KR102288136B1 - Water pipe cleaning system and method - Google Patents

Abstract

The present invention provides a water pipe cleaning system having simple configuration and a water pipe cleaning method. The present invention relates to a water pipe cleaning system and a water pipe cleaning method, comprising: a socket flange T-shaped pipe (10) in the shape of T; a plurality of valves arranged in a checkered pattern in a water pipe (20) to open and close the flow of water flowing in the water pipe (20) and arranged around a branching portion; and a cleaning device including a compressed air generating device (1) having an air input pipe (1a) having an inner space connected to and communicating with the upper end flange of the socket flange T-shaped pipe (10) connected to the uppermost stream side valve (4) among a plurality of valves, and a rotating flow generator (2) having a spiral rotating space (6a) formed between a spiral rotating blade (6) and a neighboring rotating blade (6) and connected to the air input pipe (1a) to generate the rotating flow of compressed air inputted into a rotating groove (6a) from the air input pipe (1a).

Description

WATER PIPE CLEANING SYSTEM AND METHOD

The present invention is a 'T'-shaped socket flange T-shaped pipe 10; A plurality of valves arranged in a checkered pattern in the water supply pipe 20 to open and close the flow of water flowing in the water supply pipe 20 and arranged around the branched portion; And a compressed air generator (1) having an air inlet pipe (1a) connected to the upper flange of the socket flange T-shaped pipe (10) connected to the uppermost side valve (4) of the plurality of valves so that the inner space is communicated with each other (1), a spiral rotary blade ( 6) and the air input pipe ( It relates to a water supply pipe cleaning system and method, characterized in that it comprises a cleaning device comprising a rotational flow generator (2) connected to 1a).

As the water supply pipe that supplies tap water is used for a long period of time, sediment, rust, slime, or corrosive organisms generated inside the pipe impede the supply of clean water. The need for cleaning pipes to be cleaned is emerging. In more detail, the aging pipe is a situation in which scale and slime are generated inside the pipe, which reduces the water passage cross-sectional area, shortens the pipe life, and has a detrimental effect on the user's body due to the contaminated pipe. A cleaning method to prevent or remove slime is being carried out.

As a method to prevent contamination of water supply pipes, in apartments, etc., a small amount of rust inhibitor is added to the water supply pipe to reduce the corrosion rate. There are a magnetic device to suppress contamination, an electromagnetic device to prevent metal ions from adhering to the pipe wall, and an optical engineering device and corona discharge device using ultraviolet and ozone generators. The Polly-Pig method for cleaning the inside of the pipe at high pressure, the sandblasting method for high-speed spraying of silica sand into the inside of the pipe, the ultrasonic cleaning method (scale booster) that gives ultrasonic waves and air impact, the air shock wave cleaning method, and the chemical cleaning method using chemicals there is.

The technology to prevent contamination of water supply pipes is expensive for initial implementation and maintenance, and most of the water supply pipes installed in conventionally built buildings are not equipped with pollution prevention technology, and the scope of the pipes is wide Since there are many difficulties in applying the prevention technology, the method of washing the contaminated pipe is mainly implemented.

In addition, the sandblasting method has a good cleaning effect, but it is difficult to apply to various types of pipes because the damage of the pipe is further accompanied by the shape, structure, and degree of damage to the existing pipe, and ultrasonic cleaning (scale booster) and air shock wave The washing method is used to remove the soft scale in a local area, but it is difficult to remove the hard scale, it takes a long time to install, and the application length is short. However, there is a problem in that it requires several devices to give water and air pressure, and since it is large in size, the cleaning process is difficult.

On the other hand, as prior technologies for washing pipes using water or air pressure, Korea Patent No. 10-1677195 (2016.11.28.) discloses that a long pipe in a pipe using water and compressed air has the same pressure from the pipe entrance to the pipe end. To prevent damage to the pipe by quickly moving the washing water and pig balls to the left and right with the same pressure, and to remove sludge, foreign substances, and scale from the pipe, and a pipe washing method using the same. Korean Patent No. 10-1261316 (2013.05.10.) states that a part of high-pressure spraying is made into microbubbles using a microbubble generator, and then the high-pressure spraying air and the microbubbled air are supplied to the washing water supply line. , provides a pipe washing device and a pipe washing method using fine bubbles that use the normal water pressure as it is for the supplied washing water pressure.

However, the prior art has the problems that occur in the conventional pipe cleaning method as it is, and has a problem in that it is inconvenient to use because the configuration is complicated and consists of large-sized devices.

In order to solve the problems of the prior art, Republic of Korea Patent Registration No. 10-2083455 (2020.02.25.) states, "In a pipe washing system for washing the inside of an old pipe, the pipe washing system has a water inlet, a water outlet, and an air inlet. is provided on one side, an open upper housing, an instrument panel attached to the open upper surface to display the control and use status of the device, and a cover hinged to the rear upper end of the housing to cover the upper portion of the instrument panel and the water A water inlet pipe, a first valve, a water flow pipe, a second valve, and a water outlet pipe, which are installed in communication with the inlet and the water outlet, and a water supply pump for supplying water and an air supply pipe communicating with the air inlet, an air supply pump and air A pipe washing device in which a washing part made of a discharge pipe is installed inside the main body, and a fixing that is installed in the pipe to be washed in conjunction with the water outlet to prevent damage to the pipe by predetermined attenuation of the shock wave of water and air pressure discharged from the pipe washing device module; and a microbubble means provided with a plurality of perforations is attached to the inside of the water outlet, and the microbubble means forms a spiral structure when viewed in cross section with a plurality of perforations provided in a circular shape, the The pipe washing device further includes a wireless communication receiver, but the wireless communication receiver is attached and installed on the instrument panel or one side of the main body, and uses a transmitter to transmit a command to drive the washing part by wire or wirelessly, and to install and implement a repeater. , A third fixing module provided to face the fixing module is provided on the pipe, and a crushable structure is provided between the fixing module and the third fixing module to serve as a buffer between the fixing module and the side pedestal of the third fixing module We propose a "pipe washing system including a portable pipe washing device that removes scale, slime and foreign substances in the water supply pipe using water and air pressure," characterized in that it does so.

However, in the pipe washing system of the conventional Korean Patent Registration No. 10-2083455, a fixed module is further provided to prevent the shock wave of water and air pressure from being discharged from the pipe washing device and the pipe being damaged by the shock wave, There is still a complicated problem in the configuration of the washing device, such as attaching and installing a microbubble means having a plurality of perforations inside the water outlet.

In addition, although the conventional pipe washing system of Korean Patent Registration No. 10-2083455 discharges shock waves of water and air pressure from the pipe washing device, these shock waves are attenuated by the fixing module to prevent the pipe from being damaged. There is still a problem that the removal efficiency by washing the existing slime and foreign substances is reduced.

Republic of Korea Patent No. 110-0847514 "Cleaning device and cleaning method of inner pipe of water supply pipe"

The present invention has been created to more actively solve the above-mentioned problems, and it is a main solution to provide a water supply pipe cleaning system and method having a simple configuration.

In addition, the present invention is another problem to provide a water pipe cleaning system and method in which the removal efficiency by washing the slime and foreign substances present in the water pipe is improved.

The water supply pipe washing system proposed in the present invention in order to achieve the above-mentioned problem is as follows.

'T'-shaped socket flange T-shaped pipe (10); A plurality of valves arranged in a checkered pattern in the water supply pipe 20 to open and close the flow of water flowing in the water supply pipe 20 and arranged around the branched portion; And a compressed air generator (1) having an air inlet pipe (1a) connected to the upper flange of the socket flange T-shaped pipe (10) connected to the uppermost side valve (4) of the plurality of valves so that the inner space is communicated with each other (1), a spiral rotary blade ( 6) and the air input pipe ( It is characterized in that it comprises a washing device comprising a rotational flow generator (2) connected to 1a).

In addition, the water supply pipe cleaning system of the present invention further includes a water tank 5 connected to the water injection pipe 5b connected to the rotational flow generator 2 in communication with the internal space and accommodating water therein, and , characterized in that the water injection pipe (5b) is provided with a pump (5a).

In addition, in the water supply pipe cleaning system of the present invention, compressed air generated by the rotary flow generator 2 and the upstream side valve 4 are opened from the upstream side water supply pipe 20 to the socket flange T-shaped pipe 10. It further comprises a boundary valve (3) installed between the rotational flow generator (2) and the socket flange T-shaped pipe (10) so as to open and close the rotational flow of the mixed water of water is sprayed to the downstream side water supply pipe (20) do.

In addition, in the water supply pipe cleaning system of the present invention, the mixed water of compressed air generated by the rotary flow generator 2 and water introduced into the socket flange T-shaped pipe 10 from the water tank 5 through the rotary flow generator 2 . It characterized in that it further comprises a boundary valve (3) installed between the rotational flow generator (2) and the socket flange T-shaped pipe (10) so as to open and close the rotational flow is sprayed into the downstream water supply pipe (20).

In addition, the water supply pipe washing method of the present invention is a method of washing a water supply pipe with the water supply pipe washing system, and has a branched portion arranged in a checkered pattern and a water supply pipe having a valve disposed around the branched portion A washing port is formed on the upper side of the socket flange T-shaped pipe 10 connected to (20), and a washing port and a drain forming a drain port 12 connected to a plurality of flow paths formed by valves disposed around the branched part are formed. water polo forming step (S1); A washing device installation step (S2) of installing a washing device including a compressed air generator (1) and a rotational flow generator (2) in the air input pipe (1a); a washing flow path forming step (S3) of opening or closing a valve disposed around a branched portion on the flow path to be washed to form a flow path to be washed among the plurality of flow paths of the water supply pipe 20; a step (S4) of shutting off the flow path to be washed; an in-channel draining step (S5) of discharging the water in the passage to be washed to the outside; A flow path washing step (S6) of washing the inside of the flow path to be washed with a mixture of compressed air generated by the rotational flow generator 2 and water injected into the upstream side valve 4 by opening the upstream side valve 4 (S6) ; and a mixed water discharging step (S7) of discharging the washed mixed water from the flow path.

Draining step (S5), Ito step (S5-1) of discharging foreign substances including mud or mud in the water supply pipe 20 using water; and a forced drainage step (S5-2) of forcibly draining the water remaining in the water supply pipe 20 after the Ito step (S5-1) by inserting air into the water supply pipe 20.

The cleaning step (S6) in the flow path includes a compressed air input step (S6-1) of injecting compressed air from the compressed air generator 1 to the rotational flow generator 2 through the air input pipe 1a; Water from the upstream water supply pipe 20 is introduced into the socket flange T-shaped pipe 10 by opening the upstream valve 4, or water in the water tank 5 is fed through the rotary flow generator 2 to the socket flange T Water input step (S6-2) to put into the mold tube (10); and the compressed air generated by the rotary flow generator 2 and the socket flange T-shaped pipe ( 10), it characterized in that it comprises a cleaning execution step (S6-3) in the flow passage for performing the cleaning in the flow passage to be washed using the rotational flow of the mixed water of the water input in step (S6-3).

According to the present invention consisting of the above configuration,

It is effective to provide a water supply pipe cleaning system and method having a simple configuration.

In addition, the present invention has another effect of providing a water supply pipe cleaning system and method in which the removal efficiency by washing the slime and foreign substances present in the water supply pipe is improved.

1 is a schematic diagram of a water pipe cleaning system according to a preferred embodiment of the present invention.
FIG. 2 is a schematic view of a washing apparatus including a socket flange T-shaped pipe, an uppermost valve, and a water tank constituting a part of the water supply pipe washing system of FIG. 1. FIG.
3 is a schematic view of a washing device in which a socket flange T-shaped pipe, an uppermost valve, and a water tank constituting a part of the water supply pipe washing system of FIG. 1 are omitted.
Fig. 4 is a schematic view of an embodiment further comprising a flexible tube bent in a 'L' shape when inserted into the socket flange T-shaped tube through the upper opening of the socket flange T-shaped tube in the configuration of the embodiment of Fig. 2 .
Fig. 5A is a view showing a state before installation of the flexible tube of Fig. 4;
Fig. 5B is a view showing a state after installation of the flexible tube of Fig. 4;
Figure 6 is a perspective view of a rotational flow generator applied to the embodiment of Figures 2 and 3;
Figure 7 is a perspective view showing the interior of Figure 6;
8 is a view showing that the interval between the pitch of the spiral rotation space of the rotational flow generator of FIG. 6 becomes narrower downward.
9 is a view showing that the thickness between the top and bottom of the spiral rotation space itself of the rotational flow generator of FIG. 6 is gradually narrowed downward.
10 is a view showing that the overall shape of the spiral rotation space of the rotational flow generator of FIG. 6 is made of a cone shape.
11 is a flowchart of a water pipe cleaning method according to a preferred embodiment of the present invention.
12 is a detailed flowchart of the draining step in the flow path of FIG. 11 .
13 is a detailed flowchart of the cleaning step in the flow path of FIG. 11 .

Hereinafter, with reference to the accompanying drawings, it will be collectively described for the configuration of the present invention and the resulting action and effect.

Advantages and features of the present invention, and methods of achieving them, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the present embodiment serves to complete the disclosure of the present invention, and common knowledge in the technical field to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. In addition, like reference numerals refer to like elements throughout the specification.

In addition, throughout the specification, when it is said that a certain part is connected to another part, this includes not only the case where it is directly connected, but also the case where it is indirectly connected with another element interposed therebetween. In addition, the inclusion of any component means that other components may be further included, rather than excluding other components, unless otherwise stated.

1 is a schematic diagram of a water supply pipe cleaning system according to a preferred embodiment of the present invention, and FIG. 3 is a cleaning device in which a socket flange T-shaped pipe constituting a part of the water supply pipe cleaning system of FIG. 1, an uppermost valve and a water tank are omitted. 6 is a perspective view of a rotational flow generator applied to the embodiments of FIGS. 2 and 3 , and FIG. 7 is a perspective view showing the inside of FIG. 6 .

1 and 3, the water supply pipe cleaning system according to a preferred embodiment of the present invention includes a socket flange T-shaped pipe 10, a valve, and a cleaning device.

The socket flange T-shaped pipe 10 is formed in a 'T' shape and is interposed between the upstream side water supply pipe 20 and the downstream side water supply pipe 20 adjacent to the upstream side water supply pipe 20 so that these upstream and Connect the downstream water supply pipe (20).

The valve is a plurality of valves (V1, V3, V5, V8) disposed around the branched portion arranged in a checkered shape in the water supply pipe 20 to open and close the flow of water flowing in the water supply pipe 20, V10, V13, V15, V17, V19, V21, V23, V24, V26, V29T, V30T, V24a, V32T, V33T, V26a, V35T, V2, V4, V6, V9, V11, V12, V14, V16, V18, V20, V22, V25, V27, V28, V29, V30, V32, V31, V33, V34, V35).

A plurality of such valves (V1, V3, V5, V8, V10, V13, V15, V17, V19, V21, V23, V24, V26, V29T, V30T, V24a, V32T, V33T, V26a, V35T, V2, V4, V6, V9, V11, V12, V14, V16, V18, V20, V22, V25, V27, V28, V29, V30, V32, V31, V33, V34, V35) of multiple channels to be cleaned by selective opening and closing can be created.

For example, when the valves V7, V12, V18, and V24 are closed and the valves V1, V3, and V5 are opened, one flow path 15 to be cleaned is formed. Similarly, the valves V2, V28, V31 , V17T, V23 are closed and the valves V1, V7, V8, V9, V10, V11, V17, V34, V35, and V35T are opened to form another flow path 17 to be cleaned. Similarly, valves V4, V7, V29, V32T, V16, V21, V22, V26, V27 are closed and valves V1, V2, V3, V12, V13, V15, V26a, V27, V32, V33T, V33 are closed. When opened, another flow path 16 to be cleaned is also formed.

The washing device is a compressed air generator (1) having an air inlet pipe (1a) connected to the upper flange of the socket flange T-shaped pipe (10) connected to the most upstream side valve (4) among a plurality of valves so that the inner space is communicated with each other (1), a spiral It has a spiral rotation space (6a) formed between the rotary blade (6) and the adjacent rotary blades (6), so that a rotational flow of compressed air injected from the air inlet pipe (1a) into the rotary groove (6a) is generated. and a rotational flow generator (2) connected to the input pipe (1a). According to this, when the compressed air generator 1 operates, the compressed air supplied from the compressed air generator 1 is introduced into the spiral rotation space 6a of the rotational flow generator 2 through the air input pipe 1a, thereby turning the A rotational flow of compressed air can be generated in the current generator 2 .

FIG. 2 is a schematic view of a washing apparatus including a socket flange T-shaped pipe, an uppermost valve, and a water tank constituting a part of the water supply pipe washing system of FIG. 1 .

Referring to FIG. 2 , in the water supply pipe cleaning system of the present invention, the water tank 5 is connected to the water injection pipe 5b connected to the rotational flow generator 2 in communication with the internal space and accommodating water therein. Further comprising, the water injection pipe (5b) is provided with a pump (5a). When the water in the water tank 5 is supplied to the rotary flow generator 2 through the water injection pipe 5b by the operation of the pump 5a in the operating state of the compressed air generator 1, the rotary flow generator 2 A rotating flow of compressed air and water is created.

According to an embodiment, as shown in FIGS. 1 and 3 , the water supply pipe cleaning system of the present invention provides upstream water supply by opening the upstream valve 4 and the compressed air generated by the rotary flow generator 2 . Between the rotational flow generator 2 and the socket flange T-shaped pipe 10 so as to open and close the rotational flow of the mixed water of water injected from the pipe 20 into the socket flange T-shaped pipe 10 is sprayed into the downstream water supply pipe 20 . It further includes a boundary valve (3) installed on the. A mixture of compressed air generated in the rotational flow generator 2 by the boundary valve 3 and water injected into the socket flange T-shaped pipe 10 from the upstream side water supply pipe 20 by opening the upstream side valve 4 . It is possible to open and close the rotational flow of the sprayed to the downstream water supply pipe (20).

According to another embodiment, as shown in FIG. 2 , in the water supply pipe cleaning system of the present invention, the compressed air generated by the rotary flow generator 2 and the water tank 5 are passed through the rotary flow generator 2 to the socket. A boundary valve (3) installed between the rotational flow generator (2) and the socket flange T-pipe (10) to open and close the rotational flow of the mixed water of water injected into the flanged T-shaped pipe (10) is sprayed into the downstream water supply pipe (20) ) is further included. The rotational flow of the mixed water of the compressed air generated in the rotational flow generator 2 by the boundary valve 3 and the water injected from the water tank 5 through the rotational flow generator 2 into the socket flange T-shaped pipe 10 is It is possible to open and close what is sprayed into the downstream water supply pipe 20 .

4 is a schematic view of an embodiment further comprising a flexible tube bent in a 'L' shape when inserted into the socket flange T-shaped tube through the upper opening of the socket-flanged T-shaped tube in the configuration of the embodiment of FIG. 2, and FIG. 5A is a view showing a state before the flexible tube of FIG. 4 is installed, and FIG. 5B is a view showing a state after the flexible tube of FIG. 4 is installed.

According to another embodiment as shown in Figures 4, 5a, and 5b, the water supply pipe cleaning system of the present invention, the rotational flow of the mixed water from the rotational flow generator (2) of the water supply pipes 20 on both sides When inserted into the socket flange T-shaped tube 10 through the upper opening of the socket-flanged T-shaped tube 10 to guide it to the downstream water supply pipe 20, the flexible tube 30 is bent in a 'L' shape and arranged. include more As such, when the flexible tube 30 is inserted into the socket flange T-shaped tube 10 through the upper opening of the socket-flanged T-shaped tube 10, it is bent in a 'L' shape and arranged to change the rotational flow of the mixed water of the rotational force. It is possible to smoothly guide from the rotational flow generator 2 to the downstream water supply pipe 20 among the water supply pipes 20 on both sides without loss.

The flexible tube 30 has a bottom surface inclined from top to bottom in the direction from the upstream water supply pipe 20 to the downstream water supply pipe 20 . According to this, when the flexible tube 30 is inserted into the socket flange T-shaped tube 10 through the upper opening of the socket flange T-shaped tube 10 by receiving an external pressing force, the lower end of the lower end surface inclined downward is the socket When it comes into contact with the bottom surface in the flange T-shaped tube 10 and the flexible tube 30 continues to receive a pressing force in that state, it bends in the inclined direction of the downwardly inclined lower surface and becomes 'b in the T-shaped tube (10). It becomes possible to be bent and arranged in a 'shape.

8 is a view showing that the interval between the pitch of the spiral rotation space of the rotational flow generator of FIG. 6 becomes narrower downward, and FIG. 9 is the vertical thickness of the spiral rotation space itself of the rotational flow generator of FIG. 6 is below It is a view showing that it gradually becomes narrower as it goes, and FIG. 10 is a view showing that the overall shape of the spiral rotation space of the rotational flow generator of FIG. 6 consists of a cone shape.

In the embodiment shown in Fig. 8, the pitch, which is the interval between the portions of the spiral rotation space 6a positioned at the top and bottom, is formed to be narrower from the top to the bottom (P1>P2>P3). According to this, the total length of the spiral rotation space 6a is extended and the number of rotations of the spiral rotation space 6a is also increased, so that the rotational force of compressed air generated while rotating along the spiral rotation space 6a can be increased. It is possible to contribute to the improvement of the cleaning efficiency in the water supply pipe (20).

In another embodiment, as shown in Figure 9, the thickness between the top and bottom of the spiral rotation space (6a) itself is formed to become thicker from top to bottom (D3>D2>D1), so that the spiral rotation space (6a) is It is configured to become narrower from top to bottom. According to this structure, the thickness between the top and bottom of the spiral rotation space 6a itself is formed so that the spiral rotation space 6a becomes thicker from top to bottom (D3>D2>D1), so that the spiral rotation space 6a is formed from above. By being configured to be narrower downward, the speed of compressed air flowing along the spiral rotational space 6a increases from top to bottom, thereby contributing to the improvement of cleaning efficiency in the water supply pipe 20 .

In another embodiment, as shown in Fig. 10, the overall shape of the spiral rotation space (6a) is made of a cone shape. According to this, the overall shape of the spiral rotation space 6a is conical, so that the rotation radius of the spiral rotation space 6a becomes smaller from top to bottom, so that the speed of compressed air flowing along the spiral rotation space 6a increases upward. It increases downward from the water supply pipe 20 and contributes to the improvement of cleaning efficiency in the water supply pipe 20 .

In a further embodiment, the pitch, which is the interval between the parts of the spiral rotation space 6a positioned at the top and bottom, is formed to become narrower from top to bottom, or the thickness between the top and bottom of the spiral rotation space 6a itself is upward. As shown in FIG. 10, the spiral rotation space 6a is formed to be thicker from the bottom to the bottom (D3>D2>D1) so that the spiral rotation space 6a is narrowed from the top to the bottom. It is also possible to configure the overall shape of the conical shape. According to this, the pitch, which is the interval between the parts of the spiral rotation space 6a positioned at the top and bottom, is formed to become narrower from top to bottom, or the thickness between the top and bottom of the spiral rotation space 6a itself increases from top to bottom. It is formed to be thick (D3>D2>D1) so that the spiral rotation space 6a is configured to become narrower from top to bottom, so that the speed of compressed air flowing along the spiral rotation space 6a increases from top to bottom. At the same time, the overall shape of the spiral rotation space 6a is made of a conical shape, so that the rotation radius of the spiral rotation space 6a becomes smaller from the top to the bottom of the compressed air flowing along the spiral rotation space 6a. As the speed increases from top to bottom, it is possible to further increase the cleaning efficiency in the water supply pipe 20 .

In another further embodiment, the water supply pipe cleaning system of the present invention comprises: a controller connected to the upstream side valve (4) and the boundary valve (3); and an operator terminal connected to the controller so as to transmit a command for controlling the opening and closing degrees of the uppermost valve 4 and the boundary valve 3 to the controller. According to this, the operator transmits a command for controlling the opening and closing degree of the upstream valve 4 and the boundary valve 3 to the controller through the operator terminal, and the upstream valve 4 and the boundary valve 3 through the controller It is possible to control the opening and closing degree of the Of course, in another embodiment, the controller and the operator terminal connected to the controller may be omitted, and in this case, the opening and closing of the uppermost valve 4 and the boundary valve 3 may be performed manually.

11 is a flowchart of a water pipe washing method according to a preferred embodiment of the present invention, FIG. 12 is a detailed flowchart of the draining step in the flow path of FIG. 11, and FIG. 13 is a detailed flowchart of the cleaning step in the flow path of FIG.

In addition, the water supply pipe washing method of the present invention is a method of washing a water supply pipe with the water supply pipe washing system, and has a branched portion arranged in a checkered pattern and a water supply pipe having a valve disposed around the branched portion A washing port is formed on the upper side of the socket flange T-shaped pipe 10 connected to (20), and a washing port and a drain forming a drain port 12 connected to a plurality of flow paths formed by valves disposed around the branched part are formed. water polo forming step (S1); A washing device installation step (S2) of installing a washing device including a compressed air generator (1) and a rotational flow generator (2) in the air input pipe (1a); a washing flow path forming step (S3) of opening or closing a valve disposed around a branched portion on the flow path to be washed to form a flow path to be washed among the plurality of flow paths of the water supply pipe 20; a step (S4) of shutting off the flow path to be washed; an in-channel draining step (S5) of discharging the water in the passage to be washed to the outside; A flow path washing step (S6) of washing the inside of the flow path to be washed with a mixture of compressed air generated by the rotational flow generator 2 and water injected into the upstream side valve 4 by opening the upstream side valve 4 (S6) ; and a mixed water discharging step (S7) of discharging the washed mixed water from the flow path.

In the washing port and outlet forming step (S1), a washing port is formed on the upper side of the socket flange T-shaped pipe 10, and the outlet 12 connected to a plurality of flow paths formed by valves disposed around the branched portion is formed. It is possible to form, through the washing port, mixed water is introduced into the flow path to be washed of the water supply pipe 20 to wash the flow path, and then to be discharged through the drain port 12 . In the washing device installation step (S2), a washing device including the compressed air generator (1) and the rotational flow generator (2) is installed in the air input pipe (1a), and through the washing flow path forming step (S3), a water supply pipe It is possible to form a flow path to be washed by opening or closing a valve disposed around a branched portion on the flow path to be washed to form a flow path to be washed among the plurality of flow paths in (20), and a single washing flow path is formed. In step (S4), the water supply operation is executed for the flow path to be washed, and through the draining step (S5) in the flow path, the water in the flow path to be washed is discharged to the outside, and washing in the flow path (S6) It is possible to wash the inside of the flow path to be washed with the mixed water of the compressed air generated by the rotational flow generator 2 and the water injected into the upstream valve 4 by opening the upstream valve 4, In the mixed water discharging step (S7), the washed mixed water is discharged from the flow path to complete the washing of the flow path to be washed.

In a separate embodiment, the draining step (S5) includes an earthen step (S5-1) of discharging foreign substances including mud or mud in the water supply pipe 20 using water; and a forced drainage step (S5-2) of forcibly draining the water remaining in the water supply pipe 20 after the Ito step (S5-1) by inserting air into the water supply pipe 20. According to this, foreign substances such as mud or mud in the water supply pipe 20 are discharged through the Ito step (S5-1), and after the forced drainage step (S5-2), the water remaining in the water supply pipe 20 is forced It is drained into the flow path to complete the preparation before washing the flow path.

In another separate embodiment, the cleaning step (S6) in the flow path is a compressed air input step ( S6-1); Water from the upstream water supply pipe 20 is introduced into the socket flange T-shaped pipe 10 by opening the upstream valve 4, or water in the water tank 5 is fed through the rotary flow generator 2 to the socket flange T Water input step (S6-2) to put into the mold tube (10); and the compressed air generated by the rotary flow generator 2 and the socket flange T-shaped pipe ( 10) includes a washing execution step (S6-3) in the flow path for performing washing in the flow path to be washed using the rotational flow of the mixed water of water input in step S6-3. According to this, the compressed air generated in the rotary flow generator 2 and the socket flange T via the rotary flow generator 2 to the upstream valve 4 or from the water tank 5 by the opening of the upstream valve 4 . Washing in the flow path to be washed is performed using the rotational flow of the mixed water of water injected into the mold tube 10 , so that the flow path to be washed can be cleaned.

In another separate embodiment, in the cleaning step (S6) in the flow path, the compressed air generator 1 having the air inlet pipe 1a is connected to the most downstream valve among the plurality of downstream valves in a socket flange T-shaped pipe The inner space is connected in communication with the upper flange of (10), and the rotational flow generator (2) has a spiral rotation space (6a) formed between the spiral rotor blade (6) and the neighboring rotor blades (6), Washing in the opposite direction to the normal water flow direction of the water flowing in the water supply pipe 20 connected to the air inlet pipe 1a so that a rotational flow of compressed air introduced from the air inlet pipe 1a into the rotary groove 6a is generated. It further comprises a reverse washing step made. As such, when the water flowing in the water supply pipe 20 is washed in the opposite direction to the normal water flow direction, the cleaning efficiency of the flow path to be washed in the water supply pipe 20 is higher.

Hereinafter, to configure Example 1 including the present invention and to grasp the effects of the water supply pipe washing system and method of the present invention through experiments in detail.

A washing port is formed on the upper side of the socket flange T-shaped pipe 10 connected to the water supply pipe 20 having a branched portion disposed in a checkered pattern and having a valve disposed around the branched portion, and a washing port and a drain port forming step (S1) of forming a drain port 12 connected to a plurality of flow passages formed by valves disposed around; A washing device installation step (S2) of installing a washing device including a compressed air generator (1) and a rotational flow generator (2) in the air input pipe (1a); a washing flow path forming step (S3) of opening or closing a valve disposed around a branched portion on the flow path to be washed to form a flow path to be washed among the plurality of flow paths of the water supply pipe 20; a step (S4) of shutting off the flow path to be washed; an in-channel draining step (S5) of discharging the water in the passage to be washed to the outside; A flow path washing step (S6) of washing the inside of the flow path to be washed with a mixture of compressed air generated by the rotational flow generator 2 and water injected into the upstream side valve 4 by opening the upstream side valve 4 (S6) ; and a mixed water discharging step (S7) of discharging the washed mixed water from the flow path, wherein the volume ratio of compressed air and water constituting the mixed water is 70%:30%, 50%:50%, and 30%:70 %, and the pressure in the water supply pipe 20 by the compressed air input from the compressed air generator 1 is 8 kgf/cm ² The water pipe 20 washed in the water pipe washing method is an experimental example 1 to 3

In contrast, Korean Patent No. 10-1677195, "a long pipe using water and compressed air allows the same pressure to act from the pipe inlet to the end of the pipe. In the water supply pipe washed by "a pipe washing method using a pipe washing device that removes sludge, foreign substances and scales attached to the pipe while preventing damage to the pipe". The pressure in the water supply pipe of Comparative Example 1 was also 8 kgf/cm ² , and the volume ratio of compressed air and water was changed to 70%:30%, 50%:50%, and 30%:70%, respectively. Comparative Example 1 to 3 were set.

Measurements were made for the cleaning efficiency of foreign substances including thin sludge and scale in the water supply pipes of Experimental Groups 1 to 3 and Comparative Example 1, and the results are shown in Table 1 below.

division Compressed air (volume %) Water (volume %) thin sludge
Removal rate (%) Foreign matter removal rate (%) Experimental Example 1 70 30 97 92 Experimental Example 2 50 50 95 96 Experimental Example 3 30 70 90 98 Comparative Example 1 70 30 86 84 Comparative Example 2 50 50 83 86 Comparative Example 3 30 70 81 89

According to Table 1, Experimental Examples 1 to 3 were generally superior in thin sludge removal rate and foreign matter removal rate than Comparative Examples 1 to 3, and in particular, thin sludge removal rate when the volume ratio of compressed air and water was 50%:50%. It can be seen that the removal rate of foreign substances was the best.

Although the present invention described above has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible by those skilled in the art. should be made clear. Accordingly, the true technical protection scope of the present invention should be construed by the appended claims, and all technical ideas within the equivalent scope should be construed as being included in the scope of the present invention.

1. Compressed air generator 1a. air inlet pipe
2. Rotational flow generator 3. Boundary valve
4. Upstream side valve 5. Water tank
5a. pump 5b. water inlet pipe
6. Spiral rotor 6a. spiral rotating space
10. Socket flange T-shaped pipe 20. Water supply pipe
30. Flexible tube S1. Washing hole and drain hole formation stage
S2. Washing device installation step S3. Washing oil formation step
S4. Washing oil single step S5. Drainage Steps in the Euro
S5-1. Ito Step S5-2. forced drainage
S6. Washing step in the flow path S6-1. Compressed air input stage
S6-2. Water input step S6-3. Steps for performing cleaning in the flow path
S7. Mixed water discharge step

Claims (7)

delete delete delete delete 'T'-shaped socket flange T-shaped pipe (10);
A plurality of valves arranged in a checkered pattern in the water supply pipe 20 to open and close the flow of water flowing in the water supply pipe 20 and arranged around the branched portion; and
A compressed air generator (1) having an air inlet pipe (1a) connected to the upper flange of the socket flange T-shaped pipe (10) connected to the uppermost valve (4) among a plurality of valves in communication with the internal space (1), spiral rotor blades (6) ) and the helical rotation space (6a) formed between the adjacent rotary blades (6), the air input pipe (1a) so that a rotational flow of compressed air injected from the air input pipe (1a) into the rotary groove (6a) is generated ) including a washing device comprising a rotational flow generator (2) connected to,
Further comprising a water tank (5) connected to the water injection pipe (5b) connected to the rotational flow generator (2) in communication with the internal space and accommodating water therein,
The water injection pipe (5b) is provided with a pump (5a),
The rotational flow of the mixed water of the compressed air generated by the rotational flow generator (2) and the water injected from the upstream side water supply pipe (20) into the socket flange T-shaped pipe (10) by the opening of the upstream side valve (4) is transferred to the downstream side water supply pipe. A boundary valve (3) installed between the rotary flow generator (2) and the socket flange T-shaped pipe (10) to open and close the sprayed to (20), or the compressed air and water tank (5) generated by the rotary flow generator (2) ) from the rotational flow generator 2 and the socket flange T-shaped pipe 10 through the rotational flow generator 2 and the socket flange T-shaped pipe to open and close the rotational flow of the mixed water injected into the downstream water supply pipe 20 As a method of washing a water supply pipe with a water pipe washing system further comprising a boundary valve (3) installed between (10),
A washing port is formed on the upper side of the socket flange T-shaped pipe 10 connected to the water supply pipe 20 having a branched portion disposed in a checkered pattern and having a valve disposed around the branched portion, and a washing port and a drain port forming step (S1) of forming a drain port 12 connected to a plurality of flow passages formed by valves disposed around;
A washing device installation step (S2) of installing a washing device including a compressed air generator (1) and a rotational flow generator (2) in the air input pipe (1a);
a washing flow path forming step (S3) of opening or closing a valve disposed around a branched portion on the flow path to be washed to form a flow path to be washed among the plurality of flow paths of the water supply pipe 20;
a step (S4) of shutting off the flow path to be washed;
an in-channel draining step (S5) of discharging the water in the passage to be washed to the outside;
A flow path washing step (S6) of washing the inside of the flow path to be washed with a mixture of compressed air generated by the rotational flow generator 2 and water injected into the upstream side valve 4 by opening the upstream side valve 4 (S6) ; and
Water pipe washing method, characterized in that it comprises a mixed water discharging step (S7) of discharging the washed mixed water from the flow path. 6. The method of claim 5,
The draining step (S5) is,
Ito step (S5-1) of discharging foreign substances including mud or mud in the water supply pipe 20 using water; and
A water supply pipe, characterized in that it includes a forced drainage step (S5-2) of forcibly draining the water remaining in the water supply pipe 20 after the Ito step (S5-1) by inserting air into the water supply pipe 20 How to wash. 6. The method of claim 5,
In the flow path washing step (S6),
Compressed air input step (S6-1) of injecting compressed air from the compressed air generator (1) through the air input pipe (1a) to the rotational flow generator (2);
Water from the upstream water supply pipe 20 is introduced into the socket flange T-shaped pipe 10 by opening the upstream valve 4, or water in the water tank 5 is fed through the rotary flow generator 2 to the socket flange T Water input step (S6-2) to put into the mold tube (10); and
Compressed air generated by the rotary flow generator (2) and the upstream valve (4) by opening the upstream valve (4) or from the water tank (5) via the rotary flow generator (2) socket flange T-pipe (10) ) using the rotational flow of the mixed water of water inputted to the water supply pipe washing method, characterized in that it comprises a washing execution step (S6-3) in the flow path for performing the washing in the flow path to be washed.

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