KR100836801B1 - Underground water blocking apparatus with means for preventing backward flow - Google Patents

Abstract

An underground water discharging apparatus with a backward flow prevention function is provided to increase maintenance and repair work efficiently by combining/separating a backward flow preventing transfer pipe with/from a lower blocker of a case through a socket. An underground water discharging apparatus with a backward flow prevention function comprises a case(10), a backward flow preventing transfer pipe(20), a buoy(30), and a water flow tube(40). The case has an existing pipe(11) as a wall, and a lower blocker(12) having a curved inlet passage(12a), and a body part(10a). The lower end of the backward flow preventing transfer pipe is separated/combined from/with the curved inlet passage of the lower blocker through a socket(22). The lower blocker has a protrusion(122) in which an outer peripheral surface of the lower side has a height difference, by using a fitted part(121) as a boundary.

Description

Underground water blocking apparatus with means for preventing backward flow}

1 is an exploded perspective view of the prior art

Figures 2a and 2b is a longitudinal sectional view showing an operating state of the prior art

Figure 3 is an exploded perspective view of the present invention

Figures 4a and 4b is a cross-sectional view showing the enclosure according to an embodiment of the present invention

Figures 5a and 5b is a longitudinal cross-sectional view showing an operating state of the present invention

6 is a longitudinal sectional view showing a modified embodiment of the present invention.

7 and 8 illustrate an embodiment of the present invention in a longitudinal section of the excerpt

<Description of the symbols for the main parts of the drawings>

WP: Groundwater Discharge System A: Drainage

B: Ground C: Retaining Wall

10: enclosure 10a: trunk

10b: lid 11: ready-made tube

12: lower closure 12a: curved entry passage

12b: fixing groove 20: transfer pipe for preventing backflow

21: spiral coil pipe 22: socket

30: buoy 31: fitting hole

32: work passage 40: water pipe

The present invention is intended to prevent the groundwater of the ground to naturally discharge to the drainage facility, and to prevent the external water flowing along the drainage to flow back to the ground, in particular, the body portion of the enclosure is assembled as a ready-made pipe and a lower membrane groove, It relates to a groundwater discharge device having a backflow prevention function connected to the lower membrane port of the enclosure to enable separation or coupling of the backflow prevention transport pipe.

In general, the surrounding areas equipped with drainage facilities such as river banks, ditches, drainage culverts, and drainage outlets cause disturbances and uneven settlement of ground due to the presence and flow of large amounts of groundwater. In order to stabilize the ground, a means to discharge groundwater to the drainage system was required.

Previously, in order to discharge a large amount of groundwater existing in the ground around the drainage system, a groundwater discharge passage was provided by drilling a certain size of sidewalls such as retaining walls or drainage culverts and drainage openings installed along river banks.

Such groundwater discharge passage discharges the groundwater of the ground to the drainage system without any problem when the level of the external water flowing along the drainage facility is lower than the groundwater level of the ground. However, if the groundwater discharge passage is higher than the groundwater level of the ground, the groundwater discharge passage will flow back the groundwater from the drainage to the ground, thus reversing the original function of discharging groundwater. The counterflow backflow has a problem that adversely affects the ground while causing a piping (piping) phenomenon.

Applicant proposed by the present applicant to solve the above problems, Korean Patent Application No. 2004-6706 (2004.02.02) applied for groundwater exclusion apparatus equipped with a backflow prevention means, Patent No. 645907 (Nov. 13, 2006) There is a fact that the registration has been granted.

As shown in FIG. 1, the groundwater exclusion apparatus provided with the backflow prevention means has a bottom formed to be inclined downward toward the ditch of the drainage facility A, and an inner space surrounded by a side wall upward from the edge of the bottom to form an inner space. A groundwater inlet 1a 'is formed at the lower side of the sidewall, and a body portion 1a having a discharge port formed at a sidewall portion that meets the bottom portion of the inclined bottom, and an upper end portion of the body portion 1a is at least the drainage system ( An enclosure (1) formed of a lid portion (1b) covering the upper portion of the body portion while being installed at the height of the upper end portion of the ditch of A);

The discharge port formed in the side wall of the bottom of the inclined bottom of the enclosure 1 and installed downwardly through the lower side of the side wall of the drainage facility (A) so that the groundwater flowing into the interior of the enclosure is discharged to the ditch or the ditch 1) water pipe (2) to be introduced into;

The lower end is connected to the ground water inlet (1a ') is located in the interior space of the housing 1, the discharge port (3a) of the upper portion is bent or stretched up and down flexibly up and down depending on the water level in the housing 1 groundwater inlet An underground water transfer pipe (3) through which ground water coming in through 1a 'is moved into the enclosure 1;

Mounted on top of the groundwater transport pipe (3) and floated on the water surface in the enclosure (1) by buoyancy to lift the groundwater transport pipe (3), the discharge port (3a) of the groundwater transport pipe (3) is always the enclosure ( 1) It is comprised by the buoy 4 which hold | maintains so that it may be located in the upper part of the water surface in the water, and the water in the enclosure 1 does not enter the discharge port 3a of the groundwater transfer pipe 3.

In the groundwater exclusion apparatus provided with the reverse flow prevention means configured as described above, as shown in FIG. 2A, when the groundwater level present in the ground is higher than the level of the external water flowing along the drainage facility A, the groundwater inlet 1a 'is provided from the ground. The groundwater introduced through the buoy 4 is discharged from the discharge port 3a of the groundwater transport pipe 3 floating on the water surface in the enclosure 1 via the enclosure 1 and then along the water pipe 2. If the groundwater level present in the ground is lower than the level of the external water flowing along the drainage system (A), as shown in Figure 2b, when the natural water discharged to the drainage facility (A) side, on the contrary, The external water flowing into the enclosure 1 from the drainage facility A through the water supply pipe 2 is discharged to the discharge port 3a of the groundwater transfer pipe 3 floating on the water surface in the enclosure 1 by the buoy 4. Blocked by the back flow to the ground side It is to prevent.

That is, the groundwater exclusion apparatus provided with the conventional non-return means means to discharge the groundwater existing in the ground to the drainage facility (A) side, and in the enclosure (1) through the water pipe (2) from the drainage facility (A) Since it prevents backflow into the ground by blocking the inflow of external water, there is an advantage that the ground around the drainage can be stabilized without being deteriorated by groundwater or backwater.

However, in the groundwater exclusion apparatus provided with the conventional means for preventing backflow, firstly, since the body portion 1a of the enclosure 1 is integral with the wall and the bottom, it must be injection molded using a large mold apparatus. In view of the manufacturing point, the equipment for manufacturing is not only large and enormous facility costs are required, but the production cost of the groundwater exclusion apparatus is increased overall, thereby providing a high price.

Second, by fixing the lower end of the ground water transfer pipe (3) through the ground water inlet (1a ') of the housing 1, it is installed to be connected directly to the porous filter (F) installed on the outside of the ground water inlet (1a') Therefore, when the groundwater transport pipe 3 ages as time passes, or the groundwater transport pipe 3 is filled with fine soil, the groundwater cannot move smoothly. Although it is difficult to separate from the groundwater inlet 1a 'of 1) and the groundwater transport pipe 3 is forcibly separated from the groundwater inlet 1a' of the enclosure 1, the lower end of the new groundwater transport pipe 3 is grounded. It is almost impossible to penetrate through (1a ') so as to be connected to the porous filter (F), so that maintenance is very difficult.

The present invention provides a groundwater discharge device equipped with a backflow prevention function to create a condition that can be economically produced in order to miniaturize the equipment required for manufacturing as a configuration of the body portion of the enclosure with a ready-made pipe and a lower membrane brace. For the purpose of providing

Secondly, as a constitution that connects the transfer pipe for preventing the backflow to the lower membrane of the enclosure to be separated or combined, the object of the present invention is to provide a groundwater discharge device equipped with a backflow prevention function that enables easy maintenance and repair. have.

The present invention also has a predetermined cross-sectional shape of the housing 10 and the back flow prevention transport pipe is installed to be changed up and down as a shape condition that is in communication with the lower side of the enclosure within the housing 10 and flexibly bent or unfolded (20), buoy 30 is installed on the upper end of the backflow prevention transport pipe 20 and the upper end of the backflow prevention transport pipe according to the water level in the enclosure 10, and the enclosure 10, In the point that the water pipe 40 is installed so as to communicate with the lower side of the enclosure from the outside, the same concept as the conventional technology.

However, the groundwater discharge device equipped with a reverse flow prevention function of the present invention (WP), as shown in Figure 3, the housing 10 is a wall made of a ready-made pipe 11 to have a required diameter size and length as a wall; It is provided with a lower membrane recess 12 having a curved inlet passage 12a, the diameter of which can be tightly fitted to the wall, and has an inlet on one side and an inlet on one side in the cross section. The lower surface of the lower portion than the water pipe 40 is positioned and the lower portion is connected to the inlet of the curved inlet passage (12a) is exposed to the outside to form a body portion (10a) as a bottom body, the backflow The lower end of the prevention transfer pipe 20 is connected to the outlet side of the curved inlet passage (12a) of the lower membrane port 12 through the socket 22 which is bound to the outer surface so as to be detachable or combined. It is done.

Hereinafter, the technical details of the present invention through the specific embodiments shown in the accompanying drawings in detail.

5A and 5B illustrate a state in which the groundwater discharge device (WP) of the present invention is installed in the ground, and acts on the ground (B) adjacent to the drainage facility (A) such as a waterway or a drainage side opening and a drainage culvert. It is shown that the buried in the enclosure 10, the water pipe 40 in communication with the enclosure 10 is installed to penetrate the side wall of the drainage facility (A).

The enclosure 10 is assembled to have a tight inner volume as a required size, so that the backflow preventing transfer pipe 20 and the buoy 30 can be embedded therein, and at the same time, the countercurrent is embedded in the ground B. It is possible to maintain the water level determined by the amount of groundwater that is transferred and discharged through the prevention transport pipe 20 or the amount of external water flowing through the water pipe 40 in the drainage facility (A).

The enclosure 10 is a ready-made pipe 11 having excellent strength as a ready-made product and has a required diameter size and length as a side wall, and is a diameter size that can be tightly fitted to the wall to the upper surface in the cross section. The lower surface is provided with a lower curtain groove 12 having a curved inlet passage 12a formed so that the inlet is formed on one side of the outlet, the lower surface of the wall is lower than the water pipe 40 and the curved inlet passage ( It is important to form the body portion 10a by using the lower membrane recess 12 that is coupled to expose the outside of the inlet 12a as a bottom body.

The reason for this is to have a basic function of allowing groundwater to be introduced into the enclosure 10 through the curved inlet passage 12a of the lower membrane recess 12, which becomes the bottom of the trunk portion 10a. The wall is a ready-made tube 11 made of a ready-made product, and the relatively small volume of the bottom body is a lower membrane tool 12 that can be injection molded using a small mold. In order to be able to assemble to form the body portion (10a) of the housing 10 as a sphere (12), it is possible to miniaturize the equipment required for the production of groundwater discharge device (WP) of the present invention.

In the embodiment of the present invention, the body portion (10a) of the housing 10 is a cylindrical lower portion of the cylindrical inner wall 11, the inner hollow hollow tube 11, as shown in Figure 4a, coupled to the lower portion of the wall Although it is illustrated that the membrane fitting 12 is a bottom body, as a whole, the lower part is assembled into a cylindrical body, but as required, the body portion 10a of the housing 10 has a hollow rectangular cylindrical shape as shown in FIG. 4B. It turns out that the ready-made pipe | tube 11 is used as a wall, and the lower cylinder | bulb 12 of the rectangular cylinder type couple | bonded with the lower part of the wall is used as a bottom body, and it can be assembled as the rectangular cylinder by which the lower part was blocked as a whole.

Then, the enclosure 10 is covered with a separate cover (10b) on the top of the body portion (10a), to prevent foreign matter or earth and sand from entering the enclosure (10).

In addition, in the housing 10, a discharge formed by drilling a ready-made pipe 11 serving as a wall of the body portion 10a on the upper surface of the upper surface of the lower membrane groove 12 that becomes the bottom of the body portion 10a. It has a ball 111, the inner end of the water pipe 40 is installed to be inclined to penetrate the side wall of the drainage facility (A) is inserted through the discharge hole 111 so that it can communicate with the enclosure (10).

At this time, the upper surface of the lower membrane groove 12 is formed to be inclined downward toward the water pipe (40), so that groundwater and fine earth and sand introduced into the housing 10 can be smoothly discharged to the water pipe (40) side. It is preferable to.

In addition, the housing 10 has a filter which is fixed in position in the fixing groove 12b formed in the inlet side outer surface of the curved inlet passage 12a formed in the lower membrane groove 12 that becomes the bottom of the body portion 10a ( F) to allow the groundwater to pass through to the curved inlet passage 12a of the lower membrane port 12, and to prevent fine earth and sand from the curved inlet passage 12a of the lower membrane port 12 or to prevent the backflow. It is preferable that the blockage of the pipe 20 does not occur.

Here, the lower membrane groove 12 is formed to have a support jaw 122 protruding stepped out the outer peripheral surface of the lower side bordering the fitting portion 121 is tightly fitted to the lower inner side of the ready-made pipe (11). Make sure you can. This is when the fitting portion 121 is inserted into the lower inner portion of the ready-made pipe 11 to couple the lower membrane groove 12 to the lower end of the ready-made pipe 11 to the supporting jaw 122 of the lower membrane groove 12. Grounded, even if the ready-made pipe 11 is pressed by the vertical load applied in the state buried in the ground to prevent the phenomenon that the body portion 10a of the housing 10 falls down.

The backflow prevention conveying pipe 20 is installed so that the lower end is in communication with the enclosure in the enclosure 10 and is flexibly bent or unfolded so as to be changed up and down, the curved inlet passage 12a of the enclosure 10. The groundwater introduced through the transfer is discharged, and the external water introduced into the enclosure 10 through the water pipe 40 is blocked to prevent the reverse flow to the ground (B) side.

In the embodiment of the present invention, the non-return transfer pipe 20 is made of spiral coil type tube 21, the lower end of the spiral coil type tube is curved inlet formed in the lower membrane groove 12 of the housing 10 The buoy 30, which is connected to the outlet side of the passage 12a, and which is lifted according to the water level in the housing 10, is installed at the upper end of the spiral coil pipe and installed to expand and contract up and down.

This backflow prevention transfer pipe 20 is, as shown in Figure 5a, when the groundwater level present in the ground (B) is higher than the level of the external water flowing along the drainage facility (A), the housing that maintains the same level as the groundwater ( 10) the upper end of the non-return transfer pipe 20 by the buoy (30) in the floating state, drawn through the curved inlet passage (12a) formed in the lower membrane recess 12 of the housing (10) By transporting the ground water and discharged from the top, it is possible to be discharged to the drainage facility (A) side along the water pipe 40 after passing through the housing (10).

On the contrary, as shown in FIG. 5B, when the groundwater level present in the ground B is lower than the level of the external water flowing along the drainage facility A (when the level of the external water is high), the enclosure maintaining the same level as the external water ( 10) the upper end of the non-return transfer pipe 20 by the buoy 30 in the floating state, the external water flowing into the enclosure 10 through the water pipe 40 from the drainage facility (A) is ground ( Block backflow to B).

And, the lower end of the non-return transfer pipe 20 is separated or coupled to the outlet side of the curved inlet passage (12a) formed in the lower membrane recess 12 of the housing 10 through the socket 22 is fixed to the outer surface It is important to connect to make this possible.

The reason for this is that the lower end of the non-return transfer pipe 20 can be easily connected to the outlet side of the curved inlet passage 12a formed in the lower membrane recess 12 of the housing 10. When the backflow prevention transport pipe 20 in use is deteriorated, or when the backflow prevention transport pipe 20 is filled with fine soil, it is difficult to transport the groundwater smoothly, the lower membrane groove 12 of the housing 10 In order to be able to easily replace the lower end of the non-return transfer pipe 20 from the exit of the curved inlet passage (12a) formed in the new one.

The buoy 30 is a plate-like body having buoyancy due to its lower specific gravity than water, and is installed on the upper end of the backflow preventing transfer pipe 20 in the enclosure 10 in which the water level is determined by the amount of groundwater or external water inflow. The upper end of the transfer pipe 20 is allowed to float on the water surface in the enclosure (10).

In the embodiment of the present invention, the buoy 30 is illustrated as being made of a foamed resin plate-like body having a plurality of bubbles in the cross-section, the buoy 30 is a synthetic resin plate-like body having a hollow portion to fill the air therein Note that it may also be made.

And, in the center of the buoy 30 to form a fitting hole (perforated in the vertical direction), through the fitting hole 31 to fix the upper end of the backflow preventing transfer pipe 20 from the bottom to the top To help.

One end of the water pipe 40 is connected to the discharge hole 111 of the housing 10 and the other end thereof is installed to penetrate the side wall of the drainage facility A, so that it exists in the ground B as shown in FIG. 5A. If the groundwater level is higher than that of the external water flowing along the drainage facility A, the groundwater in the enclosure 10 is discharged to the drainage facility A side, and as shown in FIG. 5B, the groundwater level existing in the ground B is drained. If the water level is lower than the level of the external water flowing along the facility A, the external water flowing along the drainage facility A is introduced into the enclosure 10.

In the embodiment of the present invention, the water pipe 40 is illustrated as being installed to pass through the side wall of the drainage facility (A) is inclined downward in communication with the body portion (10a) of the housing (10). . This helps to smoothly discharge the groundwater or fine soil introduced into the enclosure 10 to the drainage facility (A) side.

In addition, the water pipe 40 is made of a flexible corrugated pipe 41 as a flexible material, flexible connection between the housing 10 and the drainage facility (A) where the buried position is determined according to the site conditions It is desirable to be able to.

On the other hand, Figure 6 shows a modified example of the present invention, the buoy 30 is formed with at least one or more working passages 32 in the vertical direction, and is bound to the lower end of the backflow prevention transport pipe 20 The hooks 221 are formed on both sides of the upper end of the socket 22.

According to this modification of the present invention, the inner diameter of the present invention is narrow and deep so as to bury the groundwater discharge device (WP) of the present invention in the cross section of the retaining wall (C), which is built high at the edge of the drainage facility (A), such as a river bank. Since the box 10 is used, the worker has a hand-shaped socket 22 which is fastened to the lower end of the non-return transfer pipe 20 at the lower membrane recess 12 of the box 10. In case it is difficult to be coupled to or separated from the outlet side of the), the end of the separate operating rod (D) fitted through the working passage 32 formed in the buoy 30 to the lower end of the backflow prevention transfer pipe 20 By hooking the hooks 221 on both sides of the socket 22 to be engaged, the socket can be coupled to or separated from the outlet side of the curved inlet passage 12a formed in the lower closure 12 of the enclosure 10. Give it.

As described above, when the groundwater discharge device WP of the present invention is embedded in the end face of the retaining wall C, the water pipe 40 extending from the housing 10 passes through the end face of the retaining wall C, and the drainage facility A It is installed so as to communicate with, the extension short pipe 124 extending from the outlet side of the curved inlet passage 12a formed in the lower membrane groove 12 of the housing 10 passes through the end surface of the retaining wall (C) and the ground (B). It is installed so as to be located on the side), in this case, the end of the extension end pipe 124 by mounting a filter (F).

7 and 8 show an embodiment of the present invention.

7 is a female threaded portion 123 is formed on the inner peripheral surface of the exit side of the curved inlet passage 12a formed in the lower membrane recess 12 of the enclosure 10, and is fastened to the lower end of the backflow preventing transfer pipe 20. The male threaded portion 222 is formed on the outer circumferential surface of the socket 22 to form a curved inlet formed in the lower membrane recess 12 of the housing 10. It is to be screwed to the outlet side of the passage (12a).

FIG. 8 integrally forms a connecting short pipe 125 having a male screw portion 126 formed on an outer circumferential surface by protruding from the outlet side of the curved inlet passage 12a formed in the lower membrane recess 12 of the enclosure 10. The female threaded portion 223 is formed on an inner circumferential surface of the socket 22 that is fastened to the lower end of the backflow preventing transport pipe 20, and the socket 22 that is fastened to the lower end of the backflow preventive transport pipe 20 is included in the housing. It is to be able to screw to the outlet side connection end pipe 125 of the curved inlet passage (12a) formed in the lower membrane groove (12) of (10).

In one embodiment of the present invention, the outlet 22 of the curved inlet passage 12a formed in the lower membrane recess 12 of the housing 10 has a socket 22 that is fastened to the lower end of the backflow prevention transport pipe 20 By making it possible to connect to the screw coupling method, it has the advantage that the backflow prevention transfer pipe 20 can be more easily and easily separated or combined.

The groundwater discharge device (WP) equipped with a backflow prevention function of the present invention configured as described above is first, the backflow prevention transport pipe 20 that the upper surface is floating on the water surface by the buoy 30 in the enclosure 10, the enclosure Ground water flowing into the curved inlet passage (12a) formed in the lower membrane groove 12 of the housing 10 from the ground (B) in a configuration connected to the curved inlet passage (12a) formed in the lower membrane groove 12 of the It is transported and discharged to the backflow prevention transport pipe 20 to pass through the housing 10 to be discharged to the drainage facility A along the water supply pipe 40, and from the drainage facility A through the water supply pipe 40. Since the external water introduced into the enclosure 10 is blocked by the non-return transfer pipe 20 to prevent backflow to the ground B side, the ground B around the drainage facility A is caused by groundwater or external water backflowed. There is an advantage that can be stabilized without deterioration.

Second, the bulky wall of the body portion 10a of the housing 10 is a ready-made pipe 11 made of a ready-made product, and the relatively small volume of the body portion 10a of the body 10 of the housing 10 is small. By using the mold of the lower film mold 12 which can be injection-molded, as the ready-made pipe 11 and the lower film mold 12 to be assembled to form the body portion 10a of the housing 10 by In addition, it is possible to miniaturize the equipment required for the manufacture of the groundwater discharge device (WP), reduce the cost of the facility as much as possible, and reduce the production cost of the groundwater discharge device (WP) and supply it at low cost. have.

Third, the curved inlet passage 12a formed in the lower membrane recess 12 of the enclosure 10 through a socket 22 at which the lower end of the backflow preventing transport tube 20 incorporated in the enclosure 10 is bound to the outer surface thereof. By making it possible to connect to the outlet side of the separation or coupling, the reverse flow prevention pipe (20) is aging, or when the fine soil is filled in the reverse flow prevention pipe 20 is not able to move smoothly groundwater In addition, by allowing the existing non-return transfer pipe 20 to be quickly and conveniently replaced with a new one, there is an advantage of reducing work load and shortening working time due to maintenance.

As described above, the groundwater discharge device equipped with a backflow prevention function of the present invention can be assembled to reduce the cost of the facility as much as possible by assembling the body of the housing to be made smaller as a ready-made pipe and the lower membrane groove In addition to reducing the production cost and supplying at low cost, it is possible to connect the transfer pipe for preventing backflow to the lower membrane of the enclosure so that it can be separated or combined, thereby reducing the burden on maintenance and working time. It is an invention having a useful effect such as shortening.

Claims (5)

Enclosure 10 having an internal volume as a predetermined cross-sectional shape, and the reverse flow transfer pipe 20 is installed to be changed up and down as a shape condition that is in communication with the lower side of the enclosure within the enclosure 10 and flexibly bent or unfolded And, buoy 30 is installed on the upper end of the backflow prevention transport pipe 20 and the upper end of the backflow prevention transport pipe according to the water level in the enclosure 10, and the outside of the enclosure 10, In what consists of the water pipe 40 which is installed so that it may communicate in the lower side of the said enclosure, The enclosure 10 has a ready-made pipe 11 made to have a required diameter size and length as a wall, and a diameter size that can be tightly fitted to the wall. It is provided with a lower membrane recess 12 having a curved inlet passage 12a formed so that the upper surface is lower than the water pipe 40 at the lower end of the wall and the inlet of the curved inlet passage 12a is exposed to the outside. The lower membrane fastener 12 is coupled to form a body portion (10a) as a bottom body, the lower end of the reverse flow transfer pipe 20 through the socket 22 is fastened to the outer surface of the lower membrane fastener 12 The curved inlet passage (12a) of the groundwater discharge device with a backflow prevention function characterized in that the connection to be separated or coupled to the outlet side. According to claim 1, The lower membrane 12 is a support jaw 122, the outer peripheral surface of the lower side protrudes stepped on the boundary of the fitting portion 121 is tightly fitted inside the bottom of the ready-made pipe (11) Groundwater discharge device equipped with a backflow prevention function characterized in that formed to have. According to claim 1, The buoy 30 is formed with at least one or more working passages 32 in the vertical direction, the upper end of both ends of the socket 22 is fastened to the lower end of the backflow prevention transport pipe 20 Groundwater discharge device with a backflow prevention function, characterized in that by forming hooks (221). According to claim 1, wherein the female threaded portion 123 is formed on the inner peripheral surface of the exit side of the curved inlet passage 12a formed in the lower membrane recess 12 of the housing 10, the lower end of the backflow preventing transfer pipe 20 The male threaded portion 222 is formed on the outer circumferential surface of the socket 22 to be connected to the socket 22, and the socket 22 to be attached to the lower end of the backflow prevention transport pipe 20 is connected to the lower membrane recess 12 of the housing 10. Groundwater discharge device with a backflow prevention function, characterized in that to be screwed to the outlet side of the formed curved inlet passage (12a). According to claim 1, Protruding protruding from the outlet side of the curved inlet passage (12a) formed in the lower membrane groove 12 of the housing 10 integrally connect the short pipe 125 for the male threaded portion 126 is formed on the outer peripheral surface And a female screw portion 223 formed on an inner circumferential surface of the socket 22 which is fastened to the lower end of the backflow prevention transport pipe 20, and the socket 22 that is fastened to the lower end of the backflow transport pipe 20. Groundwater discharge with a backflow prevention function characterized in that it can be screwed to the outlet side connection end pipe (125) of the curved inlet passage (12a) formed in the lower membrane recess (12) of the enclosure (10). Device.

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