to supply compressed air to the inside of the air wave member 41, and the upper end of the air wave member 41 is A compression control member 43 having an air injection control unit 42 is installed, and a pressure control member 44 is installed at the lower end of the air wave member 41 to adjust the pressure of the air injection control unit 42, , the pressure gauge 45 and the pressure safety valve 46 are formed on the side of the pressure control member 43 to continuously spray the high-pressure air injected into the third connection pipe 23 at 0.3 second intervals. have.

The second washing step (S40) of increasing the flow rates of the compressed air, washing water and high-pressure air supplied to the inside of the water pipe (W),

A first connector 24 is installed in a plurality of branch pipes P connected between the building and the water pipe W, and a second connector 26 connected to the air accelerator 50 in the first connector 24 ), a compressor (C) for generating compressed air is installed inside the air accelerator 50, and an air accelerator member 51 is connected to the compressor (C), and the air accelerator member 51 ) is the compressed air and washing water moving from the inside of the water pipe (W) by supplying the accelerated air supplied from the compressor (C) from the inside of the second connector (26) and the branch pipe (P) connected to the hose (29). It has the characteristic of shortening the working time by increasing the flow rate of the washing water while generating a swirling air flow to extend the washing length.

Completing the cleaning operation of the water pipe (W) and then finishing the operation (S50),

When the internal cleaning of the water pipe (W) is completed, the flange (20b) of the body (20a) is separated from the flange (10a) of the starting tool (10), and the cover (10b) is placed on the flange (10a) of the starting tool (10). ), and by separating the water discharge device 60 from the flange 11a of the end point work tool 11, the cover 11b is coupled to the flange 11a of the end point work tool 11 to start the work tool 10 ) and the end point work tool 11 can be used as an inspection tool.

The water supply pipe washing method according to the present invention configured as described above is constructed as follows.

The water pipe (W) buried in the basement of buildings such as buildings, shopping malls, houses, and officetels built on the ground has a complex structure in which the water pipes (W) are connected to each other in the horizontal and vertical directions as shown in FIGS. 2 to 5. Although not shown in the drawing, the part where the water pipe (W) and the water pipe (W) are connected is connected by a curved pipe, and a plurality of branch pipes (P) are installed between the water pipe (W) and the building. The buildings are connected to each other, and the buildings, shopping malls, houses, and officetels are divided by blocks, so that the water pipe (W) that is shorter than 50-100M and longer than 1KM is long-extended. The overall working time and work efficiency may be reduced or improved.

The building shown in FIG. 2 of the present invention shows a state in which the water pipe W is divided into six blocks vertically and horizontally, but the invention of Patent Document 2 of the prior art washes the water pipe W based on one block. In the case of a long extension of the water pipe (W), the cleaning time takes a long time and the cleaning efficiency is lowered. The problem of the prior art having the problem of not being able to solve the problem that the cleaning efficiency decreases as the water pipe gets longer due to a decrease in the flow rate due to friction, the difficulty of extending the working length according to the length of the water pipe, and the problem that the working time takes a long time The washing zone of the water pipe (W) is first set to solve the problem in the water supply pipe washing method of the present invention.

The setting of the washing zone of the water pipe W is described with reference to FIGS. 2 to 5 , the water pipe W sets the washing zone from step 1 to step 4, and FIG. 2 is a view showing the washing zone for the first step to form a hole in the upper end of the water pipe (W) to install the start work tool 10 and the end point work tool 11, and the water pipes (W) located in the end point work tool 11 from the start work tool 10 First of all, ON/OFF blocking and switching control of the drain valve 12 installed in the water pipe W so that the water pipe W located at the lower end can be washed in the horizontal direction, Turning on/off blocking and switching control of the drain valve 12 located in the vicinity so that it can move in the vertical direction allows compressed air and washing water to be described later to move through the drain device 60 connected to the end point work port 11.

3 is a view showing the second-stage washing area. Turning on/off blocking and switching control of the drain valve 12 installed in the water pipe (W) so that the water pipe (W) located at the top can be washed in the horizontal direction is performed to control compressed air to be described later. and the washing water to move through the water discharge device 60 connected to the end point work port 11 .

4 is a view showing the three-stage washing area. Blocking and switching ON/OFF of the water valve 12 installed in the water pipe (W) so that the water pipe (W) located just below the upper water pipe (W) can be horizontally washed. Control, ON/OFF blocking and switching control of the water valve 12 located in the vicinity so that it can move in the vertical direction to the water pipe (W) where the end point work tool 11 is located, compressed air and washing water to be described later can be moved to the end point work port ( 11) so that it can move through the water discharge device 60 connected to it.

5 is a view showing the four-step washing area. Blocking and switching ON/OFF the drain valve 12 installed in the water pipe (W) so that the water pipe (W) located just above the lower water pipe (W) can be washed in the horizontal direction. Control, ON/OFF blocking and switching control of the water valve 12 located in the vicinity so that it can move in the vertical direction to the water pipe (W) where the end point work tool 11 is located, compressed air and washing water to be described later can be moved to the end point work port ( 11) has a feature that can shorten the cleaning work time by proceeding with the setting step (S10) of the washing zone and the control step (S20) of the drain valve 12 so that it can be moved through the water discharge device 60 connected to 11), The washing zone has the characteristic that it can be constructed by setting various washing zones according to the installation state of the building and the water pipe (W).

The flange 20b formed at the lower end of the body 20a of the washing device 20 is closely attached to the upper flange 10a of the starting tool 10 and fixed with a bolt, and is horizontally attached to the side surface of the body 20a. One end of the first connector 24 is coupled to be connected to the protruding first connector 21 , and a fixing groove 25 is formed on the front peripheral surface of the other end of the first connector 24 to be smaller than the outer diameter of the first connector 24 . When the second connector 26 coupled to the connector 24 is coupled in a fitting manner to surround the fixing groove 25 and then the fixing handle 28 of the second connector 26 is rotated, the eccentric rotating protrusion 28a) The protruding part of the first connector 24 is in close contact with the fixing groove 25 of the first connector 24 to complete the fixing operation of the second connector 26 to the first connector 24, and the second connector 26 A hose 29 is coupled to the rear of the to supply washing water into the first connection pipe 21 and the water pipe (W).

The first and second connectors 24 and 26 are coupled to the second connector 22 formed at the upper end of the body 20a in the same manner as the first connector 21 , and the second connector 26 is connected to the second connector 26 . The combined hose 29 is connected to the compressor (C) of the compressed air supply device (30) to supply compressed air to the inside of the second connection pipe (22) and the water pipe (W), and the washing water flows along the water pipe (W). The compressed air supplied from the compressor (C) by coupling the first and second connectors (24, 26) to the third connector (23) formed on the side of the body (20a) is generated while moving rapidly. While passing through the compressed air supply member 31 and the air wave member 41 of the air wave device 40, the compressed air and washing water supplied to the inside of the water pipe W are continuously sprayed with high pressure air at 0.3 second intervals to compress The shock wave and vibration transmitted to the air and washing water are transmitted to the scale attached to the inner wall of the water pipe (W), and the first washing step (S30) of rapidly removing the scale is performed.

The air wave member 41 is connected to the compressed air supply member 31 to supply compressed air to the inside of the air wave member 41, and an air injection controller 42 is provided at the upper end of the air wave member 41. The formed compression control member 43 is installed, and a pressure control member 44 is installed at the lower end of the air wave member 41 to control the pressure of the air injection control unit 42, and the pressure control member 43 ) by forming a pressure gauge 45 and a pressure safety valve 46 on the side of the pressure gauge 45 and continuously spraying the high-pressure air injected into the third connection pipe 23 at 0.3 second intervals, the fluid layer and the air layer of the washing water are It has the characteristic of improving washing efficiency by increasing the flow rate of washing water while generating a shock wave.

The air accelerator 50 with the first and second connectors 24 and 26 coupled to the branch pipe P to further increase the flow rates of compressed air, washing water and high-pressure air moving quickly along the water pipe W. ), when the accelerated air supplied from the compressor (C) is supplied through the hose (29), the compressed air, washing water and high-pressure air moving inside the water pipe (W) generate a swirling air flow and further increase the flow rate of the washing water for washing. It has a feature that can shorten the working time.

When the internal cleaning of the water pipe (W) is completed, the flange (20b) of the body (20a) is separated from the flange (10a) of the starting tool (10), and the cover (10b) is placed on the flange (10a) of the starting tool (10). ), and by separating the water discharge device 60 from the flange 11a of the end point work tool 11, the cover 11b is coupled to the flange 11a of the end point work tool 11 to start the work tool 10 ) and the finishing step (S50) of using the end point work tool 11 as an inspection tool to complete all the work.

As shown in FIGS. 2 to 5, when the work is sequentially performed by setting the washing zone from step 1 to step 4, the water supply pipe washing method reduces the working time and shortens the working time compared to the work of Patent Document 2 and the length of the water pipe (W) It is an invention that can quickly complete cleaning work without restrictions.

When the compressed air supply device 30, the air wave device 40, and the air accelerator 50 of the present invention are applied, the washing water moving along the water pipe can prevent the flow rate decrease due to flow velocity friction, and There is a feature in that the cleaning work efficiency is improved by uniformly supplying washing water to the water pipe (W) where the end point work tool 11 is located without being limited by the working length.

The water supply pipe cleaning method according to the present invention described above is not limited to the above embodiment, and without departing from the gist of the present invention as claimed in the claims below, those of ordinary skill in the art to which the present invention belongs It has the technical spirit to the extent that anyone can change it in various ways.

10: start tool 11: end tool
10a, 11a: flange 12: divisor
20: washing device 20a: body
20b: flange 21: first connector
22: second connector 23: third connector
24: first connector 25: fixing groove
26: second connector 27: fixed frame
28: fixed handle 28a: rotary projection
29: hose 30: compressed air supply device
31: compressed air supply member 40: air wave device
41: air wave member 42: air injection control unit
43: pressure control member 44: pressure control member
45: pressure gauge 46: pressure relief valve
50: air accelerator 51: air accelerator member
60: drain device 61: drain pipe
C: Compressor W: Conduit
P: branch

Claims (10)

In order to wash the water pipe (W), a hole is formed at the upper end of the water pipe (W) located at the starting point and the end point to install the starting work tool 10 and the end point work tool 11, and the start work tool 10 and the end point Setting a washing area to wash the water pipe (W) buried in the basement of buildings, such as buildings, shopping malls, houses, officetels, etc. within the work section where the work tool 11 is located;
ON/OFF blocking and switching control of the water drain valve 12 of the water pipe (W) installed in the washing area;
The body 20a of the washing device 20 is installed at the upper end of the starting work tool 10, and the first connector 24 of the first connector 21 protruding from the side of the body 20a is first Compressed air supply device ( The first connector 24 of the third connector 23 protruding from the side of the upper body 20a of the first connector 21 to supply compressed air by coupling the second connector 26 connected to 30) ) coupled to the second connector 26 connected to the air wave device 40,
The air wave device 40 is connected to the compressed air supply member 31 of the compressed air supply device 30 by installing the air wave member 41 and the compression control member 43 to supply the inside of the water pipe (W). A first washing step of continuously spraying high-pressure air to the compressed air and washing water at 0.3 second intervals to clean the inside of the water pipe (W) by the action of a shock wave transmitted to the compressed air and washing water;
A first connector 24 is installed in a plurality of branch pipes P connected between the building and the water pipe W, and a second connector 26 connected to the air accelerator 50 in the first connector 24 ), and increasing the flow rate of the washing water by the accelerated air supplied from the air accelerator 50 to shorten the washing operation time;
When the internal cleaning of the water pipe (W) is completed, the cleaning device 20 of the start work tool 10 is separated, the cover 10b is coupled to the upper flange 10a of the start work tool 10, and the end point work Separate the drain device 60 installed in the sphere 11 and combine the cover 11b with the upper flange 11a of the end point work tool 11 to connect the start work tool 10 and the end point work tool 11 as an inspection tool Waterworks water pipe cleaning method comprising; According to claim 1, wherein the washing zone setting step sets the washing zone by dividing the drain 12 of the water pipe (W) buried in the basement of the building into steps 1 to 4, and is located in the steps 1 to 4 A water supply pipe cleaning method, characterized in that the water pipe (W) cleaning operation is performed by turning on/off blocking and switching control of the drain valve (12). The method according to claim 1, wherein the starting work tool 10 and the end point work tool 11 form a hole in the upper part of the water conduit (W) to fix the lower ends of the work tools 10 and 11, but the work tool ( 10) (11) is installed at an angle with the water pipe (W), and flanges 10a and 11a are integrally formed on the upper end of the work tools 10 and 11, and the cleaning device 20 ), and the water supply pipe cleaning method, characterized in that the drain pipe 61 of the drain device 60 is coupled to the end point work port 11. According to claim 1, wherein the washing device 20 integrally forms a flange (20b) at the lower end of the body (20a) to combine with the flange (10a) of the starting tool (10), the body (20a) The first connector 21 is integrally formed on the side by protruding in the vertical direction to couple the first connector 24, and the second connector 22 is protruded from the upper end of the body 20a to form the first connector. The first connector 24 is coupled, and the third connector 23 is formed to protrude obliquely from the upper side of the first connector 21 to couple the first connector 24, and at the end of the second connector Water supply pipe cleaning method, characterized in that the hose (29) is coupled. The first connector (24) according to claim 1, wherein the first and second connectors (24, 26) are at the ends of the branch pipe (P) and the first, second, and third connector pipes (21, 22, 23). ), a fixing groove 25 is formed on the front circumferential surface of the first connector 24, and a second connector 26 into which the fixing groove 25 of the first connector 24 is inserted. A fixed frame 27 is formed on the outer circumferential surface of the fixed frame 27, and an eccentric rotating protrusion 28a is integrally formed at the end of the fixed handle 28 inside the fixed frame 27 to form the fixed handle 28. When rotating, the water supply pipe cleaning method, characterized in that the protruding portion of the eccentric rotating projection (28a) is closely fixed to the fixing groove (25) of the first connector (24). According to claim 1, wherein a compressor (C) for generating compressed air is installed inside the compressed air supply device (30), and the compressor (C) includes a second connector (26) and a second connector (22). The compressed air is supplied to the compressor (C), and a compressed air supply member (31) is installed on the side of the compressor (C) and connected to the air wave device (40). According to claim 1, wherein the air wave device (40) is connected to the compressed air supply member (31) to supply compressed air to the inside of the air wave member (41), the air at the upper end of the air wave member (41) A compression control member 43 having an injection control unit 42 is installed, and a pressure control member 44 is installed at the lower end of the air wave member 41 to adjust the pressure of the air injection control unit 42, A pressure gauge 45 and a pressure safety valve 46 are formed on the side of the compression control member 43 so that the high-pressure air injected into the third connection pipe 23 can be continuously sprayed at intervals of 0.3 seconds. A method of cleaning the water supply pipe. According to claim 1, wherein a compressor (C) for generating compressed air is installed inside the air accelerator (50), an air accelerator member (51) is connected to the compressor (C), and the air accelerator member ( 51) is a water supply pipe cleaning method, characterized in that the accelerated air supplied from the compressor (C) is supplied to the inside of the second connector (26) and the branch pipe (P) connected to the hose (29). In order to wash the water pipe (W), a hole is formed at the upper end of the water pipe (W) located at the starting point and the end point to install the starting work tool 10 and the end point work tool 11, and the start work tool 10 and the end point Setting a washing area to wash the water pipe (W) buried in the basement of buildings, such as buildings, shopping malls, houses, officetels, etc. within the work section where the work tool 11 is located;
ON/OFF blocking and switching control of the water drain valve 12 of the water pipe (W) installed in the washing area;
The body 20a of the washing device 20 is installed at the upper end of the starting work tool 10, and the first connector 24 of the first connector 21 protruding from the side of the body 20a is first Compressed air supply device ( 30) by coupling the second connector 26 connected to the compressor C to supply compressed air, and the third connector 23 protruding from the side of the upper body 20a of the first connector 21 Combine the second connector 26 connected to the compressed air supply member 31 to the first connector 24,
The compressed air supply member 31 is connected to the compressor (C) of the compressed air supply device (30) and supplies high-pressure air to the compressed air and washing water supplied to the inside of the water pipe (W) to generate a swirling air flow for the washing water. a first washing step of washing the inside of the water pipe (W);
A first connector 24 is installed in a plurality of branch pipes (P) connected between the building and the water pipe (W), and an air accelerator member (51) of the air accelerator (50) in the first connector (24) The second connector 26 connected to is coupled, and the accelerated air supplied from the compressor (C) of the air accelerator 50 increases the flow rate of the washing water by the air accelerator member 51 to shorten the washing operation time. a second washing step;
When the internal cleaning of the water pipe (W) is completed, the cleaning device 20 of the start work tool 10 is separated, the cover 10b is coupled to the upper flange 10a of the start work tool 10, and the end point work Separate the drain device 60 installed in the sphere 11 and combine the cover 11b with the upper flange 11a of the end point work tool 11 to connect the start work tool 10 and the end point work tool 11 as an inspection tool Waterworks water pipe cleaning method comprising; The first connector (24) according to claim 9, wherein the first and second connectors (24, 26) are at the ends of the branch pipe (P) and the first, second, and third connector pipes (21, 22, 23) ), a fixing groove 25 is formed on the front circumferential surface of the first connector 24, and a second connector 26 into which the fixing groove 25 of the first connector 24 is inserted. A fixed frame 27 is formed on the outer circumferential surface of the fixed frame 27, and an eccentric rotating protrusion 28a is integrally formed at the end of the fixed handle 28 inside the fixed frame 27 to form the fixed handle 28. When rotating, the water supply pipe cleaning method, characterized in that the protruding portion of the eccentric rotating projection (28a) is closely fixed to the fixing groove (25) of the first connector (24).

Images