KR102746112B1 - Pipeline cleaning and vacuum suction device and its construction method - Google Patents

Abstract

The present invention provides a pipe cleaning and vacuum suction device, wherein after a vacuum suction pipe (21) connected to one side of a blocking disk (42) is connected to a vacuum suction space (25) of a vacuum suction device (20), a water supply pipe (11) is led into a pipe (41) through the vacuum suction pipe (21) and connected to a cleaning device (10). The pipe cleaning and vacuum suction device comprises: a cleaning device (10) in which a propulsion nozzle (13) for supplying cleaning water for cleaning the inner wall of the pipe (41), a rotary body (16) is connected to the front and a traction rope (51) connected to a rope connector (17) is connected to a winch (50); and the vacuum suction device (20) in which the vacuum suction space (25) connected to the vacuum suction pipe (21) is separated from a reel installation space (24) so that the water supply pipe (11) is installed in a pipe supply reel (30) to control supply, and a vacuum pump (27) connected to the vacuum suction space (25) vacuum-suctions contaminants in the pipe (41). The present invention provides an effect of removing sludge and scale on the inner diameter of a pipeline by supplying compressed water and spraying the compressed water toward the pipeline in a direction opposite to the traveling direction of the cleaning device, and providing a driving force for the cleaning device to move through the spraying of the compressed water.

Description

Pipeline cleaning and vacuum suction device and its construction method

The present invention relates to a pipe cleaning and vacuum suction device and a method thereof, and more specifically, to a pipe cleaning and vacuum suction device and a method thereof, which performs cleaning by removing sludge and scale on the inner diameter while moving along a pipe by obtaining propulsion by the force of compressed water supplied from the outside of a manhole and sprayed forward or according to field conditions, and which can suction the cleaning water and sludge contaminants generated during cleaning in a vacuum state and transport them to the outside.

When water pipes are used for a long time after installation, the inside of the pipes oxidizes, and contaminants such as sludge and scale are created on the inner wall of the pipe. These contaminants become thicker over time and interfere with the flow of fluid, increasing the energy consumption required for hazardous transport. In addition, problems such as red water caused by sludge and scale are known to be one of the biggest causes of complaints.

To solve the above problems, various pipelines are being maintained at regular intervals. Maintenance methods include pipeline replacement, A/S (Air Sand) method, and air injection cleaning method.

In the case of pipe replacement, there is damage to the building, noise, long water outage period, and high construction cost, so A/S method and air injection cleaning method are currently being widely implemented.

The A/S method is a method that extends the life of the pipeline semi-permanently by dismantling valves and flanges, etc. without destroying the structure, drying the inside of the pipe with high-pressure air, mixing high-pressure air and abrasive (silica sand) to clean the inside of the pipe, and coating the inside of the pipe with epoxy resin paint for water supply that is harmless to the human body. However, this A/S method has the problem that there is a risk of damage to the parent material of the pipeline (there is a risk of cracks or breakage depending on the condition of the aged pipeline), it is difficult to apply to bent pipes, etc., and it can only be applied to steel pipes.

The air injection cleaning method is to close the valve at the rear of the existing pipeline, adjust the valve at the front of the pipeline to supply a certain amount of water for cleaning, and then inject compressed air for cleaning. Then, the injected compressed air moves to the rear of the pipeline, cleaning the inside of the pipeline, and the water being cleaned is discharged through a fire extinguisher at the rear of the pipeline.

The compressed air used in the air injection cleaning method operates below the static operating pressure of the existing pipeline, so it has the advantage of having a low possibility of pipe damage.

However, in the air injection cleaning method, the cleaning process is carried out simply by passing the incoming compressed air through the pipe, so there is a disadvantage in that the cleaning effect is relatively low as it goes towards the rear of the pipe.

Another conventional cleaning method is to remove the water inside the pipes to clean the inside of the pipes.

However, due to the nature of water pipe cleaning work that must be completed within a limited time (usually in the early morning hours), this cleaning method has the problem that it takes time to remove water from water pipes, especially when the diameter of the water pipe is large. In addition, after cleaning is completed, there is a problem that additional time is required because the process of running water again to remove cleaning residue is necessary.

In particular, in the past, when applying the above-mentioned cleaning method, when the cleaning device moves along the pipeline, a bending drive must be provided to bend the body or a part thereof in order to move a part having various bends. However, since the cleaning device is configured in a straight shape, bending and deformation, etc. cannot occur, so it cannot bend, and thus the cleaning work can no longer be performed while moving, causing many difficulties in performing the cleaning work of the pipeline.

In addition, there was a problem that the contaminants generated while removing sludge and scale from the pipes were mixed with water on the floor, so they had to be discharged to the outside to be removed, and the removal work had to be done above ground so as not to be discharged to the outside of the pipes and to prevent contamination.

[Document 1] Patent Registration No. 1525348 (registered on May 27, 2015) [Document 2] Patent Registration No. 2248297 (Registered on April 28, 2021) [Document 3] Patent Registration No. 2278567 (registered on July 12, 2021) [Document 4] Patent Registration No. 1193801 (registered on October 16, 2012)

Accordingly, the present invention was devised to solve the problems of the past, and the solution thereof is to supply compressed water and spray it toward the pipe in the opposite direction to the direction of movement of the cleaning device, thereby removing sludge and scale within the inner diameter of the pipe and providing propulsive force at the same time.

Another problem of the present invention is to connect a towing rope to a winch at the front of a cleaning device so that it can move, and to install a rotating body at the front so that sludge and scale on the inner diameter of a pipe can be removed according to on-site conditions.

Another object of the present invention is to install a vacuum suction device that removes contaminants such as water, sludge, and scale from a pipe by suctioning them in a vacuum state.

The present invention provides a cleaning device that cleans by supplying water and a rotating body after draining the water by disconnecting the pipe.

Attach the blocking plates to both flanges of the drained pipe;

After the vacuum suction pipe connected to one side of the above-mentioned blocking plate is connected to the vacuum suction space of the vacuum suction device, the water supply pipe enters the pipe through the vacuum suction pipe and is connected to the cleaning device;

A cleaning device having a propelling nozzle that supplies cleaning water to clean the inner wall of the above-mentioned pipe and a rotating body connected to the front, and a towing rope connected to a rope connection port and connected to a winch;

The vacuum suction space to which the above vacuum suction pipe is connected is separated from the reel installation space, the water supply pipe is installed in the pipe supply reel to control the supply, and the vacuum pump connected to the above vacuum suction space is configured as a vacuum suction device that vacuum-sucks sludge in the pipe.

The above cleaning device is characterized in that a plurality of propulsion nozzles are installed in a cylindrical body inclined in a rearward direction to remove sludge and scale and generate propulsive force, and a rotating shaft is installed connected to a rotating propulsion body installed at the front of the body, and a towing rope is connected to a rope connection port at the center.

The above vacuum suction device is characterized in that the other direction of the vacuum suction pipe connected to the vacuum suction space is connected to a blocking plate connected to the flange of the pipe, and an insertion hole is formed in the vacuum suction pipe into which a water supply pipe is inserted and then connected to a cleaning device at the tip of the vacuum suction pipe.

The above vacuum suction device is characterized in that the vacuum tank is separated into a reel installation space and a vacuum suction space, and a pipe supply reel having a water supply pipe wound around the reel installation space is connected to a driving motor.

The above vacuum suction device is characterized in that a vacuum suction pipe is connected to a vacuum suction space, a drain pipe is installed at the bottom, and a vacuum pump is connected through a valve at the top.

After blocking the water supply and drainage of the pipe and performing the water drainage step, the pipe cleaning step is performed to clean the inside of the pipe.

A pipe internal injection stage in which a water draining stage is performed, a towing rope connected to a winch is connected to a rope connection port, and a cleaning device with a water supply pipe connected to the body is inserted into the pipe;

A pipeline blocking step in which a blocking plate is attached to a manhole on both flanges of the pipeline to block the pipeline;

A cleaning device towing step in which cleaning water is supplied to the cleaning device from the above water supply pipe, sprayed backwards from the propulsion nozzle to remove sludge and scale, and propulsion is obtained, and the forward rope pulls the cleaning device through a winch;

A pipe cleaning step in which washing water is supplied from the above-mentioned propulsion nozzle and the rotating shaft is rotated by a motor to rotate the rotating body and remove sludge and scale;

It includes performing a pipe inner diameter sludge vacuum suction step in which the above sludge and scale are removed and the generated contaminants are sucked into a vacuum suction space by a vacuum suction pipe in a vacuum state of the pipe using a vacuum pump.

The present invention provides an effect in which compressed water is supplied and sprayed toward a pipe in a direction opposite to the direction in which a cleaning device is moving, thereby removing sludge and scale within the inner diameter of the pipe, and providing a driving force for the cleaning device to move through the spraying of compressed water.

The present invention enables the cleaning device to move along the shapes of various pipelines by controlling a towing rope connected to the front of the cleaning device from a winch, and provides the effect of removing sludge and scale from the inner diameter of the pipeline by installing a rotating body at the front and rotating according to on-site conditions.

The present invention provides the effect of removing contaminants in a state where water, sludge and scale are removed from a pipe by suctioning them with a vacuum suction device in a vacuum state, and easily supplying water through a reel having a water supply pipe installed to the vacuum suction device.

Figure 1 is a cross-sectional view showing an installation state of a preferred embodiment of the present invention.
Figure 2 is a front view of the installation state inside a manhole for the pipeline of the present invention.
Figure 3 is a partial front cross-sectional view showing the installation state of the cleaning device of the present invention.
Figure 4 is a side cross-sectional view showing the installation state of the cleaning device of the present invention.
Figure 5 is a cross-sectional view of the reel installation state for the vacuum suction device of the present invention.
Figure 6 is a side cross-sectional view of the installation state of the vacuum suction device of the present invention.
Figure 7 is a block diagram showing a preferred pipe cleaning method of the present invention.

It should be noted that the technical terms used in the present invention are only used to describe specific embodiments and are not intended to limit the present invention. In addition, the technical terms used in the present invention should be interpreted as having a meaning generally understood by a person having ordinary skill in the technical field to which the present invention belongs, unless specifically defined to have a different meaning in the present invention, and should not be interpreted in an excessively comprehensive or excessively narrow meaning. In addition, when the technical terms used in the present invention are incorrect technical terms that do not accurately express the idea of the present invention, they should be replaced with technical terms that can be correctly understood by a person skilled in the art and understood. In addition, the general terms used in the present invention should be interpreted as defined in the dictionary or according to the context, and should not be interpreted in an excessively narrow meaning.

In addition, the singular expressions used in the present invention include plural expressions unless the context clearly indicates otherwise. The terms "consisting of" or "comprising" in the present invention should not be construed as necessarily including all of the various components or various steps described in the invention, and should be construed as meaning that some of the components or some of the steps may not be included or may further include additional components or steps.

Also, terms including ordinal numbers such as first, second, etc. used in the present invention may be used to describe components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. Regardless of the drawing symbols, identical or similar components are given the same reference numerals and redundant descriptions thereof will be omitted.

In addition, when describing the present invention, if it is judged that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, it should be noted that the attached drawings are only intended to facilitate easy understanding of the idea of the present invention, and should not be construed as limiting the idea of the present invention by the attached drawings.

The embodiment of the present invention is described based on the process of entering a pipeline while supplying a cleaning device to a manhole, moving and cleaning while spraying high-pressure cleaning water, being able to move along the curves of a curved part of the pipeline, and performing cleaning, but the same problem-solving principle can be applied to various configurations such as structures including the function of cleaning devices for various pipelines, and various methods of using them, and in the case of such simple modified applications, it can be interpreted according to the theory of equivalence.

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to the attached drawings.

Fig. 1 is a cross-sectional view showing the installation state of a preferred embodiment of the present invention, and Fig. 2 is a front view showing the installation state inside a manhole for a pipeline of the present invention.

In order to clean the space between the manholes (40) of the pipe (41), the supply of water and sewage is cut off, and the closing plate (45) on the upper side of the connecting pipe (44) installed inside the manhole (40) is removed to drain the water remaining in the pipe (41).

After draining the pipe (41), cleaning is performed to remove all remaining moisture using a rubber plate and a towing rope, etc.

A towing rope (51) is supplied to the conduit (41) from a winch (50) installed on the outside of one of the manholes (40) on both sides so that it is exposed to the manhole (40) on the opposite side, and the tip of the towing rope (51) is connected to the rope connection port (17) of the cleaning device (10) to enable towing.

A vacuum suction device (20) is installed outside a manhole (40) in a direction where a source (52) is not installed, and a connected vacuum suction pipe (21) is connected to the inside of the manhole (40), and a water supply pipe (11) is supplied from the vacuum suction device (20) to the vacuum suction pipe (21), and is installed so that it is exposed at the front end of the vacuum suction pipe (21) and connected to the rear of the cleaning device (10) to be supplied with washing water.

In order to enable the operation of the above cleaning device (10) to be confirmed visually while working, the vacuum suction device (20) and winch (50) include a viewing window that can be installed at a necessary location.

The above cleaning device (10) is supplied to the pipe (40), and the vacuum suction pipe (21) is connected at the tip to the blocking plate (42) and fixed to the flange (43) to prevent leakage.

In the open portion of the pipe (41) inside the above manhole (40), a flange (43) and a blocking plate (42) are connected to maintain watertightness, and a vacuum suction pipe (21) is connected or a traction rope (51) is installed so that it can be supplied to the inside of the pipe (41).

When the above cleaning device (10) enters the pipe (41), the traction rope (51) is slowly pulled by the winch (50) to advance the cleaning device (10) and remove the sludge and scale on the inner diameter of the pipe (41).

The above cleaning device (10) is configured to provide a driving force for forward movement by compressing and spraying the cleaning water toward the rear, thereby enabling cleaning without difficulty in movement.

Before performing cleaning, the joint connecting pipe (44) installed inside the manhole (40) is removed, and then a blocking plate (42) is connected to both sides of the front flange (43) of the pipe (41).

After cleaning the pipe (41) or while cleaning the pipe (41), water, sludge and scale are removed, and the resulting contaminants are removed by vacuum suction using a vacuum suction device (20) in a vacuum state.

After all contaminants in the pipe (41) are vacuum-sucked, all moisture can be removed.

FIG. 3 is a partial front cross-sectional view showing the installation state of the cleaning device of the present invention, and FIG. 4 is a side cross-sectional view showing the installation state of the cleaning device of the present invention.

The cleaning device (10) that enters the inside of the pipe (41) and cleans the sludge and scale of the inner diameter is formed in a cylindrical shape, with the front part having one of a cone, a semicircle, and an oval shape, and is installed so that a plurality of propulsion nozzles (13) are installed along the circumference of the outer diameter to spray the cleaning water in a rearward direction to remove the sludge and scale while providing propulsion force to move forward.

The above cleaning device (10) is installed so that a water supply pipe (11) is connected to supply water from the outside and supply it as washing water.

In the front center of the above cleaning device (10), a rotating propulsion body (14) is installed at a constant interval in the circumferential direction and provides rotational force while spraying washing water in one direction, and a rotating body (16) is installed in front of the rotating propulsion body (14) to remove sludge and scale by rotational force while rotating.

A rope connection port (17) is installed in front of the above-mentioned rotation shaft (15) to connect a towing rope (51) to tow the cleaning device (10) when necessary.

Fig. 5 is a cross-sectional view showing the installation state of the reel for the vacuum suction device of the present invention, and Fig. 6 is a side cross-sectional view showing the installation state for the vacuum suction device of the present invention.

The vacuum suction device (20) installed and operated on the outside of the manhole (40) is installed by dividing the interior of the vacuum tank (23) into a reel installation space (24) and a vacuum suction space (25).

In the above reel installation space (24), a pipe supply reel (30) is installed to supply washing water by winding a water supply pipe (11), and the pipe supply reel (30) is installed to rotate by means of a driving motor (31) and supply or pull the water supply pipe (11) according to the movement of the cleaning device (10).

The above-mentioned pipe supply reel (30) is installed in a vacuum suction device (20) and then connected to a water tank (not shown) or to a washing pump of a dredging vehicle so that washing water can be supplied to the water supply pipe (11), or is installed in a dredging vehicle so that it can be driven by engine power.

In the above vacuum tank (23), a vacuum suction pipe (21) is installed in an “L” shape, and the opposite side of the vacuum suction pipe (32) can be connected to the tip of a blocking plate (42).

The water supply pipe (11) wound around the above-mentioned pipe supply reel (30) is inserted into the vacuum suction pipe (21) by passing through an insertion hole (22) formed in a part of the vacuum suction pipe (21) and then connected to the cleaning device (10) through a blocking plate (42) so as to supply washing water.

A drain pipe (25) is connected to a lower portion of the vacuum suction space (25) to allow drainage, and a vacuum pump (27) with a cleaning port (28) installed through a valve (29) is connected to the upper portion to suck sludge from the pipe (41) in a vacuum state.

The above-mentioned pipe supply reel (30) is installed so that work can be performed while visually checking whether the water supply pipe (11) is released and the speed at which it is released.

The pipe cleaning and vacuum suction device and method of the present invention, which are composed of such a configuration, block the supply of water and sewage to the water and sewage pipe (41), pump the remaining water and sewage outward to remove it, and then perform a water draining step;

Install a vacuum suction device (20) and a winch (50) outside the manholes (40) on both sides above;

A rope installation step in which 3 to 5 rubber plates are connected at regular intervals to the pipe (41) and a winch (50) and a towing rope (51) are connected;

The first stage of cleaning the pipe by pulling the towing rope (51) connected to the above rubber plate from the winch (50) so that the rubber plate moves along the pipe (41) from one side of the manhole (40) to the other side, thereby removing all water remaining in the pipe (41);

The cleaning device (10) is a step of connecting a towing rope (51) connected to a winch (50) to a rope connection port (17) and connecting a water supply pipe (11) to the rear to insert it into the inside of a pipe (41) for cleaning;

The above water supply pipe (11) is wound and stored on a pipe supply reel (30), and the supply speed is controlled by the power of a driving motor (31) or an engine (not shown), and enters the vacuum suction pipe (21) insertion hole (22) inside the vacuum tank (23), is exposed at the blocking plate (42), and is then connected to the cleaning device (10).

A vacuum suction pipe connection step in which a vacuum suction pipe (21) connected to a vacuum suction device (20) is connected to a blocking plate (42) and fixed by connecting it to a flange (43) of a conduit (41);

The washing water is connected to the water supply pipe (11) wound around the above pipe supply reel (30) so that it is supplied to the cleaning device (10), and then sprayed toward the pipe (41) in the circumferential direction through the propulsion nozzle (13) to perform cleaning by separating and removing sludge and scale in the inner diameter of the pipe (41), and the cleaning and propulsion step of pulling the traction rope (51) connected to the propulsion force and the winch (50) to advance the cleaning device (20) at a predetermined speed;

The above cleaning device (10) can remove sludge and scale through a propulsion nozzle (13), and the washing water supplied through a water supply pipe (11) is supplied in a direction perpendicular to the pipe (41) through a rotating propulsion body (14), so that the rotating propulsion body (14) rotates at high speed in one direction, and as the rotating propulsion body (14) rotates, the rotating body (16) connected to the front also rotates at high speed, so that the rotating body (16) can remove and clean sludge and scale on the inner wall of the pipe (41).

While moving the above cleaning device (10) forward and removing sludge and scale in the pipe (41), the generated contaminants are cleaned and pushed out of the pipe (41) using the cleaning device (10), and at the same time, the vacuum pump (27) of the vacuum suction device (20) is driven through the vacuum suction pipe (21) connected to the blocking plate (42) to supply the sludge in the pipe (41) to the vacuum suction space (25), thereby performing a vacuum suction step:

The above vacuum suction step is a step of sucking contaminants into the vacuum suction device (20) after cleaning of the pipe (41) through the cleaning device (10) is completed; this can be performed independently.

After vacuum-sucking the contaminants in the above-mentioned pipe (41), a pig cleaning step can be further performed to finally clean the pipe (41) so that no water or contaminants remain.

In order to perform the water draining step of the present invention, 3 to 5 rubber plates having the same size as the inner diameter of the pipe (41) are connected with ropes, and then a towing rope (51) is connected at the front and rear respectively, and the towing rope (51) is pulled from the winch (50), so that the rubber plates can remove all water remaining in the pipe (41) at regular intervals, thereby preparing to perform the work due to the introduction of the cleaning device (10).

The cleaning device (10) of the present invention is connected to a vacuum suction pipe (21) by passing through a pipe supply reel (30) installed in a vacuum suction device (20) outside or inside a manhole (40) and exposed at the tip so that washing water is supplied and supplied to the inside of a pipe (41).

After the above cleaning device (10) is supplied to the pipe (41), a blocking plate (42) connected to a vacuum suction pipe (21) is connected to the tip of the pipe (41), and a blocking plate (42) is connected to all flanges (43) of the pipe (41) from which the connecting pipe (44) has been removed to block the inside of the pipe (41), and the work is performed by closing the valve installed between the connecting pipe (44) and the flange (43) while the connecting pipe (44) is connected to the pipe, thereby blocking the flow of the water supply and sewage pipes.

By driving the winch (50) to move the cleaning device (10) within the pipe (41) via the traction rope (51), or by supplying the cleaning water to the cleaning device (10) via the water supply pipe (11) to the inner wall of the pipe (41) in a rearward direction from a plurality of propulsion nozzles (13), the sludge and scale are removed while providing a propulsive force that allows forward movement, thereby simultaneously performing cleaning and propulsion.

The above cleaning device (10) obtains rotational power as washing water is sprayed from the rotating propellant (14) onto the inner wall of the pipe (41), and while rotating with this rotational power, it simultaneously rotates the rotating body (16) at high speed to perform cleaning to remove sludge and scale on the inner wall of the pipe (41).

The above-mentioned rotating body (16) is made of either a metal material or a synthetic resin material that can remove sludge and scale in the inner diameter of the pipe (41) by applying impact while rotating, and it is also possible to install a grinder.

The propulsion nozzle (13) of the above cleaning device (10) is installed so as to be inclined toward the rear outer wall so as to remove sludge and scale by the water pressure of the washing water while providing propulsion force, so that cleaning can be performed by the propulsion force, or movement can be achieved by pulling the towing rope (51) connected to the rope connection port (17) by the winch (50).

While the above cleaning device (10) moves along the inner diameter of the pipe (41), the connected water supply pipe (11) is supplied while being unwound by driving the driving motor (31) in the pipe supply reel (30) of the vacuum suction device (20) along the movement of the cleaning device (10), and the water supply pipe (11) is inserted into the vacuum suction pipe (32) inside the vacuum tank (23) in the pipe supply reel (30) through the insertion hole (22) and connected so that washing water can be supplied, and the tip of the water supply pipe (11) wound around the pipe supply reel (30) is connected to a separate water supply tank (not shown) and a washing tank and pump of a dredging vehicle so that washing water can be supplied.

When sludge and scale on the inner wall of the pipe (41) are removed through the cleaning device (10), they remain in the pipe (41) as sludge, so while cleaning the pipe (41) using the cleaning device (10), contaminants generated in the pipe (41) are simultaneously sucked into the vacuum suction pipe (32) connected to the blocking plate (42) through the vacuum suction device (20) and then discharged into the vacuum suction space (25).

The above vacuum suction device (20) operates the vacuum pump (27) to provide a vacuum state through the valve (29) and at the same time, sucks the sludge generated in the pipe (41) into the vacuum suction pipe (21) and discharges it into the vacuum suction space (25).

The above vacuum suction device (20) can vacuum-suck contaminants generated while cleaning the pipe (41) through the cleaning device (10), but it is also possible to perform each process by dividing it so that the contaminants can be vacuum-sucked after the cleaning of the pipe (41) is completed with the cleaning device (10).

Sludge that is vacuum-sucked through a vacuum suction pipe (21) in a vacuum suction device (20) is stored in a vacuum suction space (25), and when discharged to a necessary location, it is possible to supply it to the outside by opening a drain pipe (26).

By installing CCTVs at each necessary location of the above suction device (20), the cleaning device (10) is moved while judging the cleaning level, presence, and situation, and the work of removing sludge and scale is performed quickly and accurately according to the on-site conditions.

The above suction device (20), pipe supply reel (30) and winch (50) are included to enable the supply of washing water and suction and treatment of contaminants using a dredging vehicle.

The present invention provides a very useful invention in which a cleaning device is supplied to a pipeline through a manhole, cleaning water is supplied, and a propulsion force is provided to move forward while spraying the cleaning water from a propulsion nozzle, and sludge and scale on the inner diameter of the pipeline are removed by the rotational force of a rotating body installed in a cleaning device, and when the forward power is insufficient, a tow rope is pulled from a winch to conveniently move and clean even in a curved pipeline, and then contaminants are suctioned and removed in a vacuum state from a vacuum suction device.

10: Cleaning device 11: Water supply pipe
12: Body 13: Propulsion nozzle
14: Motor 15: Rotation shaft
16: Rotating body 17: Rope connection
20: Vacuum suction device 21: Vacuum suction tube
22: Insertion hole 23: Vacuum tank
24: Reel space 25: Vacuum suction space
26: Drain pipe 27: Vacuum pump
28 : Sojegu 29 : Valve
30: Tube supply reel 31: Drive motor
40: Manhole 41: Pipeline
42: Block plate 43: Flange
44: Joint connecting pipe 50: Winch

Claims (6)

After draining the water by disconnecting the pipe (41), the cleaning device (10) is supplied and cleaned with washing water and a rotating body.
A blocking plate (42) is attached to both flanges (43) of the drained pipe (41);
After the vacuum suction pipe (21) connected to one side of the above-mentioned blocking plate (42) is connected to the vacuum suction space (25) of the vacuum suction device (20), the water supply pipe (11) enters the pipe (41) through the vacuum suction pipe (21) and is connected to the cleaning device (10);
A cleaning device (10) having a propelling nozzle (13) for supplying cleaning water to clean the inner wall of the above-mentioned pipe (41), a rotating body (16) connected to the front, and a towing rope (51) connected to a rope connection port (17) connected to a winch (50);
A pipe cleaning and vacuum suction device characterized in that the vacuum suction space (25) to which the above vacuum suction pipe (21) is connected is separated from the reel installation space (24), the water supply pipe (11) is installed in the pipe supply reel (30) to control the supply, and the vacuum pump (27) connected to the above vacuum suction space (25) is configured as a vacuum suction device (20) that vacuum-sucks contaminants in the pipe (41).
In paragraph 1,
The above cleaning device (10) is a pipe cleaning and vacuum suction device characterized in that a plurality of propulsion nozzles (13) are installed in a cylindrical body (12) inclined in a rearward direction to remove sludge and scale and generate propulsive force, and a rotating shaft (15) connected to a rotating propulsion body (14) installed in the front of the body (12) is installed, and then a traction rope (51) is connected to a central rope connection port (17).
In paragraph 1,
The vacuum suction device (20) is characterized in that the other direction of the vacuum suction pipe (21) connected to the vacuum suction space (25) is connected to a blocking plate (42) connected to the flange (43) of the pipe (41), and an insertion hole (22) is formed in the vacuum suction pipe (21) into which a water supply pipe (11) is inserted and then connected to a cleaning device (10) at the tip of the vacuum suction pipe (32).
In paragraph 1,
The above vacuum suction device (20) is a pipe cleaning and vacuum suction device characterized in that the vacuum tank (23) is separated into a reel installation space (24) and a vacuum suction space (25), and a pipe supply reel (20) with a water supply pipe (11) wound around the reel installation space (24) is connected to a driving motor (31).
In paragraph 1,
The above vacuum suction device (20) is a pipe cleaning and vacuum suction device characterized in that a vacuum suction pipe (21) is connected to a vacuum suction space (25), a drain pipe (26) is installed at the bottom, and a vacuum pump (27) is connected through a valve (29) at the top.
After the water drainage step is performed by blocking the water supply and drainage of the pipe (41), the pipe cleaning step is performed to clean the inside of the pipe.
A pipe internal insertion step in which a water draining step is performed, a towing rope (51) connected to a winch (50) is connected to a rope connection port (17), and a cleaning device (10) connected to a water supply pipe (11) to a body (12) is inserted into the inside of the pipe (41);
A pipeline blocking step for blocking a pipeline (41) by joining a blocking plate (42) to both flanges (43) of a manhole (40);
A cleaning device pulling step in which cleaning water is supplied to the cleaning device (10) from the above water supply pipe (11), sprayed backward from the propulsion nozzle (13) to remove sludge and scale, and propulsion is obtained, and the forward rope (51) pulls the cleaning device (10) through the winch (50);
A pipe cleaning step in which washing water is supplied from the above-mentioned propulsion nozzle (13) and the rotating body (16) rotates with the rotational power obtained from the rotating propulsion body (14) to remove sludge and scale;
A pipe cleaning and vacuum suction method including performing a pipe inner diameter sludge vacuum suction step in which the above sludge and scale are removed and the resulting contaminants are sucked into a vacuum suction space (25) by a vacuum suction pipe (21) in a vacuum state of the pipe (41) using a vacuum pump (27).