KR200381089Y1 - Gathering drainage box earth sand inflow shutoff apparatus - Google Patents

Abstract

The present invention relates to a sediment inflow prevention device of the house drainage, to prevent the phenomenon that the rear of each rotary opening and closing plate downward through the open stopper in the early stage when the sewage amount increases due to rainwater, the sewage flows into the drainage house at the beginning To prevent it. And the present invention is provided on the discharge side of the sewage in the sewage collector conduits including one or more sewage inlet, the sewage inlet is provided with a rotating shaft transverse to the transverse direction, the rotary shaft is provided with sewage in accordance with the amount of sewage Each rotation opening and closing plate for opening and closing the hole is provided, and at least one opening stopper for controlling the opening angle of each rotation opening and closing plate is provided on the circumference of the sewage inflow hole, which is the rear of the rotation shaft, or on the rear wall of the collecting pipe. At least one horizontal holding stopper is provided around the front or rear of the sewage inflow hole to control the closed state of each of the rotary switchboards.

Description

Earthing inflow prevention device of dust collector {Gathering drainage box earth sand inflow shutoff apparatus}

The present invention relates to a sediment inflow prevention device of the conduit, more specifically, the sediment inflow of the sewer to the sewer to prevent the inflow of sediment into the sewer in the sewage when the amount of sewage flowing into the sewer increases due to rainwater. It relates to a prevention device.

The general sewage system refers to a passage through which a large amount of sewage is collected and drained, and the discharge side is usually connected to the river.

In other words, the sewage is generally known, including a drainage pipe to guide the sewage treatment plant to be provided on the discharge side to purify the sewage, the earth and sand included in the sewage is provided at a constant height in the rear of the drainage pipe to the drainage It also includes a barrier that prevents entry and filters out constrictions.

And the collection conduit is to be provided in the transverse direction at the bottom with respect to the longitudinal sewer to include an upper opening penetrating the sewer. In addition, the upper opening is divided into a plurality of longitudinal forms, and a plurality of blocking diaphragms are provided at intervals, and a plurality of sewage inflow holes including both side vertical bands are formed between the blocking diaphragms.

In addition, the barrier wall is composed of a screen that is provided between the walls and the plurality of walls to prevent the passage of the earth and sand to filter the constriction contained in the sewage to be introduced into the collecting pipe.

However, in the conventional sewage system configured as described above, when there is a large amount of inflow of sewage due to rainwater, the earth and sand flows directly into the collecting pipe through the barrier. Therefore, the soil was accumulated in the drainage house, the drainage cross-section of the drainage house is reduced, as well as the sediment flow into the sewage treatment plant had a problem of reducing the purification efficiency of the sewage treatment.

Thus, in order to solve the problems as described above, there is known a soil inflow prevention device for preventing the inflow of soil to the rain pipe in rainy weather, when the following description of the various soil inflow prevention device.

First, "Soil inflow prevention device" (hereinafter, referred to as "soil inflow prevention device of the first embodiment") of the Republic of Korea Utility Model Registration No. 1999-18530 is known.

That is, the conventional soil inflow prevention apparatus of the first embodiment is provided in the sewage inlet hole formed in the upper part of the collecting conduit so as to be opened and closed through a rear fixed shaft, and includes a frame plate including the sewage inlet, and a lower part of the lower condensing pipe. And a spring device installed between the front of the frame plate and the support, and a sewage inflow prevention plate installed at a lower portion of the frame plate to block a sewage inlet when the frame plate is closed. .

Therefore, the soil inflow prevention device configured as described above, in general, the front of the frame plate is inclined to the rear downward through the spring force of the spring device, the sewage passing at a constant flow rate is passed through the sewage inlet and sewage through the sewer pipe To the treatment plant. In case of rain, as the inflow of sewage increases, the frame plate is kept horizontal to block the sewage inlet. Therefore, in rainy weather, the sewage flowing in with the soil is discharged directly into the river without entering the dwelling.

However, the soil inflow prevention apparatus of the first embodiment configured as described above is a device that opens and closes the frame plate by using the spring force of the spring device. When it is used for a long time, the restoring force of the spring device is lost and cannot function properly. Had a problem.

In addition, there is a problem that the spring device is provided in the interior of the collector house and is easily corroded within a short time as it is always in contact with the sewage.

Thus, in order to solve the above problems, conventionally known as "soil inflow prevention device" of the Republic of Korea Utility Model Registration No. 2001-1706 (hereinafter referred to as "soil inflow prevention device of the second embodiment") is known.

That is, the conventional soil inflow prevention apparatus of the second embodiment is characterized in that the support provided in the circumference of the sewage intake hole of the collecting pipe and the frame plate is provided in the middle front of the support inclined through the pivot.

Therefore, the soil inflow prevention device configured as described above, as the frame plate is inclined so as to open the rear in usual times, the sewage that passes at a constant flow rate is introduced into the collecting pipe is led to the sewage treatment plant. In case of rain, as the inflow of sewage increases, the front of the frame plate is lowered and leveled, so that the sewage flowing in with the soil is discharged into the river without being introduced into the collecting pipe.

By the way, in the conventional soil inflow prevention device of the second embodiment configured as described above, as shown in Figure 12, the frame plate 30 is inclined around the pivot shaft 20 as the amount of sewage is constant. It remains open (marked with a solid line).

However, in the rainy season when the sewage is rapidly increasing, the amount of sewage is instantaneously increased. At the moment when the sewage is rapidly increased, a large amount of sewage collides with the lower part of the frame plate 20 and flows into the collecting pipe 10 at the same time. As it occurs, the frame plate 30 is momentarily maintained in a substantially vertical state (indicated by a dashed dashed line).

Then, after the sewage is completely filled in the collecting pipe, a large amount of sewage flowing into the collecting pipe is pressed in a straight line to press the upper portion of the frame plate 30. Therefore, after elapse of time at the moment when the amount of sewage increases, the frame plate 30 is changed to a horizontal state to block the sewage inflow pipe.

Therefore, the sewage volume is increased due to rainwater in the early stage of the sewage with the sewage collected into the conduit 10 had a problem that occurs.

The present invention is designed to solve the problems described above, by preventing the phenomenon that the rear of each rotary opening and closing plate through the open stopper at the beginning of the sewage amount is increased due to rainwater, sewage in the initial increase of sewage It is an object of the present invention to provide a soil inflow prevention device to prevent the inflow into.

In addition, there is also an object to open each rotating opening and closing plate only by the weight of the sewage.

In addition, there is also an object to smoothly inflow of sewage pipes in the usual way by mounting the rotary shaft to the front side to make the rear of each rotary switchboard heavy.

In addition, the rear lower portion of each rotary opening and closing plate is provided with a separate rear weight which can be replaced or load adjustable, so that the closing force of each rotary opening and closing plate can be adjusted to correspond to the change in the amount of sewage due to rain. There is also an object to always open the rear of each rotary opening and closing plate.

In addition, by mounting the bearings at both ends of the rotary shaft as well as the connecting portion between the rotary shaft and each rotary opening and closing plate, there is also an object to enable each rotary opening and closing plate sensitive and precise operation against changes in the amount of sewage.

The present invention for achieving the above object is provided on the discharge side of the sewage, in the sewage collector conduits including one or more sewage inlet, the sewage inlet is provided with a rotating shaft transverse in the transverse direction, Each rotary opening and closing plate is provided to open and close the sewage inlet hole according to the amount of sewage, and one or more opening stoppers are provided on the periphery of the sewage inlet hole, which is the rear of the rotary shaft, or on the rear wall of the collecting pipe. It is characterized in that the front or rear of the sewage inlet hole in the front or the rear of the at least one horizontal holding stopper for controlling the closed state of the rotation opening and closing plate is characterized in that it is provided.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

1 is a perspective view showing a sewer having a sediment inflow prevention apparatus according to a first embodiment of the present invention, Figure 2 is an enlarged perspective view showing a sediment inflow prevention apparatus according to a first embodiment of the present invention, Figure 3 The AA line cross section enlarged view of FIG. 2 is shown.

First, the earth and sand inflow prevention device of the present invention is provided on the discharge pipe of the sewage (1) and is provided in the collecting conduit (2) including one or more sewage inflow holes (21), in particular in the rain when the sewage inflow hole (21) Soil is to prevent the inflow of soil. And the sewage inlet hole 21 is formed at intervals at the open portion of the upper portion of the collecting pipe (2). That is, the sewage inlet hole 21 is provided with a plurality of longitudinal bands at an open portion at intervals, and is provided between a plurality of blocking diaphragms 21 covering the intervals between the vertical bands. Therefore, the circumference of the sewage inflow hole 21 includes a longitudinal belt provided on both sides and an upper portion of the front and rear walls constituting the collecting conduit 2, hereinafter, the sewage inflow hole 21 or the sewage inflow hole 21. In the description of the perimeter, the detailed description thereof will be omitted.

Thus, the earth and sand inflow prevention device of the present invention is provided on the rotary shaft (3) mounted transversely to the sewage inflow hole 21, each rotation opening and closing plate for opening and closing the sewage inflow hole 21 according to the amount of sewage. (4) and at least one open stopper provided on the circumference of the sewage inflow hole 21, which is rear of the rotary shaft 3, or on the rear wall of the collecting conduit 1, to control the opening angle of the respective rotary opening and closing plates 4; (5) and one or more horizontal holding stoppers (6) provided around the sewage inlet hole (21) in front of or behind the rotary shaft (3) to control the closed state of each of the rotary opening and closing plates (4). It is characterized by.

And the rotating shaft (3) is fixed through the connecting means 31 in the middle of each rotation opening and closing plate (4). Therefore, the rear of each rotary opening and closing plate 4, the middle of which is fixed to the rotating shaft 3, can be opened only by the weight of the inflowing sewage. However, in the accompanying drawings, an embodiment in which the rear weight 7 is further provided is illustrated.

In addition, the circumference of the sewage inlet hole 21 includes a skeleton 211 made of metal having excellent strength so as to sufficiently support the rotation shaft 3 and the rotation opening and closing plate 4.

In addition, the horizontal holding stopper (6) is composed of a groove (61) formed so that the front end of each rotation opening and closing plate (4) is caught in the front upper end around the sewage inlet hole (21).

In addition, one or more rear weights 7 are further provided at the rear lower portion of each rotary opening and closing plate 4 to adjust the closing force of each rotary opening and closing plate 4 according to the amount of sewage. That is, the rear weight 7 is provided to be replaceable through a connecting means such as a ring so as to add or subtract the weight as needed.

In addition, the rear weight (7) also serves to open the rear of each rotary opening and closing plate 4 by always pulling the rear of each rotary opening and closing plate 4 downward.

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 3, wherein a bearing 32 is provided between both ends of the rotary shaft 3 and both sides of the sewage inflow hole 21 to smoothly rotate the rotary shaft 3.

In addition, the connecting means 31 is composed of one or more bearing brackets 311 in which the rotating shaft 3 is rotatably assembled and fixed to the lower portions of the respective rotation opening and closing plates 4. That is, the rotary shaft 3 is smoothly rotated by assembling through the bearing 312 included in the bearing bracket 311.

Therefore, as described above, the bearings 32 and 312 are provided at both ends of the rotary shaft 3 as well as the connecting means 31, so that each rotation opening and closing plate 4 can be rotated sensitively to the change in the amount of sewage. The failure due to non-rotation of the rotary switchboard 4 can be prevented in advance.

On the other hand, reference numeral 11 denotes a "blocking wall" which is provided at a constant height at the rear of the collecting pipe 2, which is the sewer 1, to prevent the soil contained in the sewage flowing into the collecting pipe 2, Reference numeral 111 denotes a "screen" included in the barrier wall 11 to physically filter the sewage.

Hereinafter, the operation relationship of the soil inlet device of the first embodiment configured as described above is as follows.

5 is a view for explaining the operation of the soil inflow prevention device of the first embodiment of the present invention, the rear of each rotation opening and closing plate 4 provided in the sewage inflow hole 21 is usually in an open state (indicated by a solid line). As it is maintained, the sewage flowing in a certain amount is passed through the sewage inflow hole 21 and flows into the collecting conduit 2 to be discharged to the sewage treatment plant.

On the contrary, in the early stage of rainfall, a large amount of sewage containing earth and sand is instantaneously introduced into the opening portion behind each rotary opening and closing plate 4, and the rear of each rotary opening and closing plate 4 is an open stopper 5. As it is supported through the rear of each rotation opening and closing plate 4 is no longer rotated to the bottom.

Therefore, the sewage mixed with a large amount of earth and sand is moved from the rear of each rotary switchboard 4 directly to the upper part of each rotary switchboard 4 so as to press the upper part of each rotary switchboard 4 downward, thereby opening and closing each rotary switchboard. The plate 4 is quickly changed to a horizontal state (a state indicated by a double-dotted line) to close the sewage inflow hole 21 of the collecting pipe 2.

Therefore, by preventing the inflow of sediment into the drainage corridor 2 in the early stage of rainwater, when the amount of sewage increases momentarily, it prevents the cross-sectional area of the drainage conduit 2 due to the inflow of sediment and of course the inflow of sediment into the sewage treatment plant. It can be prevented.

As shown in FIG. 3, the closing force of each rotation opening and closing plate 4 may be adjusted by replacing the rear weight 7 provided at the rear lower portion of each rotation opening and closing plate 4.

Therefore, by adjusting the closing force of each rotary opening and closing plate 4 as described above, it is possible to take a quick action corresponding to the change in the amount of sewage, it is also possible to use the device compatible regardless of the amount of sewage.

On the other hand, Figure 6 shows another embodiment of the horizontal holding stopper according to the present invention, in the first embodiment, the horizontal holding stopper 6 is rotated opening and closing each front end around the sewage inlet hole 21 It is characterized in that it consists of a protruding jaw 62 is applied to the front of the plate (4).

That is, the protruding jaw 62 is fixed to the circumference of the sewage inlet hole 21 through fixing means such as bolts or welding.

Therefore, the front of the rotary opening and closing plate 4 is prevented from descending through the protruding jaw 62 protruding rearward from the front end of the sewage inflow hole 21.

In addition, Figure 7 shows another embodiment of the horizontal holding stopper according to the present invention, in the first embodiment, the horizontal holding stopper 6 is provided with a protruding portion in the rear upper end around the sewage inlet hole 21 It is characterized by consisting of the projected end (63).

And the protruding end portion 63 is composed of a horizontal plate of a constant width and the front of the horizontal plate is formed with a plurality of recessed groove portion 631 so as to facilitate the inflow of sewage.

Accordingly, the protruding end portion 63 may press the rear upper portion of each rotation opening and closing plate 4 in rainy weather to maintain each rotation opening and closing plate 4 horizontally. And the recessed groove portion 631 formed in the front serves as a guide to allow the sewage to smoothly flow into the collecting pipe (2).

8 is a diagram illustrating a soil inflow prevention apparatus according to a second embodiment of the present invention, in the configuration of the first embodiment, so that the closing force according to the amount of sewage can also be adjusted to the front lower portion of each rotation opening and closing plate 4. It is characterized in that one or more front weights 8 are further provided.

Therefore, when the front weight 8 is provided in the lower portion of the front as described above, the closing force of each rotation opening and closing plate 4 can be adjusted by easily replacing the front weight 8 from the outside.

On the other hand, Figure 9 shows another embodiment of the front, rear weight according to the present invention, the rear weight 7 of another embodiment according to the present invention, the respective opening and closing plate so that the tab hole 711 in the longitudinal direction is provided The falling weight of the rear weight (7) around the rotating shaft (3) by adjusting the front and rear positions are fastened in the longitudinal direction to the nut (71) and the tab hole (711) fixed to the (4) It is characterized by consisting of a spiral shaft 72 for changing.

Therefore, the falling weight of the rear weight 7 around the rotating shaft 3 can be varied by adjusting the front and rear positions by rotating the spiral shaft 72. Therefore, the closing force of each rotary opening and closing plate 4 can be easily adjusted to correspond to the change in the amount of sewage.

In addition, the front weight 8 of another embodiment according to the present invention, the nut 81 is fixed to each of the rotary opening and closing plate 4 so that the tab hole 811 is provided in the longitudinal direction, and the tab hole 811 It is characterized in that it consists of a spiral shaft 82 which is fastened in the direction to change the falling weight of the front weight (8) around the rotating shaft (3) by adjusting the position of the front and rear.

Therefore, by rotating the spiral shaft 82 to adjust the position of the front and rear, the falling weight of the front weight (8) around the rotating shaft (3) can be varied. Therefore, the closing force of each rotary switchboard 4 can be adjusted to correspond to the change in the amount of sewage.

10 is a sediment inflow prevention device according to a third embodiment of the present invention, first, the earth and sand inflow prevention device of the third embodiment according to the present invention has a rotary shaft (3) for supporting each rotation opening and closing plate (4) Other configurations except those described above are the same as in the above-described first and second embodiments.

Thus, the earth inflow prevention apparatus of the third embodiment according to the present invention, the rotary shaft 3 for supporting each rotary opening and closing plate 4 is fixed through the connecting means 31 in the middle front of each rotary opening and closing plate 4. It is characterized by.

Therefore, the rotation shaft 3 is mounted to be biased forward with respect to each rotation opening and closing plate 4 so as to make the rear of each rotation opening and closing plate 4 heavy so that the open state of each rotation opening and closing plate 4 is normally stabilized. It has the advantage that it can be maintained.

11 is a cross-sectional view showing a sediment inflow prevention apparatus according to a fourth embodiment of the present invention, the circumferential end of the sewage inflow hole 21, is provided at both side ends and the front end forward with respect to the rotating shaft (3) Protrusion plate 231 so that the front circumference of the lower surface of each rotary opening and closing plate 4 can be in close contact to prevent the sewage to the sewer to flow into the collecting pipe (2) when the rotary opening and closing plate 4 is rotated in a closed state ) And a water stop plate 23 composed of rubber 232 is further provided, and is provided at both ends and the front end which are rearward with respect to the rotation shaft 3, and each rotation opening and closing plate 4 is rotated in a closed state. (2) further provided with a water stop plate 23 composed of a protrusion plate 231 and a rubber 232 so that the rear circumference of the upper surface of each rotary opening and closing plate 4 can be closely contacted to prevent the sewage into the sewer. It is characterized by being.

Therefore, by closing the rotation opening and closing plate 4 in a rainy season during the rainy season, such that the rain can be sealed, it is possible to prevent the sewage mixed with sewage in the rainy season inflow into the dwelling.

The present invention, as described above, prevents the sedimentation of the sewage drainage due to the inflow of the sediment by preventing the sediment flow into the drainage at the initial increase of sewage due to rainwater, as well as the sewage is introduced into the sewage treatment plant It is to have the effect of preventing.

In addition, it is also possible to reduce the manufacturing cost of the device to the maximum by allowing each rotary opening and closing plate to be opened only by the weight of the sewage.

In addition, the rear of each rotary opening and closing plate is heavy to have an effect that can smoothly flow into the sewer drainage.

In addition, by replacing or adjusting the rear weight of each rotary switchboard, the closing force of each rotary switchboard is adjusted to correspond to the change in the amount of sewage due to rainwater, so that quick measures can be taken to correspond to the change of the amount of sewage. Of course, the device can be used interchangeably, and in addition, the rear side of the rear additional rotation switchboard is normally opened, so that the sewage can smoothly flow into the garage.

In addition, it is also possible to prevent the failure caused by the non-rotation of each of the rotation opening and closing plate by allowing each rotation switching plate to operate sensitively to the change of sewage amount.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many various obvious modifications are possible without departing from the scope of the present invention from this description. Therefore, the scope of the present invention should be construed by the claims described to include many such variations.

1 is a perspective view showing a sewer having a sediment inflow prevention device according to a first embodiment of the present invention.

Figure 2 is an enlarged perspective view showing a soil inflow prevention apparatus according to a first embodiment of the present invention.

3 is an enlarged cross-sectional view taken along the line A-A of FIG.

4 is a cross-sectional view taken along the line B-B in FIG.

Figure 5 is a schematic cross-sectional view for explaining the operation of the soil inflow prevention apparatus of the first embodiment of the present invention.

Figure 6 is a cross-sectional view showing another embodiment of the horizontal holding stopper according to the present invention.

Figure 7 is a cross-sectional view showing another embodiment of the horizontal holding stopper according to the present invention.

8 is a cross-sectional view showing a soil inflow prevention apparatus according to a second embodiment of the present invention.

Figure 9 is a cross-sectional view showing another embodiment of the front, rear weight according to the present invention.

10 is a cross-sectional view showing a soil inflow prevention apparatus according to a third embodiment of the present invention.

11 is a cross-sectional view showing a soil inflow preventing apparatus according to a fourth embodiment of the present invention.

12 is a schematic cross-sectional view for explaining the operation of the conventional soil inflow prevention device.

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

1: sewer

    11: blocking wall

         111: screen

2: tea house

    21: Sewage Inflow Hall

    22: blocking diaphragm

    23: index plate,

         231: protrusion plate, 232: rubber

3: axis of rotation

    31: connection means

         311: bearing bracket, 312: bearing

    32: Bearing

4: each rotary opening and closing plate

5: open stopper

6: leveling stopper

    61: home

    62: protruding jaw

    63: protruding end

         631: recessed groove

7: rear weight

    71: nut

         711: tap hole

    72: spiral axis

8: front weight

    81: nuts

         811: tap hole

    82: spiral axis

Claims (15)

In the sewer drainage conduit 2, which is provided on the discharge side of the sewer 1 and includes one or more sewage inflow holes 21, The sewage inlet hole 21 is provided with a rotating shaft 3 transverse to the horizontal direction, the rotary shaft 3 is provided with each rotary opening and closing plate 4 for opening and closing the sewage inlet hole 21 according to the amount of sewage. And At least one open stopper 5 is provided on the periphery of the sewage inflow hole 21, which is the rear of the rotary shaft 3, or on the rear wall of the collecting conduit 1 to control the opening angle of the respective rotary opening and closing plates 4. , Sedimentation of the sewer pipe, characterized in that at least one horizontal holding stopper (6) for controlling the closed state of each of the rotation opening and closing plate (4) is provided around the sewage inlet hole 21 in front or rear of the rotary shaft (3) Ingress prevention device. The method of claim 1, wherein the rotating shaft 3, The earth and sand inflow prevention device of the tea house, characterized in that fixed through the connecting means 31 in the middle of the rotation opening and closing plate (4). The method of claim 1, wherein the rotating shaft 3, The sediment inflow prevention device of the tea house, characterized in that fixed through the connecting means 31 to be biased toward the middle forward of the respective rotation opening and closing plates (4). The method of claim 1, wherein the horizontal stopper (6), The sediment inflow prevention device of the tea house, characterized in that consisting of a groove (61) formed so that the front end of each rotary opening and closing plate (4) is caught in the front upper end of the sewage inlet hole (21). The method of claim 1, wherein the horizontal stopper (6), The sewage inflow prevention device of the dust collector, characterized in that it is provided to protrude at the front end around the sewage inlet hole 21 is composed of the projection jaw (62) that takes the front of each rotation opening and closing plate (4). The method of claim 1, wherein the horizontal stopper (6), The sediment inflow prevention device of the tea house, characterized in that consisting of a protruding end portion (63) protruding to the rear upper end of the sewage inlet hole (21). The method of claim 6, wherein the projecting end 63 is composed of a horizontal plate of a constant width, The front of the horizontal plate is characterized in that a plurality of recessed groove portion 631 is formed so as to facilitate the inflow of sewage, sediment inflow prevention device of the dust collector. According to claim 1, At the peripheral end of the sewage inlet hole 21, Each rotation opening and closing is provided at both ends and the front end that is forward with respect to the rotating shaft 3 to prevent the sewage into the sewer pipe into the sewer pipe 2 when the rotary opening and closing plate 4 is rotated in a closed state. The water discharge plate 23 made of a protrusion plate 231 and a rubber 232 is further provided so that the front circumference of the lower surface of the plate 4 can be closely adhered thereto. Each rotation opening and closing is provided at both ends and the front end that is rear with respect to the rotation shaft (3) to prevent the sewage into the sewer pipe into the sewer pipe (2) when the rotation opening and closing plate (4) is rotated in a closed state The rear plate of the upper surface of the plate (4) so that the index plate 23 consisting of a protrusion plate (231) and the rubber 232 is provided with a protrusion further characterized in that it is provided with a further. 9. The apparatus of claim 1, wherein at least one rear weight is further provided at a rear lower portion of each of the rotary opening and closing plates. The method of claim 9, wherein the rear weight (7), A nut 71 fixed to each of the rotation opening and closing plates 4 so that the tab holes 711 are provided in the longitudinal direction; It is fastened to the tab hole 711 in the longitudinal direction characterized by consisting of a spiral shaft 72 for varying the falling weight of the rear weight (7) around the rotating shaft (3) by adjusting the position of the front and rear Earth and sand inflow prevention device of the tea house. 10. The method of claim 9, wherein at least one front weight (8) is further provided at the front lower portion of each rotary opening and closing plate (4). The method of claim 11, wherein the front weight (8), A nut 81 fixed to each of the rotation opening and closing plates 4 so that the tab hole 811 is provided in the longitudinal direction; It is fastened to the tab hole 811 in the longitudinal direction, characterized in that it consists of a spiral shaft 82 for varying the falling weight of the front weight (8) around the rotating shaft (3) by adjusting the position of the front and rear Earth and sand inflow prevention device of the tea house. According to claim 1, The sewage inlet hole 21, Soil inflow prevention device further comprises a frame (211) provided on the periphery. 14. The bearing 32 according to any one of claims 1, 2, 3, 13, further comprising a bearing 32 for smoothly rotating the rotation shaft between both ends of the rotation shaft 3 and both sides of the sewage inflow hole 21. Earth and sand inflow prevention device of the tea house drainage. The method of claim 14, wherein the connecting means 31, An earthquake inflow prevention device of a tea house, characterized in that the rotating shaft (3) comprises a bearing 312 rotatably assembled, and is composed of one or more bearing brackets (311) fixed to the lower portion of each rotary opening and closing plate (4). .