KR101825974B1 - Ground water top protection with anti-fogging and removal means - Google Patents

Abstract

The present invention relates to a ground water top protection with an anti-fogging and removal means. More specifically, the ground water top protection with an anti-fogging and removal means is able to prevent formation of fog or remove the fog formed on a flow meter, such that an operator is able to confirm the flow meter with a naked eye when the introduced ground water is guided to the outside. According to one embodiment of the present invention, the ground water top protection with an anti-fogging and removal means comprises: the flow meter provided on an upper side of a guide pipe in a second intake pipe and measuring a flow rate; a transparent window provided on a cover covering an upper side of the second intake pipe disposed to correspond to the flow meter; a rotation plate disposed adjacent to a lower portion of the transparent window and rotating in left and right directions while being supported on a rotary shaft installed on one side of the transparent window; and an adhering member embedded in an upper surface of the rotation plate, wherein a part of the adhering member is exposed upward and adhered to a lower surface of the transparent window. Moreover, an inner space between the adhering member and the transparent window is disconnected based on the adhering member from the outside to be sealed.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a ground water top protection apparatus,

The present invention relates to an underground water upper protection hole provided with a fog preventing and removing means, and more particularly, to a method for preventing fogging so that the flow meter can be visually inspected when guiding groundwater to the outside, To an underground water upper protection hole having a fogging prevention and removal means capable of removing fog.

Generally, in order to supply drinking water for agricultural and industrial purposes and living water for farming and fishing villages, the groundwater is pumped into the ground, the pumping water pipe is inserted into the water pipe, and the groundwater is pumped by using an underwater pump.

In other words, a conventional general pumping system for groundwater development is constructed by excavating a ground to form a tunnel, then inserting a casing, which is a circular pipe, into the inner wall of the tunnel to closely contact the proper position of the tunnel, It is inserted into the space.

In such a pumping system, groundwater flowing between the rock masses is gathered in the reservoir through the anti-cancer pond. Groundwater collected in the reservoir is forced to be sucked by the operation of an underwater pump and supplied to the water pipe along the pumping pipe.

Because of the indiscreet development of such groundwater and the lack of management after that, various pollutants are mixed with groundwater in case of daily sewage or flood, and the quality of groundwater is deteriorating.

In order to solve this problem, an upper protection hole with a groundwater level higher than the ground level is installed to block the inflow from the contaminated surface.

On the other hand, in such an upper protection hole, a flow meter is installed in the inside so that the flow rate of the ground water can be visually confirmed.

For example, prior art No. 10-1644931 discloses a method of installing a flow meter for checking the flow rate of groundwater taken in the intake pipe, and for checking the flow meter without opening the cover, And a pollution prevention device.

1 and 2, the lid 100 has a structure to cover and seal the upper portion of the second water intake pipe.

The lid 100 is provided with a transparent window 510 at a position corresponding to the flow meter inside the second intake pipe, that is, at a position where the flow meter can be checked when the lid 100 covers the second intake pipe.

The cover 100 and the transparent window may have a circular shape as shown in FIG. 2, and the transparent window 510 may have various shapes such as a square or an ellipse.

The wiper 520 is disposed on the lower surface of the transparent window 510 in a state where the wiper 520 is in contact with the rotating shaft 540 installed on the lid 100 at the side of the transparent window 510 And is rotatable in the left-right direction.

A thread is formed on the lower side of the rotating shaft 540 so that the wiper 520 is brought into contact with the lower surface of the transparent window 510 by the nut 550. The rotating shaft 540 passes through the lid 100 And extends to the upper side of the lid 100.

A thread is formed on the upper side of the rotation shaft 540 extending upward and the knob 530 is fastened so that the rotation shaft rotatably fixes the rotation shaft 540 to the lid 100.

On the other hand, the front portion of the wiper 520 is positioned in contact with the lower surface of the transparent window 510 with the rotation axis 540 as a center, the support bar 560 in the form of a pin is provided at the rear portion, Is placed in contact with the inner surface of the cover (100).

The support bar 560 is installed to penetrate the wiper 520 and the lower portion of the support bar 560 is exposed to the lower portion of the wiper 520. A thread is formed in the lower portion of the support bar 560, Respectively.

Therefore, by keeping the distance between the rear of the wiper 520 and the lower surface of the lid 100 constant, the front of the wiper 520 can be closely contacted to the transparent window 510 with a uniform force.

At this time, the nut 570 is rotated to adjust the adhesion force of the wiper 520, so that the wiper 520 has uniform adhesion even when the wiper 520 rotates.

A plurality of bars 580 protruding from the cover 100 at predetermined intervals are provided around the transparent window 510. A flange 590 is coupled to the upper end of the bar 580 The handle is formed.

When fogging or condensation occurs on the lower end of the transparent window 510 due to the construction of the prior patent, the knob 530 is rotated by hand to the left and right so that the transparent window 510 is wiped by the wiper 520 to prevent fogging or condensation To accurately identify the internal flow meter.

However, in the prior art patent, it is not possible to prevent fogging or condensation on the transparent window 510 due to the temperature difference between the inside of the second intake pipe and the outside air temperature. Accordingly, in the cold winter, In the case where fogging occurs in the window 510, the flow window can not be removed by wiping the transparent window 510 with the wiper 520, so that the flow meter can not be checked. there was.

Registration No. 10-1644931 (Date of Announcement Aug 08, 2012)

Disclosure of the Invention The present invention has been made in order to solve the above-described problems, and it is an object of the present invention to reduce the temperature difference between the inside and outside of the viewing window to prevent fogging or condensation on the viewing window and to prevent the viewing of the flowmeter And it is an object of the present invention to provide an underground water top protection hole equipped with a fogging preventing and removing means capable of wiping and removing the sight window even if fogging or dew condensation occurs, without the inconvenience of opening the cover to check the flow meter.

According to an aspect of the present invention, there is provided an underground water upper protection hole provided with a fog preventing and removing means, comprising: a flow meter provided on an induction pipe inside a second water intake pipe for measuring a flow rate;

A transparent window provided on a cover covering an upper side of the second intake pipe at an upper position corresponding to the flowmeter;

A rotating plate which is positioned adjacent to a lower portion of the viewing window and rotates in a horizontal direction while being supported by a rotating shaft installed at one side of the viewing window; And

And a contact member that is partially embedded in the upper surface of the rotary plate and protrudes upward to closely contact the lower surface of the transparent window,

And the inside of the space between the contact member and the see-through window is disconnected from the outside with respect to the close contact member and sealed.

The contact member is made of an elastic material such as rubber and has a ring shape.

In addition, in the groundwater upper protection hole, a connection pipe connected to the discharge pipe formed in the second water intake pipe, one end of which is connected to the induction pipe provided on the lower side of the induction pipe,

And watertightness maintaining means provided in the second water intake pipe on the side opposite to the discharge pipe and pushing the connection pipe toward the discharge pipe by elasticity of the spring to maintain watertightness.

The watertightness maintaining means includes a housing having a housing portion having different inner diameters and opened to communicate with both sides,

A push member inserted through a receiving portion of a large inner diameter formed in the housing, the pushing member having a distal end portion protruding outwardly through a receiving portion having a small inner diameter to push the connecting pipe toward the discharge pipe,

A spring received inside through an open side of the push member,

And a support plate which is fixed to the opening portion side having the accommodating portion of the large inner diameter of the housing so as not to move so as to support the spring.

In addition, the tip end portion of the push member is flat dome-shaped, and the spring has both end faces flat.

Further, the connecting pipe is manufactured by casting.

And a check valve for preventing reverse flow of the groundwater is provided at a lower portion of the connection pipe.

According to the means for solving the above-mentioned problems, it is possible to prevent the occurrence of fogging or condensation on the sight window by reducing the temperature difference between the inside and the outside of the viewing window, thereby preventing the window from being caught in the window during cold winter, There is no inconvenience that the user should check the display, and even if fogging or condensation occurs, the viewing window can be wiped off.

In addition, the connection piping can be manufactured in a casting manner to shorten the time and increase the working efficiency.

And check valve is provided under the induction pipe, so it is easy to repair and replace when check valve is broken.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side cross-sectional view of an upper protective cover with a conventional transparent window. FIG.
Fig. 2 is a view showing a bottom surface structure of the lid shown in Fig. 1. Fig.
3 is a view showing an example of an upper protection hole provided with a fogging prevention and removal means according to the present invention.
Fig. 4 is a side sectional view showing the transparent window portion shown in Fig. 3. Fig.
5A and 5B are front and rear views of the rotary plate shown in FIG.
6 is an enlarged view of the watertightness maintaining means shown in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

It is to be noted that the same components of the drawings are denoted by the same reference numerals and symbols as possible even if they are shown in different drawings.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Also, when a part is referred to as "including " an element, it does not exclude other elements unless specifically stated otherwise.

3 is a view showing an example of an upper protection hole provided with a fogging prevention and removal means according to the present invention.

3, the upper protection hole 100 having the anti-fogging and removing means according to the present invention includes a second water intake pipe 200, an induction pipe 250, a connection pipe 300, (350) and the fogging preventing and removing means (400).

The second water intake pipe 200 is installed in the form of a cylinder having an open top and bottom and an empty interior, and an upper part of the second intake pipe 200 is buried in the ground and the upper part is placed on the ground G.

A first water intake pipe (not shown) is provided at the lower end of the second water intake pipe 200, and a water intake pipe having an underwater pump is provided in the first water intake pipe.

The second water intake pipe 200 is provided with a discharge pipe 210 having a discharge port 212 for discharging water to the outside and a cover 410 for preventing contamination of groundwater ).

The induction pipe 250 is inserted into the second water intake pipe 200 from the upper side and the inlet pipe 251 and the discharge pipe 252 are connected to the connection pipes 302 and 303 As shown in Fig.

The induction pipe 250 is a double pipe type in which a vertical inflow pipe 251 and a discharge pipe 252 are separated from each other so as to communicate with each other at an upper portion thereof and a flow meter 290 for measuring a flow rate of groundwater, .

The lid 410 is provided with a fogging preventing and removing means 400 so that the flow meter 290 can be visually confirmed from the outside.

4 to 5B, the anti-fogging and removing means 400 includes a see-through window 420, a rotating plate 430, a contact member 442, and a rotating shaft 444.

The viewing window 420 is positioned at a position corresponding to the flow meter 290 in the second water intake pipe 200, that is, at a position where the cover 410 can confirm the flow meter 290 when the second water intake pipe 200 is covered As shown in FIG.

The rotating plate 430 is formed of a transparent material and is supported by a rotating shaft 444 installed on one side of the viewing window 420 so that the rotating plate 430 is rotated in the left- .

The viewing window 420 and the rotary plate 430 may have a circular shape, but may have various shapes such as a rectangular shape and an elliptical shape.

A part of the contact member 442 protrudes upward and is brought into close contact with the lower surface of the transparent window 420 while the contact member 442 is embedded in the upper surface of the rotary plate 430.

At this time, the contact member 442 is made of an elastic material such as rubber and is embedded in the upper surface of the rotary plate 430 in the form of a closed curve, for example, a ring.

Accordingly, the inner space between the contact member 442 and the viewing window 420 is sealed off from the outside and the air does not flow into the inner space or outflow from the inner space.

Therefore, there is almost no temperature difference between the upper portion of the viewing window 420 and the lower portion of the viewing window 420 in the inner space of the pressing member 442 with respect to the viewing window 420.

On the other hand, a knob 447 having a polygonal shape is formed on the rotating shaft 444 to smoothly rotate the rotating plate 430.

A screw is formed in a lower portion of the rotating shaft 444 to fasten the nut 448 and a spring washer 446 is interposed between the rotating plate 430 and the nut 448 to rotate the nut 448, And has a uniform adhesion force even when the rotating plate 430 rotates.

As a result, the temperature difference between the upper portion and the lower portion of the viewing window 420 can be reduced to prevent fogging and the lower surface of the viewing window 420 can be wiped off with the contact member 442 of the rotating plate 430 when fading occurs.

The lid 410 is further provided with an air inlet 450 for discharging air having a pressure inside the second water intake pipe 200 to the outside as well as the above-described fogging preventing and removing means 400.

3, the connection pipe 300 is provided at a lower portion of the induction pipe 250 inside the second water intake pipe 200, and is connected to the middle partition 805 in the form of a hollow cylinder having openings on both sides thereof And is manufactured by a casting method.

The connection pipe 300 is formed with two connection ports 302 and 303 at the upper side and one connection port 301 at the lower side respectively and the upper connection ports 302 and 303 are connected to the inlet pipe (251) and the discharge pipe (252), and the lower connection port (301) is connected to the pumping pipe.

In the present invention, a check valve (260) for preventing backflow is provided below the connection port (301) of the connection pipe (300).

This makes it easy to repair or replace when the check valve 260 fails, and it can buffer the water hammer generated when the underwater pump is driven.

The openings 304 on one side of the open side of the connection pipe 300 are connected to and connected to the discharge pipe 210 of the second water intake pipe 200. At this time, The jaw 214 is protruded to prevent the detachment of the connection pipe 300 and the other opening 306 is closed and sealed by the sealing cap 310 (see FIG. 6).

The water that has passed through the amniotic water pipe by the underwater motor flows through the connection port 301 and the connection port 302 of the connection pipe 300, the inflow pipe 251 and the discharge pipe 252 of the induction pipe 250, And the discharge port 212 of the discharge pipe 210. In this case,

The second water intake pipe 200 on the opposite side of the discharge pipe 210 is provided with watertightness maintaining means 350 for maintaining the watertightness by pushing the connection pipe 300 toward the discharge pipe 210.

The watertightness maintaining means 350 includes a housing 356, a push member 360, a spring 354 and a support plate 352 as shown in FIG.

The pushing member 360 is inserted through a large inner diameter accommodating portion on the left side in the figure so that the tip end portion of the pushing member 360 is inserted into the small inner diameter And protrudes to the right side of the housing 356.

At this time, the rear end portion of the push member 360 has an outer diameter larger than the body of the push member 360 so as not to protrude from the receiving portion of the small inner diameter formed in the housing 356. [

Further, a locking protrusion 357 is horizontally protruded on the lower side of the housing 356 on which the push member 360 protrudes.

The push member 360 has a flat dome shape in which the spring 354 is housed in the rear end side and the front end portion 360a, which is in contact with the pushing plate 370 described below, has a flat dome shape.

The spring 354 is preferably flattened on both sides in order to apply a uniform pressure to the connecting pipe 300. It is advantageous for water tightness to have a load of 150 to 230N.

That is, when the load is 150N or less, the pressure pushing the connecting pipe 300 is weak and the water tightness is lowered. If the load is 230N or more, the push member 300 does not retract well when the induction pipe 250 is installed.

The support plate 352 is fixed to the side of the rear end opening of the housing 356 (the opening portion having the accommodating portion of a large inner diameter) so as not to move so as to support the spring 354.

The end of the spring 354 is supported on the support plate 352 in a state that the push member 360 is accommodated in the housing 356 and the spring 354 is accommodated in the push member 360 The tip end portion 360a of the push member 360 is protruded outside the housing 906 (right side in the figure) in which the engaging protrusion 357 is formed through the accommodating portion of the small inner diameter by the elasticity of the spring 354.

The pushing plate 370 pushing the connecting pipe to the right side in contact with the tip end of the push member 360 is fixed to the other side of the connecting pipe 300 blocked by the sealing cap 310.

At this time, the jumping plate 370 is formed with an inclined surface 372 that becomes thinner from the middle to the lower side, so that the jumping plate 370 is caught by the hooking jaw 357 of the housing 356 when the guide tube 250 is installed So that it can be easily inserted from the upper portion of the jaw 357 and not released in the inserted state.

When the guide pipe 250 connected to the connection pipe 300 is moved downward from the upper part of the second water intake pipe 200 by the construction of the watertightness maintaining means 350 as described above, The pushing member 360 is retracted and the spring 354 is compressed so that the connection pipe 300 is connected to the discharge pipe 210 by elasticity of the pushing member 360 when the pushing member 360 contacts the flat dome- And pushes it.

When the distal end portion 360a of the pushing member 360 is positioned at the center of the pushing plate 370 as described above, the pushing plate 370 is not released by the latching jaw 357 of the housing 356, The opening portion 804 is not released to the latching jaw 214 formed in the discharge pipe 210.

At this time, when the flat dome-shaped tip end portion 360a of the push member 360 is elastically pressed by the spring 354 of both end face grinding housings accommodated in the push member 360, The pipe 300 is pushed to the discharge pipe 210 and brought into close contact therewith.

Therefore, due to the elasticity of the spring 354 located on the opposite side, the pushing member 360 can be closely contacted with the connection pipe 300 in a manner of pushing toward the discharge pipe 210 to maintain watertightness.

The connection pipe 300 and the discharge pipe 210 are brought into close contact with each other at a uniform pressure by pushing the connection pipe 300 with a uniform pressure so that water does not leak between the connection pipe 300 and the discharge pipe 210.

In FIG. 3, reference numeral 220 denotes a power outlet formed in the second water intake pipe 200 for drawing the electric wire, 270 denotes a pressure gauge for measuring the pressure of the induction pipe 250, 280 denotes an induction pipe Is a water supply valve installed in the pipe (250).

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

100: upper protection hole 200: second intake pipe
250: induction pipe 300: connection pipe
350: watertightness maintenance means 400: fogging prevention and removal means
410: cover 420:
430: rotation plate 442: tight contact member
444:

Claims (7)

A flow meter provided on the upper side of the induction pipe in the second intake pipe to measure the flow rate;
A transparent window provided on a cover covering an upper side of the second intake pipe at an upper position corresponding to the flowmeter;
A rotating plate which is positioned adjacent to a lower portion of the viewing window and rotates in a horizontal direction while being supported by a rotating shaft installed at one side of the viewing window; And
And a contact member that is partially embedded in the upper surface of the rotary plate and protrudes upward to closely contact the lower surface of the transparent window,
The contact member is in the shape of a closed curve so that the inside of the space between the rotating plate and the viewing window is sealed off from the outside with respect to the contact member,
A connection pipe connected to the induction pipe at the upper side and a drain pipe formed at the lower side of the induction pipe and connected to the discharge pipe formed at the second water intake pipe and a connection pipe connected to the drain pipe at the opposite side of the discharge pipe, And a watertightness maintaining means provided in the water intake pipe and pushing the connection pipe toward the discharge pipe by elasticity of the spring to maintain the watertightness,
And an inclined surface that is fixed to the other side of the connection pipe and thinned from the middle to the bottom is formed on the pushing plate contacting the tip of the watertightness maintaining means. The method according to claim 1,
Wherein the tight contact member is made of an elastic material such as rubber and has a ring shape. delete The method according to claim 1,
Wherein the watertightness maintaining means comprises: a housing having a receiving portion of different inner diameters and opened to communicate with both sides;
A push member inserted through a receiving portion of a large inner diameter formed in the housing, the pushing member having a distal end portion protruding outwardly through a receiving portion having a small inner diameter to push the connecting pipe toward the discharge pipe,
A spring received inside through an open side of the push member,
And a support plate which is fixed to the opening portion having a large inner diameter accommodating portion of the housing so as not to move so as to support the spring, wherein the support plate is provided with the fogging preventing and removing means. 5. The method of claim 4,
Wherein the tip end portion of the push member has a flat dome shape, and both ends of the spring are flat. The method according to claim 1,
Wherein the connecting pipe is manufactured by casting. The method according to claim 1,
And a check valve for preventing reverse flow of groundwater is provided at a lower portion of the connection pipe.

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