KR20120123903A - Groundwater monitoring apparatus - Google Patents

Abstract

PURPOSE: A groundwater monitoring device is provided to improve cost efficiency by monitoring the properties of groundwater of multiple depths using a measurement unit. CONSTITUTION: A groundwater monitoring device(100) comprises a pumping unit(110), a guide unit(120), a control unit(130), and a measurement unit(140). The pumping unit is located inside a borehole(H) and pumps groundwater(W) in multiple depths. The guide unit individually guides the pumped groundwater to the outside the ground(G). The control unit selectively opens and closes multiple guide members(121,122,123,124,125) to discharge groundwater remaining in the guide members to the outside. The measurement unit measures the properties of the guided groundwater in multiple depths.

Description

Groundwater Monitoring System {GROUNDWATER MONITORING APPARATUS}

The present invention relates to a groundwater monitoring device, and more particularly, to a groundwater monitoring device that can guide the groundwater pumped by a plurality of depths so as not to be mixed with each other independently monitor the state of the groundwater.

In general, as a method for monitoring the groundwater by depth, by installing a multi-packer device (1) in the borehole (H) provided in the ground (G) as shown in Figure 1, by pumping the groundwater (W), the temperature, pH at the outdoor site Physical and chemical properties such as electrical conductivity, dissolved oxygen content, oxidation-reduction potential, etc. are measured by the predetermined measuring device 2. In order to automate such groundwater monitoring, as shown in FIG. 1, a plurality of measuring devices 2 are connected to each of a plurality of groundwater induction pipes P connected to the multiple packer device 1. That is, a plurality of measuring devices 2 are connected to one multiple packer device 1 independently of each other with a plurality of groundwater induction pipes P therebetween.

Accordingly, in the case of FIG. 1, a plurality of groundwater induction pipes P and a plurality of measuring devices 2 corresponding thereto are required to monitor the groundwater W, and thus, the economic efficiency is low. In addition, as maintenance / repair of each of the plurality of field devices 2 is required, there is a problem of efficiency reduction.

On the other hand, as shown in Figure 2, it is also possible to monitor by connecting a plurality of depth-specific groundwater (W) pumped from the multi-packer device 1 by one measuring device (2 '). Here, in order to use the one measuring device 2 ', the groundwater W is disposed between the plurality of groundwater induction pipes P and one measuring device 2' with a plurality of valves V interposed therebetween. To control inflow. In this case, the valve (V) is provided corresponding to the number of the plurality of groundwater induction pipe (P), respectively, thereby independently controlling the opening and closing of each of the plurality of groundwater induction pipe (P).

However, in the case of Figure 2, the ground water (W) is not completely discharged between the plurality of valves (V) and the measuring device (2 '), so that the ground water flowing through the plurality of ground water induction pipe (P) This causes a problem that (W) is mixed with each other before entering the measuring device 2 '. The mixing of the groundwater (W) interferes with the accurate grasp of groundwater characteristics by depth, thereby lowering the groundwater measurement reliability.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a groundwater monitoring apparatus capable of independently measuring and monitoring the characteristics of a plurality of depths of groundwater according to depth.

Groundwater monitoring device for monitoring the characteristics of the groundwater according to the present invention for achieving the above object by depth, the pumping unit for pumping the groundwater at a plurality of depths, the groundwater to be guided to the outside of the ground, a plurality of depths A guide unit having a plurality of guide members each independently guiding each other, a control unit for selectively opening and closing the plurality of guide members, and controlling the ground water remaining in the plurality of guide members to be discharged; It includes a measuring unit for measuring the characteristics of the groundwater by depth.

According to one side, the guide member includes a plurality of guide tubes provided corresponding to the plurality of depths.

According to one side, the control unit, including a plurality of valves, provided between the guide member adjacent to each other of the plurality of guide members, the guide for controlling the ground water to move only in any one of the plurality of guide members A control valve, a connection line interconnecting any one of the plurality of valves of the guide control valve and the measurement unit, a discharge line communicating with the connection line to discharge the groundwater to the outside of the measurement unit, and the connection And a discharge control valve for controlling opening and closing between a line and the discharge line, wherein the guide control valve and the discharge control valve include a 3-way valve.

According to one side, the guide member comprises first to fifth guide members corresponding to the plurality of depths, respectively, and the control unit, selectively opening and closing between the neighboring first and second guide members A first valve, a second valve for selectively opening and closing between the first valve and a third guide member neighboring the second guide member, and a fourth guide member neighboring the second valve and the third guide member And a fourth valve for selectively opening and closing therebetween, and a fourth valve for selectively opening and closing between the third valve and the fifth guide member adjacent to the fourth guide member. A connection line provided between the measurement unit, a communication line communicating with the connection line, a discharge line for discharging the groundwater to the outside instead of the measurement unit, and between the connection line and the discharge line. And a discharge control valve for controlling the opening and closing.

According to one side, the guide control valve and the discharge control valve including the first to fourth valve comprises a three-way (Way) valve.

According to one side, the control unit, the first to third auxiliary lines for connecting between the adjacent first to fourth valves.

According to one side, the first to fourth valve is based on the guide direction of the groundwater, the valve located on the side of any one of the first to fourth valve of the first to fourth valve is closed, the valve located on the rear side Open.

Groundwater monitoring device for monitoring the characteristics of the groundwater by depth for achieving the object of the present invention, the pumping unit for pumping the groundwater at a plurality of depths, the groundwater to be pumped to the outside of the ground, each of the plurality of depths A guide unit having a plurality of guide members for guiding independently, and a plurality of three-way valves to open and close the plurality of guide members independently and remaining in the plurality of guide members It includes a control unit for controlling the discharge of the groundwater, and a measuring unit for measuring the characteristics of the groundwater for each of the plurality of depths.

The guide member includes first to fifth guide members corresponding to the plurality of depths, respectively, and the control unit includes: a first valve for selectively opening and closing the neighboring first and second guide members; A second valve for selectively opening and closing between the first valve and the third guide member neighboring the second guide member, and selectively between the second valve and the fourth guide member neighboring the third guide member And a third valve for opening and closing, and a fourth valve for selectively opening and closing between the third valve and the fifth guide member adjacent to the fourth guide member, between the fourth valve and the measurement unit. A connection line provided in communication with the connection line, a discharge line for discharging the groundwater to the outside instead of the measuring unit, and controlling opening and closing between the connection line and the discharge line. It includes an exhaust control valve, the guidance control valve and the exhaust control valve including the first to fourth valve comprises a three-way (Way) valve.

According to one side, the control unit, the first to third auxiliary lines for connecting between the adjacent first to fourth valves.

According to one side, the first to fourth valves in the guide direction of the groundwater as a reference, the valve located on the side of any one of the first to open one of the valves of the first to fourth valve is closed, the valve located on the rear side Open.

According to the present invention having the configuration as described above, first, groundwater is guided through a plurality of guide members independently for each of a plurality of depths, the groundwater remaining in the other depths by discharging the groundwater remaining in the guide member It is possible to prevent the problem mixed with. As a result, the groundwater characteristics by depth can be grasped, thereby improving the reliability of the groundwater measurement.

Second, since one measuring unit can monitor the characteristics of a plurality of depths of groundwater, it is possible to improve economics and maintainability.

1 is a view schematically showing an apparatus for monitoring general groundwater by depth;
2 is a view schematically showing a variation of FIG. 1,
3 is a view schematically showing a groundwater monitoring apparatus according to an embodiment of the present invention,
4 is a view schematically illustrating an example of a 3-way valve including the guide control valve and the discharge control valve shown in FIG. 3;
FIG. 5 is a view schematically illustrating an operation of discharging groundwater guided through a fifth guide member of the groundwater monitoring apparatus illustrated in FIG. 3;
FIG. 6 is a view schematically illustrating an operation of groundwater guided through a third guide member of the groundwater monitoring apparatus illustrated in FIG. 3, and
FIG. 7 is a view schematically illustrating an operation of discharging groundwater guided through a third guide member of the groundwater monitoring apparatus illustrated in FIG. 6.

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

3 is a groundwater monitoring device 100 according to a preferred embodiment of the present invention. Groundwater monitoring apparatus 100 according to an embodiment includes a pumping unit 110, the guide unit 120, the control unit 130 and the measuring unit 140. For reference, the groundwater monitoring device 100 described in the present invention monitors the characteristics of the groundwater (W) in the borehole (H) provided in the ground (G) for each depth.

The pumping unit 110 is provided in the borehole H, and pumps the groundwater W at a plurality of depths. In this embodiment, the pumping unit 110 includes first to sixth packers 111, 112, 113, 114, 115, and 116 to pump groundwater W at a plurality of depths. It is illustrated as including a packer device. However, it is obvious that the pumping unit 110 is not limited thereto.

The guide unit 120 guides the pumped groundwater (W) to the outside of the ground (G), each guides independently for a plurality of depths. To this end, the guide unit 120 includes a plurality of guide members 121, 122, 123, 124, 125 corresponding to a plurality of depths. The plurality of guide members 121, 122, 123, 124, and 125 includes a plurality of guide tubes corresponding to a plurality of depths.

For reference, in the present embodiment, the pumping unit 110 between the first to sixth packers 111, 112, 113, 114, 115, and 116, that is, the groundwater W at five depths. It is illustrated by pumping. Correspondingly, the guide unit 120 also includes first to fifth guide members 121, 122, 123, 124, and 125 to guide the groundwater W for each depth. At this time, the first guide member 121 of the first to fifth guide members 121, 122, 123, 124, 125 is a groundwater (W) of a deep depth relative to the ground (G) The fifth guide member 125 is illustrated as guiding the groundwater (W) having a relatively thin depth with respect to the ground (G). That is, the first to fifth guide members 121, 122, 123, 124, and 125 are sequentially disposed at a deeper depth with respect to the ground G.

The control unit 130 selectively opens and closes the first to fifth guide members 121, 122, 123, 124 and 125, and the first to fifth guide members 121 and 122. Control to discharge the ground water (W) remaining in the (123) (124) and (125). To this end, the control unit 130 includes a guide control valve 131, a connection line 132, a discharge line 133 and a discharge control valve 134.

The guide control valve 131 is provided between the guide members adjacent to each other among the first to fifth guide members 121, 122, 123, 124, 125, and the first to fifth guide members ( The ground water (W) is controlled to move only in one of the guide members 121, 122, 122, 123, 124, 125. To this end, the guide control valve 131 includes first to fourth valves 131a, 131b, 131c, and 131d, which are three-way valves as illustrated in FIG. 4.

The first valve 131a selectively opens and closes the neighboring first and second guide members 121 and 122. The second valve 131b selectively opens and closes between the first valve 131a and the third guide member 123 adjacent to the second guide member 122. The third valve 131c selectively opens and closes between the second valve 131b and the fourth guide member 124 adjacent to the third guide member 123, and the fourth valve 131d is a third valve. 131c and the fourth guide member 125 adjacent to the fourth guide member 124 are selectively opened and closed.

Here, the first to third auxiliary lines 135, 136, 137 are provided to connect the first to fourth valves 131a, 131b, 131c, and 131d. Specifically, a first auxiliary line 135 is provided between the first and second valves 131a and 131b, and a second auxiliary line between the second valve 131b and the third valve 131c. 136 is provided. Similarly, a third auxiliary line 137 is provided between the third valve 131c and the fourth valve 131d.

Meanwhile, in the present embodiment, the first to fourth valves 131a, 131b, 131c, and 131d are the first to fourth valves 131a and 131b based on the guide direction of the groundwater W. The valve located at the front side of any one of the open valves 131c and 131d is closed, and the valve located at the rear side is opened. By the opening and closing operations of the first to fourth valves 131a, 131b, 131c, and 131d, the flow of the groundwater W can be smoothly guided to the measurement unit 140.

The connection line 132 interconnects any one of the first to fourth valves 131a, 131b, 131c, and 131d included in the guide control valve 131 and the measurement unit 140. In this embodiment, the connection line 132 is connected between the fourth valve 131d and the measurement unit 140 by way of example.

The discharge line 133 communicates with the connection line 132 to discharge the groundwater (W) to the outside, not the measurement unit 140.

The discharge control valve 134 controls the opening and closing between the connection line 132 and the discharge line 133. Here, the discharge control valve 134 also includes a three-way valve as shown in FIG.

The measuring unit 140 measures the characteristics of a plurality of depth-based groundwater (W) guided independently through the control unit 130, respectively. Here, the measuring unit 140 measures physical / chemical properties such as temperature, pH, electrical conductivity, dissolved oxygen content, oxidation-reduction potential, and the like. Since the configuration of the groundwater characteristic measurement by the measuring unit 140 can be understood from a known technique, detailed description thereof will be omitted.

The groundwater monitoring method () using the groundwater monitoring apparatus 100 according to the present invention having the above configuration will be described with reference to FIGS. 3 to 7.

First, as shown in FIG. 3, first to fifth guide members 121, 122, 123, 124 and 125 collect groundwater W pumped at a plurality of depths through the pumping unit 110. Are supplied independently of each other. In this case, when the characteristics of the groundwater (W) supplied through the fifth guide member 125 of the first to fifth guide members 121, 122, 123, 124, 125, the The first to third valves 131a, 131b, and 131c of the guide control valve 131 of the control unit 130 are closed, and only the fourth valve 131d is opened. At this time, as the fourth valve 131d is a three-way valve as shown in FIG. 4, the ground water W is adjusted only through the fifth guide member 125 by adjusting the opening direction of the fourth valve 131d. ) Is moved to provide a connection line 132. Thus ground water (W) moved through the fifth guide member 125 is provided to the measuring unit 140 via the connecting line 132, the lowest water level relative to the ground (G) as shown in FIG. The characteristics of groundwater are measured.

When the measurement of the ground water (W) guided through the fifth guide member 125 is completed, as shown in FIG. 5, the ground water (W) present in the connection line 132 by opening the discharge control valve 134. ) Is discharged through the discharge line 133. Thus, the groundwater W guided through the fifth guide member 125, which is the existing groundwater W, may be prevented from being mixed with the measurement of the groundwater W pumped from another depth.

On the other hand, as shown in Figure 6, if you want to measure the characteristics of the ground water (W) guided through the third guide member 125, the second valve 131b connected to the third guide member 125 is opened. Let's do it. At this time, based on the guide direction of the ground water (W), instead of closing the first valve 131a positioned on the side with respect to the second valve (131b), it is located on the rear side relative to the second valve (131b). The third and fourth valves 131c and 131d which are positioned are opened to guide the groundwater W to smoothly move through the third guide member 123.

When the measurement of the ground water (W) guided through the third guide member 123 is completed, as shown in FIG. 7, the ground water (W) present in the connection line 132 by opening the discharge control valve 134. ) Is discharged through the discharge line 133.

Although the present invention has been described with reference to the preferred embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the following claims. It can be understood that

100: groundwater monitoring device 110: pumping unit
120: groundwater guide unit 130: control unit
131: guiding control valve 132: connection line
133: discharge line 134: discharge control valve
140: measuring unit W: groundwater

Claims (11)

In the groundwater monitoring device for monitoring the characteristics of the groundwater by depth,
A pumping unit pumping the groundwater at a plurality of depths;
A guide unit for guiding the groundwater being pumped to the outside of the ground and having a plurality of guide members for guiding independently for each of a plurality of depths;
A control unit which selectively opens and closes the plurality of guide members and controls the ground water remaining in the plurality of guide members to be discharged; And
A measuring unit for measuring characteristics of the groundwater for each of the plurality of depths;
Groundwater monitoring device comprising a.
The method of claim 1,
The guide member is a groundwater monitoring device including a plurality of guide pipes provided corresponding to the plurality of depths.
The method of claim 1,
The control unit includes:
A guide control valve including a plurality of valves, provided between guide members adjacent to each other among the plurality of guide members, and controlling the groundwater to move only in one of the guide members;
A connection line interconnecting any one of the plurality of valves of the guide control valve and the measurement unit;
A discharge line communicating with the connection line to discharge the groundwater to the outside instead of the measurement unit; And
A discharge control valve controlling opening and closing between the connection line and the discharge line;
Including;
The guide control valve and the discharge control valve is groundwater monitoring device comprising a 3-way valve.
The method of claim 1,
The guide member includes first to fifth guide members corresponding to the plurality of depths, respectively,
The control unit includes:
A first valve for selectively opening and closing between the first and second guide members adjacent to each other, a second valve for selectively opening and closing between a third guide member neighboring the first valve and the second guide member; A third valve for selectively opening and closing between the second valve and a fourth guide member neighboring the third guide member, and a third valve between the third valve and the fourth guide member neighboring the fourth guide member A guide control valve including a fourth valve to open and close by a second valve;
A connection line provided between the fourth valve and the measurement unit;
A discharge line communicating with the connection line to discharge the groundwater to the outside instead of the measurement unit; And
A discharge control valve controlling opening and closing between the connection line and the discharge line;
Groundwater monitoring device comprising a.
5. The method of claim 4,
The guide control valve and the discharge control valve including the first to fourth valve groundwater monitoring device comprising a three-way (Way) valve.
5. The method of claim 4,
The control unit, the groundwater monitoring device including a first to third auxiliary line for connecting between the adjacent first to fourth valve.
5. The method of claim 4,
The first to fourth valves are based on the guide direction of the groundwater, and the valve located on the side of any one of the first to fourth valves opened is closed, and the valve located on the rear side opens the groundwater monitoring. Device.
In the groundwater monitoring device for monitoring the characteristics of the groundwater by depth,
A pumping unit pumping the groundwater at a plurality of depths;
A guide unit for guiding the groundwater being pumped to the outside of the ground and having a plurality of guide members for guiding independently for each of a plurality of depths;
A control unit including a plurality of three-way valves, each of which independently opens and closes the plurality of guide members and controls the discharge of the groundwater remaining in the plurality of guide members; And
A measuring unit for measuring characteristics of the groundwater for each of the plurality of depths;
Groundwater monitoring device comprising a.
9. The method of claim 8,
The guide member includes first to fifth guide members corresponding to the plurality of depths, respectively,
The control unit includes:
A first valve for selectively opening and closing between the first and second guide members adjacent to each other, a second valve for selectively opening and closing between a third guide member neighboring the first valve and the second guide member; A third valve for selectively opening and closing between the second valve and a fourth guide member neighboring the third guide member, and a third valve between the third valve and the fourth guide member neighboring the fourth guide member A guide control valve including a fourth valve to open and close by a second valve;
A connection line provided between the fourth valve and the measurement unit;
A discharge line communicating with the connection line to discharge the groundwater to the outside instead of the measurement unit; And
A discharge control valve controlling opening and closing between the connection line and the discharge line;
Including;
The guide control valve and the discharge control valve including the first to fourth valve groundwater monitoring device comprising a three-way (Way) valve.
10. The method of claim 9,
The control unit, the groundwater monitoring device including a first to third auxiliary line for connecting between the adjacent first to fourth valve.
10. The method of claim 9,
The first to fourth valves are based on the guide direction of the groundwater, and the valve located on the side of any one of the first to fourth valves opened is closed, and the valve located on the rear side is opened to monitor the groundwater. Device.

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