KR20180131192A - Measuring device for water level fixing at the bottom of river - Google Patents

Abstract

A bottom fixed-type river level observation device according to the present invention includes a first pipe inserted at a predetermined depth in the bottom surface of a river and having an open upper surface; a second pipe having open upper and lower surfaces, fastened to the upper surface of the first pipe, having slits in a lower outer surface so that the water of the river flows into an inner space, and having scales along a height direction on the outer surface; a third pipe having open upper and lower surfaces, fastened to the upper surface of the second pipe, protruding to the outside of the river, and having scales along a height direction on the outer surface; and a lid portion fastened to the upper surface of the third pipe formed so as to be open with a cover member hinge-coupled above and selectively opening and closing the upper surface. The present invention is fixedly installed on the bottom surface of a river and enhances resistance against a water flow. Accordingly, no oscillation occurs as a result of the river flow, and thus water level measurement can be accurately performed. In addition, stable installation and semi-permanent use are possible.

Description

TECHNICAL FIELD [0001] The present invention relates to a water level monitoring apparatus for a river bed,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a river water level observing apparatus, and more particularly, to a river level water level observing apparatus fixedly installed on a bottom surface of a river to accurately measure a river level.

Typically, in the summer, it is necessary to measure the level of water flowing along a dam or a river, and to warn the user when the water level reaches a danger level. For this purpose, various types of water level gauges such as a sound wave water gauge and a bubble water gauge are used .

In addition, it is necessary to measure the amount of rainfall that can be intensively lowered at a specific time in order to predict the disasters such as floods in advance and to take various actions. In order to measure such rainfall, a very primitive method Or else it was entirely dependent on the weather forecast of the weather station.

In particular, water level measurements and observations used for research purposes should be more accurate, and not only at the water level at representative points in the country, but also at certain points depending on the purpose of the study.

In order to solve these problems, the water level is periodically measured by using the water level measuring apparatus. In the conventional water level measuring system, the water level of the surface water such as river, river and lake is fluctuated with the water level, There is a problem that measurement is difficult.

In addition, there are disadvantages in that a large number of water level measuring devices are installed in various areas depending on the purpose of the research, and maintenance and repair are costly.

In order to solve these problems, it is necessary to install a semi-permanent fixation facility because it requires expense and time. Therefore, it is necessary to install a water level monitoring facility using trees, PVC pipes, pipes, etc. for short- In this case, the measuring instrument installed in the indicator water level measurement system is damaged due to various causes such as human access and flood.

In order to solve the above-mentioned problems, the present invention has been developed to solve the above-mentioned problems, and it is possible to accurately measure the water level by preventing the flow due to the flow of the stream by increasing the resistance against water flow, The present invention is directed to a water level observing apparatus for a river bed fixed to a river.

In order to achieve the object of the present invention, there is provided an apparatus for observing a river bottom fixed to a river, comprising: a first pipe installed at a predetermined depth on a bottom surface of a river and having an upper surface opened; A second pipe having an upper surface and a lower surface formed on the upper surface of the first pipe and having a plurality of slits formed on a lower outer surface thereof so that the water flows into the inner space, A third pipe having an upper surface and a lower surface formed on the upper surface of the second pipe and protruding outwardly from the river, A lid unit which is coupled to an upper surface of the third pipe having an opening and is hinged to an upper portion of the third pipe to selectively open and close the upper surface; .

Here, the third pipe may be provided in plurality so that the elevation can be adjusted according to the depth of the river.

A disc member may be interposed between the first pipe and the second pipe to contact the bottom surface of the stream with a predetermined area to prevent the first pipe and the second pipe from flowing.

In addition, a plurality of through holes, which can pass through the water, are formed at a plurality of locations on the plate member surface so that the water of the river passes through the plate member and drops into the water so as to be in contact with the bottom surface of the river .

In addition, a plurality of fastening holes may be formed in the side surface along the circumferential direction of the disk member, and a supporting bar having a predetermined length may be fastened to the fastening holes, so that the supporting bars may be disposed in the radial direction.

In addition, a fastening ring may protrude from the lower surface of the cover member, and a device capable of recording and storing information about the level of the river may be installed in the fastening ring.

The end portion of the first pipe may be formed in a wedge shape so that the first pipe can be easily inserted into the bottom surface of the river.

In addition, a locking device may be installed on one side of the cover member and the lid unit so that the cover member can restrain the upper surface of the lid unit from being closed.

As described above, according to the present invention, it is possible to measure the water level accurately by preventing the flow due to the flow of the stream by increasing the resistance to the water flow by being fixed on the bottom surface of the river. And at the same time, it is possible to provide a stable installation so that it can be used semi-permanently.

FIG. 1 is a perspective view showing a structure of a river-fixed water level observing apparatus according to an embodiment of the present invention,
FIG. 2 is an exploded perspective view of the lower fixed-type river level observing apparatus of FIG. 1,
FIG. 3 is a perspective view showing a structure in which the lower fixed-type river level observing apparatus of FIG. 1 is installed in a river.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

FIG. 1 is a perspective view showing a structure of a river fixed bottom water level observing apparatus according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of the bottom fixed river level observing apparatus of FIG. 1, 1 is a perspective view showing a structure in which a river-fixed bottom water level observing apparatus of Fig. 1 is installed in a river.

As shown in these drawings, the bottom fixed-type river water level observing apparatus according to the present invention includes a first pipe 100 installed to be inserted at a certain depth on a bottom surface of a river and having an upper surface opened; A plurality of slits 210 are formed on the lower outer surface so that water of the river flows into the inner space and is connected to the upper surface of the first pipe 100 by a scale 220 A second pipe 200 on which the first pipe 200 is formed; A third pipe (300) having an upper surface and a lower surface formed on the upper surface of the second pipe (200) and protruding outside the river, and having a scale (310) formed along the height direction on the outer surface; A lid 400 coupled to an upper surface of the third pipe 300 having an opening and hinged to a cover member 410 to selectively open and close the upper surface; .

The first pipe 100 is a cylindrical member whose upper surface is opened, and the lower end of the first pipe 100 is sharpened in a wedge shape so as to be easily inserted into the bottom surface of the river.

 The upper portion of the first pipe 100 is provided with a fastening member having a threaded portion for fastening the second pipe 200 to the upper surface of the opening. The length of the first pipe 100 is equal to the length of the lower surface of the river bottom surface It is decided according to the state.

That is, when the bottom surface of the river is rigid, the first pipe 100 is inserted and vertically arranged can be firmly held, so that the length can be shortened. On the contrary, if the bottom surface of the river is loose, 100 are inserted and vertically arranged may not be firmly held, so that it is preferable to make the length thereof long.

The second pipe 200 is formed with a plurality of slits 210 passing through the lower circumferential surface of the second pipe 200 at predetermined intervals along the circumferential direction. So that the water level of the river can be measured.

On the lower inner surface of the second pipe 200, a thread is formed to fasten the fastening member provided on the upper portion of the first pipe 200, and a fastening member having a screw thread is formed on the upper portion.

A scale 220 is printed on the outer surface along the height direction of the second pipe 200 so that a measurer measuring the water level can visually recognize the water level of the river.

The third pipe 300 may protrude to the outside of the river so that the measurer can visually recognize the water level of the river. For this purpose, the third pipe 300 may include a plurality of third pipes 300 according to the depth of the river, It is preferable to provide a plurality of screws.

A scale 220 is also printed on the outer surface of the third pipe 300 along the height direction of the third pipe 300 in the same manner as the second pipe 200. The upper surface and the lower surface of the third pipe 300 are open, So that the inner space communicates with the third pipe 300 or the cover 400 when the upper surface of the third pipe 300 is fastened.

The lid part 400 serves to shield the inner space, which is connected to the upper surface of the third pipe 300 by the engagement of the second pipe 200 and the third pipe 300, from the outside, It is preferable that an opening is formed through the slit 210 at one side of the unit 400 so that the water of the river can easily flow into the second pipe 200 and the third pipe 300.

A cover member 410 is hinged to one side of an upper portion of the cover unit 400 to selectively open and close the upper surface of the cover unit 400. A locking ring 411 protrudes from the lower surface of the cover member 410 Respectively.

The locking ring 411 is provided with a storage device 420 for recording and storing information about the level of the river so that information on the level of the river can be recorded and stored in real time.

Since the storage device 420 is disposed in the inner space of the second pipe 200 and the third pipe 300 and the upper surface of the third pipe 300 is closed by the lid 400, 420 can be prevented from being damaged or lost.

A locking device 430 is installed on one side of the cover member 410 and the cover unit 400 so that the cover member 410 can restrain the upper surface of the cover unit 400. Thus, So that it can be prevented from being opened.

The first pipe 100 and the second pipe 200 are connected to each other by a predetermined distance from the bottom surface of the river to prevent the first pipe 100 and the second pipe 200 from flowing. 500 are preferably interposed.

The disc member 500 can firmly hold the second pipe 200 and the third pipe 300 in a state where they are erected upright so that the bottom fixed stream water level observing apparatus according to the present invention This makes it possible to measure the water level accurately by preventing inclination.

In addition, the shape of the bottom of the river varies from season to season, and the reference point is changed. However, when the disk member 500 is used, the same reference point can always be provided and accurate river level measurement is possible.

The upper and lower surfaces of the central region of the disc member 500 are formed with fastening members having threads formed on the outer surface so that the disc member 500 can be fastened to the first pipe 100 and the second pipe 200, respectively.

A plurality of holes (not shown) that can pass through the water at the time of installation so that the water of the river passes through the disk member 500 and drops into the water to contact the bottom surface of the river, 510 are formed to pass through.

The through hole 510 formed in the disc member 500 of the bottom fixed-stream water level observing apparatus according to the present invention may be provided at a plurality of locations on the plate surface of the disc member 500, And are spaced apart from each other by a predetermined distance along the circumferential direction.

A plurality of fastening holes 520 are formed along the circumferential direction of the disc member 500 and a supporting bar 530 having a predetermined length is fastened to the fastening holes 520, Direction.

A thread is formed on the inner surface of the fastening hole 520 so that the support bar 530 is detachably attached so that it is not separated from the disc member 500 at the time of attaching the support bar 530. On the outer surface of the end portion of the support bar 530, A corresponding thread is formed so as to be fastened.

The process of measuring the river and water level using the river-fixed water level observing apparatus according to the present invention having such a configuration will be described with reference to FIG.

A method for assembling a bottom fixed-type river water level observing apparatus according to the present invention will now be described. A disk member 500 is fastened to the upper end of a first pipe 100 and a second pipe (not shown) 200, and then the third pipe 300 is fastened to the upper end of the second pipe 200.

In the case of the third pipe 300, the third pipe 300 is fastened in a plurality of ways so that the third pipe 300 may protrude to the outside of the river according to the depth of the river to which the river-fixed water level observing apparatus according to the present invention is to be installed .

Thereafter, the support bars 530 are fastened to the fastening holes 520 formed on the side surfaces of the disc member 500 so that the support bars 530 are arranged in the radial direction.

When the assembly of the third pipe 300 is completed, the lid 400 is fastened to the upper end of the third pipe 300 and then the fastening ring 411 The storage device 420 is hung on the second pipe 200 and the storage device 420 is disposed in the inner space of the second pipe 200, thereby completing the assembly of the river fixed bottom water level observing device according to the present invention.

When the assembly of the lower fixed-type river water level observing apparatus is completed, the first pipe 100 is inserted into the bottom surface of the river so that the disc member 500 and the support bar 530 are brought into contact with the bottom surface of the river, The water level monitoring system shall be installed.

The water level of the river flows through the slit (210) and a constant height is formed. The scale (220, 310) indicated by the water by the incoming water is visually identified and the water level of the river .

Also, the storage device 420 senses the level of the river in real time and stores information about the level of the sensed river according to the set time interval, thereby completing the water level measurement of the river.

The bottom fixed-stream water level observing apparatus according to the present invention having the above-described configuration is fixed on the bottom surface of a river to increase the resistance to water flow, thereby preventing flow due to the flow of the river, So that it can be stably installed and semi-permanently usable.

It is to be understood that the scope of the present invention should not be construed as being limited to the embodiments described above, It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

100: first pipe 200: second pipe
210: slit 220: scale
300: third pipe 310: scale
400: lid part 410: cover member
411: fastening ring 420: storage device
430: locking device 500: disc member
510: through hole 520: fastening hole
530: support bar

Claims (8)

A first pipe (100) installed to be inserted at a certain depth on a bottom surface of a river and having an upper surface opened;
A plurality of slits 210 are formed on the lower outer surface so that water of the river flows into the inner space and is connected to the upper surface of the first pipe 100 by a scale 220 A second pipe 200 on which the first pipe 200 is formed;
A third pipe (300) having an upper surface and a lower surface formed on the upper surface of the second pipe (200) and protruding outside the river, and having a scale (310) formed along the height direction on the outer surface;
A lid 400 coupled to an upper surface of the third pipe 300 having an opening and hinged to a cover member 410 to selectively open and close the upper surface;
Wherein the water level measuring device is a water level measuring device. The method according to claim 1,
Wherein the third pipe (300) is provided with a plurality of elevation adjustable height according to the depth of the river. The method according to claim 1,
The first pipe (100) and the second pipe (200) are provided between the first pipe (100) and the second pipe (200) Wherein the member (500) is interposed between the lower member and the lower member. The method of claim 3,
A plurality of through holes (not shown) that can pass through the water at the time of installation so that the water of the river passes through the disk member 500 and drops into the water to contact the bottom surface of the river, (510) is formed through the bottom of the riverbed. 5. The method of claim 4,
A plurality of fastening holes 520 are formed along the circumferential direction of the disk member 500 and support bars 530 having a predetermined length are fastened to the fastening holes 520, Wherein the water level measuring device is disposed in the radial direction. The method according to claim 1,
A locking ring 411 protrudes from the lower surface of the cover member 410 and a storage device 420 is installed in the locking ring 411 to record and store information about the level of the river. Riverbed water level observing device. 7. The method according to any one of claims 1 to 6,
Wherein the end of the first pipe (100) is formed in a wedge shape so that the first pipe (100) can be easily inserted into the bottom surface of the river. 8. The method of claim 7,
A locking device 430 is installed on one side of the cover member 410 and the cover unit 400 so that the cover member 410 may restrain the upper surface of the cover unit 400. [ Riverbed water level observing device.

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