KR102562704B1 - Cleaning device and cleaning method using a swivel airflow device - Google Patents

Abstract

The present invention relates to a water supply pipe cleaning device and cleaning method using a rotary air flow device, and more particularly, to miniaturize and simplify a connection frame, a sealing cover, and a rotating air flow member coupled to and separated from a T-shaped pipe formed in a fire hydrant or water supply pipe. The structure is improved so that the compressed air and water supplied to the inside of the connecting frame can be mixed with the primary and secondary rotary airflow along the inner and outer rotary airflow blades of the rotary airflow member, so that the water spray Water supply pipe cleaning device and cleaning method using a rotary airflow device that improves cleaning efficiency by 3 to 5 times by generating shock waves as compressed air bubbles burst along the inside of the pipe as the water and air supplied through the nozzle are mixed and hit scale and foreign substances strongly It is about.

Description

Cleaning device and cleaning method using a swivel airflow device {Cleaning device and cleaning method using a swivel airflow device}

The present invention relates to a water supply pipe cleaning device and cleaning method using a rotary air flow device, and more particularly, to miniaturize and simplify a connection frame, a sealing cover, and a rotating air flow member coupled to and separated from a T-shaped pipe formed in a fire hydrant or water supply pipe. The structure is improved so that the compressed air and water supplied to the inside of the connecting frame can be mixed with the primary and secondary rotary airflow along the inner and outer rotary airflow blades of the rotary airflow member, so that the water spray Water supply pipe cleaning device and cleaning method using a rotary airflow device that improves cleaning efficiency by 3 to 5 times by generating shock waves as compressed air bubbles burst along the inside of the pipe as the water and air supplied through the nozzle are mixed and hit scale and foreign substances strongly It is about.

In general, when various fluid transport pipelines, such as water supply for supplying tap water or pipelines for transporting various fluids, are used for a long time after installation, various foreign substances adhere or precipitate on the inner wall surface of the pipe as slime, sludge, etc., or the inside of the pipe As the metal is oxidized, rust and the like are generated, and these are solidified to form a scale layer.

As described above, the foreign matter layer formed by the adhesion and precipitation of foreign substances on the inner surface of various fluid transport pipelines falls off according to the change in flow velocity and direction of the fluid, causing water quality problems, and also slime and scale layers attached to the fluid transport pipeline Since this fluid (tap water) becomes a cause of contamination, the fluid transport line must be periodically cleaned.

Devices and methods for preventing contamination of water supply pipes include devices and methods using rust inhibitors that reduce the corrosion rate by adding a small amount of rust inhibitors to water supply pipes in apartments, etc. There is a magnetic device and method for suppressing scale formation by magnetizing, an electromagnetic device and method for preventing the attachment of metal ions to the pipe wall, an optical engineering device and corona discharge device and method using ultraviolet rays and ozone generators, and a method for removing contaminated pipes. The cleaning methods include Polly-Pig device and method that cleans the inside of the pipe with compressed air or high pressure, sandblast device and method that sprays silica sand at high speed into the pipe, ultrasonic cleaning device and method that uses ultrasonic waves and air shock (scale booster ) and air shock wave cleaning device and method, and chemical cleaning and method using chemicals.

The technology to prevent contamination of water supply pipelines requires high initial implementation and maintenance costs, and most water supply pipes installed in conventionally built buildings do not have pollution prevention technology installed, and the scope of the pipelines is wide, resulting in contamination. Since there are many difficulties in the application of prevention technology, devices and methods for cleaning contaminated pipes are mainly being implemented.

In addition, the sandblasting device and method have a good cleaning effect, but they are more severely damaged depending on the shape, structure, and existing damage of the pipe, so it is difficult to apply them to various types of piping, and the ultrasonic cleaning device and method (scale booster ) and air shock wave cleaning device and method are used to remove soft scale in a local area, but hard scale removal is difficult, construction time is long, and the application length is short. In addition, it is carried out by combining air pressure, but it requires several devices to give water and air pressure, and has a problem that the cleaning process is difficult because it is large.

Republic of Korea Patent Publication No. 10-2191330 to solve the conventional problems, the cleaning method of pipelines such as water supply pipes is a cleaning method for cleaning the inside of pipelines in which shutoff valves are installed at predetermined intervals, the cleaning target between the shutoff valves on both sides In the section, the first step of closing the shutoff valves on both sides and securing one side work hole and the other side work hole connected to the inside of the pipe on one side and the other side of the washing target section, a washing pressure supply device having a compressed air inlet and a water inlet The second step of connecting to the work hole on one side and installing a multi-side on-off valve on the other work hole, supplying water and compressed air from the water inlet and the compressed air inlet to the inside of the pipe in a state in which the other on-off valve is closed Step 3 of increasing the internal pressure of the pipe line, step 4 of opening the other on-off valve in a state where the internal pressure of the pipe line reaches the set value so that the compressed air and water inside the pipe are scattered together and ejected into the other work hole, , The washing pressure supply device includes a structure in which the compressed air inlet and the water inlet are installed, and at the rear side of the compressed air inlet and the water inlet, there is a one-side opening and closing valve for communicating and blocking the inside of the washing pressure supply device with the outside. Step 5 of closing the other open/close valve and increasing the internal pressure of the pipe by supplying water and compressed air from the water inlet and the compressed air inlet to the inside of the pipe after step 4; Step 6 of opening the on-off valve on one side in a state where the internal pressure of the conduit reaches the set value and ejecting the compressed air and water inside the conduit into the work hole on one side together; It is composed of a cleaning method of the pipeline, characterized in that it further comprises.

In the invention of Patent Document 1, when water and compressed air are supplied to the inside of the pipe through the compressed air inlet, the amount of water used increases, resulting in a lot of wastewater, and when the amount of water supplied to the inside of the pipe increases, resistance increases. There is a problem that occurs and the washing power is lowered.

Patent Document 1 has a problem in that the configuration of the device is complicated and large, so it is difficult to move and handle, and it takes a long time to wash and an additional process must be performed due to the problem of not effectively removing foreign substances attached to the pipe.

Recently, in the case of registered patent publication No. 10-2288136 water supply pipe cleaning system and method registered to solve the problems of a device and method for cleaning with compressed air and water, the compressed air generated by the rotary flow generator (2) and the uppermost a cleaning step (S6) of washing the inside of the passage to be cleaned with a mixed water of water introduced into the most upstream valve 4 by opening the valve 4; and a mixing water discharging step (S7) of discharging the washed mixed water from the flow path. Although a water supply pipe cleaning method is registered, Patent Document 2 discloses a spiral rotation space (6a) of the spiral rotor blade (6). ), a rotational flow of compressed air is generated. At this time, the compressed air has a wide width of the rotor blades in the spiral rotation space 6a and a dense moving passage, resulting in air resistance, which slows down the rotational speed and increases the cleaning efficiency due to the loss of rotational force. There is a problem with this fall.

In Patent Document 2, the rotational flow generated in the spiral rotation space 6a is a problem in which the water supplied from the water tank 5 in the horizontal direction to the bottom collides with the inside of the spiral rotation space 6a and is dispersed. There is a problem of dispersing before mixing, and when water is supplied in a state in which rotational power is lost, secondary resistance is generated due to water again due to the specific gravity of water being 100 times higher than that of air, and there is a problem of further reducing rotational power.

In Patent Document 2, when the volume ratio of air and water is changed to 70%: 30%, 50%: 50%, and 30%: 70%, respectively, there is a problem in that the amount of wastewater used increases.

In the case of the hopper-type rotary blade of FIG. 10 of Patent Document 2, as the width narrows while the rotary flow moves along the helical rotation space in the form of a hopper, air accumulates and air resistance occurs, resulting in a loss of rotational force as the rotational speed slows down. There are problems that arise.

Republic of Korea Patent No. 10-2191330 Republic of Korea Patent No. 10-2288136

The present invention is to solve the above conventional problems, an object of the present invention is a structure to miniaturize and simplify a connection frame, a sealing cover, and a rotating air flow member coupled to and separated from a T-shaped pipe formed in a fire hydrant or water supply pipe and improve the structure so that the compressed air and water supplied to the inside of the connecting frame can be mixed with the primary rotary airflow and the secondary rotary airflow along the inner and outer rotary airflow blades of the rotary airflow member through the water spray nozzle. It is to provide a water supply pipe cleaning device using a rotating air flow device so that the supplied water and air are mixed and collide with scale and foreign matter with a whirlwind-like vortex along the inner wall of the pipe to quickly perform the cleaning operation.

Another object of the present invention is to quickly act on the rotational speed of the compressed air supplied to the inside of the connecting frame to quickly mix water and air to generate secondary airflow from the inside and outside along the inner and outer rotating airflow blades of the rotating airflow member, respectively. To provide a water supply pipe cleaning device using a rotary airflow device that generates a shock wave as compressed air bubbles burst along the inside of the pipe to hit scale and foreign matter strongly and improve the cleaning efficiency by 3 to 5 times.

Another object of the present invention is to install a rotating air flow pipe in the center of the upper plate of the rotating air flow member, and to form inner and outer rotating air flow blades on the inside and outside of the rotating air flow pipe, respectively, so that the primary air current generated from the inside and the outer air flow occur from the outside. It is to provide a water supply pipe cleaning device using a rotary air flow device so that the secondary air flow can rotate more quickly while rotating in the same direction.

Another object of the present invention is to rotate the compressed air and water rotating on the circumferential surface of the water spray nozzle so that they can quickly flow into the outer rotating airflow space of the outer rotating airflow vane through a plurality of separation holes formed on the circumferential surface of the top plate. It is to provide a water supply pipe cleaning device using an air flow device.

Another object of the present invention is that it can be applied to both a fire hydrant and a T-shaped pipe of a water supply pipe, and in particular, when a cleaning device cannot be installed on a T-shaped pipe of a water supply pipe, a fire hydrant installed on the ground is separated and attached to a T-shaped pipe of a fire hydrant. It is to provide a water supply pipe cleaning device using a rotary air flow device that can be easily installed and used.

Another object of the present invention is to reduce the installation work time of the cleaning device by providing a simple cleaning device that is mobile and handling, and to reduce the working time that takes more than 1 hour to 20 minutes in the case of conventional cleaning work using water and air. It is to provide a water supply pipe cleaning method that can reduce cleaning costs.

Another object of the present invention is to install a recovery line and a recovery member on the T-shaped pipe at the end of the water supply pipe to quickly recover foreign substances and washing water, thereby omitting the installation work of a filtration device for separating scale and foreign substances. To provide a water supply pipe cleaning device and cleaning method using the device.

In order to achieve the object of the present invention as described above, the water supply pipe cleaning device using the rotary air flow device according to the present invention integrally forms upper and lower flanges on the upper and lower parts of the connecting frame, and the circumferential direction of the connecting frame Accordingly, front and rear compressed air supply pipes are installed at the front and rear to connect to the inside of the connecting frame, valves are installed at the ends of the front and rear compressed air supply pipes, and sealing covers are installed on the upper flange of the connecting frame to connect The inside of the frame is sealed, a water injection nozzle is installed in the center of the sealing cover, and the water injection nozzle is connected to an electronic solenoid valve installed on the top of the sealing cover to supply and block water to the inside, and the water injection nozzle The end of the connecting frame extends into the interior of the connecting frame and the pipe to spray water, install the upper plate of the rotating airflow member at the lower end of the lower flange, and combine the auxiliary connecting frame to the lower end of the upper plate to form a T fixed to the tube,

The rotary airflow member is provided with a rotary airflow pipe installed in the center of the upper plate to extend long to the lower end, a plurality of inner rotary airflow blades installed in a circumferential direction inside the rotary airflow pipe, and a circumferential surface on the circumferential surface of the rotary airflow pipe. A plurality of outer rotating airflow blades are installed in the direction, and an inner rotating airflow space is formed inside the inner rotating airflow blade, so that the compressed air supplied to the front and rear compressed air supply pipes generates a rotating airflow along the water spray nozzle, Water and air supplied from the injection nozzle are mixed to generate a primary airflow into the inner rotating airflow space, and a plurality of separation holes are formed on the inner circumferential surface of the top plate so that the compressed air supplied to the front and rear compressed air supply pipes is sprayed with water. A rotating airflow is generated along the nozzle, and the water and air supplied from the water spray nozzle are mixed to generate a secondary airflow into the outer rotating airflow space formed inside the outer rotating airflow wing, and the primary airflow formed from the inside and the second airflow generated from the outside It is characterized in that the water and air of the secondary air flow are mixed and cleaned while colliding with scale and foreign substances with a whirlwind-like vortex along the inner wall of the pipe.

The connection frame, the sealing cover, and the rotating airflow member of the present invention are characterized in that they can be installed in any one of a T-shaped pipe formed in a fire hydrant or a T-shaped pipe formed in a water supply and sewage pipe.

The sealing cover of the present invention is coupled with the upper flange of the connecting frame with bolts to seal the inside of the connecting frame, integrally forms a water spray nozzle in the center of the sealing cover, and installs an electronic solenoid valve on the protruding part at the top, , The lower end extends vertically longer than the lower compressed air supply pipe to inject water into the connecting frame and the inside of the pipe, and the compressed air generates a rotating airflow along the circumference of the water spray nozzle, so that the water and air sprayed from the water spray nozzle move quickly. It is characterized in that it is mixed with time and moves along the inner wall of the pipe.

The rotary airflow member of the present invention installs an upper plate at the lower end of the lower flange and fixes it with bolts, installs a rotary airflow pipe in the center of the upper plate, extends to the lower end, and has a plurality of rotary airflow pipes in the circumferential direction inside the pipe. Inner rotary airflow vanes are installed, and a plurality of outer rotary airflow vanes are installed in the circumferential direction on the circumferential surface of the rotary airflow pipe to generate airflow from the inside and outside, respectively, and the inside of the inner and outer rotary airflow vanes. By forming a plurality of inner and outer rotating airflow spaces, the compressed air supplied to the front and rear compressed air supply pipes generates a rotating airflow along the water spray nozzle, and the water and air supplied from the water spray nozzle are mixed with the inner and outer rotating airflow Air currents are generated in the same direction along the space, and the water and air of the primary airflow generated from the inside and the secondary airflow generated from the outside are mixed and washed while colliding with scale and foreign substances with a vortex phenomenon such as a whirlwind along the inner wall of the pipe. It is characterized by making it possible.

According to the present invention as described above, the present invention has the effect of improving the structure so that the size and simplification of the connection frame and the sealing cover coupled to and separated from the T-shaped pipe formed in the fire hydrant or water supply pipe, and the interior of the connection frame The compressed air and water supplied are improved in structure so that the primary and secondary rotary airflow can be mixed along the inner and outer rotary airflow blades of the rotary airflow member, and the water and air supplied through the water spray nozzle are mixed and It has the effect of quickly performing cleaning work by colliding with scale and foreign substances due to a whirlwind-like vortex along the wall.

In the present invention, compressed air and water supplied to the inside of the connecting frame are rapidly mixed with water in the inner and outer rotating air flow spaces of the rotating air flow member, and compressed air bubbles burst along the inside of the pipe to generate a shock wave to generate a scale formed on the inner wall of the pipe. And it has the effect of improving the cleaning efficiency by 3 to 5 times by hitting foreign substances strongly.

In the present invention, a rotating air flow pipe is installed in the center of the upper plate of the rotating air flow member, and inner and outer rotating air flow blades are formed on the inside and outside of the rotating air flow pipe, respectively, so that the primary airflow generated from the inside and the secondary airflow generated from the outside are formed. has the effect of allowing it to rotate more quickly while rotating in the same direction.

The present invention has the effect of allowing the compressed air and water rotating on the circumferential surface of the water spray nozzle to quickly flow into the outer rotating airflow space of the outer rotating airflow vane through a plurality of separation holes formed on the circumferential surface of the upper plate.

The present invention has the effect of solving the conventional problem of a lot of wastewater by minimizing the use of water while forming a strong swirling airflow inside the pipe by firing compressed air supplied to the inside of the pipe and the connecting frame at a speed of 15 to 20 m/s. there is

The present invention can be applied to both a fire hydrant and a T-shaped pipe of a water supply pipe, and in particular, when a cleaning device cannot be installed on a T-shaped pipe of a water supply pipe, a fire hydrant installed on the ground can be separated and easily installed in a T-shaped pipe of a fire hydrant. There are possible effects.

The present invention reduces the installation work time of the cleaning device by providing a cleaning device that is easy to move and handle, and reduces the cleaning cost by reducing the work time that takes more than 1 hour to 20 minutes in the case of conventional cleaning work using water and air. There are effects that can be done.

The present invention has the effect of omitting the installation work of a filtration device for quickly recovering foreign substances and washing water by installing a recovery line and a recovery member in the T-shaped pipe at the end of the water supply pipe to separate scale and foreign substances.

1 is a diagram illustrating the entire operation of the washing device of the present invention in a state in which a fire hydrant is separated.
Figure 2 is a schematic diagram of the overall operation of the cleaning device and cleaning method.
Figure 3 is an enlarged plan view of a part of the present invention connection frame and the front and rear compressed air supply pipes.
Figure 4 is a partially enlarged view showing the operating state of the cleaning device of the present invention.
Figure 5 is a plan configuration diagram of the rotating air flow member of the present invention.
Figure 6 is a perspective view of the rotary air flow member of the present invention.
7 is a partially enlarged view showing an operating state of another embodiment of the cleaning device of the present invention.

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

1 to 7, the present invention seals the inside of the connection frame 10 by coupling the sealing cover 20 to the upper end of the connection frame 10 installed in the T-shaped pipe of the fire hydrant or water supply pipe, When compressed air is supplied from the front and rear compressed air supply pipes 13 and 14 that transport the water supplied from the water injection nozzle 21 installed inside the sealing cover 20 to the inside of the pipe, the compressed air is a water injection nozzle (21) While rapidly rotating along the inner and outer rotating airflow spaces 35 and 37 of the swirling airflow member 30 installed at the bottom, water and compressed air are fired at a speed of 15 to 20m/s to generate powerful air inside the tube. It is characterized in that scale and foreign substances formed on the inner wall of the pipe are washed by generating shock waves as compressed air bubbles are burst by the air flow.

The connection frame 10 forms upper and lower flanges 11 and 12 at the top and bottom, respectively, and front and rear compressed air supply pipes 13 at the front and rear along the circumferential direction of the connection frame 10 (14) is installed,

The front and rear compressed air supply pipes 13 and 14 have one end connected to the valve 15 and the other end connected to the inside of the connection frame 10 to supply compressed air to the inside of the connection frame 10, The compressed air supplied to the front and rear compressed air supply pipes 13 and 14 rapidly rotates along the circumferential surface of the water spray nozzle 21 to be described later, and rotates inside and outside the rotating air flow space 35 of the swirling air flow member 30 While rotating quickly along (37), while improving the rotational speed and moving speed, a double swirling airflow is generated from the inside and outside, so that water and air are mixed in a quick time and impacted on scale and foreign substances to be cleaned.

A sealing cover 20 is installed on the upper flange 11 of the connecting frame 10 to seal the inside of the connecting frame 10, and the sealing cover 20 is the upper flange 11 of the connecting frame 10. ) and bolts, and the water spray nozzle 21 is integrally formed in the center of the sealing cover 20, and the electronic solenoid valve 22 is installed on the protruding part to the top to connect the frame 10 and Water is supplied and blocked to the inside of the pipe, and the lower end extends vertically longer than the front and rear compressed air supply pipes 13 and 14 to spray water into the connection frame 10 and the inside of the pipe, and the front and rear compressed air supply pipes (13) The compressed air supplied to (14) rotates along the circumferential surface of the water spray nozzle 21, and the upper plate 31 of the rotating airflow member 30 is installed on the lower flange 12 of the connection frame 10. This is in close contact, and the lower end of the top plate 31 is fixed to the first flange 38a of the auxiliary connecting frame 38 with bolts, and the second flange 38b formed at the lower end of the auxiliary connecting frame 38 is water supply. It is fixed with bolts to the T-shaped tube of the tube.

The rotary airflow member 30 has a rotary airflow pipe 32 installed at the center of the top plate 31 to extend long to the lower end, and a plurality of inner rotary airflow blades in the circumferential direction inside the rotary airflow pipe 32 (33) is installed, and a plurality of outer rotating air flow blades 34 are installed in the circumferential direction on the circumferential surface of the rotating air flow pipe 32 to generate air flow from the inside and outside, respectively, and the inside and outside rotation A plurality of inner and outer rotating air spaces 35 and 37 are formed inside the air flow blades 33 and 34, so that compressed air supplied to the front and rear compressed air supply pipes 13 and 14 is supplied to the water spray nozzle ( 21), the water and air supplied from the water spray nozzle 21 are mixed, and the air flows in the same direction along the inner and outer rotating air spaces 35 and 37, and the primary air flow is formed from the inside. and the water and air of the secondary airflow generated from the outside are mixed so that it can be cleaned while colliding with scale and foreign substances with a vortex phenomenon such as a whirlwind along the inner wall of the pipe, and a plurality of It is characterized by forming a separation hole 36 so that compressed air and water can be separated into internal and external rotating air flow spaces 35 and 37 through the separation hole 36.

By minimizing the amount of compressed air supplied to the front and rear compressed air supply pipes 13 and 14 and the water supplied to the water spray nozzle 21, it is possible to reduce the time and cost of conventional wastewater treatment, The compressed air supplied to the front and rear compressed air supply pipes 13 and 14 is water sprayed while generating the primary swirling airflow along the inner rotating airflow space 35 formed inside the inner rotating airflow wing 33 located in the center. The water and air supplied from the nozzle 21 are rapidly mixed and rotated, and the compressed air dispersed outside generates a secondary swirling air flow along the outer rotating air flow space 37 formed inside the outer rotating air flow blade 34. As the inner and outer swirling airflows rotate in the same direction, air and water are rapidly mixed, and the water and compressed air supplied to the inside of the pipe are fired at 15 to 20 m/s per second. And there is a feature that can be cleaned by increasing the internal frictional force while colliding with foreign substances.

The present invention is characterized by isolating the inner rotating air flow blades 33 and the outer rotating air flow blades 34 so that the compressed air and water can quickly form a swirling air flow, and the double swirling air flow generated from the inside and outside It is characterized by being able to enter the inside of the pipe while rapidly mixing together in the same rotational direction.

1 is a configuration diagram showing the use of a washing device in a state in which a fire hydrant is separated, and FIG. 2 is a configuration diagram showing a state in which it is applied and used to water and sewer pipes. It has a characteristic.

Figure 7 is a partial cross-sectional view of an operating state showing another embodiment of the cleaning device of the present invention, the connection frame 100 coupled to the upper end of the rotation air flow member 300 having the same structure as the rotation air flow member 30 described above and the connection frame Since only the configuration of the control member 200 for supplying compressed air and water to the inside of the 100 is different, the overall structure is the same, so descriptions of the same parts are omitted, and the connection coupled to the upper end of the rotating air flow member 300 The frame 100 and the control member 200 have a feature that can be conveniently installed anywhere in a structure that can be changed in various ways.

The water supply pipe cleaning device and cleaning method using the rotary air flow device according to the present invention configured as described above operates as follows.

As shown in FIG. 1, the installation step of the washing device applied to the water supply and sewage pipes, or the installation step of the washing device applied to the water supply and sewer pipes as shown in FIG. The second flange (38b) of the auxiliary connection frame (38) is fixed with bolts, or the second side of the auxiliary connection frame (38) is attached to the flange of the T-shaped pipe in a state where the inside of the pipe is blocked by installing valves at both ends of the water supply pipe. The flange 38b is fixed with bolts, and the recovery line 41 of the recovery member 40 is installed in the T-shaped tube formed at the opposite end where the auxiliary connection frame 38 is installed to provide a water spray nozzle 21 to be described later. ), it is characterized in that it is possible to omit the conventional wastewater treatment and the installation work of a filtration device for treating scale and foreign substances by quickly recovering the water supplied from the pipe and the scale and foreign substances washed inside the pipe, and the auxiliary connection At the top of the frame 38, the swirling air flow member 30, the connection frame 10, and the sealing cover 20 are fixed with bolts to perform the following operation while the inside of the connection frame 10 is sealed.

The scale and foreign substances formed on the inner wall of the water supply pipe remain attached to the inner wall in an irregular shape as scale and foreign substances such as iron and manganese accumulate for a long time, and the foreign substance washing step for washing these foreign substances is performed in the airtight seal. The amount of water supplied to the electronic solenoid valve 22 located at the top of the cover 20 is controlled so that compressed air supplied to the inside of the connection frame 10 can be supplied to the connection frame 10 through the water spray nozzle 21 When water is sprayed into the pipe and compressed air is supplied through the front and rear compressed air supply pipes 13 and 14 and the valve 15 installed at the top and bottom along the circumferential direction of the connection frame 10, compressed air The water spray nozzle 21 continuously generates the first and second rotational airflow from the inside and outside along the inner and outer rotating airflow blades 33 and 34 of the rotating airflow member 30 installed at the lower end of the water spray nozzle 21 The water and air supplied from (21) are mixed and cleaned while colliding with scale and foreign substances with a whirlwind-like vortex along the inside wall of the pipe.

The water supplied from the water spray nozzle 21 of the cleaning device is sprayed in a vertical direction, while the compressed air supplied from the front and rear compressed air supply pipes 13 and 14 runs along the circumferential surface of the water spray nozzle 21. While rotating, the inner and outer rotating airflow blades (33, 34) are mixed and the rotational speed and moving speed are doubled to form a double swirling airflow, while water and compressed air are fired into the pipe at a speed of 15 to 20m/s per second. It is characterized by a 3 to 5 times improvement in the cleaning effect of scale and foreign substances because a shock wave is generated when compressed air bubbles burst by forming a strong rotating airflow inside.

In the final step of completing the cleaning step of the scale and foreign substances and recovering the wastewater and foreign substances inside the pipe, while continuously generating a vortex phenomenon such as a whirlwind along the wall inside the pipe, the scale and foreign substances are continuously washed while moving along the inside of the pipe, , Compressed air and water turning along the inside of the pipe can quickly recover water and foreign substances through the recovery line 41 installed in the opposite T-shaped pipe, and the water used to wash the scale and foreign substances It is characterized by reducing the cost of water use by minimizing the use of wastewater by using it to a minimum.

The washing device of the present invention is characterized in that it can reduce the overall work time required for the work and the work time required for the work by quickly performing the coupling and separation work to the T-shaped pipe, and the shopping mall connection frame 10, sealing The coupling and separation operations of the member 20 and the rotating air flow member 30 are also simple, so it is easy to move and handle.

The water supply pipe cleaning device and cleaning method using the rotary airflow device according to the present invention described above are not limited to the above-described embodiments, and the field to which the present invention belongs without departing from the gist of the present invention claimed in the following claims. The technical spirit is there to the extent that anyone with ordinary knowledge can make various changes and implement it.

10: connecting frame 11: upper flange
12: lower flange 13: upper compressed air supply pipe
14: lower compressed air supply pipe 15: valve
20: airtight cover 21: water spray nozzle
22: electronic solenoid valve 30: rotating air flow member
31: top plate 32: rotating air flow pipe
33: inner rotating airflow blades 34: outer rotating airflow blades
35: inner rotating airflow space 36: separation hole
37: outer rotating airflow space 38: auxiliary connection frame
38a: first flange 38b: second flange
40: recovery member 41: recovery line

Claims (10)

Upper and lower flanges 11 and 12 are integrally formed on the upper and lower parts of the connection frame 10, and front and rear compressed air supply pipes 13 are provided at the front and rear along the circumferential direction of the connection frame 10 14 is installed to connect to the inside of the connecting frame 10, valves 15 are installed at the ends of the front and rear compressed air supply pipes 13 and 14, and the upper flange of the connecting frame 10 A sealing cover 20 is installed in (11) to seal the inside of the connection frame 10, and a water spray nozzle 21 is installed in the center of the sealing cover 20, and the water spray nozzle 21 It connects with the electronic solenoid valve 22 installed on the top of the sealing cover 20 to supply and block water to the inside, and the end of the water spray nozzle 21 extends into the inside of the connection frame 10 to connect the frame (10) and spraying water to the inside of the pipe, installing the upper plate 31 of the rotating air flow member 30 at the lower end of the lower flange 12, the auxiliary connecting frame 37 at the lower end of the upper plate 31 Combined and fixed to the T-shaped pipe,
The rotary airflow member 30 has a rotary airflow pipe 32 installed at the center of the top plate 31 to extend long to the lower end, and a plurality of inner rotary airflow blades in the circumferential direction inside the rotary airflow pipe 32 ( 33) is installed, a plurality of outer rotating air flow blades 34 are installed in the circumferential direction on the circumferential surface of the rotating air flow pipe 32, and an inner rotating air flow space 35 is installed inside the inner rotating air flow blades 33. ) is formed so that the compressed air supplied to the front and rear compressed air supply pipes 13 and 14 generates a rotating airflow along the water spray nozzle 21, and the water and air supplied from the water spray nozzle 21 are mixed to form the inner A primary airflow is generated in the rotating airflow space 35, and a plurality of separation holes 36 are formed on the inner circumferential surface of the top plate 31 to compress the compressed air supplied to the front and rear compressed air supply pipes 13 and 14. The air generates a rotating airflow along the water spray nozzle 21, and the water and air supplied from the water spray nozzle 21 are mixed to form a secondary outer rotating airflow space 37 formed inside the outer rotating airflow blade 33. Rotating airflow device that generates airflow and mixes the water and air of the primary airflow from the inside and the secondary airflow from the outside to clean while colliding with scale and foreign substances with a whirlwind-like vortex along the inside wall of the pipe Water pipe cleaning device using. The method of claim 1, wherein the connection frame 10, the sealing cover 20, and the rotating airflow member 30 can be installed in either a T-shaped pipe formed in a fire hydrant or a T-shaped pipe formed in a water supply and sewage pipe. Water supply pipe cleaning device using a single rotary air flow device. The method of claim 1, wherein the sealing cover 20 is coupled with the upper flange 11 of the connecting frame 10 with bolts to seal the inside of the connecting frame 10, and is located at the center of the sealing cover 20. The water spray nozzle 21 is integrally formed to install the electronic solenoid valve 22 on the protruding part at the top, and the lower end extends vertically longer than the lower compressed air supply pipe 14 to connect the frame 10 and the inside of the pipe By spraying water into the part, the compressed air generates a rotating airflow along the circumferential surface of the water spray nozzle 21 so that the water and air sprayed from the water spray nozzle 21 are mixed in a quick time to move along the inner wall of the pipe Water supply pipe cleaning device using a rotating air flow device. The method of claim 1, wherein the rotating air flow member (30) has a top plate (31) installed at the lower end of the lower flange (12) and fixed with bolts, and a rotating air flow pipe (32) at the center of the top plate (31). Installed and extended to the lower end, a plurality of inner rotary air vanes 33 are installed in the circumferential direction inside the rotary air flow pipe 32, and a plurality of inner rotary air vanes 33 are installed in the circumferential direction of the rotary air flow pipe 32. An outer rotating air flow blade 34 is installed to generate air flow from the inside and outside, respectively, and a plurality of inner and outer rotating air flow spaces 35 ( 37) is formed so that the compressed air supplied to the front and rear compressed air supply pipes 13 and 14 generates a rotating airflow along the water spray nozzle 21, and the water and air supplied from the water spray nozzle 21 are mixed. Air currents are generated in the same direction along the inner and outer rotating airflow spaces (35, 37), and the water and air of the primary airflow formed from the inside and the secondary airflow generated from the outside are mixed together along the inner wall surface of the pipe to create a whirlwind. A water supply pipe cleaning device using a rotating air flow device that can be cleaned while colliding with scale and foreign substances due to the vortex phenomenon. A control member is installed on the circumferential surface of the connection frame 100 with flanges formed on the upper and lower parts to spray compressed air and water into the connection frame 100, and the flange formed on the lower end of the connection frame 100. Install the top plate 310 of the rotating airflow member 300 on the top plate 310, and combine the auxiliary connection frame 370 to the lower end of the top plate 310 to fix it to the T-shaped pipe formed in the water supply pipe,
The rotary airflow member 300 has a rotary airflow pipe 320 installed at the center of the top plate 310 to extend long to the lower end, and a plurality of inner rotary airflow blades in the circumferential direction inside the rotary airflow pipe 320 ( 330) is installed, a plurality of outer rotating air flow blades 340 are installed in the circumferential direction on the circumferential surface of the rotating air flow pipe 320, and an inner rotating air flow space 350 is installed inside the inner rotating air flow blade 330. ) to form a mixture of water and air supplied from the connection frame 100 to generate a primary airflow to the inner rotating airflow space 350, and a plurality of separation holes 360 on the inner circumferential surface of the top plate 310 Formed and the water and air supplied from the connection frame 100 are mixed to generate a secondary airflow to the outer rotational airflow space 370 formed inside the outer rotational airflow blade 330, and the primary airflow formed from the inside and the outside A water supply pipe cleaning device using a rotary airflow device that allows the water and air of the secondary airflow to be mixed and cleaned while colliding with scale and foreign substances with a vortex phenomenon such as a whirlwind along the inner wall of the pipe. The method of claim 5, wherein the connection frame 100, the sealing cover 200, and the rotating air flow member 300 can be installed in any one of a T-shaped pipe formed in a fire hydrant or a T-shaped pipe formed in a water supply and sewage pipe. Water supply pipe cleaning device using a single rotary air flow device. The method of claim 5, wherein the rotary air flow member 300 is fixed by bolts by installing the upper plate 310 on the lower end of the lower flange, and installing the rotary air flow pipe 320 in the center of the upper plate 310 to the lower end. Extending long, a plurality of inner rotating air flow blades 330 are installed in the circumferential direction inside the rotating air flow pipe 320, and a plurality of outer rotating air flow blades are installed on the circumferential surface of the rotating air flow pipe 320 in the circumferential direction. 340 is installed to generate air flow from the inside and outside, respectively, and a plurality of inner and outer rotating air flow spaces 350 and 370 are formed inside the inner and outer rotating air flow blades 330 and 340. The water and air supplied from the connection frame 100 are mixed to generate airflow in the same direction along the inner and outer rotating airflow spaces 350 and 370, so that the primary airflow formed from the inside and the secondary airflow generated from the outside A water supply pipe cleaning device using a rotary airflow device that allows water and air to be mixed and cleaned while colliding with scale and foreign substances with a whirlwind-like vortex along the inner wall of the pipe. The lower flange 12 of the connection frame 10 is fixed to either one of the T-shaped pipes formed in the fire hydrant or water supply pipe with bolts, and the sealing cover 20 is fixed to the upper flange 11 with bolts to connect the frame 10 ) Installing a washing device to seal the inside of the;
The water supplied to the electronic solenoid valve 22 located at the top of the sealing cover 20 controls the compressed air supplied to the inside of the connection frame 10 and connects the connection frame 10 and the inside of the pipe through the water spray nozzle 21. When water is sprayed into the unit and compressed air is supplied through the front and rear compressed air supply pipes 13 and 14 and valves installed along the circumferential direction of the connection frame 10, the compressed air is supplied to the circumferential surface of the water spray nozzle 21 Rotating airflow is generated along the inside of the inner and outer rotating airflow blades 33 and 34 formed in the rotating airflow pipe 32 of the rotating airflow member 30 by mixing water and air supplied from the water spray nozzle 21 , While generating swirling airflow along the outer rotating airflow space (35) (37), the water and air of the primary airflow formed from the inside and the secondary airflow generated from the outside are mixed to create a vortex phenomenon such as a whirlwind along the inner wall of the pipe. A foreign substance washing step of cleaning while colliding with scale and foreign substances;
Compressed air and water rotating along the inner and outer rotating air flow blades 33 and 34 of the rotating air flow member 30 are placed at the lower end of the top plate 31 to generate secondary air currents in the same rotational direction from the inside and outside. By installing the auxiliary connection frame 38, air particles and water are rapidly mixed with each other at a high flow rate, doubling the impact with foreign substances, and moving along the inside of the pipe while quickly washing foreign substances, and the compressed air and water turning along the inside of the pipe A finishing step of recovering water and foreign substances through the recovery member 40 of the recovery line 41 installed in the opposite T-shaped tube;
Water supply pipe cleaning method using a rotary air flow device, characterized in that consisting of. The method of claim 8, wherein the sealing cover (20) is coupled with the upper flange (11) of the connection frame (10) with bolts to seal the inside of the connection frame (10), and is located at the center of the sealing cover (20). The water spray nozzle 21 is integrally formed to install the electronic solenoid valve 22 on the protruding part at the top, and the lower end extends vertically longer than the lower compressed air supply pipe 14 to connect the frame 10 and the inside of the pipe By spraying water into the part, the compressed air generates a rotating airflow along the circumferential surface of the water spray nozzle 21 so that the water and air sprayed from the water spray nozzle 21 are mixed in a quick time to move along the inner wall of the pipe Water supply pipe cleaning method using a rotating air flow device. The method of claim 8, wherein the rotary air flow member (30) has an upper plate (31) installed at the lower end of the lower flange (12) and fixed with bolts, and a rotary air flow pipe (32) is installed at the center of the upper plate (31). Installed and extended to the lower end, a plurality of inner rotary air vanes 33 are installed in the circumferential direction inside the rotary air flow pipe 32, and a plurality of inner rotary air vanes 33 are installed in the circumferential direction of the rotary air flow pipe 32. An outer rotating air flow blade 34 is installed to generate air flow from the inside and outside, respectively, and a plurality of inner and outer rotating air flow spaces 35 ( 37) is formed so that the compressed air supplied to the front and rear compressed air supply pipes 13 and 14 generates a rotating airflow along the water spray nozzle 21, and the water and air supplied from the water spray nozzle 21 are mixed. Air currents are generated in the same direction along the inner and outer rotating airflow spaces (35, 37), and the water and air of the primary airflow formed from the inside and the secondary airflow generated from the outside are mixed together along the inner wall surface of the pipe to create a whirlwind. A water supply pipe cleaning method using a rotating airflow device that allows cleaning while colliding with scale and foreign substances by vortex phenomenon.