KR102062809B1 - Water pipe cleaning device and method for cleaning pipe - Google Patents

Abstract

The present invention relates to a pipe cleaning device and a pipe cleaning method using the same. More specifically, the pipe cleaning device includes: a first gate valve installed in a first position of a water supply pipe buried under the ground; a second gate valve installed in a second position of the water supply pipe and having a discharge flow path in order for a fluid in the water supply pipe to be discharged to the outside of the ground; and a control device inserted into an inner circumference of the water supply pipe between the first gate valve and the second gate valve. The control device includes: an air pack body cleaning the inside of the water supply pipe between the first gate valve and the second gate valve by water jet with water pressure by controlling the flow of the water while a water jet hole penetrated in the longitudinal direction is opened or is closed when the air pack body is expanded by the inflow of external air or is contracted by discharge of the air flowing inside; and an air compressor installed on the ground and injecting compressed air into the air pack body. According to the present invention, the pipe cleaning device can fix or move the air pack body in water and sewage pipes by expanding or contracting the air pack body by inserting the air pack body into the water and sewage pipes. The pipe cleaning device can clean the inside of the water and sewage pipes by a waterjet type using the water pressure or sewage pipe by opening or closing the water jet hole formed in the air pack body by the expansion or the contraction of the air pack body to clean a predetermined section of the water and sewage pipes.

Description

Pipe cleaning device and pipe cleaning method using the same {Water pipe cleaning device and method for cleaning pipe}

The present invention relates to a pipe cleaning device, and more particularly, to a pipe cleaning device and a pipe cleaning method using the same, which can clean the inside of a pipe in a waterjet method using a constant pressure or a sewage pressure of a water and sewage pipe.

In general, the pipe washing apparatus means a device for removing the scale formed in the inner diameter of the water pipe and the gas pipe. In the case of pipelines, such as water pipes and gas pipes, they are usually made of metal material of the same material, and after a certain period of use, oxidation starts and foreign matters such as scale accumulate in the pipe inner diameter.

The foreign matter such as scale is formed to protrude toward the center of the pipe from the inner diameter surface, which causes a problem that it becomes difficult to efficiently flow the fluid flowing inside the pipe narrows the inner diameter of the pipe.

In addition, there is a problem in that the quality of the fluid is degraded, such as the generation of rust, but when the pipe is a water supply pipe, foreign substances such as rust may be included in the constant, which may cause a fatal danger to the health of the constant user.

In order to solve this problem, in the past, water supply pipes with accumulated foreign substances were removed and replaced with new pipes. However, in order to replace these pipes, the excavation work is inevitably required, and thus the supply of water is limited during the pipe replacement work. There was.

In addition, in the related art, since the air according to the pipe replacement work is long, the period of limiting the supply of water is also very long, which causes a great inconvenience for users.

In addition, when the pipe is newly replaced, it takes a construction cost for the excavation work in addition to the piping cost, there was a problem that a significant economic loss occurs.

Korean Registered Patent Publication No. 10-0780326 (announced 28 November 2007)

An object of the present invention devised to solve the above problems, by inserting an air pack inside the water supply and sewage pipes can be washed by a waterjet method using a constant pressure or sewage pressure of a certain section of the water supply and sewage pipe through the expansion or contraction of the air pack. To provide a pipe cleaning apparatus and a pipe cleaning method using the same.

In addition, an additional problem of the present invention is a pipe cleaning apparatus capable of physically removing foreign matter accumulated on the inner diameter surface of water and sewage pipes using constant pressure or sewage pressure due to expansion or contraction of an air pack inserted into the water and sewage pipes. And to provide a pipe cleaning method using the same.

In order to achieve the above object, the present invention is a pipe washing apparatus, the first water valve installed in a first position of underground buried water supply pipe, installed in a second position of the water supply pipe, the fluid inside the water supply pipe A second distillation valve having a discharge flow path formed therein so that the water is discharged to the ground, and inserted into an inner diameter of the water supply pipe between the first distillation valve and the second distillation valve, and When contracted along, the waterjet hole formed in the longitudinal direction is closed or opened to control the flow of water and is provided on the air pack body and the ground for waterjet cleaning the inside of the water supply pipe between the first and second distillation valves with a constant pressure. And a control device having an air compressor for injecting compressed air into the air pack body.

The air pack body has a hollow shape, a partition wall partitioning the inside into a double space of the outside and the inside, and formed on the inside outside of the air pack body based on the partition wall, the first outlet inlet air is introduced into or discharged to the outside Is formed, and when the inner diameter surface of the water supply pipe is extended toward the inner diameter surface of the water supply pipe, the outer diameter surface of the air pack body contacts the inner diameter surface of the water supply pipe so that the air pack body is fixed inside the water supply pipe and the interior of the air pack body based on the partition wall. It is formed on the inside, it is characterized in that it comprises a second air pack for closing the waterjet hole while extending toward the inner center of the water supply pipe is formed, the second outlet inlet air is discharged in or out.

One end is connected to the control device and the other end is the first inlet and outlet line connected to the first outlet of the first air pack and the first end is connected to the control device and the other end is connected to the second outlet of the second air pack And a second outflow line, wherein the second water discharge valve has a through portion through which the first outflow line and the second outflow line pass.

The control device includes a storage tank in which the washing liquid is stored, one end of which is connected to the storage tank while penetrating the through part, and the other end of the washing liquid has a constant flowing through the waterjet hole in a non-contact state with the air pack body. It characterized in that it comprises a transfer line for transferring the washing liquid to be mixed.

It is provided at the front end of the air pack body to physically remove the foreign matter accumulated on the inner diameter surface of the water supply pipe, the fixed shaft is mounted along the rim of the air pack body, and the shaft is coupled to the fixed shaft by a constant pressure And a cleaning means having a rotating impeller and a brush mounted to the outside of the impeller.

It is mounted to the rear end of the air pack body, characterized in that it comprises a camera for photographing the inner diameter of the water supply pipe.

In addition, the present invention, as a pipe washing method, the first water discharge valve provided on the upstream side of the underground water supply pipe is closed, the second water discharge valve provided on the downstream side of the water supply pipe is opened to flow the fluid in the water supply pipe downstream. Sending, removing the second distillation valve from the water supply pipe, inserting an air pack body inside the water supply pipe, and positioning the air pack body on the first distillation valve side, placing the second distillation valve on the water supply pipe. After assembling in the air pack, the air pack main body is connected to a control unit equipped with an air compressor provided on the ground, and compressed air is injected into the air pack main body to expand the first air pack and the second air pack of the air pack main body, thereby converting the air pack main body into the water supply pipe. Locking the water jet hole and closing the water jet hole, closing the second dividing valve and opening the first dividing valve, When the water jet hole is opened by discharging the air of the second air pack through the control device to shrink the second air pack, water jet washing the inside of the water supply pipe at a constant pressure while mixing the washing liquid with the water passing through the water jet hole formed in the air pack body. In the step, the water-jet washing fluid inside the water supply pipe is discharged to the ground through the discharge flow path formed in the second water discharge valve and the compressed air into the second air pack through the control device to expand the second air pack waterjet Closing the hole and discharging the air of the first air pack so that the first air pack is contracted, a water film is formed between the air pack body and the water supply pipe to move the air pack body toward the second dilution valve side.

The air pack body has a hollow shape, a partition wall partitioning the inside into a double space of the outside and the inside, and formed on the inside outside of the air pack body based on the partition wall, the first outlet inlet air is introduced into or discharged to the outside Is formed, and when the inner diameter surface of the water supply pipe is extended toward the inner diameter surface of the water supply pipe, the outer diameter surface of the air pack body contacts the inner diameter surface of the water supply pipe so that the air pack body is fixed inside the water supply pipe and the interior of the air pack body based on the partition wall. It is formed on the inside, it is characterized in that it comprises a second air pack for closing the waterjet hole while extending toward the inner center of the water supply pipe is formed, the second outlet inlet air is discharged in or out.

One end is connected to the control device and the other end is the first inlet and outlet line connected to the first outlet of the first air pack and the first end is connected to the control device and the other end is connected to the second outlet of the second air pack And a second outflow line, wherein the second water discharge valve has a through portion through which the first outflow line and the second outflow line pass.

The control device includes a storage tank in which the washing liquid is stored, one end of which is connected to the storage tank while penetrating the through part, and the other end of the washing liquid has a constant flowing through the waterjet hole in a non-contact state with the air pack body. It characterized in that it comprises a transfer line for transferring the washing liquid to be mixed.

It is provided at the front end of the air pack body to physically remove the foreign matter accumulated on the inner diameter surface of the water supply pipe, the fixed shaft is mounted along the rim of the air pack body, and the shaft is coupled to the fixed shaft by a constant pressure And a cleaning means having a rotating impeller and a brush mounted to the outside of the impeller.

The present invention can be fixed or moved inside the water supply and sewer pipes by inserting the air pack body in the water and sewage pipes through expansion or contraction of the air pack body, expansion or contraction of the air pack body to wash a certain section of the water and sewage pipes. By opening or closing the waterjet hole formed in the air pack body through the water jet method using the constant pressure or sewage pressure can be cleaned to clean the inside of the water supply and sewer pipe.

In addition, the present invention physically removes the foreign matter accumulated on the inner diameter surface of the water and sewage pipe through the cleaning means mounted on the air pack body by using the constant pressure or sewage pressure due to the expansion or contraction of the air pack body inserted into the water and sewage pipe. It can work.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention, and therefore, the present invention is limited only to the matters described in the drawings. It should not be interpreted.
1 to 3 is a cross-sectional view and an operational state diagram showing a pipe washing apparatus according to an embodiment of the present invention,
4 is a perspective view showing a second dilution valve in a pipe washing apparatus according to an embodiment of the present invention;
5 is a cross-sectional view and operation state diagram showing the air pack body in the pipe washing apparatus according to the embodiment of the present invention,
6 is a flowchart illustrating a pipe cleaning method according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the pipe washing apparatus according to the present invention.

1 to 3 is a cross-sectional view and an operational state diagram showing a pipe washing apparatus according to an embodiment of the present invention, Figure 4 is a perspective view showing a second dilution valve in the pipe washing apparatus according to an embodiment of the present invention, Figure 5 is In the pipe washing apparatus according to an embodiment of the present invention is a cross-sectional view and an operational state diagram showing the air pack body.

1 to 5, the pipe cleaning apparatus according to a preferred embodiment of the present invention, the first water valve 100, the second water valve 200, the air pack body 300 and the control device 400 Consists of the component, which will be described in detail as follows.

The pipe washing apparatus of the present invention is an apparatus for washing the inside of a pipe through which fluid flows, such as a water supply pipe and a sewage pipe, and the like. In the present invention, the water pipe is described as an embodiment, but is not limited to the water supply pipe.

The 1st distillation valve 100 is provided in the 1st position a of the underground water supply pipe P. Here, the dividing valve is a valve for controlling the flow of the fluid, and adjusts the opening degree of the valve to control the amount of fluid flow. At this time, the first position a of the water supply pipe P refers to an upstream side of the water supply pipe P.

The first dividing valve 100 includes a valve casing in which a valve disc is accommodated, a flow path pipe extending to both sides of the valve casing, a flange formed at an end of each flow path pipe and flange-joined to the water supply pipe P; The handle cap for forward and reverse rotation of the valve disc has a structure protruding on the upper side of the valve casing.

Water supply pipe P in which such a 1st water valve 100 is installed Above the 1st position a, the 1st water valve 100 is isolate | separated from water supply pipe P, or it is couple | bonded with water supply pipe P, The manhole M is provided above the first position a so that the handle H mounted on the handle cap may be vertically inserted to operate the valve disc of the first dividing valve 100 on the ground.

The 2nd dividing valve 200 is provided in the 2nd position b of the underground water supply pipe P. Here, the dividing valve is a valve for controlling the flow of the fluid, and adjusts the opening degree of the valve to control the amount of fluid flow. At this time, the second position b of the water supply pipe P refers to the downstream side of the water supply pipe P.

In other words, the flow of the constant flowing along the water supply pipe P flows from the first position a to the second position b. Here, the distance between the first distillation valve 100 installed in the first position (a) of the water supply pipe (P) and the second distillation valve 200 provided at the second position (b) of the water supply pipe (P) is about 2 It is preferably from 3 km.

Similar to the first distillation valve 100 described above, the second distillation valve 200 includes a valve casing in which a valve disc is housed, a flow passage tube extending to both sides of the valve casing, and an end portion of each flow passage tube. The flange is flange-joined to the water supply pipe (P), and the handle cap for forward and reverse rotation of the valve disk is formed of a structure protruding on the upper side of the valve casing.

Water supply pipe P in which such a second water valve 200 is installed Above the second position b, the second water valve 200 is separated from the water supply pipe P or coupled to the water supply pipe P, The manhole M is provided above the second position b so that the handle H mounted on the handle cap can be vertically inserted to operate the valve disk of the second dividing valve 200 on the ground.

In addition, a discharge passage 210 is formed in the second distillation valve 200 so that the fluid inside the water supply pipe P is discharged to the ground. In other words, the discharge flow path 210 vertically penetrates the flow path pipe extending to one side of the valve casing of the second distillation valve 200 (the direction in which the first distillation valve is located) and passes through the discharge flow path 210. ) The fluid inside is discharged to the ground.

The air pack main body 300 has a hollow shape having an internal space, and a waterjet hole 310 through which a constant is passed is formed in the longitudinal direction of the air pack main body 300 at the center thereof. This, the air pack body 300 is inserted into the water supply pipe (P) inner diameter so as to be located between the first distillation valve 100 and the second distillation valve 200, preferably on one side of the first distillation valve (100). .

Here, the installation of the air pack main body 300 is inserted into the inner diameter of the water supply pipe P while the first water discharge valve 100 or the second water discharge valve 200 is separated from the water supply pipe P.

On the other hand, when the air pack body 300 is contracted according to the expansion or expansion of the air introduced into the interior by the inflow of external air, the waterjet hole 310 formed in the longitudinal direction is closed or open to control the flow of water Thus, the inside of the water supply pipe P between the first distillation valve 100 and the second distillation valve 200 serves to waterjet clean by the constant pressure.

In other words, the air pack main body 300 includes a partition wall 320, a first air pack 330, and a second air pack 340.

The partition 320 partitions the inside of the air pack main body 300 into a double space on the outside and the inside.

The first air pack 330 is formed on the inner outer side of the air pack body 300 based on the partition wall 320. In addition, a first outlet inlet 331 through which air is introduced into or discharged from the outside is formed at one side.

At this time, when air flows into the first air pack 330 through the first outlet inlet 331 and the first air pack 330 extends toward the inner diameter surface of the water supply pipe P, the outer diameter of the air pack body 300 is The surface is in contact with the inner diameter surface of the water supply pipe (P), the outer diameter surface of the air pack body 300 and the inner diameter surface of the water supply pipe (P) is in close contact with each other, the outer diameter surface of the air pack body 300 and the water supply pipe (P) of the water. Even though a high constant pressure is generated in the water supply pipe P due to the friction force between the inner diameter surfaces, the air pack body 300 may be firmly fixed to the inside of the water supply pipe P.

On the contrary, when the first air pack 330 is contracted by discharging air of the first air pack 330 in a state in which the water jet hole 310 is closed by expanding the second air pack 340 to be described later, the air pack main body 300 A water film is formed between the water supply pipe P and the air pack main body 300 is pushed toward the second water discharge valve 200 by the constant pressure.

In addition, the pipe washing apparatus of the present invention may further include a first inlet and outlet line 500 that serves to introduce air into or discharge to the first air pack 330. That is, one end of the first outlet line 500 is connected to the control device 400 to be described later, and the other end thereof is connected to the first outlet inlet 331 of the first air pack 330.

The second air pack 340 is formed inside the air pack body 300 based on the partition wall 320. In addition, a second outlet opening 341 through which air is introduced into or discharged from the outside is formed at one side.

In this case, when air flows into the second air pack 340 through the second outlet 341 and the second air pack 340 extends toward the inner center of the water supply pipe P, the center of the air pack main body 300 is The waterjet hole 310 formed in the closed state is to block the flow of water inside the water supply pipe (P).

When the first air pack 330 is expanded to discharge the air of the second air pack 340 while the air pack body 300 is fixed inside the water supply pipe P, and the second air pack 340 is contracted, the waterjet The inside of the water supply pipe P is waterjet-washed by the constant pressure passing through the waterjet hole 310 formed in the air pack body 300 by opening the hole 310.

In addition, the pipe washing apparatus of the present invention may further include a second inflow and outflow line 600 that serves to inflow or discharge the air into the second air pack 340. That is, one end of the second outlet line 600 is connected to the control device 400 to be described later, and the other end thereof is connected to the second outlet inlet 341 of the second air pack 340.

The control device 400 may be provided on the ground and may include a storage tank 420 in which the washing liquid is stored to supply the washing liquid into the water supply pipe P, and the washing liquid stored in the storage tank 420 is connected to the water supply pipe P. ) May be provided with a transfer line 700 to be transferred to the inside.

In other words, one end of the transfer line 700 is connected to the storage tank 420 while the transfer line 700 penetrates the through part 220 formed in the second dilution valve 200 to be described later, and the other end is not in contact with the air pack body 300. In one state, the washing liquid is transferred to the washing liquid mixed with the constant flowing through the waterjet hole 310. That is, the washing liquid is transferred at a high pressure by the pump P provided in the storage tank 420.

In this case, the washing liquid refers to a liquid containing sodium percarbonate, citric acid or baking soda, and preferably a washing liquid containing about 5 to 30 parts by weight of sodium percarbonate per 100 parts by weight of water.

Here, sodium percarbonate is a natural substance that is harmless to the human body, and is a substance that is very soluble in water and generates a large amount of oxygen, and has excellent effects such as bleaching, washing, and removing odors. In addition, it is easy to produce and inexpensive, and has a good cleaning effect even in a very small amount and does not leave any by-products.

In the present invention is to clean the pipe by the so-called S.W.C (Sodium Water Clean) method for cleaning the pipe using such a sodium percarbonate.

On the other hand, in the second dilution valve 200, it is preferable that the through part 220 through which the first inlet and outlet lines 500, the second inlet and outlet line 600, and the transfer line 700 pass, respectively, is formed.

The control device 400 is provided on the ground and has an air compressor 410 for injecting compressed air into the air pack body 300. In addition, the controller 400 may include a monitor that displays an air pressure value of the air pack main body 300 into which compressed air is injected and an image photographed by the camera 360 to be described later.

On the other hand, the pipe washing apparatus of the present invention may further comprise a cleaning means 350 for physically removing the foreign matter accumulated on the inner diameter surface of the water supply pipe (P).

Here, the cleaning means 350 is provided toward the front end of the air pack main body 300, that is, the second dilution valve 200. In other words, the cleaning means 350 is composed of a configuration including a fixed shaft 351, an impeller 352 and a brush 353.

The fixed shaft 351 is mounted along the front end edge of the air pack body 300.

The impeller 352 is axially coupled to the end of the fixed shaft 351 and rotated by a constant pressure passing through the waterjet hole 310 formed in the air pack body 300.

The brush 353 is attached to the outside of the impeller 352 and is in contact with the inner diameter surface of the water supply pipe P. At this time, when the impeller 352 is rotated, the foreign matter accumulated on the inner diameter surface of the water supply pipe P is physically removed by the brush 353.

In addition, the pipe washing apparatus of the present invention may further comprise a camera 360 for photographing the inner diameter of the water supply pipe (P). In other words, the camera 360 is mounted to the rear end of the air pack main body 300 so that the internal cleaning state of the water supply pipe P may be checked on the ground through a monitor of the control device 400.

Hereinafter, a pipe cleaning method according to the present invention. 6 is a flowchart illustrating a pipe cleaning method according to an embodiment of the present invention.

1 to 6, first, the first water discharge valve 100 installed upstream of the underground buried water supply pipe P is closed, and the second water discharge valve 200 provided downstream of the water supply pipe P is provided. ) And flows the fluid in the water supply pipe P to the downstream side (step S100).

Next, after removing the second distillation valve 200 from the water supply pipe P, the air pack body 300 is inserted into the water supply pipe P, and the air pack body 300 is connected to the first distillation valve 100. On the side (step S200).

Next, after assembling the second dilution valve 200 to the water supply pipe P, the air pack main body 300 is connected to the control device 400 including the air compressor 410 provided on the ground, and the air pack main body ( Compressed air is injected into the 300 to expand the first air pack 330 and the second air pack 340 of the air pack main body 300 to fix the air pack main body 300 inside the water supply pipe P and the waterjet hole 310. It is closed (step S300).

Next, the second dividing valve 200 is closed and the first dividing valve 100 is opened, and then the air of the second air pack 340 is discharged through the control device 400 to contract the second air pack 340. When the water jet hole 310 is opened, the water jet washing the water inside the water supply pipe P at a constant pressure while mixing the washing liquid with the water passing through the water jet hole 310 formed in the air pack main body 300 (step S400).

Then, the fluid jet-washed inside the water supply pipe P is discharged to the ground through the discharge flow path 210 formed in the second water purifying valve 200 (step S500).

Finally, the compressed air is injected into the second air pack 340 through the control device 400 to expand the second air pack 340 to close the waterjet hole 310, and discharge the air of the first air pack 330. When the first air pack 330 is contracted, a water film is formed between the air pack main body 300 and the water supply pipe P, and the air pack main body 300 is moved toward the second dilution valve 200 (step S600).

Meanwhile, the compressed air is injected into the first air pack 330 of the air pack main body 300 which is moved toward the second dilution valve 200 by the water film formed between the air pack main body 300 and the water supply pipe P. After fixing the 300 to the inside of the water supply pipe P, the air of the second air pack 340 may be discharged to shrink the second air pack 340 to open the waterjet hole 310.

Water jet washing of the water supply pipe (P) while repeating the process of moving and fixing in the water supply pipe (P) of the air pack main body (P) a plurality of times in order to clean the water supply pipe (P) more efficiently It can be cleaned. At this time, the air pack body 300 in the water supply pipe P between the first and second distillation valve 100 and the second distillation valve 200 moves about 10 to 15 m, respectively, and performs waterjet washing of the water supply pipe P. It is preferable.

On the other hand, the 1st fresh water valve 100 is provided in the 1st position (a) of the underground water supply pipe P. Here, the dividing valve is a valve for controlling the flow of the fluid, and adjusts the opening degree of the valve to control the amount of fluid flow. At this time, the first position a of the water supply pipe P refers to an upstream side of the water supply pipe P.

The first dividing valve 100 includes a valve casing in which a valve disc is accommodated, a flow path pipe extending to both sides of the valve casing, a flange formed at an end of each flow path pipe and flange-joined to the water supply pipe P; The handle cap for forward and reverse rotation of the valve disc has a structure protruding on the upper side of the valve casing.

Water supply pipe P in which such a 1st water valve 100 is installed Above the 1st position a, the 1st water valve 100 is isolate | separated from water supply pipe P, or it is couple | bonded with water supply pipe P, The manhole M is provided above the first position a so that the handle H mounted on the handle cap may be vertically inserted to operate the valve disc of the first dividing valve 100 on the ground.

The 2nd dividing valve 200 is provided in the 2nd position b of the underground water supply pipe P. Here, the dividing valve is a valve for controlling the flow of the fluid, and adjusts the opening degree of the valve to control the amount of fluid flow. At this time, the second position b of the water supply pipe P refers to the downstream side of the water supply pipe P.

In other words, the flow of the constant flowing along the water supply pipe P flows from the first position a to the second position b. Here, the distance between the first distillation valve 100 installed in the first position (a) of the water supply pipe (P) and the second distillation valve 200 provided at the second position (b) of the water supply pipe (P) is about 2 It is preferably from 3 km.

The second dividing valve 200 includes a valve casing in which a valve disc is accommodated, a flow path tube extending to both sides of the valve casing, a flange formed at an end of each flow path tube and flange-joined to the water supply pipe P; The handle cap for forward and reverse rotation of the valve disc has a structure protruding on the upper side of the valve casing.

Water supply pipe P in which such a second water valve 200 is installed Above the second position b, the second water valve 200 is separated from the water supply pipe P or coupled to the water supply pipe P, The manhole M is provided above the second position b so that the handle H mounted on the handle cap can be vertically inserted to operate the valve disk of the second dividing valve 200 on the ground.

In addition, a discharge passage 210 is formed in the second distillation valve 200 so that the fluid inside the water supply pipe P is discharged to the ground. In other words, the discharge flow path 210 vertically penetrates the flow path pipe extending to one side of the valve casing of the second distillation valve 200 (the direction in which the first distillation valve is located) and passes through the discharge flow path 210. ) The fluid inside is discharged to the ground.

The air pack main body 300 has a hollow shape having an internal space, and a waterjet hole 310 through which a constant is passed is formed in the longitudinal direction of the air pack main body 300 at the center thereof. This, the air pack body 300 is inserted into the water supply pipe (P) inner diameter so as to be located between the first distillation valve 100 and the second distillation valve 200, preferably on one side of the first distillation valve (100). .

Here, the installation of the air pack main body 300 is inserted into the inner diameter of the water supply pipe P while the first water discharge valve 100 or the second water discharge valve 200 is separated from the water supply pipe P.

On the other hand, when the air pack body 300 is contracted according to the expansion or expansion of the air introduced into the interior by the inflow of external air, the waterjet hole 310 formed in the longitudinal direction is closed or open to control the flow of water Thus, the inside of the water supply pipe P between the first distillation valve 100 and the second distillation valve 200 serves to waterjet clean by the constant pressure.

In other words, the air pack main body 300 includes a partition wall 320, a first air pack 330, and a second air pack 340.

The partition 320 partitions the inside of the air pack main body 300 into a double space on the outside and the inside.

The first air pack 330 is formed on the inner outer side of the air pack body 300 based on the partition wall 320. In addition, a first outlet inlet 331 through which air is introduced into or discharged from the outside is formed at one side.

At this time, when air flows into the first air pack 330 through the first outlet inlet 331 and the first air pack 330 extends toward the inner diameter surface of the water supply pipe P, the outer diameter of the air pack body 300 is The surface is in contact with the inner diameter surface of the water supply pipe (P), the outer diameter surface of the air pack body 300 and the inner diameter surface of the water supply pipe (P) is in close contact with each other, the outer diameter surface of the air pack body 300 and the water supply pipe (P) of the water. Even though a high constant pressure is generated in the water supply pipe P due to the friction force between the inner diameter surfaces, the air pack body 300 may be firmly fixed to the inside of the water supply pipe P.

On the contrary, when the first air pack 330 is contracted by discharging the air of the first air pack 330 while the water jet hole 310 is closed by expanding the second air pack 340, the water pack body 300 and the water supply A water film is formed between the pipes P, and the air pack main body 300 is pushed toward the second dilution valve 200 side by the constant pressure.

In addition, the first air pack 330 may be configured to further include a first inlet and outlet line 500 that serves to inflow or discharge to the outside. That is, one end of the first outlet line 500 is connected to the control device 400 to be described later, and the other end thereof is connected to the first outlet inlet 331 of the first air pack 330.

The second air pack 340 is formed inside the air pack body 300 based on the partition wall 320. In addition, a second outlet opening 341 through which air is introduced into or discharged from the outside is formed at one side.

In this case, when air flows into the second air pack 340 through the second outlet 341 and the second air pack 340 extends toward the inner center of the water supply pipe P, the center of the air pack main body 300 is The waterjet hole 310 formed in the closed state is to block the flow of water inside the water supply pipe (P).

When the first air pack 330 is expanded to discharge the air of the second air pack 340 while the air pack body 300 is fixed inside the water supply pipe P, and the second air pack 340 is contracted, the waterjet The inside of the water supply pipe P is waterjet-washed by the constant pressure passing through the waterjet hole 310 formed in the air pack body 300 by opening the hole 310.

In addition, the second air pack 340 may further include a second inflow and outflow line 600 that serves to introduce or discharge air to the outside. That is, one end of the second outlet line 600 is connected to the control device 400 to be described later, and the other end thereof is connected to the second outlet inlet 341 of the second air pack 340.

The control device 400 may be provided on the ground and may include a storage tank 420 in which the washing liquid is stored to supply the washing liquid into the water supply pipe P, and the washing liquid stored in the storage tank 420 is connected to the water supply pipe P. ) May be provided with a transfer line 700 to be transferred to the inside.

In other words, one end of the transfer line 700 is connected to the storage tank 420 while the transfer line 700 penetrates the through part 220 formed in the second dilution valve 200 to be described later, and the other end is not in contact with the air pack body 300. In one state, the washing liquid is transferred to the washing liquid mixed with the constant flowing through the waterjet hole 310. That is, the washing liquid is transferred at a high pressure by the pump P provided in the storage tank 420.

In this case, the washing liquid refers to a liquid containing sodium percarbonate, citric acid or baking soda, and preferably a washing liquid containing about 5 to 30 parts by weight of sodium percarbonate per 100 parts by weight of water.

Here, sodium percarbonate is a natural substance that is harmless to the human body, and is a substance that is very soluble in water and generates a large amount of oxygen, and has excellent effects such as bleaching, washing, and removing odors. In addition, it is easy to produce and inexpensive, and has a good cleaning effect even in a very small amount and does not leave any by-products.

In the present invention is to clean the pipe by the so-called S.W.C (Sodium Water Clean) method for cleaning the pipe using such a sodium percarbonate.

On the other hand, in the second dilution valve 200, it is preferable that the through part 220 through which the first inlet and outlet lines 500, the second inlet and outlet line 600, and the transfer line 700 pass, respectively, is formed.

The control device 400 is provided on the ground and has an air compressor 410 for injecting compressed air into the air pack body 300. In addition, the controller 400 may include a monitor that displays an air pressure value of the air pack main body 300 into which compressed air is injected and an image photographed by the camera 360 to be described later.

On the other hand, it may be configured to further include a cleaning means 350 for physically removing the foreign matter accumulated on the inner diameter surface of the water supply pipe (P).

Here, the cleaning means 350 is provided toward the front end of the air pack main body 300, that is, the second dilution valve 200. In other words, the cleaning means 350 is composed of a configuration including a fixed shaft 351, an impeller 352 and a brush 353.

The fixed shaft 351 is mounted along the front end edge of the air pack body 300.

The impeller 352 is axially coupled to the end of the fixed shaft 351 and rotated by a constant pressure passing through the waterjet hole 310 formed in the air pack body 300.

The brush 353 is attached to the outside of the impeller 352 and is in contact with the inner diameter surface of the water supply pipe P. At this time, when the impeller 352 is rotated, the foreign matter accumulated on the inner diameter surface of the water supply pipe P is physically removed by the brush 353.

In the above, the present invention has been described based on the preferred embodiments, but the technical idea of the present invention is not limited thereto, and modifications or changes can be made within the scope of the claims. It will be apparent to those skilled in the art, and such modifications and variations will belong to the appended claims.

100: first dividing valve 200: second dividing valve
210: discharge passage 220: through part
300: air pack body 310: waterjet hole
320: partition 330: first air pack
331: first outlet port 340: second air pack
341, second outlet 350: cleaning means
351: fixed shaft 352: impeller
353: Brush 360: Camera
400: control unit 410: air compressor
420: storage tank 500: first outflow line
600: second outflow line 700: transfer line

Claims (11)

A first dilution valve 100 installed at a first position (a) of underground buried water supply pipe (P);
A second distillation valve (200) installed at a second position (b) of the water supply pipe (P), the discharge passageway (210) being formed to discharge the fluid inside the water supply pipe (P) to the ground;
Inserted into the inner diameter of the water supply pipe (P) between the first distillation valve 100 and the second distillation valve 200, when the expansion or contraction according to the external discharge of the air introduced into the inside by the inflow of external air, the length Water jet hole 310 formed in the direction to close or open to control the flow of water to clean the waterjet cleaning the inside of the water supply pipe (P) between the first distillation valve 100 and the second distillation valve 200 by a constant pressure Air pack body 300; And
A control device 400 provided on the ground and having an air compressor 410 for injecting compressed air into the air pack body 300;
Pipe cleaning device comprising a. According to claim 1, wherein the air pack body 300 is a hollow form,
A partition wall 320 dividing the inside into a double space of the outside and the inside;
The first outlet inlet 331 is formed on the inner outer side of the air pack body 300 based on the partition 320, and the air is introduced into or discharged from the outside, and the inner diameter surface of the water supply pipe P is formed. When expanded toward the outer diameter surface of the air pack body 300 is in contact with the inner diameter surface of the water supply pipe (P), the air pack body 300 is fixed to the water supply pipe (P) the first air pack 330; And
A second outlet inlet 341 is formed inside the air pack body 300 based on the partition wall 320, and air is introduced into or discharged from the outside, and an inner center of the water supply pipe P is formed. A second air pack 340 that extends toward and closes the water jet hole 310;
Pipe washing apparatus comprising a. The method of claim 2,
A first outlet line 500 connected to the control device 400 at one end thereof and connected to the first outlet port 331 of the first air pack 330; And
A second outlet line 600 connected to one end of the control device 400 and the other end connected to a second outlet inlet 341 of the second air pack 340; Including;
The second dilution valve 200 includes a through part 220 through which the first outflow line 500 and the second outflow line 600 pass; Pipe cleaning device, characterized in that formed. The method of claim 3,
The control device 400 includes a storage tank in which the washing liquid is stored; Including;
One end is connected to the storage tank 420 while penetrating the through part 220, and the other end is mixed with the washing liquid in a constant flowing through the waterjet hole 310 while being in non-contact with the air pack body 300. Transfer line 700 to transfer the washing liquid to; Pipe washing apparatus comprising a. The method of claim 1,
It is provided at the front end of the air pack body 300 to physically remove the foreign matter accumulated on the inner diameter surface of the water supply pipe (P), the fixed shaft 351 mounted along the edge of the air pack body 300 and A cleaning means 350 having an impeller 352 axially coupled to the fixed shaft 351 and rotated by a constant pressure, and a brush 353 mounted on the outside of the impeller 352;
Pipe washing apparatus comprising a. The method of claim 1,
A camera 360 mounted to a rear end of the air pack body 300 to photograph an inner diameter of the water supply pipe P;
Pipe washing apparatus comprising a. a) Locking the 1st water valve 100 provided upstream of the underground water supply pipe P, opening the 2nd water valve 200 installed downstream of the water supply pipe P, and opening the water supply pipe P First step (S100) for flowing the fluid in the downstream side;
b) After removing the second dilution valve 200 from the water supply pipe (P), the air pack body 300 is inserted into the water supply pipe (P) and the air pack body (300) is connected to the first distillation valve ( A second step (S200) positioned at the side of 100);
c) after assembling the second dilution valve 200 to the water supply pipe P, the air pack main body 300 is connected to a control device 400 having an air compressor 410 provided on the ground, and an air pack Compressed air is injected into the main body 300 to expand the first air pack 330 and the second air pack 340 of the air pack main body 300 to fix the air pack main body 300 to the inside of the water supply pipe P and the waterjet hole ( A third step S300 of closing 310;
d) closing the second dividing valve 200 and opening the first dividing valve 100, and then discharging the air of the second air pack 340 through the control device 400 to release the second air pack 340. When the waterjet hole 310 is opened by shrinking the water jet hole 310, a fourth step of waterjet washing the inside of the water supply pipe P at a constant pressure while mixing the washing liquid with the water passing through the waterjet hole 310 formed in the air pack main body 300 ( S400);
e) a fifth step (S500) of discharging the fluid jetted with water inside the water supply pipe (P) to the ground through the discharge passageway 210 formed in the second water discharge valve 200; And
f) Injecting compressed air into the second air pack 340 through the control device 400 to expand the second air pack 340 to close the waterjet hole 310 and to discharge the air of the first air pack 330. When the first air pack 330 is contracted, a water film is formed between the air pack main body 300 and the water supply pipe P to move the air pack main body 300 toward the second dilution valve 200. );
Pipe cleaning method comprising a. According to claim 7, wherein the air pack body 300 is in the form of a hollow,
A partition wall 320 dividing the inside into a double space of the outside and the inside;
The first outlet inlet 331 is formed on the inner outer side of the air pack body 300 based on the partition 320, and the air is introduced into or discharged from the outside, and the inner diameter surface of the water supply pipe P is formed. When expanded toward the outer diameter surface of the air pack body 300 is in contact with the inner diameter surface of the water supply pipe (P), the air pack body 300 is fixed to the water supply pipe (P) the first air pack 330; And
A second outlet inlet 341 is formed inside the air pack body 300 based on the partition wall 320, and air is introduced into or discharged from the outside, and an inner center of the water supply pipe P is formed. A second air pack 340 that extends toward and closes the water jet hole 310;
Pipe cleaning method comprising a. The method of claim 8,
A first outlet line 500 connected to the control device 400 at one end thereof and connected to the first outlet port 331 of the first air pack 330; And
A second outlet line 600 connected to one end of the control device 400 and the other end connected to a second outlet inlet 341 of the second air pack 340; Including;
The second dilution valve 200 includes a through part 220 through which the first outflow line 500 and the second outflow line 600 pass; Pipe cleaning method characterized in that formed. The method of claim 9,
The control device 400 includes a storage tank in which the washing liquid is stored; Including;
One end is connected to the storage tank 420 while penetrating the through part 220, and the other end is mixed with a constant flowing through the waterjet hole 310 in a non-contact state with the air pack body 300. Transfer line 700 to transfer the washing liquid to; Pipe cleaning method comprising a. The method of claim 7, wherein
It is provided at the front end of the air pack body 300 to physically remove the foreign matter accumulated on the inner diameter surface of the water supply pipe (P), the fixed shaft 351 mounted along the edge of the air pack body 300 and A cleaning means 350 having an impeller 352 axially coupled to the fixed shaft 351 and rotated by a constant pressure, and a brush 353 mounted on the outside of the impeller 352;
Pipe cleaning method comprising a.

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