KR101394162B1 - System of cleaning for the tube well and discharging of contaminants of tube well - Google Patents

Abstract

Provided is a system for discharging contaminants in an underground water tube well comprising: a compressed gas supply part for supplying compressed gas; a tube well cleaning device which is inserted into an underground water tube well to inject the compressed gas supplied from the compressed gas supply part and to clean the inside of the tube well by a brushing cleaning part; an underground water discharging part for discharging polluted cleaning water in the tube well, which is generated after a cleaning by the tube well cleaning device; and a contaminants collecting device for collecting the polluted cleaning water discharged by the underground water discharging part and sending the collected cleaning water to the outside in order to purify and supply the polluted cleaning water collected by the contaminants collecting device, thereby efficiently cleaning the underground water tube well and collecting the polluted water without leakage to the outside of the pipe during cleaning.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system and method for cleaning and cleaning contaminated groundwater,

The present invention relates to a system for collecting cleaning and cleaning contaminants in groundwater wells.

In the reality of water shortage, it is more important to manage the ground water than the installation.

This is because human beings directly drink or use such groundwater. For this purpose, it is also legally mandatory to manage the groundwater watershed.

That is, the groundwater well used for a certain period should be internally cleaned after the cleaning, and after cleaning, it should be purified and reused.

There are various cleaning methods. Generally, it is used for removing the residues, slime, etc. of the inner surface of the groundwater and chemical treatment. After cleaning, groundwater containing such suspended matters or sediments is discharged to the outside. Air- Surging method is a method of injecting compressed gas into a tunnel and cleaning groundwater.

However, in conventional groundwater cleaning apparatuses, only a high-pressure air is sprayed to remove contaminants such as scales attached thereto, so that it takes a lot of time to remove contaminants such as scales attached firmly, The pressure of the air compressor is not sufficient to clean the inside of the well, and there is a problem that contaminated air from the outside may be introduced into the well, which may cause secondary pollution. In addition, the cost is considerably wasted, and despite the fact that it is uneconomical in comparison with the effect, there is still a limit in not sufficiently cleaning the wall.

In addition, when cleaning the groundwater well by this method, the high pressure compressed gas is injected into the groundwater well, so that the groundwater containing the pollutant rises to the upper side of the water well, There is a problem that the water is left at the entrance of the tunnel, and after the cleaning, it goes back into the tunnel and can pollute the groundwater.

It is an object of the present invention to provide a system capable of sufficiently cleaning the inside surface of a groundwater well and preventing groundwater from being re-contaminated when the groundwater well is cleaned.

The present invention relates to a system for recovering contaminated groundwater, comprising: a compressed gas supply unit for supplying a compressed gas; a compressed gas supply unit for supplying a compressed gas supplied from the compressed gas supply unit to the groundwater tank, A groundwater discharge unit for discharging the contaminated cleaning water generated in the bathtub after cleaning by the tubular cleaning unit, and a cleaning tank for collecting contaminated cleaning water discharged from the groundwater discharge unit to the outside The contaminated cleaning water recovered by the cleaner cleaning apparatus is purified and supplied.

The tubular cleaning device includes a compressed gas spraying part including a rotating part having a plurality of air spraying parts around its front end, the compressed gas spraying part being inserted into the tubing, the cleaning part being removable from the rotating part and cleaning the inner surface of the tubing to a part of the rotating part And a guide portion provided around the compressed gas injecting portion and guiding the compressed gas injecting portion in the tube, wherein the air injecting portion injects air in an outer circumferential tangential direction of the compressed gas injecting portion do.

The apparatus for collecting cleaned pollutants may further include a head unit coupled to a flange formed at an upper end of the casing, a coupling unit for fixing the head unit to the casing, an injection unit provided in a part of the head unit, And a discharging portion provided at another portion of the head portion, wherein an air supply hose is connected to the desorption portion, and the head portion is fixed to the upper end of the tube through the coupling means, Wherein the injected high-pressure air is supplied to the inside of the duct through the air supply hose, and the groundwater of the duct is flowed backward through the outlet by the injected high-pressure air.

The discharge unit may include a plurality of discharge lines, wherein the discharge pressure is dispersed when the groundwater is discharged,

The fastening means may further include an auxiliary coupling portion for coupling the pipe with the flange omitted from the groundwater pipe, wherein the auxiliary coupling portion is coupled to the pipe without the flange, and then the head portion is coupled to the auxiliary coupling portion and fixed More specifically,

The desorbing portion is provided with a plurality of internal stages to firmly fit the air supply hose and prevents the air supply hose from being separated from the desorbing portion due to the discharge pressure in the groundwater discharge process do.

According to the present invention,

First, the wall is sufficiently cleaned compared with the conventional method by rotating the brush sufficiently to pressurize the wall of the canal.

Second, the use of environmentally friendly compressed gas not only increases cleaning efficiency, but also reduces costs and reduces air pollution.

Third, in the process of cleaning the groundwater wells, it is possible to prevent the uncleaned groundwater from leaking to the pipes around the wells. Accordingly, it is possible to prevent foreign matter from flowing around the pipe to the vicinity of the pipe, thereby preventing the foreign matter from being re-introduced into the pipe with the ground water and further preventing contamination of the pipe.

Fourth, the discharge pressure can be dispersed by forming a plurality of discharge lines.

Fifth, the desorption part and the air supply hose can be firmly coupled with each other at various stages by combining the desorption part and the air supply hose. In particular, even if a part of the desorption part is damaged by the discharge pressure, And further, the life of the desorbing part can be extended.

Sixth, it is possible to prevent recontamination of underground water wells, and it is possible to recycle water resources by reprocessing cleaned pollutants.

1 is a conceptual view of a groundwater cleaning apparatus according to an embodiment of the present invention.
FIG. 2 is a schematic view of a pollutant recovery system for groundwater cleaning and cleaning according to an embodiment of the present invention. Referring to FIG.
FIGS. 3 to 7 illustrate a collecting device, which is a constitution of a pollutant collecting system for groundwater cleaning and cleaning according to an embodiment of the present invention.
FIGS. 8 to 10 illustrate a collecting device, which is a constitution of a pollutant collecting system for groundwater cleaning and cleaning according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described more specifically with reference to the accompanying drawings, but the description of the already known techniques will be omitted.

1 to 10, the system for recovering contaminated groundwater and cleaning the groundwater according to an embodiment of the present invention includes a tubular cleaning device 3, a tubular cleaning contaminant collecting device 1, a compressed gas supply part 24, A discharge unit 270, and the like.

Referring to FIGS. 1 and 2, the compressed gas is supplied from the compressed gas supply unit 24 to clean the interior of the tank by the pipe cleaning apparatus 3, and the contaminated cleaning water discharged after cleaning is discharged to the groundwater discharge unit 270 and is recovered by the tubular cleaning contaminant collecting apparatus 1. The recovered contaminants are subjected to filtration and sedimentation separation by filter means 31 and 32 and a settling tank and sterilized by the ozone treatment means 33 It is purified.

The tub cleaning apparatus 3 and the groundwater discharge unit 270 include a compressed gas spraying unit 31, a brush cleaning unit 32 and a guide unit 33, as shown in FIGS. 8 to 10.

The compressed gas jetting section 31 includes a body 31a and a rotating section 31b.

The body 31a is detachable in the form of a socket with an air supply hose A.H connected to the compressed gas supply part 24 so as to receive compressed gas from the external compressed gas supply part 24 in the substantially cylindrical shape. Here, the technique of attaching / detaching the body 11a to / from the air supply hose 3 in the form of a socket is well known in the art, and thus a detailed description thereof will be omitted.

The rotary part 31b is substantially cylindrical in shape and is rotatably coupled to the body 31a, and a plurality of air jet parts 312 formed around the rotary part 31b are provided to jet air in a direction in contact with the outer periphery of the body. Accordingly, the compressed gas supplied through the body 31a is injected through the air injection part 312, and the rotation part 31b rotates.

The brushing purging portion 32 is detachably coupled to the rotating portion 31b by having a brush 321 around the pad in the form of a substantially circular pad. Accordingly, when the rotation part 31b rotates, the brush cleaning part 32 also rotates together.

The guide portion 33 includes a plurality of guide pieces 331 and a plurality of protective pads 332 which are provided around the body 31a.

Four guide pieces 331 are provided on the periphery of the body 31a in a substantially panel shape at an equal angle.

The protective pads 332 are screwed to the guide pieces 331 in order to prevent the present invention from being in close contact with the inner surface of the pipe in the form of a panel. In other words, since the present invention can be damaged by being pulled in close contact with the inner surface of the pipe when the present invention is moved, a protective pad is provided to arrange the present invention on the center line of the pipe and prevent the present invention from being in close contact with the inner surface of the pipe And the present invention can be easily moved by minimizing the frictional resistance upon movement. Further, when the present invention is disposed on the center line of the tube, the brush can more easily clean the inner surface of the tube.

The compressed gas supply unit 24 is operated to supply the compressed gas to the compressed gas spraying unit 31 through the air supply hose A.H.

The supplied compressed gas is injected into the compressed gas injecting section 31, and the injected compressed gas is injected through the air injecting section of the rotating section 31b of the body 31a.

The brush cleaning unit 32 rotates and the brush 321 which is in close contact with the inner surface of the pipe rotates to clean the foreign matter sticking to the inner surface of the pipe by the compressed gas and the brush 321 to be sprayed. That is, the compressed gas is sprayed to generate a water pressure, and the foreign substance adhering to the inner surface of the pipe is removed by the water pressure, and the foreign substance stuck strongly is cleaned while sweeping the brush 321. In addition, when the brush 321 sweeps away, the compressed gas blows away foreign matter that has fallen. Accordingly, the inner surface of the pipe can be efficiently cleaned by the high-pressure water and the compressed gas.

When the inside cleaning of the inside of the tubular cleaning apparatus is completed by the tubular cleaning apparatus, the groundwater discharging unit 270 is connected to the air supplying tubing AH and the tubing cleaning contaminant collecting apparatus 1 in which the air supplying tubing AH is inserted is installed in the casing So that the contamination is recovered.

3 to 7, the groundwater collector cleaning pollutant collecting apparatus 1, which is a constitution of the groundwater tank cleaning and cleaning pollutant collecting system, includes a head unit 10, a fastening unit 13, a coupling unit 11, An injection part 12, a detachable part 14, and a discharge part 15. Here, it further includes an auxiliary coupling portion 112.

The head portion 10 is formed in a semispherical hat shape with a substantially brim, and is divided into two halves.

The fastening means 13 are respectively provided at the boundary portion of the head portion 10 divided by the means for engaging the head portion 10 and are screwed together. That is, when the fastening means 13 is screwed and tightened, the head portion 10 divided in half is engaged and fixed.

The size of the head part 10 can be changed by 150, 200, 250 or 300 mm or the like. In order to change the head part 10, the connecting part 13 is separated and the head part 10 and the fastening part 13 ) Is detached and changed.

The engaging means 11 includes a plurality of fixing pieces 111 as a means for fixing the head portion 10 to the casing of the underground water tubular casing.

The fixing part 111 is fitted around the head part 10 in a substantially "C" shape and the head part 10 is mounted on the flange F of the casing P provided on the tube, And the flange are firmly engaged with each other, the six fixing pieces 111 are fitted around the head part 10 and then fixed with bolts. As a result, the head portion 10 is fixed firmly to the flange of the casing by the fixing piece 111.

Meanwhile, the coupling means 11 may further include an auxiliary coupling portion 112 as shown in FIG.

The auxiliary coupling portion 112 is formed in a substantially washer-like shape in a configuration for coupling the head portion 10 to the casing P 'of the tubular housing where no flange is formed. At this time, the auxiliary coupling portion 112 is divided into two halves so as to be easily fixed to the casing P 'of the tubular housing, one side is coupled with the hinge H, and the other side is screwed. That is, after the auxiliary coupling portion 112 is opened to fit the casing P 'of the casing so that the auxiliary coupling portion 112 is fitted into the casing P' of the casing, the auxiliary coupling portion 112 is bolted, (112) to the housing casing (P '). After the head part 10 is placed on the auxiliary engaging part 112, the head part 10 is fixed to the auxiliary engaging part 112 by using the fixing part 111. [ Accordingly, even if the flange is not formed in the casing P 'of the tube, the head portion 10 can be easily fixed to the casing P' of the tube through the auxiliary coupling portion 112.

The injection section 12 is fixed in a substantially tubular form through the center of the head section 10 and is configured to be separated in half as in the case of the head section 10. That is, when the head portion 10 is detached, the injection portion 12 is also detached. A description thereof will be described later.

The desorption section 14 is formed in a substantially tubular shape and has a plurality of stages inside thereof. The desorption section 14 is disposed at the lower part of the injection section 12, and is inserted and fixed in the injection section 12. The detachable portion 14 is made of silicon or urethane to have a stepped shape with its diameter varying from 3 to 5 so as to minimize leakage of water, The air supply hose AH can be prevented from being detached from the detachable portion 14 even if one end of the detachable portion 14 is damaged because the portion 14 and the air supply hose AH are coupled in multiple stages . When the detachable part 14 is broken, the head part 10 is detached and the broken detachable part 14 inserted in the injection part 12 is taken out. Thereafter, the new detachable part 14 is inserted into the injection part 12 can do.

The discharge unit 15 includes four discharge lines 151 arranged at equal intervals on the top of the head unit 10 and two discharge lines 151 on the half of the head unit 10 to disperse the discharge pressure. And two discharge lines 151 are provided on the other half of the head portion 10. [ In the two discharge lines 151 divided into two sides, a cylindrical discharge portion 15 having one end closed is connected to the two discharge lines 151, but the opening is connected so as to face forward. That is, the discharging part 15 is provided in a pair, and the discharging part 15 is also divided when the head part 10 is detached.

Between the head portion 10 and the flange, between the head portion 10 and the auxiliary coupling portion 112, and between the auxiliary portion 112 and the casing P ', between the head portion 10 and the head portion 10, (Not shown) is provided for sealing.

The air supply hose AH is inserted into the detachable portion 14 after the head is engaged and the air supply hose AH is inserted into the casing of the tubular casing and then the head is fixed to the flange of the casing, Pressure air from an air compressor provided in the outside through the air discharge pipe 12, the ground water rises to the top and the ground water that has risen through the discharge line 151 is discharged through the discharge unit 15.

If there is no flange in the casing of the groundwater tube, the auxiliary coupling portion 112 is coupled to the casing, and the head portion 10 is fixed to the auxiliary coupling portion 112 before use.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And the scope of the present invention should be understood as the following claims and their equivalents.

One; Groundwater cleaning system
10; Head portion
11; Coupling means
111; Fixing piece
112; The auxiliary coupling portion
H; Hinge
12; Injection part
13; Fastening means
14; [0050]
15; The discharge portion
151; Discharge line
P, P '; pipe
AH; Air supply hose
3; Cleaning apparatus
31; The compressed-
31a; body
31b; reel
311; Propulsion spray hole
312; Air jetting section
32; The brushing-
321; brush
33; Guide portion
331; Guide
332; Protection pad
24; Compressed gas supply portion

Claims (6)

delete delete A compressed gas supply unit for supplying compressed gas;
A tub cleaning unit connected to the compressed gas supply unit, for injecting a compressed gas supplied from the compressed gas supply unit into the groundwater tank and cleaning the inside of the tub by a brush cleaning unit; A groundwater discharge unit connected to the compressed gas supply unit and discharging the contaminated cleaning water generated after cleaning by the tubular cleaning unit; And
A pollutant collecting device for collecting polluted clean water discharged by the ground water discharging part to the outside; Lt; / RTI >
The apparatus for cleaning polluted water,
A head coupled to a flange formed at an upper end of the tube;
Coupling means for fixing the head portion to the flange;
An injection part provided at a part of the head part;
A desorption unit inserted into the injection unit; And
And a discharge part provided at another part of the head part,
Pressure air is injected into the injection unit after the air supply hose is connected to the detachable unit and the head unit is fixed to the upper end of the nozzle through the coupling unit, And the groundwater of the gutter is flowed backward by the high-pressure air supplied into the gutter and discharged through the gutter.
Cleanup of groundwater and cleanup of contaminated water. The method of claim 3,
The discharge portion
Forming a plurality of discharge lines,
And the discharge pressure is dispersed when the groundwater is discharged.
Cleanup of groundwater and cleanup of contaminated water. The method of claim 3,
Wherein the coupling means comprises:
Further comprising: an auxiliary coupling portion in which the flange is omitted from the groundwater pipe,
Wherein the auxiliary coupling portion is coupled to the pipe without the flange, and then the head portion is coupled to the auxiliary coupling portion and fixed.
Cleanup of groundwater and cleanup of contaminated water. 6. The method of claim 5,
Wherein,
Wherein the air supply hose is formed in a plurality of stages so as to firmly fit the air supply hose, and the air supply hose is prevented from being separated from the detachable unit by the discharge pressure in the groundwater discharge process
Cleanup of groundwater and cleanup of contaminated water.

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