KR102539412B1 - Probe-type soil purifier enable purification according to pollution depth - Google Patents

Abstract

The present invention relates to a soil purification device capable of purifying by contamination depth, having a length in the direction of being inserted into the soil, consisting of a plurality of which can be separated and connected to each other, forming an accommodation space therein along the length, and the accommodation space therein. A variable probe provided with communication ports for communicating the space and the outside; a plurality of extraction pipes individually disposed in each accommodating space of the variable probe, spraying a cleaning agent for purifying the contaminants, and pumping pollutants in the soil flowing into the accommodating space via the communication port; made including

Description

Probe-type soil purifier enable purification according to pollution depth}

The present invention relates to a probe-type soil purification device capable of purification by contamination depth, and more particularly, to simultaneously purify a contaminated area by contamination depth, to shorten the work time for purification, and to a wide range of contaminated areas. It relates to a probe-type soil purification device capable of purification by contamination depth with an improved structure so as to effectively purify the soil.

Recently, as industrialization and urbanization progress rapidly, a large amount of organic compounds remain as pollutants in soil and groundwater. Representative groundwater pollutants include total petroleum hydrocarbon (TPH), benzene, and toluene ( toluene), ethyl benzene, BTEX that refers to xylene, chlorinated aliphatic hydrocarbons (CAHs), heavy metals, and nonmetals.

Contaminants in groundwater and soil, unlike surface water and air, are heavy, have poor transportability, and are spread over a long period of time and throughout the region, requiring considerable time and cost for treatment. Methods to purify the contaminated area include physical and chemical treatment methods such as Soil Flushing, Soil Vapor Extraction, and Solvent Extraction, as well as vitrification, incineration, and high-temperature heat -It is divided into thermal treatment methods such as high-temperature thermal desorption and biological treatment methods such as biodegradation, bioventing, and land-framing.

In addition, these methods are divided into in-situ treatment and ex-situ treatment. distinguished by the way

In general, the soil cleaning method of contaminated areas is an in-ground treatment that uses surfactants or chemical agents (oxidizing agents, etc.) to weaken the surface tension of harmful organic pollutants from contaminated soil particles or groundwater, or to change heavy metals into liquid phase to clean the contaminated soil. As a technique for separation treatment from particles or groundwater, it has the advantage of being able to remove a wide range of organic and inorganic contaminants and being applicable regardless of the type of contaminant.

However, in general soil and groundwater cleaning methods, it is difficult to simultaneously purify the contaminated area by depth of contamination, and many wells must be installed or dismantled for purification by depth of contamination, which consumes a lot of time for purification of pollutants and It is difficult to purify the contaminated area.

As a prior art, there is Korean Patent Registration No. 10-0982809.

The present invention has been made to solve the above problems, and an object of the present invention is to simultaneously purify the contaminated area by depth of contamination, to shorten the working time for purification, and to effectively cover a wide range of contaminated areas. It is intended to provide a probe-type soil purification device capable of purifying by contamination depth so that it can be purified and field operation is convenient according to the contaminated area.

The problems of the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve the above object, a probe-type soil purification device capable of purification by contamination depth according to the present invention relates to a soil purification device inserted into soil to purify pollutants in soil, and has a length in the direction of being inserted into the soil. a variable probe comprising a plurality of probes, which can be separated from each other and connected to each other, form an accommodation space along the length, and are equipped with communication ports for communicating the accommodation space and the outside; a plurality of extraction pipes individually disposed in each accommodating space of the variable probe, spraying a cleaning agent for purifying the contaminants, and pumping pollutants in the soil flowing into the accommodating space via the communication hole; made including

The variable probe includes a first probe at a lowermost portion in a direction inserted into the soil, a second probe connected to the first probe, and a third probe connected to the second probe and disposed at an uppermost portion.

The extraction pipe is a first extraction pipe and a second extraction pipe disposed in the receiving spaces of the first probe, the second probe, and the third probe, respectively, so that the cleaning agent can be sprayed and the pollutants pumped according to the depth of the soil. and a third extraction tube.

The first probe may include a first inner tube forming the accommodating space; a government member connected to an end of the inner pipe in a direction inserted into the soil; a first outer tube surrounding the first inner tube and forming a first fastening part on the opposite side of the government member; The first extraction pipe is installed between the accommodation space and the first fastening part so that the first extraction pipe can be disposed in the accommodation space between the government material and the first fastening part so that the first extraction pipe penetrates and is fixed in position. It is preferable to include a; through-fixing member.

The second probe may include a second inner tube connected to the first probe by being fastened to the first fastening part and forming an accommodation space; a second outer tube surrounding the second inner tube and forming a second fastening part on the opposite side of the first fastening part; It is installed between the accommodation space and the second fastening part so that the second extraction pipe can be disposed in the accommodation space between the first fastening part and the second fastening part, and penetrates the first extraction pipe to fix the first penetration. A second through-fixing member through which the member passes through and through which the second extraction pipe is fixed in position; may be made including.

The third probe may include a third inner tube connected to the second probe by being fastened to the second fastening part and forming an accommodation space; a third outer tube surrounding the third inner tube and forming a fastening opening on the opposite side of the second fastening part; The second extraction tube is provided between the accommodation space and the fastening opening and passes through the first extraction tube and the second extraction tube so that the third extraction pipe can be disposed in the accommodation space between the second fastening part and the fastening opening. It is preferable to include; a third through-fixing member to be penetrated through the through-fixing member and to penetrate the third extraction pipe and to be fixed in position.

In the present invention, the first inner tube, the second inner tube, and the third inner tube, the first outer tube, and the second inner tube, the first outer tube, and the second inner tube can filter foreign matter flowing into the accommodation space via the communication ports of the variable probe. A filter member having a mesh structure between the outer tube and the third outer tube may be further included.

Each of the first extraction tube and the second extraction tube may be formed in plurality.

Preferably, the third through-fixing member forms a plurality of connection openings into which any one of the first extraction pipe, the second extraction pipe, and the third extraction pipe are fitted.

The second through-fixing member may form a pair of connection openings connecting one of the first extraction tube and the second extraction tube and the other one of the first extraction tube and the second extraction tube.

Preferably, the first through-fixing member forms a single connecting opening connecting the other first extraction tube and another first extraction tube.

In the probe-type soil purification device capable of purifying by contamination depth according to the present invention having the configuration described above, the variable probe is directly inserted into the soil and has a length in the direction of the insertion, and is composed of a plurality of parts, which can be separated and connected. An accommodating space is formed and communication ports communicating the accommodating space and the outside are formed, and the plurality of extraction pipes are disposed in each accommodating space of the variable probe to discharge the cleaning agent by contamination depth, and the cleaning agent By pumping dissolved pollutants, it is possible to simultaneously purify the contaminated area by contamination depth, shorten the work time for purification, effectively purify a wide range of contaminated areas, and conveniently operate the site according to the contaminated area. has the effect of

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

1 and 2 are views for explaining a probe-type soil purification device capable of purification by contamination depth according to an embodiment of the present invention.
3 is a view for explaining a variable probe employed in an embodiment of the present invention;
4 is a view showing a separated state of a first probe and an extraction tube to explain a variable probe and an extraction tube employed in an embodiment of the present invention in more detail;
5 is a cross-sectional view of a variable probe and an extraction tube employed in an embodiment of the present invention.
FIG. 6 is a partially enlarged view of an enlarged dot-and-dashed line portion of FIG. 5;
7 is a view for explaining a coupling structure between penetration fixing members and a plurality of extraction pipes employed in a probe-type soil purification device capable of purification by contamination depth according to another embodiment of the present invention.

Hereinafter, a probe-type soil purification device capable of purification by contamination depth according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are views for explaining a probe-type soil purification device capable of purification by contamination depth according to an embodiment of the present invention, and FIG. 3 is a view for explaining a variable probe employed in an embodiment of the present invention. 4 is a view showing a separated state of the first probe and the extraction tube to explain the variable probe and extraction tube employed in one embodiment of the present invention in more detail, and FIG. A cross-sectional view of a variable probe and an extraction tube, and FIG. 6 is a partially enlarged view of a part of a dashed-dotted line in FIG. 5 .

As well shown in these drawings, the probe-type soil purification device capable of purification by contamination depth according to an embodiment of the present invention includes a variable probe 100 directly inserted into the soil through a percussion device, and an external cleaning solution injection It includes a plurality of extraction pipes 200 selectively connected to the device 10 and the pumping device 20.

The variable probes 100 are directly inserted into the soil and formed in plurality so that the length can be adjusted according to the depth of contamination, and are separated and connected to each other. The variable probe 100 can be connected to each other by a bolt fastening method, forms a length in the direction of being inserted into the soil, forms an accommodation space inside along the length, and communicates the accommodation space with the outside. H) is provided.

The variable probe 100 allows a plurality of extraction pipes 200 to be disposed in each receiving space for each contamination depth, and the cleaning solution ejected from the extraction pipes 200 can be discharged to the land for each contamination depth. let it be On the other hand, the variable probe 100 allows to pump contaminants (dissolved by the detergent) by depth to the outside through the extraction pipe 200 . Here, the cleaning liquid or contaminants are ejected or introduced into the soil or into the receiving space via the plurality of communication ports H formed in the variable probe 100 .

The variable probe 100 is connected to a first probe 110, a second probe 120 connected to the first probe 110, and the second probe 120 at the bottom in the direction of being inserted into the soil, It consists of a third probe 130 disposed at the top. As described above, each of the probes 110, 120, and 130 of the variable probe is connected to each other by a bolt fastening method, etc., the receiving space communicates with each other, and communication holes H are formed to communicate the receiving space and the inside of the soil. do.

The plurality of extraction tubes 200 are individually disposed in each accommodating space of the variable probe 100, spray a detergent for purifying the contaminants, and pass through the communication ports H to the accommodating space. It pumps out pollutants in the soil that have flowed into it. The extraction pipe 200 includes a first extraction pipe 210, a second extraction pipe 220 and a third extraction pipe 230.

The first extraction tube 210, the second extraction tube 220, and the third extraction tube 230 may each be made in the form of a single tube, or may be made of one or more structures connected to each other. .

Among the extraction tubes 200, the first extraction tube 210 passes through the third probe 130 and the second probe 120 sequentially and is disposed in the receiving space of the first probe 110 to contaminate placed at the bottom of the region. In addition, the second extraction tube 220 is disposed in the receiving space of the second probe 120 after penetrating the third probe 130, so that the cleaning agent can be sprayed between the lowermost and uppermost parts of the contaminated area. The third extraction pipe 230 is disposed in the receiving space of the third probe 130, so that a cleaning agent can be sprayed to the top of the contaminated area or dissolved pollutants or groundwater can be pumped.

For example, among the variable probes inserted into the soil, the first probe 110 and the first extraction pipe 210 at the bottom and the third probe 130 and the third extraction pipe 230 at the top transfer the cleaning solution to the depth of contamination. emit very little Thereafter, the second probe 120 and the second extraction pipe 220 provided in the section between the first probe 110 and the third probe 130 pump the pollutants dissolved by the washing liquid to clean the soil makes it possible On the other hand, when the contamination depth is not relatively deep, the present embodiment consists of the first probe 110, the first extraction pipe 210, the second probe 120, and the second extraction pipe 220, and relatively low Deeply contaminated areas can be cleaned.

In the probe-type soil purification device capable of purification by contamination depth according to an embodiment of the present invention having such a configuration, the variable probe 100 is directly inserted into the soil and has a length in the insertion direction, and is composed of a plurality of separate and Connection is possible, an accommodation space is formed inside, communication ports (H) are formed to communicate the accommodation space and the outside, and the plurality of extraction pipes 200 are disposed in each accommodation space of the variable probe 100, respectively. The cleaning agent is discharged according to the contamination depth, and the pollutants dissolved by the cleaning agent can be pumped, so that the contaminated area can be simultaneously purified by the contamination depth, the work time for purification is shortened, and the contaminated area in a wide range It effectively purifies and has the effect of making field operation convenient according to the contaminated area.

On the other hand, among the variable probes 100 employed in this embodiment, the first probe 110 disposed at the bottom in the soil includes the first inner tube 111, the government member 112, and the first outer tube 113. And it is preferable that it comprises a first through-fixing member (114).

The first inner pipe 111 of the first probe 110 has a length in the direction of being inserted into the soil and has a cylindrical shape to form an accommodation space therein, and the first extraction pipe 210 is disposed in the accommodation space. . The government member 112 is inserted into and coupled to the lower end of the first inner tube 111, and the outer side adjacent to the lower end is connected to the inner side of the first outer tube 113 by a bolt fastening method.

The government member 112 of the first probe 110 is inserted into the lower portion of the first inner tube 111 and coupled to the first inner tube 111 by a bolt fastening method, thereby forming the first probe 110. can be smoothly inserted into the soil by a percussion device. The first outer tube 113 of the first probe 110 is fastened to the outside of the first inner tube 111 and is formed long while surrounding the first inner tube 111, and the government member 112 To form a first fastening portion (A) on the opposite side of.

The first outer pipe 113 forms a fixing member fitting groove into which the first through-fixing member 114 is inserted between the receiving space by the first inner pipe 111 and the first fastening part A. By doing so, the first extraction pipe 210 can be stably positioned in the accommodation space of the first probe 110.

In addition, the first penetrating fixing member 114 is installed between the receiving space and the first fastening part A, that is, in the fixing member fitting groove to pass through the first extraction pipe 210 and fix the position, so that the government The first extraction pipe 210 is disposed in the accommodation space between the ash 112 and the first fastening part A.

In addition, the second probe 120 may include a second inner tube 121, a second outer tube 122, and a second through-fixing member 123. The end of the second inner tube 121 of the second probe 120 facing the insertion direction of the soil is fastened to the first fastening part A of the first probe 110, so that the first probe 110 It is connected to and forms an accommodation space communicating with the accommodation space of the first probe. The second inner tube 121 of the second probe 120 is fastened to the first fastening part A of the first outer tube 113 of the first probe 110, so that the variable probe 100 The length can be extended for each contamination depth, and the extraction pipe 200 can be arranged for each contamination depth.

The second outer pipe 122 of the second probe 120 is connected to a section adjacent to the end of the second inner pipe 121 and has a length while surrounding the second inner pipe, and the first fastening part By forming the second fastening part (B) on the opposite side of (A), it can be coupled with the third probe 130 and the length of the variable probe 100 can be extended.

In addition, the second through-fixing member 123 is installed in the fixing member fitting groove G formed between the accommodation space formed by the second inner tube 121 and the second fastening portion B, so that the first extraction The pipe 210 is passed through the first through-fixing member 114, and the second extraction pipe 220 is passed through and fixed in the accommodation space, so that the first fastening part (A) and the second extraction pipe 220 are fixed in position. The second extraction pipe 220 can be placed in the accommodation space between the two fastening parts B, and the pollutants in the soil can be cleaned at a higher contamination depth than the location of the first probe 110. .

The third probe 130 connected to the second probe 120 and provided on the uppermost side of the variable probe includes a third inner tube 131, a third outer tube 132, and a third through-fixing member 133. ) It is preferable to include.

The third inner tube 131 of the third probe 130 is connected to the second probe 120 by having an end facing the insertion direction into the soil and fastened to the second fastening part B of the second probe 120. It is connected and forms an accommodation space to communicate with the accommodation space of the second probe 120. The third inner tube 131 is formed long like the first probe 110 and the second probe 120 and is connected to the third outer tube 132 .

The third outer tube 132 is formed long and surrounds the third inner tube 131, and is connected to a section adjacent to an end of the third inner tube 131 to implement the third probe 130. The third outer pipe 132 forms a fastening opening C on the opposite side of the second fastening part B in a state in which the third inner pipe 132 is coupled to the second outer pipe 122, thereby forming the fastening opening Through (C), the first through-fixing member 114 and the second through-fixing member 123 can be inserted into the first probe 110 and the second probe 120, and the first and second extractions are performed. Allows the tubes 210 and 220 to be placed in respective receiving spaces.

The third penetrating fixing member 133 of the third probe 130 is inserted into the fixing member fitting groove G formed between the accommodation space formed by the third inner tube 131 and the fastening opening C. and penetrates the first extraction pipe 210 and the second extraction pipe 220 to penetrate the second through-fixing member 123, penetrates the third extraction pipe 230, and third probe 130 ), so that the third extraction pipe 230 can spray the cleaning material to the top of the variable probe 100, that is, the top of the contaminated area, or pump pollutants in the soil. do.

The first through-fixing member 114, the second through-fixing member 123 and the third through-fixing member 133 described above preferably include a sealing member (S). The sealing member (S) is provided in a circumferential direction on the outer side of the first to third through-fixing members, so that the cleaning liquid temporarily accommodated in the accommodation space of each probe can be prevented from leaking into the accommodation space of the adjacent probe. .

To further explain the coupling relationship between the extraction pipe 200 employed in this embodiment, the first through-fixing member 114, the second through-fixing member 123, and the third through-fixing member 133, the first The extraction pipe 210 penetrates the third through-fixing member 133, then through the second through-fixing member 123, and then through the first through-fixing member 114 to pass through the receiving space of the first probe 110. is located in In addition, the second extraction pipe 220 passes through the third through-fixing member 133 and then through the second through-fixing member 123 and is located in the receiving space of the second probe 120 . In addition, the third extraction pipe 230 passes through the third through-fixing member 133 and is located in the receiving space of the third probe.

On the other hand, in this embodiment, the washing liquid discharged from the respective extraction pipes in the receiving spaces of the first probe 110, the second probe 120, and the third probe 130 is discharged through the communication ports H formed in the respective probes. ) is released into the soil by At this time, the communication holes (H) are formed in the first to third inner tubes and the first to third outer tubes to communicate the receiving space formed by each of the inner tubes and the inside of the soil.

Furthermore, it is preferable that the probe-type soil purifying device capable of purifying by contamination depth according to the present embodiment further includes a filter member 300 . The filter member 300 is provided in a form surrounding the first inner tube 111 in the space between the first inner tube 111 and the first outer tube 113 described above. As such, the filter member 300 is provided between the inner tubes 111, 121, and 131 and the outer tubes 113, 122, and 132, so that the filter member 300 passes through the communication ports H of the variable probe 100. By doing so, it is possible to filter out foreign substances flowing into the accommodation space, thereby preventing clogging of the extraction pipe 200 by foreign substances. Here, the foreign substances refer to soil particles flowing into the communication ports H and various substances in the form of particles included in the soil.

As described above, the first probe 110, the second probe 120, and the third probe 130 are connected to each other in a bolt coupling method by the first fastening part (A) and the second fastening part (B). So, the length can be varied according to the depth of contamination, and each of the inner tubes 111, 121, 131 and the outer tubes 113, 122, 132 are coupled to each other by a bolt coupling method, and each of the inner tubes and the outer tubes By providing the filter member 300 therebetween, it is possible to prevent clogging of the extraction pipe 200 and to enable easy replacement of the filter, and to continuously use the variable probe 100 and the extraction pipe 200. It enables to derive the effect of reducing the maintenance cost of the purification device.

The probe-type soil purifying device capable of purifying by contamination depth according to an embodiment of the present invention has been described above. Hereinafter, a probe-type soil purification device capable of purification according to contamination depth according to another embodiment of the present invention will be described.

7 is a view for explaining a coupling structure between penetrating fixing members and a plurality of extraction pipes employed in a probe-type soil purification device capable of purification by contamination depth according to another embodiment of the present invention.

This embodiment is similar to most of the configurations of the previous embodiment, but the structure of the extraction pipe 200 and the first through-fixing member 114, the second through-fixing member 123 and the third through-fixing member 133 ) is different in structure.

That is, the first extraction pipe 210 and the second extraction pipe 220 are each made in a separate form and are inserted into through-fixing members, respectively, so that the first extraction pipe 210 and the second extraction pipe ( 220) is implemented.

For example, when the first extraction pipe 210 is composed of three pieces, one of the first extraction pipes is disposed in the receiving space of the third probe 130 while being connected to the third through-fixing member 133, and 2 is connected to one end of the through-fixing member 123. In addition, the other first extraction pipe is disposed in the accommodating space of the second probe 120 in a state connected to the other end of the second through-fixing member 123 and is connected to one end of the first through-fixing member 114. In addition, another first extraction pipe is disposed in the receiving space of the first probe 110 while being connected to the other end of the first through-fixing member 114 .

For example, as described above, the first extraction pipe 210 employed in the present embodiment is implemented as one first extraction pipe 210 by being made of a plurality and connected to each through-fixing member, respectively. Meanwhile, when the second extraction pipe 220 is made up of a plurality, one of the second extraction pipes is connected to one end of the third through-fixing member 133 and the second through-fixing member. In addition, the other second extraction pipe is connected only to the other end of the second through-fixing member 123 and is located only in the receiving space of the second probe 120.

Meanwhile, the third through-fixing member 133 employed in this embodiment preferably forms a plurality of connection openings 133a. Two of the plurality of connection openings 133a are fitted with any one of the first and second extraction pipes 210 and 220, respectively. In addition, the third extraction pipe 230 is inserted into the remaining one of the plurality of connection openings 133a. At this time, in the case of any one of the first and second extraction pipes 210 and 220, they are connected to the third through-fixing member 133 and the second through-fixing member 123, respectively, and the third extraction pipe 230 In this case, it is connected only to the third through-fixing member 133 and is located in the receiving space of the third probe 130.

The second through-fixing member 123 preferably forms a pair of connection openings 123a. The pair of connection openings 123a are formed in the form of through holes through which both ends of the second through-fixing member 123 communicate. One of the pair of connection openings 123a is one of the first extraction tube (located in the accommodation space of the third probe) and the other first extraction tube (located in the accommodation space of the second probe). The first extraction pipe) is connected to each other.

In addition, the other one of the pair of connection openings 123a has one second extraction tube (the second extraction tube located in the accommodation space of the third probe) and the other second extraction tube (accommodating the second probe). The second extraction pipe located only in the space) is connected to each other. At this time, the plurality of second extraction tubes 220 are composed of one second extraction tube 220 .

In addition, it is preferable that the first through-fixing member 114 forms a single connection opening 114a. The single connection opening 114a is formed in the form of a through hole through which both ends of the first through-fixing member 114 communicate. The single connection opening 114a connects the other first extraction tube and another first extraction tube (a first extraction tube located only in the accommodation space of the first probe) to each other. At this time, the plurality of first extraction tubes are composed of one first extraction tube 210 .

As described above, the first through-fixing member 114, the second through-fixing member 123, and the third through-fixing member 133 employed in this embodiment include a plurality of first and second extraction pipes 210, 220) can be implemented with one first extraction pipe 210 and one second extraction pipe 220, thereby facilitating installation and separation of the soil purification device and improving work efficiency such as movement.

In the above, preferred embodiments of the present invention have been described, but the present invention is not limited to the embodiments described above, but is defined by what is described in the claims, and various modifications and developments can be made in the technical field to which the present invention belongs. self-explanatory

10: cleaning solution injection device 20: water pumping device
G: Fixing member fitting groove S: Sealing member
100: variable probe H: communication ports
110: first probe 111: first inner tube
112: government materials 113: first outer tube
A: first fastening part 114: first through-fixing member
114a: single connection opening 120: second probe
121: second inner tube 122: second outer tube
123: second through-fixing member 123a: a pair of connection openings
B: second fastening part 130: third probe
131: third inner tube 132: third outer tube
133: third through-fixing member 133a: a plurality of connection openings
C: fastening opening 200: extraction pipe
210: first extraction pipe 220: second extraction pipe
230: third extraction pipe 300: filter member

Claims (6)

It is inserted into the soil and relates to a soil purification device for purifying pollutants in the soil,
A variable probe having a length in the direction of being inserted into the soil, consisting of a plurality of probes that can be separated and connected to each other, forming an accommodation space along the length and having communication ports for communicating the accommodation space with the outside;
a plurality of extraction pipes individually disposed in each accommodating space of the variable probe, spraying a cleaning agent for purifying the contaminants, and pumping pollutants in the soil flowing into the accommodating space via the communication hole; including,
The variable probe includes a first probe at a lowermost part in a direction inserted into the soil, a second probe connected to the first probe, and a third probe connected to the second probe and disposed at an uppermost part,
The extraction pipe is a first extraction pipe and a second extraction pipe disposed in the receiving spaces of the first probe, the second probe, and the third probe, respectively, so that the cleaning agent can be sprayed and the pollutants pumped according to the depth of the soil. And a third extraction pipe,
The first probe may include a first inner tube forming the accommodating space; a government member connected to an end of the first inner pipe in a direction inserted into the soil; a first outer tube surrounding the first inner tube and forming a first fastening part on the opposite side of the government member; The first extraction pipe is installed between the accommodation space and the first fastening part so that the first extraction pipe can be disposed in the accommodation space between the government material and the first fastening part so that the first extraction pipe penetrates and is fixed in position. A penetrating fixing member;
The second probe may include a second inner tube connected to the first probe by being fastened to the first fastening part and forming an accommodation space; a second outer tube surrounding the second inner tube and forming a second fastening part on the opposite side of the first fastening part; It is installed between the accommodation space and the second fastening part so that the second extraction pipe can be disposed in the accommodation space between the first fastening part and the second fastening part, and penetrates the first extraction pipe to fix the first penetration. And a second through-fixing member that penetrates the member and penetrates the second extraction pipe and fixes the position.
The third probe may include a third inner tube connected to the second probe by being fastened to the second fastening part and forming an accommodation space; a third outer tube surrounding the third inner tube and forming a fastening opening on the opposite side of the second fastening part; The second extraction tube is provided between the accommodation space and the fastening opening and passes through the first extraction tube and the second extraction tube so that the third extraction pipe can be disposed in the accommodation space between the second fastening part and the fastening opening. A third through-fixing member that penetrates the through-fixing member and penetrates the third extraction pipe and is fixed in position;
The first inner pipe, the second inner pipe, and the third inner pipe, and the first outer pipe, the second outer pipe, and the second outer pipe, and the second inner pipe may be filtered to filter foreign matter flowing into the accommodating space via the communication ports of the variable probe. It is made by further comprising; a filter member of a mesh structure between the three outer tubes,
In the first inner tube, the second inner tube, and the third inner tube, ends that are not fastened to the government member, the first fastening part, and the second fastening part are directed toward the first fastening part, the second fastening part, and the fastening opening. Each is elongated and formed,
A filter member is provided between the first to third outer tubes by providing grooves formed along the circumferential direction on the outer surface and extending long toward the first fastening part, the second fastening part, and the fastening opening, respectively. Forming a space in which each can be placed,
The first extraction tube and the second extraction tube each consist of a plurality,
The third through-fixing member forms a plurality of connection openings into which one of the first extraction pipe, the second extraction pipe, and the third extraction pipe are fitted,
The second through-fixing member forms a pair of connection openings connecting one of the first extraction tube and the second extraction tube and the other first extraction tube and the second extraction tube,
The first through-fixing member forms a single connection opening connecting the other first extraction tube and the other first extraction tube,
The plurality of connection openings are formed in the form of through holes that communicate both ends of the third through-fixing member, and the diameters of the portions communicating both ends are the first extraction pipe, the second extraction pipe, and the third extraction pipe. It is formed smaller than the diameter of the fitting part,
The pair of connection openings are formed in the form of through holes for communicating both ends of the second through-fixing member, and the diameter of the communicating portion is smaller than the diameter of the portion where the first extraction tube and the second extraction tube are fitted. is formed,
The single connection opening is formed in the form of a communication hole for communicating both ends of the first through-fixing member, and the diameter of the communication portion is smaller than the diameter of the portion where the first extraction pipe is fitted. Characterized in that A probe-type soil purification device that can purify by depth of contamination. delete delete delete delete delete

Images