KR101151222B1 - Switching apparatus of rainwater - Google Patents

Abstract

According to the present invention, having an internal space, one side is formed with an inlet nozzle in which sewage and rainwater are introduced from the outside, the other side is the body portion formed with the upper discharge nozzle and the lower discharge nozzle discharged the sewage and rainwater; Is fixedly located inside the body portion, one end is in communication with the inlet nozzle, the sewage and rainwater is introduced into the inside, the other end is formed with a first outlet for the inflow of sewage and rainwater flows, one side is introduced A fixed pipe passage in which a sewage and a part of the rainwater flow out by being overflowed; It is rotatably coupled to the fixed pipe and rotates about the rotation axis (C), one end is in communication with the other end of the fixed pipe and the sewage and rainwater flowing out of the first outlet is introduced, the other end is introduced sewage And a rotary pipe formed with a second outlet port through which rainwater flows out. And one end is fixed to the outside of the fixed pipe so as to communicate with the outlet flow outlet of the fixed pipe passage, and the other end of the overflow pipe passage formed with the overflow nozzle flows the sewage and rainwater flowing from the overflow flow outlet, and the other of the rotary pipe An automatic rainwater blocking device is disclosed, comprising: a overflow storage unit fixedly positioned outside the side portion and including a overflow storage tank in which sewage and rainwater flowing out of the overflow nozzle are introduced and stored.

Sewer, Overflow, Shut Off, Automatic, Spill

Description

Automatic rainwater shutoff device {Switching apparatus of rainwater}

The present invention relates to an automatic rainwater shutoff device, and more particularly, to an automatic rainwater shutoff device in which rainwater flows into a sewage treatment plant is automatically blocked when rainwater flows over a predetermined flow rate that can be treated in a sewage treatment plant.

In general, sewage and wastewater discharged from industrial sites and residential areas contain a large amount of heavy metals and various organic substances, and sewage treatment facilities and wastewater treatment facilities are installed nearby to purify them.

These sewage treatment facilities and wastewater treatment facilities are divided into areas in charge, and the sewage and wastewater are collected in the corresponding areas, and then purified by separate sewage treatment processes and discharged to rivers.

The sewage treatment process is generally divided into a pretreatment process for removing contaminants, a biological treatment process for removing organic matter and nutrients, and a solid-liquid separation process for separating precipitated contaminants and purified supernatant, which are the final stages of sewage treatment. Only the supernatant purified through the separation process is discharged to the stream.

In addition, for this purpose, various facilities for the sewage treatment plant, the sewage inlet pipe and sewage transfer, agitation, and aeration based on the domestic sewage inflow flow rate are installed, and a chemical input and metering facility is installed.

These facilities are designed and calculated by the standard inflow flow into the sewage treatment plant, and if the sewage and rainwater with a large flow rate exceeding the standard flow rate are introduced, the treatment efficiency is deteriorated or the function is lost and the facility is overloaded.

1 is a cross-sectional view showing a sewage collection pipe line provided in a conventional river outlet, and FIG. 2 is a cross-sectional view showing a sewage collection pipe path that constitutes a separate sewage collection manhole at a short distance of a conventional river outlet.

First, looking at the flow path of the sewage and rainwater in the sewage collection pipe constituting a separate sewage collection manhole at a short distance of the sewage outlet, the sewage and rainwater discharged from the sewage inflow pipe 200 as shown in FIG. After the flow into the (13) is introduced into the sewage treatment plant through the sewage collection pipe (11).

Particularly, when a large amount of rainwater flows into the inflow pipe 200, the rainwater exceeding the volume of the sump 13 is overflowed by the overflow membrane 12, but the earth and sand are suspended through the sewage pipe 11. Of the foreign matter with the rain was introduced into the sewage treatment plant through the sewage collection pipe (11).

On the other hand, looking at the flow path of sewage and rainwater in the sewage collection pipe installed in the conventional river outlet, sewage and rainwater discharged from the sewage inflow pipe 200 as shown in Figure 2 after the flow into the sump (23) The sewage collection pipe 21 is introduced into the sewage treatment plant, and when a large amount of rainwater flows in, the overflow film 22 is overflowed, and some rainwater is discharged in the direction of the river. Together with the sewage collection pipe 21 there was a problem flowing into the sewage treatment plant.

As described above, in the conventional sewage collection pipe system, when rainwater flows into the sewage treatment plant in large quantities, chemical and power costs for treating the wastewater are required, and when the standard flow rate is excessively exceeded, normal sewage treatment is performed. There was a problem that it is impossible to overflow or discharge in the stream untreated sewage.

In particular, the soil and suspended solids flowing in with rainwater in large quantities may be partially removed from the sewage separation facilities of sewage treatment plants, but they are not completely removed, resulting in overload and failure of the facilities. It acted as a factor to shorten the service life due to failure, malfunction and overload.

The present invention was created in order to solve the above-mentioned problems, and the object of the present invention is to provide an automatic rainwater blocking device that automatically blocks rainwater into a sewage treatment plant when rainwater flows over a predetermined flow rate that can be treated in a rainwater treatment plant. have.

In addition, another object of the present invention is to provide an automatic stormwater shutoff device in which rainwater inflow above the predetermined flow rate is blocked through a mechanical structure without the configuration of an electrical device that controls the inflow and outflow of a fluid such as a solenoid valve and a sensor. have.

Automatic rainwater blocking device according to the present invention for achieving the above object, having an internal space, one side is formed with an inlet nozzle in which sewage and rainwater is introduced from the outside, the other side is the top of the discharged sewage and rainwater A body part including a discharge nozzle and a lower discharge nozzle; Is fixedly located inside the body portion, one end is in communication with the inlet nozzle, the sewage and rainwater is introduced into the inside, the other end is formed with a first outlet for the inflow of sewage and rainwater flows, one side is introduced A fixed pipe passage in which a sewage and a part of the rainwater flow out by being overflowed; It is rotatably coupled to the fixed pipe and rotates about the rotation axis (C), one end is in communication with the other end of the fixed pipe and the sewage and rainwater flowing out of the first outlet is introduced, the other end is introduced sewage And a rotary pipe formed with a second outlet port through which rainwater flows out. And one end is fixed to the outside of the fixed pipe so as to communicate with the outlet flow outlet of the fixed pipe passage, and the other end of the overflow pipe passage formed with the overflow nozzle flows the sewage and rainwater flowing from the overflow outlet, and the other of the rotary pipe It is fixed to the outside of the side portion but the overflow storage unit including a monthly storage tank for storing the sewage and rainwater flowing out from the overflow nozzle is stored.

In addition, the one side portion (L ₁ ) of the rotary pipe may be further provided with a weight control unit mounted with a weight of a certain size.

In addition, according to Equation 1 below, the rotary pipe is rotated about the rotary shaft (C) and the other end of the rotary pipe is raised, the sewage and rainwater discharged through the second outlet is the upper end It can be discharged through the discharge nozzle.

[Equation 1]

W _L1 + W ₃ 〉 W _L2 + W _W

(W _L1 is the weight of one side (L ₁ ) of the rotary pipe, W _L2 is the weight of the other part (L ₂ ) of the rotary pipe, W ₃ is the weight of the weight control unit, W ₄ is the weight of the water stored in the overflow storage unit) weight)

In addition, when the sewage and rainwater flowing out of the fixed pipe is stored at a certain level in the overflow storage tank, by the following [Equation 2], the rotary pipe is rotated about the rotation axis (C) and the other end is lowered Thus, the sewage and rainwater discharged through the second outlet can be discharged through the lower discharge nozzle and the sewage and rainwater introduced into the inlet nozzle by the other side is lowered.

[Equation 2]

W _L1 + W ₃ 〈W _L2 + W ₄

(W _L1 is the weight of one side (L ₁ ) of the rotary pipe, W _L2 is the weight of the other part (L ₂ ) of the rotary pipe, W ₃ is the weight of the weight control unit, W ₄ is the weight of the water stored in the overflow storage unit) weight)

In addition, the side or bottom surface of the overflow storage tank is formed with a sewage and drain discharged to discharge the sewage and rainwater stored in the overflow storage tank, when the sewage and rainwater stored in the overflow storage tank through the overflow sewage discharge outlet, the [math] Equation 1], the rotary pipe is rotated about the rotary shaft (C) and the other end of the rotary pipe is raised, the sewage and rainwater discharged through the second outlet is discharged through the upper discharge nozzle Can be.

In addition, in front of the second outlet of the rotary pipe, a scattering prevention plate for preventing the scattering of sewage and rainwater flowing out through the second outlet may be provided.

In addition, the scattering prevention plate, one end is directed toward the second outlet, the other end is mounted to face the discharge nozzle, the center portion may be formed in a curved shape downward.

In addition, the fixed pipe, the slope of the one end is formed higher than the other end is formed so that the introduced sewage and rainwater flows from one end to the other end by gravity, the one end and the other end The central portion is formed in a bent shape, so that the inclined surface having a predetermined angle on the other side can be formed.

In addition, one side of the overflow outlet, opening and closing control unit for adjusting the opening and closing degree of the overflow outlet may be formed.

In addition, the upper end of the other end of the rotary pipe line, the upper support for supporting the upper surface of the rotary pipe passage so that the other end of the rotary pipe does not rise above a predetermined height, and located on one side of the upper support portion An upper support adjusting member for adjusting the mounted height of the support may be provided.

In addition, the lower end of the other end of the rotary pipe line, the lower support for supporting the lower surface of the rotary pipe line so that the other end of the rotary pipe does not fall below a predetermined height, and located on one side of the lower support portion A lower support adjusting member for adjusting the mounted height of the branch may be provided.

On the other hand, the inside of the fixing pipe, one end is fixed to the inner surface of one end of the fixing pipe, the other end may be provided with a plate-shaped guide plate mounted toward the other end direction of the fixing pipe to narrow the inner diameter of the fixing pipe. have.

According to the automatic rain blocking device according to the present invention,

First, because only the sewage and rainwater of the capacity that can be treated in the sewage treatment plant is introduced into the sewage treatment plant and treated, the overload of the sewage treatment plant equipment can be prevented to extend its service life.

Second, since the electric power source to control the inflow and outflow of fluids such as solenoid valves and detection sensors, as well as the control power source such as electricity supply is not configured, it is possible to reduce the initial cost and maintenance cost required to install the drainage device. There is an advantage.

Third, even if the sewage treatment capacity that can be treated in the sewage treatment plant is changed, it is possible to implement an effect of adjusting the standard of a predetermined capacity to be introduced into the sewage treatment plant in response thereto.

Fourth, the upper part of the automatic rain-prevention device is provided with a cover portion that can be opened and closed to facilitate the replacement and maintenance of parts can maximize the user's convenience.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

Figure 3 is a side view showing the configuration of the automatic storm blocking device according to a preferred embodiment of the present invention, Figure 4 is a plan view showing the configuration of the automatic storm blocking device of the present invention, Figure 5 is a configuration of the automatic storm blocking device of the present invention 6 and 7 are side and plan views showing a series of flow paths of sewage and rainwater flowing in from the other end of the rotary pipe 130 of the present invention in an elevated state through the upper discharge nozzle 112. 8 is a side view illustrating a state in which the automatic separation drainage device of FIGS. 6 and 7 is installed at a stream outlet.

9 and 10 are a side view and a plan view showing the flow path of sewage and rainwater overflowed to the overflow outlet 122 of the present invention, Figures 11 and 12 are the other end of the rotary pipe 130 of the present invention is lowered Side and plan views showing a series of flow paths in which the sewage and rainwater introduced in the discharged state are discharged through the lower discharge nozzle 113, and FIG. 13 shows a state in which the automatic separation drainage device of FIGS. side view thereof and Figure 14 is a schematic view showing the criteria to distinguish one side portion (L ₁₎ and the other end portion (L ₂₎ of the rotary pipe 130 of the present invention.

As shown in Figure 3 to Figure 14, the automatic rainwater blocking device of the present invention, the body portion 110, fixed pipe line 120, rotary pipe line 130, overflow storage unit 140 and weight control unit 150 ).

First, the body portion 110, but has an internal space, one side is formed with an inlet nozzle 111 inflowing sewage and rainwater from the outside, the other side is the top discharge nozzle 112 discharged the sewage and rainwater ) And the bottom discharge nozzle 113 is formed.

Here, the inflow nozzle 111 is an inlet for the sewage and rainwater flowing in from the sump 13 shown in FIGS. 7 and 13, and the diameter and shape are determined in consideration of the flow rates of the sewage and rainwater flowing in. It is desirable to lose.

In addition, the upper portion of the body portion 110, the cover portion 114 for covering the upper end of the body portion 110 is located, the cover portion 114 is the body portion 110 by the opening and closing means 115 ) Is fastened.

Here, through the configuration of the cover portion 114 and the opening and closing means 115, when the parts replacement and maintenance required in the automatic rainwater blocking device occurs, the cover portion 114 is easily removed by releasing the opening and closing means 115. Since it can be opened, the effect of maximizing user convenience can be realized.

In addition, in the automatic rainwater blocking device of the present invention, the path for discharging sewage and rainwater is different according to the rotation of the rotary pipe 130. When the other end of the rotary pipe 130 is rotated, the upper discharge is discharged. It is discharged through the nozzle 112, when the other end of the rotary pipe 130 is rotated to be discharged through the lower discharge nozzle 113.

The fixed pipe line 120 is fixedly located in the body portion 110, one end is in communication with the inflow nozzle 111, the sewage and rainwater is introduced into the inside, the other end is introduced into the sewage and The first outflow port 121 through which rainwater flows out is formed, and one side of the inflow of sewage and a portion of the rainwater flows out by overflowing part of the storm stream 122.

Here, at one side of the overflow outlet 122, an opening and closing control unit 145 for adjusting the opening and closing degree of the overflow outlet 122 is formed, the flow rate of sewage and rainwater flowing out through the overflow outlet 122 It is desirable to be able to adjust.

In addition, as shown in FIG. 3, the fixed pipe line 120 has a slope having one end portion higher than the other end so that the introduced sewage and rainwater flow from one end to the other end by gravity. Is formed, the center portion of the one end and the other end is formed in a refracted form, the inclined surface a (123) having a predetermined angle on the other side is formed.

Through the slope as described above, the sewage and rainwater introduced from the inlet nozzle 111 is guided to a gentle slope along the inner surface of the fixed conduit 120 and at the same time, the introduced sewage and rainwater The reverse flow can be implemented to prevent the flow back to the inflow nozzle 111.

 In addition, through the inclined surface a (123) as described above, it is possible to stabilize the water level change of the sewage and rainwater flowing out through the overflow outlet 122.

In addition, the inside of the fixed pipe passage 120, one end is fixed to the inner surface of one end of the fixed pipe passage 120, as shown in Figure 4, the other end of the fixed pipe passage so that the inner diameter of the fixed pipe 120 is narrow The plate-shaped guide plate 124 is provided toward the other end direction of the furnace 120 is provided.

The sewage and rainwater flowing from the inlet nozzle 111 are guided by the guide plate 124 so as to flow smoothly into the fixed pipe line 120, and at the same time, the sewage and the suspended solids contained in the sewage and rainwater, etc. Inflow can be prevented.

On the other hand, the rotary pipe line 130 is rotatably coupled to the fixed pipe line 120 and rotates about the rotation axis (C), one end is in communication with the other end of the fixed pipe line 120 is the first outlet Sewage and rainwater flowing out from 121 are introduced, and a second outlet 131 through which the sewage and rainwater flows out is formed at the other end.

Here, the rotation shaft (C) is supported by a fixed pipe line 120 fixed to the inside of the body portion 110 is a rotation center support shaft for rotating the rotary pipe line 130, the rotary pipe line 130 to be stable It is preferable that both sides of the fixed pipe line 120 and both sides of the rotary pipe line 130 are rotatably coupled so as to rotate.

In addition, in front of the second outlet 131 of the rotary pipe 130, a scattering prevention plate 133 is provided to prevent scattering of sewage and rainwater flowing out through the second outlet 131.

One end of the shatterproof plate 133 is mounted toward the second outlet 131 and the other end is directed toward the upper discharge nozzle 112, and the center portion is preferably formed to be curved downward.

Since the sewage and rainwater flowing out to the second outlet 131 through the configuration of the scattering prevention plate 133 is prevented from being scattered while sliding to the scattering prevention plate 133, the top discharge nozzle 112 more stably. Effect can be realized.

In addition, an upper support part 134 supporting the upper surface of the rotary pipe line 130 so that the other end of the rotary pipe line 130 does not rise above a predetermined height on the other end of the rotary pipe line 130. And an upper support adjusting member 135 positioned at one side of the upper support 134 to adjust the mounted height of the upper support 134.

When the weight W _L1 of one side portion L ₁ is greater than the weight W _L2 of the other side portion L ₂ , the rotary pipe 130 rises at the other end about the rotation shaft C. Rotating, and in order to smooth the flow of sewage and rainwater flowing in the inside of the rotary pipe 130, it is preferable that a gradient of one end of the rotary pipe 130 is formed higher than the other end.

Here, as shown in Figure 14, the one side portion (L ₁ ) is based on the rotation axis (C), the rotary pipe line 130 corresponding to one end of the weight adjusting unit 150 from the rotation axis (C) The other side (L ₂ ) means a portion corresponding to the other end of the rotary pipe 130 from the rotation axis (C).

In addition, W _L1 shown in Figure 10 is the weight of one side portion (L ₁ ) of the rotary conduit 130, W _L2 is the weight of the other side (L ₂ ) of the rotary conduit 130, W ₃ is the weight adjustment unit ( 150, W ₄ represents the weight of the sewage and rainwater stored in the overflow storage unit 140.

Accordingly, the preset height is a space that the upper discharge nozzle 112 and the lower discharge nozzle 113 have under the condition that the sewage and rainwater introduced into the inflow nozzle 111 are discharged to the upper discharge nozzle 112. It can be determined between the position of the upper surface of the inclined surface b (123) for partitioning and the position of the other end to the extent that the gradient is formed inside the rotary pipe (130).

In addition, a lower support part 136 supporting the lower surface of the rotary pipe line 130 so that the other end of the rotary pipe line 130 does not descend below a predetermined height under the other end of the rotary pipe line 130. And a lower support adjusting member 137 positioned on one side of the lower support 136 to adjust the mounted height of the lower support 136.

When the weight W _L1 of one side portion L ₁ is smaller than the weight W _L2 of the other side portion L ₂ , the rotary pipe 130 has the other end descending about the rotation axis C. It turns. Therefore, the preset height is, under the condition that the sewage and rainwater introduced into the inflow nozzle 111 are discharged to the lower discharge nozzle 113, the other end of the rotary pipe 130 is the upper discharge nozzle 112. It means a predetermined height located below the inclined surface b (114) for partitioning the space with the lower discharge nozzle 113.

The overflow storage unit 140, one end is fixed to the outside of the fixed pipe passage 120 so as to communicate with the flow outlet outlet 122 of the fixed pipe 120, the other end is introduced from the overflow outlet 122 The sewage and rainwater discharged from the overflow nozzle 141 is located and fixed to the outside of the overflow pipe 142 and the overflow pipe 142 is formed, the overflow nozzle 141 is discharged the sewage and rainwater Includes the overflow storage tank 143 is introduced and stored.

In addition, the one side portion (L ₁ ) of the rotary pipe 130, a weight adjusting unit including a weight 151 having a weight of a certain size, and a weight fixing rod 152 is fixed to the weight added ( 150).

Here, the weight (W ₃ ) of a certain size of the weight 151 is greater than the weight (W _L2 ) of the other portion (L ₂ ) of the rotary pipe 130 and in the overflow storage unit 140 It is set within a smaller range than the weight of the sewage and rainwater stored (W _W4 ).

Therefore, before the sewage and rainwater flow into the overflow storage unit 140, due to the weight (W3) of the weight adjusting unit 150 by the following [Equation 1], the rotary pipe 130 is The other end of the rotary pipe 130 is rotated about the rotary shaft C, and the sewage and rainwater discharged through the second outlet 131 are discharged through the upper discharge nozzle 112.

[Equation 1]

W _L1 + W ₃ 〉 W _L2 + W _W4

(W _L1 is the weight of one side (L ₁ ) of the rotary pipe 130, W _L2 is the weight of the other side (L ₂ ) of the rotary pipe 130, W ₃ is the weight of the weight control unit 150) , W ₄ is the weight of sewage and rainwater stored in the overflow storage unit 140)

When the flow rate of the sewage and rainwater flowing through the inflow nozzle 111 is greater than the flow rate discharged to the upper discharge nozzle 112, the inside of the rotary pipe 130 and the fixed pipe (120) Gradually, the sewage and rainwater levels become higher.

In addition, when the water level of the sewage and rainwater reaches the position where the outlet outlet 122 of the fixed pipe line 120 is formed, a part of the sewage and rainwater overflows the overflow outlet 122 to the overflow pipe 142 After passing through the overflow nozzle 141.

And, the sewage and rainwater discharged to the overflow nozzle 141 is stored in the overflow storage tank 143 located below the overflow nozzle 141 and the weight of the sewage and rainwater stored in the overflow storage tank 143 (W ₄ ) Is gradually increased, by the following [Equation 2], the rotary pipe 130 is rotated about the rotation axis (C) and the other end is lowered, outflow through the second outlet 131 Sewage and rainwater that is discharged through the bottom discharge nozzle 113.

[Equation 2]

W _L1 + W ₃ 〈W _L2 + W ₄

(W _L1 is the weight of one side (L ₁ ) of the rotary pipe 130, W _L2 is the weight of the other side (L ₂ ) of the rotary pipe 130, W ₃ is the weight of the weight control unit 150) , W ₄ is the weight of sewage and rainwater stored in the overflow storage unit 140)

On the other hand, when the sewage and rainwater discharge of the inlet nozzle 111 and the sewage and rainwater discharge of the lower discharge nozzle 113 are equal to each other or the sewage and rainwater discharge of the lower discharge nozzle 113 is increased, the overflow Being overflowed through the outlet 122 is not flowing into the overflow storage tank 143.

In this case, the other end of the rotary pipe 130 may be maintained in the state of being supported by the upper support part 134 by the weight W4 of the sewage and rainwater stored in the overflow storage tank 143 in advance.

Therefore, in the automatic separation drainage device of the present invention, the sewage and rainwater stored in the overflow storage tank 143 is formed on the side or bottom surface of the overflow storage tank 143, the overflow drain sewer 144 is formed.

When the sewage and rainwater stored in the overflow storage tank 143 is discharged through the overflow flow sewage outlet 144, by the [Equation 1], the rotary pipe 130 is rotated about the rotation axis (C) The other end of the rotary pipe 130 rises, and the sewage and rainwater flowing out through the second outlet 131 are discharged through the upper discharge nozzle 112.

Here, the outflow amount of the sewage and rainwater flowing into the overflow sewage outlet 144 is provided to be discharged in a very small amount compared to the inflow of the sewage and rainwater flowing through the overflow outlet 122, the overflow sewage outlet 144 Due to the amount of sewage and rainwater discharged to the) it is preferable not to affect the operation of the rotary pipe 130 rotates.

When the inflow of sewage and rainwater from the overflow outlet 122 is stopped according to the discharge amount of the sewage and rainwater flowing into the overflow sewage discharge port 144, the time required for the other end of the rotary pipe 130 to rise is increased. Will be different.

In the automatic separation drain of the present invention, one side of the overflow sewage outlet 144 may be provided with a discharge flow rate adjusting unit 146 for adjusting the flow rate flowing out to the overflow sewage discharge port (144). Therefore, the effect of selectively adjusting the time taken for the other end of the rotary pipe 130 to rise can be realized.

Through the technical configuration as described above, the automatic separation drainage device of the present invention, because only the sewage and rainwater of the capacity that can be treated in the sewage treatment plant flows into the sewage treatment plant is treated, the overload of the sewage treatment plant equipment is prevented It is possible to realize the effect of prolonging the service life, as well as the electrical device for controlling the inflow and outflow of fluids such as solenoid valves and detection sensors, as well as the control power source such as electricity supply, so the drainage device is installed. It can realize the effect of reducing the initial cost and maintenance cost required.

In addition, even if the sewage treatment capacity that can be treated in the sewage treatment plant is fluctuated, a standard of a predetermined capacity to be introduced into the sewage treatment plant by adjusting the weight (W3) of the weight 151 of the weight adjusting unit 150 correspondingly. There is an adjustable effect.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

1 is a cross-sectional view showing a sewage collection pipe installed in a conventional river outlet,

Figure 2 is a cross-sectional view showing a sewage collection pipe constituting a separate sewage collection manhole at a short distance of the conventional river outlet,

Figure 3 is a side view showing the configuration of the automatic rainwater blocking device according to a preferred embodiment of the present invention,

Figure 4 is a plan view showing the configuration of the automatic storm water blocking device of the present invention,

5 is a front view showing the configuration of the automatic storm water blocking device of the present invention,

6 and 7 are a side view and a plan view showing a series of flow paths in which the sewage and rainwater introduced from the other end of the rotary pipe of the present invention is discharged through the upper discharge nozzle;

8 is a side view showing a state in which the automatic separation drainage of Figures 6 and 7 installed in the river outlet;

9 and 10 are a side view and a plan view showing the flow path of sewage and rainwater overflowed to the overflow outlet of the present invention,

11 and 12 are a side view and a plan view showing a series of flow paths in which the sewage and rainwater introduced while the other end of the rotary pipe of the present invention is lowered through the lower discharge nozzle, and FIG. 13 are FIGS. 11 and 12 Figure 2 is a side view showing a state in which the automatic separation drain is installed in the river outlet, Figure 14 is a schematic diagram showing a criterion for distinguishing one side (L ₁ ) and the other side (L ₂ ) of the rotary pipe 130 of the present invention.

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

110.Body 120.

130.Rotating pipe 140.Overflow storage

150 ... Weight Control

Claims (12)

It has an internal space, one side is formed with an inlet nozzle 111 in which sewage and rainwater are introduced from the outside, the other side is formed with the upper discharge nozzle 112 and the lower discharge nozzle 113 to discharge the sewage and rainwater Body 110; It is fixed to the body portion 110, one end portion is in communication with the inlet nozzle 111, the sewage and rainwater is introduced into the inside, the other end portion of the first outlet (121) that the introduced sewage and rainwater flows out Is formed, the fixed pipe line 120 is formed on one side of the overflow flow outlet 122 is a part of the sewage and rainwater flowing in and outflow; The fixed pipe line 120 is rotatably coupled to rotate about the rotation axis (C), one end is in communication with the other end of the fixed pipe line 120 and the sewage and rainwater discharged from the first outlet (121) It is introduced, the other end portion of the rotary pipe line 130 is formed with a second outlet 131 for the introduced sewage and rainwater is discharged; And One end portion is fixedly located outside the fixed pipe line 120 so as to communicate with the overflow stream outlet 122 of the fixed pipe line 120, the other end of the overflow nozzle flows out of the sewage and rainwater introduced from the overflow flow outlet 122 The overflow pipe 142 and the overflow pipe storage 143 is located fixed to the outside of the other side of the rotary pipe 130, the sewage and rainwater flowing out of the overflow nozzle 141 is stored inflow 141 Overflow storage unit 140 comprising a; including; On one side of the overflow outlet 122, automatic rain shutoff device, characterized in that the opening and closing adjustment unit 145 for adjusting the opening and closing degree of the overflow outlet 122 is formed. The method of claim 1, On one side portion (L ₁ ) of the rotary pipe 130, Automatic weight blocking device, characterized in that the weight adjustment unit 150 further comprises a weight 151 having a weight of a certain size, and the weight fixing rod 152 is fixed to the weight is mounted. 3. The method of claim 2, By the following Equation 1, the rotary pipe 130 is rotated about the rotary shaft (C) and the other end of the rotary pipe 130 is raised, outflow through the second outlet 131 Automatic sewer is characterized in that the sewage and rainwater is discharged through the upper discharge nozzle (112). [Equation 1] W _L1 + W ₃ 〉 W _L2 + W ₄ (W _L1 is the weight of one side (L ₁ ) of the rotary pipe 130, W _L2 is the weight of the other side (L ₂ ) of the rotary pipe 130, W ₃ is the weight of the weight control unit 150) , W ₄ is the weight of sewage and rainwater stored in the overflow storage unit 140) The method of claim 3, When the sewage and rainwater flowing out from the fixed pipe line 120 are stored at a certain level in the overflow storage tank 143, the rotary pipe line 130 is centered on the rotary shaft C by Equation 2 below. And the other end is lowered, the sewage and rainwater discharged through the second outlet 131 is the other side is lowered sewage and rainwater introduced from the inlet nozzle 111 is the lower discharge nozzle 113 Automatic rain breaker, characterized in that discharged through. [Equation 2] W _L1 + W ₃ 〈W _L2 + W ₄ (W _L1 is the weight of one side (L ₁ ) of the rotary pipe (0), W _L2 is the weight of the other part (L ₂ ) of the rotary pipe 130, W ₃ is the weight of the weight control unit 150) , W ₄ is the weight of sewage and rainwater stored in the overflow storage unit 140) The method of claim 4, wherein On the side or bottom surface of the monthly storage tank 143, the monthly sewage discharge port 144 is discharged to the sewage and rainwater stored in the monthly storage tank 143, When the sewage and rainwater stored in the overflow storage tank 143 is discharged through the overflow flow sewage outlet 144, by the [Equation 1], the rotary pipe 130 is rotated about the rotation axis (C) The other end of the rotary pipe 130 is raised, the sewage and rainwater discharged through the second outlet 131 is discharged through the upper discharge nozzle 112, characterized in that the automatic rainwater blocking device. The method of claim 1, The automatic rainwater is characterized in that the front of the second outlet 131 of the rotary pipe 130, the scattering prevention plate 133 for preventing the scattering of sewage and rainwater flowing through the second outlet 131 is provided. Blocking device. According to claim 6, The shatterproof plate 133, One end of the second outlet 131, the other end is mounted so as to face the discharge nozzle, automatic rain blocking device, characterized in that the center portion is formed in a curved form in the downward direction. The method of claim 1, wherein the fixed conduit 120, A slope having a shape higher than the other end is formed so that the introduced sewage and rainwater flow from one end to the other end by gravity. The center portion of the one end and the other end is formed in a refracted form, the automatic rainwater blocking device, characterized in that the inclined surface a (123) having a predetermined angle on the other side. delete The method of claim 1, On top of the other end of the rotary pipe 130, The upper support part 134 for supporting the upper surface of the rotary pipe 130, and the one side of the upper support 134 so that the other end of the rotary pipe 130 does not rise above a predetermined height, the upper Automatic rain barrier device, characterized in that the upper support adjusting member 135 for adjusting the mounted height of the support 134 is provided. The method of claim 1, Under the other end of the rotary pipe 130, A lower support part 136 for supporting a lower surface of the rotary pipe line 130 so that the other end of the rotary pipe line 130 does not fall below a predetermined height, and located on one side of the lower support part 136; Automatic rain barrier device, characterized in that the lower support portion adjusting member (137) for adjusting the mounted height of the branch (136) is provided. According to claim 1, Inside the fixing pipe 120, One end is fixed to the inner side surface of one end of the fixed conduit 120, the other end is plate-shaped guide plate 124 is mounted toward the other end direction of the fixed conduit 120 so that the inner diameter of the fixed conduit 120 is narrowed Automatic rain blocking device, characterized in that provided.

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