KR101946992B1 - Underground water level measurement apparatus without wells - Google Patents

Abstract

The present invention relates to an underground water level measuring apparatus without a well, and more specifically, relates to an underground water level measuring apparatus without a well, comprising: a body unit whose inside has a hollow part and which is inserted into the ground for a certain distance; and a measuring unit which measures a water pressure of underground water introduced into the body unit, and calculates a water level of the underground water. The body unit includes: a soil introduction prevention unit which has a plurality of inlets formed by punching to allow the underground water to be introduced through the hollow part to be made of two or more crowded groups, each of which is distanced from an outer circumferential surface of the body unit in a circumferential direction for a certain distance, and which is rotatably placed on an internal side surface of the hollow part of the body unit to open/close the inlets; and the actuator which shields the inlets to prevent soil from being introduced into the hollow part of the body unit when the body unit is inserted into the ground, and which automatically operates the soil introduction prevention unit to open the inlets when coming in contact with the underground water in the ground. The present invention is able to improve workability and measurement reliability.

Description

[0001] UNDERGROUND WATER LEVEL MEASUREMENT APPARATUS WITHOUT WELLS [0002]

More particularly, the present invention relates to an apparatus for measuring an underground groundwater level, which can improve a work performance by measuring a groundwater level by a simple operation without the need to measure the groundwater level .

Generally, for the development of groundwater development, agricultural wastewater, and other necessary groundwater development for the national groundwater monitoring network, local government auxiliary groundwater monitoring network, seawater intrusion monitoring network, It is essential to observe the water level, so that the depth of water and the amount of water that can be absorbed are determined. To do this, a vertical tunnel under the ground should be digged from 5m to 100m as needed.

However, the conventional method, which is an essential element for measuring the groundwater level, is costly to develop. For example, if the groundwater does not come out even if it is installed, it is repaired two or three times to move it to another place. If the groundwater does not come out at the place where it was installed, There is a problem that a separate cost and manpower must be consumed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for measuring groundwater level without easily installing a water well, The present invention relates to an apparatus for measuring an undifferentiated groundwater level.

Further, the present invention is characterized in that the inlet is closed so as to prevent the inflow of the soil into the hollow of the body part when the body part is inserted into the underground of the body part, and the soil inflow prevention part is operated so that the inlet is automatically opened when the groundwater is encountered, The present invention also provides a groundwater level measurement apparatus capable of improving the reliability of the groundwater level measurement system.

A preferred embodiment of the irrigation groundwater level measuring apparatus according to the present invention is characterized in that the water pressure of a body part having a hollow formed therein and inserted to a predetermined distance below and a groundwater introduced into the body part is measured, Wherein the body portion is formed to be pierced so that the groundwater flows into the hollow and is formed of at least two closely packed groups, and each of the compact groups is spaced apart from the outer circumferential surface of the body portion by a predetermined distance in the circumferential direction A plurality of inflow openings formed in the hollow portion of the body portion and rotatably disposed on the hollow inner side surface of the body portion so as to prevent the inflow of the dirt into the hollow of the body portion when the body portion is inserted into the underground, The inlet port is opened so as to open the inlet port And an actuator for automatically activating the soil inflow preventing portion.

Here, the soil inflow prevention portion may include a rotation support portion protruding a predetermined distance from the hollow inner side surface to have a smaller inner diameter than the hollow portion of the body portion, a rotatable support portion rotatably supported by the rotation support portion, And a shielding portion formed with at least one groundwater inflow hole matched with the dense group of the inflow port.

In addition, the body may further include an insertion portion formed at the lowermost end to have a conical hollow.

In addition, the actuator may include a rotation motor disposed in the hollow formed by the shovel-tip portion and provided so as to be watertightly sealed with the soil inflow prevention portion.

In addition, the actuator may include a rotation motor that is connected to the bottom rotation center of the shield.

The measuring unit may include a water pressure measuring pressure sensor disposed on the hollow inner circumferential surface of the body and measuring the water pressure of the groundwater flowing into the hollow.

The apparatus may further include an installation cap detachably coupled to an upper end of the body and configured to transmit a press-fitting pressure of the dispenser to the body.

In addition, a communication hole communicating with the hollow of the body may be formed on an outer circumferential surface of the mounting cap.

The groundwater level measuring apparatus according to the present invention can reduce waste of unnecessary manpower because the body has a small outer diameter that does not require a restoration work of a separate installation site after the groundwater level measuring operation.

In addition, since the groundwater level measuring apparatus according to the present invention can easily insert the body part to a predetermined depth of the ground, it is easy to measure the groundwater level, thereby improving the work performance.

In addition, since the groundwater level measuring apparatus according to the present invention can accurately measure the groundwater level based on the measured pressure of the groundwater introduced into the groundwater when it is received or passed through the groundwater when the body part is inserted through the water pressure measuring pressure sensor, Work can be reduced.

The ungrounded groundwater level measuring apparatus according to the present invention is provided to automatically open and close an inlet provided for introducing groundwater into the hollow portion of the body portion according to the position of the body portion, thereby preventing the reliability of measurement caused by the inflow of the earth- can do.

FIG. 1 is a front view showing a preferred embodiment of the irrigation groundwater level measuring apparatus according to the present invention,
Fig. 2 is a cross-sectional view showing the internal structure of Fig. 1,
3 is a cross-sectional view of a soil layer showing an example of the use of the irrigation groundwater level measuring apparatus according to the present invention,
FIG. 4 is a cross-sectional view illustrating an operation of the irrigation groundwater level measuring apparatus according to the present invention,
FIG. 5 and FIG. 6 are cross-sectional views illustrating an action of the soil-inflow preventing unit in the construction of the irrigation groundwater level measuring apparatus according to the present invention,
FIG. 7 is a perspective view showing a combination of the soil-inflow preventing portion and the actuator in the construction of the irrigation groundwater level measuring apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of an irrigation groundwater level measuring apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a front view showing a preferred embodiment of an irrigation groundwater level measuring apparatus according to the present invention, and FIG. 2 is a sectional view showing the internal structure of FIG.

1 and 2, an untreated groundwater level measuring apparatus according to an embodiment of the present invention includes a body 10 having a hollow 15 therein and inserted up to a predetermined distance below the body 10, (Hereinafter, referred to as 'groundwater level') by measuring the water pressure of the groundwater flowing into the interior of the groundwater.

The body portion 10 may have hollow hollow cavities 15. The body portion 10 may be in the form of a pipe having a very large length as compared with the outer diameter. More specifically, the outer diameter is set to about 3.5 cm, which is a size large enough for an operator to grasp the end portion by hand, and the length can be set to a maximum of 15 m.

Therefore, even without having a press and an interrupter, which will be described later, it can be also inserted under the ground by the net attraction force of the operator or the hitting mechanism operated by the attraction force.

It is preferable that the upper end of the body portion 10 is opened to communicate with the hollow 15 and the lower end thereof is shielded to prevent the infiltration of the gravel upon infiltration into the underground.

The body portion 10 may include the insertion portion 13 at the lower end thereof. The incinerator 13 can facilitate the insertion of the groundwater level measuring device when it is inserted into the ground. Accordingly, it is preferable that the insertion portion 13 has a pointed shape, for example, a conical shape. The insertion portion 13 may have a conical hollow space therein. The empty space may be a part of the hollow 15.

The body portion 10 is preferably made of stainless steel. It is possible to prevent the product from being corroded despite repetitive inserting operation and long use, and it is possible to increase the durability of the product.

1, an installation cap 30 for transferring a press-in pressure and an extrusion pressure of the dispenser to the body 10 can be detachably coupled to the upper portion of the body 10. The extruder can ground the groundwater level gauge with a strong pressure like a press. The extruder can draw groundwater level gauges out of the ground with strong pressure.

Here, the inserter is a concept including both the name and the designation if the structure unit transmits a predetermined work force to insert the body part 10 into the underground or draw it out from underground. For example, if a striker is used to install a conventional pipe, but the structure in which the striker is struck by hitting the body part 10 in the case of the present invention is a striker, it should be recognized as a structure corresponding to the stitcher of the present invention.

The mounting cap 30 is coupled to the upper end of the body part 10 and serves as an intermediary for transmitting the working force to the body part 10 when the working force is transmitted by the interposer, It can be prevented from being damaged by the working force.

As shown in FIG. 1, a communicating hole 31 communicating with the hollow 15 of the body 10 may be formed on the outer circumferential surface of the mounting cap 30. This is to allow the groundwater to flow into the hollow 15 through the inlet 11 when the body 10 is inserted into the ground and the groundwater is encountered as described later. That is, when the installation cap 30 covers the upper end of the body portion 10, the body portion 10 is sealed except for the inlet portion 11, so that it is not easy to introduce groundwater into the inlet portion 11. [ By forming the communication hole 31 on the outer circumferential surface of the installation cap 30, groundwater can be introduced into the hollow 15.

The body 10 may further include at least one inlet 11 (hereinafter, referred to as a plurality of inlets) formed so that groundwater can be poured into the hollow 15.

The plurality of inflow ports 11 may be formed in at least one row vertically upright on the upper portion close to the insertion socket portion 13. It is also possible to vertically and vertically form an upper portion close to the insertion portion 13 and to be formed in two rows so as to be spaced apart by 180 degrees on the outer circumferential surface of the body portion 10.

More preferably, the plurality of inlets 11 may be composed of at least two closely packed groups formed by a plurality of rows vertically and vertically, as shown in Fig. 2, The first and second protrusions may be spaced apart from each other by a predetermined distance in the circumferential direction.

As described above, it is preferable that the plurality of inflow ports 11 are formed so as to be positioned at an upper portion close to the insertion socket portion 13. This is to allow the groundwater to flow quickly through the plurality of inflow openings 11 when the body part 10 is tapped underground and meets the groundwater.

However, in order to secure a space for installing the actuator 60, a plurality of inflow openings 11 are not necessarily located close to the insertion socket portion 13, And may be located at a distance further to the upper side of the distance.

It is preferable that the measuring unit 20 is arranged to be vertically long so as to be in close contact with the inner surface of the hollow 15 of the body 10. The measuring unit 20 may include a water pressure measuring pressure sensor for measuring the water pressure of the groundwater introduced into the hollow 15.

The measuring unit 20 can transmit a signal to the signal receiving apparatus 40 provided outside the body 10. [ The signal transmission system may be any of wired and wireless systems, but is preferably wired. For this purpose, the measuring unit 20 and the signal receiving device 40 are preferably connected to each other by a sensor signal line 41, and the sensor signal line 41 is preferably waterproof, have. The measuring unit 20 and the signal receiving device 40 can transmit and receive signals to / from each other by the sensor signal line 41. [

FIG. 3 is a sectional view of a soil layer showing the use of the irrigation groundwater level measuring apparatus according to the present invention, and FIG. 4 is a cross-sectional view illustrating an operation of the irrigation groundwater level measuring apparatus according to the present invention.

Hereinafter, the groundwater level measurement principle using the preferred embodiment of the irrigation groundwater level measuring apparatus according to the present invention will be briefly described.

3 and 4, when the body 10 is tamped in the ground and encounters groundwater, groundwater flows into the hollow 15 through a plurality of inlets 11 formed in the body 10. The groundwater introduced into the hollow 15 through the plurality of inlet ports 11 reaches the surface of the groundwater when the body portion 10 is continuously faded.

The distance H from the ground to the lower end of the pressure measuring pressure sensor 20 provided on the inner surface of the hollow 15 of the body 10 can be known through the depth of penetration of the body 10. The distance H to the pressure sensor 2 can be known through the length of the cable connected to the hydrostatic pressure sensor 20. It is preferable that the distance H through the body part 10 should be a corrected value considering the position of the pressure sensor 2 at the depth of insertion of the body part 10. [

The distance D from the lower end of the hydraulic pressure measuring sensor 20 to a position supposed to be above the groundwater is determined by the hydraulic pressure measuring sensor 20 according to the amount (height) of groundwater flowing into the hollow 15 through the plurality of inlet ports 11. [ (20). ≪ / RTI >

Here, the 'groundwater level' to be measured by the preferred embodiment of the irrigation groundwater level measuring apparatus according to the present invention is defined as the distance h from the ground to the place where the upper water surface of the groundwater is located.

The groundwater level h is calculated from the distance H from the ground to the lower end of the water pressure measurement pressure sensor 20 provided on the inner side surface of the hollow portion 15 of the body portion 10, (D) from the lower end to the assumed position on the groundwater.

In the preferred embodiment of the irrigation groundwater level measuring apparatus according to the present invention, the inlet 11 of the body 10 is connected to the bottom of the body 10 during the process of simply inserting the elongated pipe- It is possible to easily determine whether the groundwater is invisible by using the hydraulic pressure measuring sensor 20 according to the groundwater flowing through the groundwater, .

In addition, as described above, after the groundwater level is measured, only a small hole having a diameter of 3.5 cm is generated after the body portion 10 is drawn out from underground. Therefore, It is not necessary to perform a separate recovery operation.

5 and 6 are sectional views showing the operation of the soil irrigation prevention part in the construction of the irrigation groundwater level measuring apparatus according to the present invention. And the actuator are coupled to each other.

A preferred embodiment of the irrigation groundwater level measuring apparatus according to the present invention is characterized in that the operator easily inserts the body portion 10 through the ground through the ground for a predetermined distance and then measures the groundwater level Method.

The plurality of inflow openings 11 formed at the lower end of the body portion 10 are formed to have a size sufficient to allow the groundwater to flow therein. Quot;) may flow into the hollow 15 through the inlet 11.

5 to 7, a preferred embodiment of the irrigation groundwater level measuring apparatus according to the present invention is a method for measuring the groundwater level of the hollow portion 15 of the body 10 to prevent foreign matter such as gravel and the like from being introduced into the hollow 15 15 for opening and closing the inlet 11, as shown in FIG.

The soil inflow preventing portion 50 is formed on the inner side surface of the hollow 15 of the body portion 10 and particularly below the hollow 15 where the inlet 11 is formed so as to have an inner diameter smaller than the hollow 15 of the body portion 10. [ And a rotation support portion 51 protruding a predetermined distance from the inner side surface of the hollow 15 toward the center.

The lower end of the rotation support portion 51 extends a predetermined distance from the inner side surface of the hollow 15 toward the center and serves to support the lower end of the shielding portion 53, which will be described later, upward.

The earth inflow preventing portion 50 is rotatably supported by the rotation supporting portion 51 and has at least one groundwater inflow hole 55 whose outer circumference is matched with at least one close group of the plurality of inflow openings 11 And a shielding portion 53 formed thereon.

When the groundwater inflow hole 55 is stopped at a predetermined position by a later-described actuator 60, the groundwater inflow hole 55 is offset from the plurality of inflow ports 11 formed in the body portion 10 and is rotated at a predetermined angle by the actuator 60 Can be designed to match each other with a plurality of inlets (11). When the plurality of inlet ports 11 and the groundwater inlet holes 55 are disposed to be shifted from each other, since the plurality of inlet ports 11 are shielded by the shielding section 53, groundwater does not flow into the hollow 15, It is possible to prevent foreign matter such as gravel from entering into the hollow 15 when the body portion 10 is inserted into the underground.

On the other hand, the actuator 60 can be disposed in the hollow formed by the above-described insertion portion 13. Here, since the groundwater may flow into the upper portion of the insertion portion 13, the actuator 60 may be provided so as to be watertight to the soil inflow preventing portion 50.

In addition, the actuator 60 may include a rotation motor connected to the shaft 61 and the bottom center of rotation of the shield 53. The actuator 60 may be designed to be supplied with power through a power supply line included in the sensor signal line 41. [

The actuator 60 having such a configuration is operated such that a plurality of the inflow openings 11 formed in the body portion 10 and the groundwater inflow holes 55 are positioned to be shifted from each other when the body portion 10 is inserted into the underground , It is possible to prevent foreign matter such as soil from entering the hollow during the insertion of the body portion 10.

The actuator 60 is disposed in the body 10 such that the plurality of inlets 11 formed in the body 10 and the groundwater inflow hole 55 are matched with each other when the body 10 meets the groundwater while being inserted into the basement 10, 53) are rotated to allow the groundwater to flow into the hollow so that the groundwater level can be measured.

According to the embodiment of the irrigation groundwater level measuring apparatus according to the present invention, since the actuator 60 automatically opens and closes the plurality of inlet ports 11 until the groundwater is encountered from the time of inserting the body 10, As well as to ensure that the correct groundwater level is measured.

That is, in the embodiment of the present invention, since the foreign matter such as gravel or the like is prevented from flowing through the inlet 11 by the dust inflow preventing portion 50, the water pressure generated by accumulating the gravel in the hollow 15 It is possible to prevent erroneous measurement by the measurement pressure sensor 20, so that the reliability of measurement can be improved.

Hereinafter, a preferred embodiment of the irrigation groundwater level measuring apparatus according to the present invention will be described in detail with reference to the accompanying drawings. However, it should be understood that the embodiments of the present invention are not necessarily limited to the above-described preferred embodiments, and that various modifications and equivalents may be made by those skilled in the art something to do. Therefore, it is to be understood that the true scope of the present invention is defined by the following claims.

10: body part 11: inlet
13: Shovel portion 15: hollow
20: measuring part 30: mounting cap
31: communication port 40: signal receiving device
41: sensor signal line 50:
51: rotation supporting portion 53: shielding portion
55: Groundwater inflow hole 60: Actuator

Claims (7)

A body part having a hollow formed therein and inserted to a predetermined distance under the body; And
And a measuring unit for measuring the water level of the groundwater introduced into the body part and calculating the water level of the groundwater,
Wherein the body portion is formed to be pierced so as to allow the groundwater to flow into the hollow and includes at least two closely packed groups each having a plurality of inlets spaced from each other by a predetermined distance in the circumferential direction of the body portion,
A soil inflow preventing portion rotatably disposed on the hollow inner side surface of the body portion to open and close the inflow port; And
An actuator for automatically activating the soil inflow preventing part to open the inlet when the groundwater is received by the underground water, the inlet being shielded to prevent the inflow of the soil into the hollow of the body when the body is inserted into the underground; The groundwater level measuring device comprising: The method according to claim 1,
The soil-
A rotation support portion protruding from the hollow inner side surface at a predetermined distance toward the center so as to have a smaller inner diameter than the hollow portion of the body portion; And
And a shielding portion rotatably supported by the rotation support portion and having at least one groundwater inflow hole formed on an outer circumferential surface thereof to match a dense group of the plurality of inflow ports. 3. The method of claim 2,
Wherein the actuator includes a rotation motor that is connected to a bottom rotation center of the shield. The method according to claim 1,
The body portion further includes a penetration portion formed at the lowermost end to have a conical hollow,
Wherein the actuator includes a rotation motor disposed in the hollow formed by the insertion portion and provided so as to be watertightly sealed with the earth / sand inflow prevention portion. The method according to claim 1,
Wherein the measuring unit includes a water pressure measuring pressure sensor disposed at a hollow inner circumferential surface of the body and measuring the water pressure of the groundwater flowing into the hollow. The method according to claim 1,
Further comprising an installation cap detachably coupled to an upper end of the body portion and configured to transmit a pressurizing pressure of the inserter to the body portion. The method according to claim 6,
And a communication hole communicating with the hollow of the body portion is formed on an outer circumferential surface of the installation cap.

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