KR100914380B1 - Apparatus for Hydraulic Testing - Google Patents

Abstract

A hydraulic test apparatus is disclosed that enables accurate water level observation in artesian wells where the groundwater level is higher than the surface elevation of the borehole, enables instantaneous water level change tests, and improves the accuracy of the pumping test analysis. . Hydraulic test apparatus is provided to the first packer that is in close contact with the inner surface of the borehole, the supply pipe for supplying the expansion fluid to the inside of the first packer in close contact with the inner surface of the borehole, provided outside the borehole but above the ground surface It is formed to accommodate the fluid flowing out of the borehole, the external fluid is formed of a transparent material and the graduation is marked along the vertical direction, the part is made of a transparent material so that the contained fluid can be observed from the outside is in communication with the A valve unit for guiding the fluid to the external observer with a pressure of a fluid present in a sampling space and between the guide tube and the external observer to selectively block a flow path for an instantaneous water level change test; It is provided in the upper part of the valve portion and the fluid contained in the outer observation tube for the instantaneous water level change test to the outside It includes discharge portions for reading.

Description

Apparatus for Hydraulic Testing

The present invention relates to a hydraulic test apparatus, and more particularly, to a hydraulic test apparatus capable of accurate water level measurement in a magnetic powder well, an instantaneous water level change test, and improved accuracy of a pumping test analysis.

Representative hydraulic tests to investigate the hydraulic characteristics of aquifers include pumping and instantaneous water level changes.

The pump tests cause a drop in water level by pumping a certain amount in the aquifer and free surface aquifers, and the hydraulic characteristics of the aquifer using the appropriate well-flowing equations based on the pumping amount and the water level data. Permeability coefficient and low oil coefficient)

And, the slug tests are a method of estimating the hydraulic constant value by inducing instantaneous water level changes in a single borehole and observing the recovery pattern, unlike in other methods of estimating the hydraulic constant in one borehole. It is economical because it can be implemented, and has been made a lot because it has an advantage that it can be applied when the aquifer is made of a low permeability medium that is difficult to cause the water drop.

In order to perform such a repair test, a repair test apparatus for inserting a borehole to extract groundwater and performing a repair test is used.

Referring to Figures 1 and 2, the configuration of a conventional general hydraulic test apparatus for performing a repair test in the interval of interest is as follows. Here, Figure 1 is a block diagram showing the state before the packer is expanded in the conventional groundwater harvesting device, Figure 2 is a block diagram showing a state in which the packer is expanded by the expansion fluid in close contact with the inner borehole in the conventional groundwater harvesting device to be.

Conventional groundwater (W) collection device is the upper and lower packer 10 and the lower packer 30, the supply pipe 20, 40, the packers (10, 30) to apply hydraulic pressure to supply the expansion fluid to the packer It consists of a guide pipe 50 for guiding the ground water (W) present in the extraction space between the connecting pipe 60 and the packers (10,30) outside the borehole (H).

Here, the pair of packers are in close contact with the inner surface of the borehole (H) while receiving the fluid through the supply pipe (20, 40) and expands outward, as shown in Figure 2, packers in the borehole (H) The region of interest between (10,30) is hydraulically isolated.

The supply pipes 20 and 40 communicate with the upper supply pipe 20 and the upper supply pipe 20 to supply the expansion fluid to the upper packer 10, and the lower supply pipe 40 to supply the expansion fluid to the lower packer 30. It is composed of

Therefore, when the expansion fluid is supplied to the upper packer 10 through the upper supply pipe 20, the expansion fluid flows in the lower supply pipe 40 communicating with the expansion fluid and is supplied to the lower packer 30. That is, by supplying the expansion fluid to the upper supply pipe 20 to expand the upper and lower packers 30 at the same time to be in close contact with the inner surface of the borehole (H).

On the other hand, the connection pipe 60 is formed with an inlet hole 62 for introducing the groundwater (W) present in the sampling space isolated by the packers (10,30). In addition, the connecting pipe 60 connecting the packers 10 and 30 has a plurality of segments assembled to each other to maintain a gap between the packers 10 and 30. Therefore, by adjusting the number of segments of the connection pipe 60 connecting between the packers (10,30), it is possible to extract the groundwater (W) in the desired depth section in the borehole (H).

Instead of configuring a packer as a pair and performing a hydraulic test on the region of interest between the packers, the packer may be configured as a single packer to observe the level recovery in the lower region of the packer.

However, the conventional hydraulic test apparatus had many limitations in performing the water level test in the magnetic powder.

An artesian well is a form of groundwater that erupts above the surface of the water and is most common when the aquifer is confined to an aquitard with very low permeability or when boreholes are installed in underground facilities.

When attempting to perform a hydraulic test on such a magnetic fountain, the groundwater flows out of the borehole in the magnetic powder well, so that it is difficult to use the automatic level gauge except the pressure gauge as well as the manual level measurement, and it is difficult to perform the instantaneous level change test. There was this.

In addition, in the case of pumping test, pumping should be done so that the water level falls below the casing altitude. Moreover, there is a problem that the uncertainty about interpretation of the pumping test result is not known because the accurate level drop is not known.

In other words, the groundwater level is high in the surface of the ball, so it is difficult to measure the water level in the subfloor where the groundwater overflows, and to perform the instantaneous water level change test, and also to carry out the analysis and analysis of the pumping test.

The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide a hydraulic test apparatus capable of accurate water level observation in a magnetic powder.

Another object of the present invention is to provide a hydraulic test apparatus capable of performing an instantaneous water level change test and improving the accuracy of the pumping test analysis.

In order to achieve the above object, the present invention is a repair test apparatus according to the present invention, the first packer is selectively in close contact with the inner surface of the borehole, supplying the expansion fluid into the first packer to the borehole A supply pipe closely attached to an inner surface, provided outside the borehole to be formed above the ground surface to receive the fluid flowing out of the borehole, and partly formed of a transparent material so that the received fluid can be observed from the outside, and a scale is marked along the vertical direction. An external observation tube, a guide tube communicating with a sampling space below the first packer and guiding the fluid to the external observation tube at a pressure of a fluid present in the collection space, and between the guide tube and the external observation tube. It is provided on the valve part and the upper part of the valve part for selectively blocking the flow path for the instantaneous water level change test. For the above change in the test includes the discharge portions for discharging the fluid contained in the outer tube to the outside observation.

In addition, the external observation tube is preferably detachably coupled to the guide tube.

On the other hand, the repair test apparatus according to the present invention is preferably provided between the guide tube and the external observer, it further comprises an external connector for interconnecting the guide tube and the external observer. The valve unit may be provided in the external connection pipe.

Hydraulic test apparatus according to the invention preferably comprises a fixing jig for fixing the external observation tube to the outside of the borehole.

In addition, the repair test apparatus may include a second packer which is provided at a lower portion than the first packer and is in close contact with the inner surface of the borehole in order to hydraulically isolate the section of interest.

In this case, it is preferable to include a connection pipe provided between the first packer and the second packer to connect the packers.

On the other hand, the repair test apparatus according to the present invention may include a level gauge for observing the water level of at least one of the guide tube and the observation tube.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description of this embodiment, the same name and the same reference numerals are used for the same configuration and additional description thereof will be omitted.

Referring to Figure 3, the configuration of the repair test apparatus according to an embodiment of the present invention.

Repair test apparatus according to this embodiment is inserted into the borehole (H) to collect the fluid present in the borehole (H), the first packer 110, the first supply pipe 120, the guide tube 150 ), The external observation tube 170 and the valve unit 180 is configured.

Here, the object of the sampling device according to this embodiment may be a variety of fluids. Hereinafter, the ground water (W) existing in the borehole (H) as an example of the fluid to be collected will be described as an example.

The first packer 110 is selectively adhered to the inner surface of the borehole H while the volume is increased by receiving the expansion fluid from the outside. As such, the first packer 110 is in close contact with the inner surface of the borehole H, so that the upper part and the lower part of the first packer 110 are hydraulically isolated from each other and the elution of the groundwater W is prevented.

The first supply pipe 120 supplies an expansion fluid into the first packer 110 to allow the first packer 110 to expand.

A lower extension tube 160 is formed below the first packer 110, and on the lower extension tube 160, inflowing groundwater (W) existing in a sampling space under the first packer 110 is provided. Inlet hole 162 is formed.

The guide tube 150 is in communication with the sampling space repaired by the expansion of the first packer 110 and is formed to extend outside the borehole (H), to guide the fluid present in the sampling space to the outside do.

The external observation tube 170 is provided to the outside of the borehole (H), is connected in communication with the guide tube 150 to receive the ground water (W) guided through the guide tube 150. On the other hand, between the guide tube 150 and the external observation tube 170 is provided with an external connection tube 130, it is configured to interconnect the guide tube 150 and the external observation tube 170.

In this embodiment, the external observation pipe 170 is provided so that even if the groundwater level A is formed higher than the ground surface in the self-refining well, the groundwater W can be accommodated so as not to overflow, so that the groundwater level is higher than the ground elevation of the borehole H. Groundwater level (A) can be observed.

If the outer observation tube 170 is made of a transparent sidewall and a scale is displayed along the vertical direction on the sidewall, there is an advantage that the level of the groundwater (W) can be measured visually without a separate level gauge. .

The material of the external observation tube 170 is not limited, and for example, may be manufactured in the form of a transparent acrylic tube.

The external observation tube 170 may be provided in various forms having different lengths in the vertical direction according to the position of the groundwater (W) surface, and configured to be detachably coupled to the guide tube 150 to the test conditions. It is preferable to configure the fitting so that the external observation tube 170 fits.

The valve unit 180 selectively blocks a flow path between the guide tube 150 and the external observation tube 170 and between the guide tube 150 and the external observation tube 170. As illustrated in FIG. 3, the shape of the external connector 130 is illustrated.

In this embodiment, the valve unit 180 is formed as described above, so that the groundwater W rising from the lower portion of the first packer 110 can be instantaneously connected or blocked. Therefore, the hydraulic test can be performed more accurately than the existing instantaneous water level change test, which had no choice but to slowly inject or remove water.

In addition, when the ground water (W) coming up through the guide pipe 150 is blocked, it is possible to discharge the ground water (W) of the upper portion of the valve unit 180 using a pump or the like.

Meanwhile, in the present embodiment, as shown in FIG. 3, the discharge unit 190 is separately provided on the upper portion of the valve unit 180, and configured to discharge the fluid contained in the external observation tube 170 to the outside. . Specifically, the discharge unit 190 is configured to include an opening and closing cock 194 for opening and closing the side extension pipe 192 and the side extension pipe 192.

Therefore, it is easy to open and close the opening and closing cock 194 of the discharge part 190, and the pumping of the groundwater W is possible, and in this case, a separate pump is not necessary.

That is, after the flow path is blocked through the valve unit 180, when the opening / closing cock 194 of the upper portion of the valve unit 180 is opened, the groundwater W accommodated in the external observation tube 170 is naturally externally provided. Can be discharged.

Therefore, it is possible to carry out instantaneous water level change test which can suddenly remove a certain amount of water and change the water level instantaneously.

On the other hand, the repair test apparatus may be provided with a general automatic level gauge 195 inside the guide tube 150. However, when accurate repair observation is possible by the scale of the external observer 170 as described above, the automatic water level meter 195 may be omitted.

In addition, the repair test apparatus according to the present embodiment is provided with a fixing jig 175 for fixing the external observation tube 170 from the outside of the borehole (H). The fixing jig 175 may be configured in the form of a tripod having three supports, for example.

The inlet portion of the borehole (H) is provided with a reinforcement pipe 135, so as to reinforce the structure of the inlet portion of the borehole (H) and to prevent the inlet portion collapse.

Referring to Figure 4, the configuration of the repair test apparatus according to a second embodiment of the present invention will be described.

Repair test apparatus according to the present embodiment, the first packer 110, the first supply pipe 120, the guide tube 150, the external observation tube 170 and the valve unit 180 as in the first embodiment described above It is configured to include.

However, in the present embodiment, the second packer 230 is provided at a lower portion of the first packer 110 at a predetermined interval, within the interval of interest between the first packer 110 and the second packer 230. It is configured to collect groundwater (W) in the sampling space of the.

In addition, a second supply pipe 240 is provided inside the connection pipe 260 to supply the expansion fluid to the second packer 230.

A connecting pipe 260 is provided between the first packer 110 and the second packer 230 to connect the first packer 110 and the second packer 230 to each other.

On the other hand, the connection pipe 260 is formed with an inlet hole 262 for introducing the ground water (W) existing in the sampling space isolated by the first and second packers (110,230). In addition, the connecting pipe 260 connecting between the first and second packers 110 and 230 is prefabricated with a plurality of segments to maintain a gap between the first and second packers 110 and 230. Therefore, by adjusting the number of segments of the connection pipe 260 connecting between the first and second packers 110 and 230, the groundwater W within the desired depth section in the borehole H can be collected.

Referring to Figure 5, the configuration of the repair test apparatus according to a third embodiment of the present invention will be described.

This embodiment also has the same basic configuration as the first embodiment described above, and includes a first packer 110, a first supply pipe 120, a guide pipe 150, an external observation pipe 370, and a valve unit 380. It is configured by.

However, the present embodiment is not provided with a separate external connector between the guide tube 150 and the external observation tube 370, the external observation tube 370 is directly connected to the guide tube 150, the flow path The valve unit 380 for blocking and the discharge unit 390 for discharging ground water (W) are provided on the external observation pipe 170.

Therefore, the side extension pipe 392 constituting the discharge unit 190 is formed on the side of the outer observation tube 370, the opening and closing cock 394 is configured to open and close the side extension pipe 392. .

On the other hand, the external observation tube 370 is preferably detachably coupled to the guide tube 150.

As described above, the preferred embodiments of the present invention have been described, and the fact that the present invention can be embodied in other specific forms in addition to the above-described embodiments without departing from the spirit or scope thereof has ordinary skill in the art. It is obvious to them.

Repair test apparatus according to the present invention having the above configuration has the following effects.

First, by providing an external observation tube on the outside of the borehole, there is an advantage that can accurately measure the water level in the magnetic powder wells commonly found in boreholes drilled in underground facilities including the aquifer aquifer.

That is, since the groundwater does not overflow to the borehole and can accommodate it, the groundwater level higher than the surface elevation of the borehole can be observed.

In particular, by configuring the external observer transparent and displaying the scale in the vertical direction on the external observer, there is an advantage that the tester can visually measure the water level. In addition, it is possible to configure the external observer to be separated, it is possible to combine the external observer according to the test conditions.

Second, in the magnetic field where the groundwater level is higher than the surface water level, the instantaneous water level change test can be performed, and the uncertainty of analysis in the pumping test can be significantly lowered.

1 is a block diagram showing a conventional repair test apparatus;

2 is a block diagram showing the form in which the packer is inflated in close contact with the borehole inner surface in the repair test apparatus of FIG.

3 is a block diagram showing a repair test apparatus according to a first embodiment of the present invention;

4 is a block diagram showing a repair test apparatus according to a second embodiment of the present invention;

5 is a block diagram showing a repair test apparatus according to a third embodiment of the present invention;

<Explanation of Signs of Major Parts of Drawings>

110: first packer 120: first supply pipe

130: external connector 135: reinforcement tube

150: guide tube 160: lower extension tube 162: inlet hole 170: external observation tube

175: fixing jig 180: valve portion 190: discharge portion

192: side extension pipe 194: opening and closing cock

195: automatic water level meter A: groundwater level

H: Borehole W: Groundwater

Claims (11)

A first packer selectively packing to the inner surface of the borehole; A supply pipe supplying an expansion fluid into the first packer to closely contact the inner surface of the borehole with the first packer; An external observer provided outside the borehole and formed above the ground surface to accommodate the fluid flowing out of the borehole, the outer observer being partially formed of a transparent material and displaying a scale along a vertical direction so that the received fluid can be observed from the outside; A guide tube communicating with a sampling space below the first packer and guiding the fluid to the external observation tube at a pressure of a fluid present in the sampling space; A valve unit provided between the guide tube and the external observation tube to selectively block a flow path for an instantaneous water level change test; A discharge portion provided at an upper portion of the valve portion for discharging the fluid contained in the outer observation tube to the outside for an instantaneous water level change test; And a fluid ejected from the borehole is accommodated in the external observation tube to prevent the fluid from overflowing to the ground surface so that a hydraulic test can be performed in an artesian well. Device. The method of claim 1, The external observation tube is a repair test apparatus, characterized in that coupled to the guide tube. delete delete The method of claim 1, It is provided between the guide tube and the external observation tube, the hydraulic test apparatus further comprises an external connection tube for interconnecting the guide tube and the external observation tube. The method of claim 5, Repair valve, characterized in that the valve portion is provided in the outer connecting pipe. The method of claim 1, Repair test device, characterized in that further comprises a fixing jig for fixing the external observation tube to the outside of the borehole. delete The method of claim 1, Repair test apparatus further comprises a second packer provided in the lower interval than the first packer to be in close contact with the inner surface of the borehole selectively. The method of claim 9, Repair test apparatus characterized in that it further comprises a connecting pipe provided between the first packer and the second packer connecting the first and second packers. The method of claim 1, Repair test apparatus, characterized in that further comprising a water level meter for observing the water level of any one of the guide tube and the observation tube.