KR101672999B1 - Water quality of water measurement devices of underground water - Google Patents

Abstract

The present invention relates to an underground water inspection and management apparatus for measuring the condition of underground water and, more specifically, relates to an underground water inspection and management apparatus for artificially monitoring underground water, which can obtain the state information of the underground water with high reliability. The underground water inspection and management apparatus for artificially monitoring underground water can be installed in a simple manner and can measure the condition in an individual manner by introducing only underground water existing in each underground water layer through a valve to the inside of a hollow unit of an insertion pipe, when a plurality of underground water layers exist inside a ground floor.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a groundwater management system,

The present invention relates to a groundwater investigation and management apparatus for artificially monitoring groundwater in the field of groundwater irradiation technology, and it is an object of the present invention to provide a groundwater survey management apparatus that can easily measure the groundwater condition existing in the groundwater layer, The groundwater in each groundwater layer flows into the hollow portion of the insertion pipe through the valve, and the state of the groundwater can be obtained by measuring the state individually by the sensor. To a groundwater survey management apparatus.

Groundwater (groundwater) generally refers to the water that flows through the gaps between underground strata or flows through the groundwater layer between the water permeable layer, which is highly permeable to water, and the impervious layer, which is less permeable to water than the permeable layer In recent years, such groundwater has been pumped to be used as a water for industrial / agricultural purposes, and at the same time, it can be used for edible purposes.

In the meantime, it is essential to determine whether the groundwater is usable by measuring the degree of contamination before the water is pumped, not by indiscriminately pumping the groundwater to be utilized as the above-mentioned contents. No. 10-2010-71523 (Jun. 29, 2010) "Groundwater level and water quality measuring device" is representative.

According to such a conventional configuration, n measurement units having a data transfer unit are provided to measure and transmit the water level and the water quality of groundwater existing in a plurality of aquifers with identification codes, Wherein the data integration unit is connected to a data integration unit for transmitting the water quality information through the data transfer unit and a parallel communication line, and the data integration unit transmits the water level and the water quality measurement information to the main control equipment having a monitoring function And is connected to the main control device through a single communication cable.

In this way, it is possible to simultaneously measure the water level and the water quality of the groundwater existing in several groundwater layers, thereby shortening the work process, Thereby improving the usability of the cable while improving the problem of cable entanglement within the cable.

However, in this conventional technique, it is practically impossible to install a measurement unit in the groundwater layer by an operator entering and exiting the narrow gauge inside the groundwater layer itself. However, even if the operation is performed, There is a problem that an enormous economic burden is incurred because work must be accompanied.

Korean Patent Publication No. 10-2010-71523 (June 29, 2010) "Groundwater Level and Water Quality Measurement Apparatus"

An object of the present invention is to provide an underground water survey management apparatus that artificially monitors underground water existing in a ground layer and has low economic burden for measuring groundwater conditions.

According to an aspect of the present invention, there is provided an apparatus for groundwater survey management for artificially monitoring groundwater according to the present invention, wherein a lower portion of the apparatus is closed and a top portion thereof is opened, and a plurality of through holes are formed adjacent to each other in the longitudinal direction A cover which is detachably mounted on the upper portion of the insertion tube and opens and closes the upper portion of the insertion tube which is opened and through which the insertion hole is formed in a vertical direction, A pump including a hose for passing through the insertion hole and contacting an inner bottom surface of the insertion tube and discharging groundwater introduced through the hose to the outside of the insertion tube; A valve for opening and closing the through-hole, and a valve provided at a lower portion of the cover so as to communicate with the inside of the insertion tube, And a controller for controlling at least one of the pump, the valve, and the sensor, wherein a lower portion of the insertion tube is inserted and fixed in the impervious layer through the permeable layer do.

According to the present invention, only a groundwater existing in each groundwater layer flows into the hollow portion of the insertion pipe through a valve when a plurality of groundwater layers exist in the ground layer, It is possible to acquire the state information of the groundwater which can be measured and is highly reliable.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a diagram of a conventional apparatus for measuring the quality of groundwater in groundwater.
BACKGROUND OF THE INVENTION Field of the Invention [0001]
3 is a view showing a state in which groundwater flows into a groundwater investigation management apparatus for artificially monitoring groundwater according to the present invention.
And
4 is a view showing a state in which groundwater flowing into an underground water investigation management apparatus for artificially monitoring underground water according to the present invention is discharged to the outside.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a groundwater survey management system (hereinafter, simply referred to as a management apparatus) for artificially monitoring groundwater according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2, the management apparatus 100 according to the present invention mainly includes an insertion tube 110, a lid 120, a pump 130, a valve 160, a sensor 150, and a controller 140 ).

More specifically, the insertion tube 110 is buried in the ground to measure the quality of groundwater present in the ground layer.

For example, the insertion tube 110 is in the form of a column having a length in the vertical direction, and has a pipe shape in which a hollow portion 111 is formed to allow groundwater to flow therein.

At this time, the upper portion of the insertion tube 110 is opened to be opened and closed through a lid 120 to be described later, and the lower portion of the insertion tube 110 is opened so that the ground water accommodated in the hollow portion 111 is not discharged to the outside, So that it can be blocked from flowing into the hollow portion 111.

A plurality of through holes 113 are formed adjacent to each other in the longitudinal direction on the outer surface of the insertion tube 110 so that groundwater existing in at least one groundwater layer is easily introduced into the hollow portion 111 through the through hole 113 .

At this time, it is preferable that the through-hole 113 is formed in the insertion tube 110 so as to face in a direction in which the ground water flows, so that it can be easily introduced into the hollow portion 111 by the flow of the groundwater.

Further, the insertion tube 110 is made of a metal material coated with a corrosion-resistant material so that it is resistant to an external force such as an earthquake and is not corroded by moisture or the like.

In addition, the lower portion of the insertion tube 110, which is buried in the ground surface, is inserted into the impervious layer made of a relatively hard layer so that the insertion tube 110 can be vertically fixed.

The cover 120 opens / closes the upper portion of the insertion tube 110 which is openably and detachably or rotatably installed to the open upper portion of the insertion tube 110 embedded in the paper.

The lid 120 is used to have high airtightness so that the groundwater introduced into the hollow portion 111 does not leak to the outside through the joint between the lid 120 and the insertion tube 110.

The lid 120 is formed with an insertion hole 121 through which a hose 131 for discharging the groundwater introduced into the hollow part 111 by the pump 130 is inserted, (121) is provided with a gasket or the like so that groundwater introduced into the hollow portion (111) is not discharged to the outside through the insertion hole (121).

Of course, even if a part of the ground water flows out through the joint part of the cover 120 or the insertion hole 121, the state of the ground water can be measured, but the discharged groundwater flows into the groundwater layer through the permeable layer (ground surface).

Meanwhile, the groundwater flowing back into the groundwater layer may flow into the groundwater layer together with the pollutants present in the permeable layer, causing the groundwater to pollute the groundwater. So that it can be discharged only through a discharge pipe 133 which will be described later.

The pump 130 may be provided on the upper surface of the lid 120 or on the ground in close proximity to the lid 120. The pump 130 sucks the groundwater introduced into the hollow portion 111 through the control of the controller 140, And includes a hose 131 and a discharge pipe 133. The hose 131 and the discharge pipe 133 are connected to each other.

The upper portion of the hose 131 is connected to the pump 130 and the lower portion of the hose 131 passes through the insertion hole 121 of the lid 120 to be in contact with the bottom surface of the hollow portion 111, So that the groundwater introduced into the hollow portion 111 can be sucked by the pump 130.

One end of the discharge pipe 133 is connected to the pump 130. The other end of the discharge pipe 133 is allowed to flow into sewage, drainage, or nearby reservoir or agricultural land so that the inhaled groundwater can not be discharged directly to the permeable layer.

The valve 160 is installed in each of the plurality of through holes 113 and opens and closes the through hole 113 through the control unit 140 to remove the ground water So that it can be introduced.

A check valve that can be electrically opened and closed by the control of the controller 140 is used for the valve 160.

The sensor 150 is a structure for grasping the state (water pollution degree) of groundwater flowing into the hollow portion 111.

The sensor 150 may be installed on the lower surface of the lid 120 or the lower portion of the lid 120 so as to be electrically connected to the controller 140 so as to detect the state of the groundwater contained in the hollow portion 111, , And the detected status information is transmitted to the control unit 140 and displayed on the control unit 140 or can be displayed on the terminal of the administrator by numerical value.

The controller 140 is electrically connected to the plurality of valves 160, the sensor 150, and the pump 130 to control the controller 140.

The control unit 140 may be controlled by an operator outside the lid 120 to be portable, but may be fixedly installed inside the lid 120 if necessary.

The control unit 140 is installed in parallel with the plurality of valves 160 so as to individually control the respective valves 160. The state of groundwater measured by the sensor 150 can be easily visualized by the operator So that they can be displayed and displayed.

The controller 140 is electrically connected to a water level sensor (not shown) installed on the bottom surface or the inner wall of the lower portion of the insertion tube 110 to detect presence or absence of groundwater accommodated in the hollow portion 111, Or not.

Hereinafter, the operation of the management apparatus according to the present invention will be described in detail with reference to the accompanying drawings. The management apparatus according to the present invention will be described by way of example in which at least two groundwater layers are formed in the ground layer so that the gist of the present invention can be more clearly understood. However, this is only one embodiment, Note that the condition of the groundwater can be investigated even where one groundwater layer is formed.

3, a column-shaped insertion tube 110 having a length in the vertical direction and having an upper portion sealed by the lid 120 is inserted into a ground surface to form a permeable layer G1, a groundwater layer G / W1, G / W2) and the impervious layer (G2, G3).

At this time, it is preferable that the lower part of the insertion tube 110 can be inserted and fixed in the impervious layer G3.

In addition, the insertion tube 110 vertically installed on the ground layer is installed such that at least one valve 160 among the plurality of valves 160 installed therein is located at a position opposite to each groundwater layer, and when the valve 160 is opened, So that groundwater can be introduced into the water tank 111.

Next, the operator opens the valve 160-a or 160-b opposed to the groundwater layer through which the groundwater flows to check the condition through the control unit 140 so that the groundwater can be introduced into the hollow portion 111 .

That is, when it is desired to measure the groundwater condition of the first groundwater layer G / W1 located above the first impervious layer G2, as shown in FIG. The first valve 160-a provided in the second water impermeable layer G3 is opened to allow the sensor 150 to measure groundwater introduced into the hollow portion 111 and the second groundwater layer The second valve 160-b provided inside the insertion tube 110 is opened so as to face the second groundwater layer G / W2 to measure the groundwater in the hollow space G / W2, 111 to be measured by the sensor 150.

Of course, in order to precisely measure the state of the groundwater introduced into the hollow portion 111 by one sensor 150, any one of the groundwater of the first or second groundwater layer G / W1 or G / 111) to be measured.

At this time, the groundwater flowing into the hollow part 111 is received at least to such a degree that the sensor 150 provided under the cover 120 can be flooded so that the state of the groundwater flowing through the sensor 150 can be measured .

In addition, the sensor 150 measuring the state of the groundwater accommodated in the hollow part 111 transmits the measured information to the control part 140 so that the operator can check it.

4, when the measurement of the groundwater flowing into the hollow part 111 through the sensor 150 is completed, the operator operates the pump 130 through the control part 140, (130) sucks the groundwater introduced through the hose (131) installed in the longitudinal direction inside the hollow part (111) and can be discharged to a drainage path through the discharge pipe (133).

The management apparatus according to the present invention having the above-described configuration is different from the conventional one and is simple in installation, and when a plurality of groundwater layers are present in the ground layer, only groundwater existing in each groundwater layer exists in the insertion pipe 110 through the valve 160, The state of the groundwater can be measured individually by the sensor 150 and thus the state information of the groundwater with high reliability can be obtained.

The specific embodiments of the present invention have been described above. It is to be understood, however, that the spirit and scope of the invention are not limited to these specific embodiments, but that various changes and modifications may be made without departing from the spirit of the invention, If you are a person, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

100: Groundwater investigation management system for artificially monitoring groundwater according to the present invention
110: insertion tube 111: hollow
113: Through hole 120: Cover
121: insertion hole 130: pump
131: Hose 133: Discharge tube
140: controller 150: sensor
160: Valve

Claims (1)

An insertion tube 110 having a lower portion closed and an upper portion opened and having a plurality of through holes 113 formed adjacent to each other in the longitudinal direction and inserted into the ground;
A lid 120 detachably mounted on the upper portion of the insertion tube 110 and opening and closing an upper portion of the insertion tube 110 and having an insertion hole 121 formed in a vertical direction;
The hose 131 is provided on the upper surface of the cover 120 so that the lower end of the hose 131 penetrates the insertion hole 121 and contacts the inner bottom surface of the insertion tube 110. A pump 130 connected to a discharge pipe 133 for discharging the water to the outside of the insertion tube 110;
A valve (160) provided in each of the plurality of through holes (113) to open and close the through hole (113);
A sensor 150 disposed under the lid 120 to communicate with the inside of the insertion tube 110 and measuring the state of the groundwater introduced into the insertion tube 110; And
And a controller 140 for controlling at least one of the pump 130, the valve 160, and the sensor 150,
The lower portion of the insertion tube 110 is inserted and fixed in the impervious layer through the permeable layer,
The control unit 140 is installed in parallel with a plurality of the valves 160 so as to individually control the respective valves 160. The state of groundwater measured by the sensor 150 can be visually checked by the operator Wherein the groundwater management system comprises a groundwater management system for artificially monitoring groundwater,

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