KR102511915B1 - Sampler for groundwater - Google Patents

Abstract

In the present invention, an observation well has an inner space 110 to collect samples, an inlet 120 through which samples flow into the inner space 110 on one side, and an aperture 130 formed on the other side through which an opening is formed. The formed body 100 and; an opening/closing part 200 installed at the inlet 120 of the main body 100 to collect samples into the inner space 110 of the main body 100; a weight portion 300 installed in the opening 130 of the main body 100 to close the opening 130 and at the same time allow the main body 100 to sink into the observation well; The opening/closing part 200 maintains the inlet 120 in a closed state when the main body 100 descends from the observation well and when the main body 100 ascends from the observation well, and collects samples. By presenting a groundwater sampler characterized in that the inlet 120 is opened, a sample of a desired depth can be accurately collected.

Description

Groundwater Sampler {SAMPLER FOR GROUNDWATER}

The present invention relates to a groundwater sampler, and more particularly, to a groundwater sampler capable of collecting a groundwater sample at a desired depth.

In general, in order to measure water quality from agricultural and observation wells or investigate the level of contamination of groundwater, a monitoring well is installed in a target area, and samples of groundwater flowed into the well are periodically collected to remain in the groundwater. Inspection of dissolved contaminant organic matter.

1 is a perspective view showing the structure of a conventional tube water collector, and FIG. 2 is a perspective view showing a structure for discharging samples collected from the tube water collector of FIG. 1 to the outside.

As shown in these figures, the conventional water collector has an inner space 11 for collecting samples, and an opening 12 penetrates the lower surface so that the sample can flow into the inner space 11. The formed tubular body 10 and the spherical sphere provided in the inner space 11 of the main body 10 to selectively open and close the aperture 12 so that the sample collected in the inner space 11 can be transported. It is composed of member 20.

According to this configuration, when the tubular body 10 is put into the observation well, the spherical member 20 is suspended by the tube water, and the tube water flows through the opening hole 12 at the end of the body 10 to the main body 10. It flows into the inner space (11).

When the required amount of water from the pipe is completed to flow into the inner space 11 of the main body 10 and the main body 10 is lifted upward, a part of the sample collected in the inner space 11 flows out of the main body 10. The spherical member 20 moves along the outflowing sample and eventually closes the opening 12, so that the sample is maintained in the inner space 11.

After the tube water collector is moved to a desired location while the sample is accommodated in the inner space 11, the sample is moved to a container such as a beaker and placed in a sample bottle for experimentation and analysis on the sample.

To this end, a separate rod 30 is used. The diameter of the rod 30 is formed to have a smaller diameter than at least the diameter of the aperture 12, and the rod enters the main body 10 through the aperture 12. (30) should be able to be retracted.

When such a rod 30 is pushed into the body 10 through the opening hole 12, the spherical member 20 is separated from the opening hole 12 and the opening hole 12 is opened, and the opening hole 12 At the moment when the body 10 is opened, the sample inside the main body 10 is contained in the container, so that the collection of the sample is completed, and experiments and analysis on the sample are possible.

However, the depth of observation wells in Korea is generally 30 to 200 m, and in such a conventional tube water collector, since samples are taken from the top of the tube well, there is a problem in that it is virtually impossible to collect samples by depth.

The reference numerals of the prior art above shall be limited only to the description of the prior art.

The present invention has been derived to solve the above problems, and an object of the present invention is to provide a groundwater sampler capable of accurately taking samples of a desired depth.

In order to solve the above problems, the present invention has an internal space 110 for collecting samples of an observation well, an inlet 120 through which samples flow into the internal space 110 on one side, and an opening formed on the other side. a main body 100 through which an opening 130 is formed; an opening/closing part 200 installed at the inlet 120 of the main body 100 to collect samples into the inner space 110 of the main body 100; a weight portion 300 installed in the opening 130 of the main body 100 to close the opening 130 and at the same time allow the main body 100 to sink into the observation well; The opening/closing part 200 maintains the inlet 120 in a closed state when the main body 100 descends from the observation well and when the main body 100 ascends from the observation well, and collects samples. Suggests a groundwater sampler characterized in that the inlet 120 is opened.

The opening and closing part 200 is installed in the inlet 120 of the main body 100 to close the inlet 120 and includes a closing cover 210 through which a through hole 211 is formed in the center of the lower surface, and the closing cover ( 210) is disposed to be movable up and down and selectively opens and closes the through hole 211, and the opening and closing cover 220 keeps the through hole 211 closed. An elastic support portion 230 for elastically supporting the opening/closing cover 220, an opening/closing wire 241 having one end connected to the opening/closing cover 220 so as to move the opening/closing cover 220 up and down, and one end of the closing cover ( 210), and includes a support wire 242 connected to the observation well, and is supported by the support wire 242 when the main body 100 is lowered from the observation well and when the main body 100 is raised from the observation well. As the (100) descends or rises, the opening and closing cover 220 is maintained in a state in which the through hole 211 is closed by the elastic support part 230, and when a sample is collected, the support wire 242 In a state in which the main body 100 is supported at a certain depth by a ), it is preferable that the opening and closing cover 220 moves up and down as the opening and closing wire 241 is pulled so that the through hole 211 is opened.

The opening and closing wire 241 and the support wire 242 have a double cable 240 structure, the support wire 242 has an insertion hole formed therein, and the opening and closing wire 241 is inserted into the support wire 242. Preferably inserted into the ball.

The elastic support part 230 includes a connecting bar 231 fixed to the closing cover 210 in a state in which it protrudes from the top and bottom of the closing cover 210 through the closing cover 210, An elastic spring 232 disposed on the outer surface of the connecting bar 231 disposed to protrude downward from the closing cover 210 and applying elasticity in a direction in which the opening/closing cover 220 closes the through hole 211 It is preferable to include

Both ends of the elastic support part 230 are fixed to the lower surface of the closing cover 210 and allow the connecting bar 231 to pass through the center so that the connecting bar 231 moves in the vertical direction Guide for guiding movement A member 233 is further included, and one end of the elastic spring 232 is in contact with the guide member 233 so that the opening/closing cover 220 applies elasticity in the direction of closing the through hole 211. desirable.

The opening/closing part 200 further includes a support frame 250 protruding upward and having a through hole 251 formed in a central portion so as not to interfere with the lifting and lowering of the opening/closing cover 220, the through hole 251 and the insertion hole of the support wire 242 communicate, the support wire 242 is coupled to the support frame 250, and the lower end of the opening and closing wire 241 passes through the through hole 251 It is preferable that it is exposed to the bottom and coupled to the upper end of the connection bar 231.

It is preferable that the upper end of the connection bar 231 and the lower end of the opening and closing wire 241 are screwed together so as to be detachable.

Preferably, the closing cover 210 and the weight portion 300 are screwed into the inlet 120 and the opening 130 of the main body 100 to be detachably attached to the main body 100. do.

The present invention is a groundwater sampling method using the sampler, comprising the steps of lowering the main body 100 to a target water depth of an observation well in a state where the main body 100 is supported by the support wire 242; When the main body 100 reaches the target water depth of the observation well, in a state where the main body 100 is supported at a certain depth by the support wire 242, the opening and closing cover ( 220) to open the through hole 211 and collect a sample; When the collection of the sample is completed, releasing the pull of the opening and closing wire 241 and allowing the opening and closing cover 220 to close the through hole 211 by the elastic support part 230; The step of lifting the main body 100 to the upper part of the observation well by pulling the support wire 242 upward.

The present invention provides a groundwater sampler capable of accurately collecting samples of a desired depth.

1 is a perspective view showing the structure of a conventional water collector.
Figure 2 is a perspective view showing a structure for discharging a sample collected from the water collector of Figure 1 to the outside.
3 below shows an embodiment of the present invention,
3 is an exploded perspective view of the sampler;
Figure 4 is an enlarged view of a main part of Figure 3;
5 and 6 are process charts of the sampling method.

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

As shown below in FIG. 3, the groundwater sampler according to the present invention basically has an inner space 110 to collect samples of an observation well, and has an inlet 120 on one side through which the sample flows into the inner space 110. ), and the main body 100 through which an opening 130 is formed on the other side; an opening/closing unit 200 installed at the inlet 120 of the main body 100 to collect samples into the inner space 110 of the main body 100; a weight part 300 installed in the opening hole 130 of the main body 100 to close the opening hole 130 and at the same time allow the main body 100 to sink into the observation well; composed of

Here, the opening/closing unit 200 maintains the inlet 120 in a closed state when the main body 100 descends to and from the observation well and when the main body 100 ascends from the observation well, and keeps the inlet 120 closed when collecting samples. open the

Specifically, the opening and closing part 200 is installed in the inlet 120 of the main body 100 to close the inlet 120, and the closing cover 210 through which the through hole 211 is formed in the center of the lower surface and the closing cover 210 An opening/closing cover 220 made of a rubber material or the like that is disposed to be movable up and down inside and selectively opens and closes the through hole 211, and an opening and closing cover so that the opening and closing cover 220 maintains a state in which the through hole 211 is closed ( 220), an elastic support portion 230 for elastically supporting, an opening/closing wire 241 having one end connected to the opening/closing cover 220 so as to lift and move the opening/closing cover 220, and a support wire having one end connected to the closing cover 210. (242).

When the main body 100 is lowered from the observation well and when the main body 100 is raised from the observation well, the main body 100 is supported by the support wire 242 so that the main body 100 descends or rises, and the elastic support part 230 As a result, the opening and closing cover 220 maintains the through hole 211 closed.

When the sample is collected, in a state where the main body 100 is supported at a certain depth by the support wire 242, the opening/closing cover 220 moves up and down as the opening/closing wire 241 is pulled, and the through hole 211 is opened. (FIG. 5)

The groundwater sampling method using the sampler according to the present invention is performed by the following process.

With the main body 100 supported by the support wire 242, the main body 100 is lowered to the target water depth of the observation well (FIG. 5).

At this time, the opening/closing cover 220 keeps the through hole 211 closed by the elastic support 230 .

When the main body 100 reaches the target water depth of the observation well, in a state where the main body 100 is supported at a certain depth by the support wire 242, the opening/closing cover 220 is moved up and down by pulling the opening/closing wire 241. The through hole 211 is opened, and the sample is collected by a method in which the sample flows into the inner space 110 of the main body 100.

When the collection of the sample is completed, the pulling of the opening/closing wire 241 is released, and the opening/closing cover 220 closes the through hole 211 again by the elastic support part 230 .

In this state, by pulling the support wire 242 upward, the main body 100 is elevated to the top of the observation well.

Therefore, the groundwater sampler according to the present invention maintains the closed state of the main body 100 before reaching the target depth, and opens the main body 100 only when the target depth is reached to take samples. It has the effect of being able to accurately collect samples of the desired depth.

The opening and closing wire 241 and the support wire 242 can be coupled to the main body 100 by a separate structure, but when they take the double cable 240 structure, the advantage of easy transportation, storage, and operation is added. .

To this end, the support wire 242 has an insertion hole formed therein, and the opening and closing wire 241 takes a structure inserted into the insertion hole of the support wire 242.

The elastic support part 230 is a connecting bar 231 fixed to the closing cover 210 in a state in which it protrudes from the top and bottom of the closing cover 210 through the closing cover 210 made of rubber material, It is disposed on the outer surface of the connection bar 231 disposed to protrude downward from the closing cover 210, and the opening/closing cover 220 is elastic in the direction of closing the through hole 211 (the direction of pulling the opening/closing cover 220 downward). It is configured to include an elastic spring 232 for applying.

Furthermore, both ends are fixed to the lower surface of the closing cover 210 and the connecting bar 231 passes through the center so that the connecting bar 231 moves in the vertical direction. A guide member 233 configured to further include It can be.

In this case, one end of the elastic spring 232 is in contact with the guide member 233 so that the opening and closing cover 220 can apply elasticity in the direction of closing the through hole 211, so a stable elastic support structure is possible. there is

The opening/closing unit 200 may have a structure that protrudes upward and further includes a support frame 250 having a through hole 251 formed in the central portion so as not to interfere with the lifting and lowering of the opening/closing cover 220 .

In this case, the support wire 242 is coupled to the support frame 250 (upper edge of the through hole 251) so that the through hole 251 and the insertion hole of the support wire 242 communicate, and the opening and closing wire 241 The lower end of is exposed downward through the through hole 251 and coupled to the upper end of the connecting bar 231, thereby forming a stable support structure.

The upper end of the connecting bar 231 and the lower end of the opening and closing wire 241 are screwed together so that they are detachably formed, which is preferable in view of convenience of transportation, storage, and operation.

Likewise, the closing cover 210 and the weight portion 300 are screwed into the inlet 120 and the opening 130 of the main body 100, respectively, so that they are detachably formed from the main body 100, transport and storage. , which is preferable in terms of convenience of operation.

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, as noted, the scope of the present invention should not be construed as being limited to the above embodiments, and the scope of the present invention described above It will be said that the technical idea and the technical idea together with the root are all included in the scope of the present invention.

100: main body 110: inner space
120: inlet 130: opening hole
200: opening and closing part 210: closing cover
211: through hole 212: connecting member
220: opening and closing cover 230: elastic support
231: connecting bar 232: elastic spring
233: guide bar 240: double cable
241: opening and closing wire 242: support wire
250: support frame 251: through hole
300: weight body

Claims (9)

An observation well having an internal space 110 to collect samples, an inlet 120 through which samples flow into the internal space 110 on one side, and a main body through which an aperture 130 is formed on the other side ( 100) and;
an opening/closing part 200 installed at the inlet 120 of the main body 100 to collect samples into the inner space 110 of the main body 100;
a weight portion 300 installed in the opening 130 of the main body 100 to close the opening 130 and at the same time allow the main body 100 to sink into the observation well; include,
The opening/closing part 200 maintains the inlet 120 in a closed state when the main body 100 descends to and from the observation well and when the main body 100 ascends from the observation well, and the inlet port 120 is collected when a sample is collected. (120) open,
The opening and closing part 200,
A closing cover 210 installed at the inlet 120 of the main body 100 to close the inlet 120 and having a through hole 211 penetrated in the center of the lower surface;
An opening/closing cover 220 that is movably disposed inside the closing cover 210 and selectively opens and closes the through hole 211;
An elastic support part 230 for elastically supporting the opening and closing cover 220 so that the opening and closing cover 220 maintains a state in which the through hole 211 is closed;
An opening/closing wire 241 having one end connected to the opening/closing cover 220 so as to move the opening/closing cover 220 up and down;
One end includes a support wire 242 connected to the closure cover 210,
When the main body 100 is lowered from the observation well and when the main body 100 is raised from the observation well, the main body 100 is supported by the support wire 242 so that the main body 100 descends or rises, and the elasticity The opening and closing cover 220 is maintained in a state in which the through hole 211 is closed by the support part 230,
When collecting a sample, in a state where the main body 100 is supported at a certain depth by the support wire 242, the opening and closing cover 220 moves up and down as the opening and closing wire 241 is pulled, thereby opening and closing the through hole. (211) is open,
The opening and closing wire 241 and the support wire 242 have a double cable 240 structure,
The support wire 242 has an insertion hole formed therein,
The opening and closing wire 241 is inserted into the insertion hole of the support wire 242,
The elastic support part 230,
A connecting bar 231 fixed to the closing cover 210 in a state in which it penetrates the closing cover 210 and protrudes to the top and bottom of the closing cover 210;
An elastic spring 232 disposed on the outer surface of the connecting bar 231 disposed to protrude downward from the closing cover 210 and applying elasticity in a direction in which the opening/closing cover 220 closes the through hole 211 include,
The opening and closing part 200,
Further comprising a support frame 250 protruding upward and having a through hole 251 formed in the central portion so as not to interfere with the lifting and lowering of the opening and closing cover 220,
The support wire 242 is coupled to the support frame 250 so that the through hole 251 and the insertion hole of the support wire 242 communicate,
The groundwater sampler, characterized in that the lower end of the opening and closing wire 241 is exposed downward through the through hole 251 and coupled to the upper end of the connecting bar 231. delete delete delete According to claim 1,
The elastic support part 230,
Both ends are fixed to the lower surface of the closing cover 210 and the connection bar 231 passes through the center to guide the movement so that the connection bar 231 moves in the vertical direction. Further comprising a guide member 233, ,
One end of the elastic spring 232 is in contact with the guide member 233 so that the opening and closing cover 220 applies elasticity in a direction to close the through hole 211. delete According to claim 1,
The groundwater sampler, characterized in that the upper end of the connection bar 231 and the lower end of the opening and closing wire 241 are screwed and connected to each other so that they are detachable. According to claim 1,
The closing cover 210 and the weight part 300 are screwed into the inlet 120 and the opening hole 130 of the main body 100, respectively, and are provided detachably to the main body 100. groundwater sampler with A groundwater sampling method using the sampler of any one of claims 1, 5, 7, and 8,
lowering the main body 100 to a target water depth of an observation well in a state where the main body 100 is supported by the support wire 242;
When the main body 100 reaches the target water depth of the observation well, in a state where the main body 100 is supported at a certain depth by the support wire 242, the opening and closing cover ( 220) to open the through hole 211 and collect a sample;
When the collection of the sample is completed, releasing the pull of the opening and closing wire 241 and allowing the opening and closing cover 220 to close the through hole 211 by the elastic support part 230;
By pulling the support wire 242 upward, lifting the main body 100 to the top of the observation well;
Groundwater sampling method comprising the.

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