KR101209988B1 - Drain Apparatus - Google Patents

Abstract

The present invention relates to an initial excellent water treatment apparatus for bridges for treating rainwater discharged through the upper bottom plate of a bridge, and in the present invention, an electric heating type heat sink is installed in an initial excellent excellent treatment apparatus. By supplying electricity to the heat sink through a solar generator to be installed in winter to heat the inside of the sedimentation tank of the initial excellent treatment device through the heat sink, to prevent the rainwater contained in the sedimentation tank to freeze, new initial superiority due to new rainfall Even if the water is introduced into the initial excellent treatment apparatus is provided an initial excellent treatment apparatus that can be discharged smoothly after being purified through the settling tank and filtration tank.

Description

Early Excellent Treatment System for Bridges with Freeze Protection and Internal Pollution Prevention {Drain Apparatus}

The present invention relates to an initial excellent water treatment apparatus for bridges for treating rainwater discharged through the upper bottom plate of the bridge, and specifically, containing rainwater discharged through the upper bottom plate of the bridge. In the process of sedimentation and removal of pollutants contained in rainwater through the method of placing and discharging, the inside of the treatment tank containing rainwater is kept above the freezing temperature by using electricity supplied through the solar generator, so that the treatment tank freezes in winter. Due to this, it is possible to avoid the situation such as the rainwater treatment is impossible, and by using the electricity supplied through the solar generator to generate air bubbles in the storage tank to prevent the accumulation of contaminants on the inner surface of the treatment tank Early rainwater treatment plant for bridges with freeze protection and internal pollution prevention Relate to.

Nonpoint pollutants (contaminants such as organics, oils, heavy metals, etc.) accumulated on the upper deck surface (bridges) of bridges need to be washed away by rain and prevent rainwater from entering rivers and public waters. In particular, rainwater ("initial stormwater") flowing from the bridge at the beginning of the rainfall up to 30 minutes from the onset of rainfall contains significantly higher concentrations of nonpoint source. Therefore, in order to prevent pollution of rivers and public waters caused by these nonpoint sources, it is necessary to install an initial excellent treatment system on a bridge.

FIG. 1 is a schematic perspective view of a pier showing a state where a conventional initial excellent water treatment apparatus 100 for storing and purifying an initial rainwater containing a high concentration of a nonpoint source is installed in a pier. Figure 2 is a schematic internal structure of the conventional initial excellent treatment apparatus 100 is shown.

The initial excellent treatment apparatus 100 may be installed by hanging on a pier as shown in the drawing or installed in the ground near the alternation. In general, a precipitation tank in which rainwater flowing from the pier flows into and stored therein is provided with a filtration device. The rainwater flowing through the partition wall from the settling tank is passed through the filtration device to remove contaminants and consists of a treatment tank composed of a discharge tank.

The initial rainwater flowing out from the bridge flows into the sedimentation tank, where the pollutant is first deposited, and then flows through the bulkhead into the filtration tank, and then passes through the filtration device provided in the filtration tank. To be discharged.

By the way, such a conventional initial excellent treatment device 100 is installed in the piers as shown in Figure 1, the temperature inside the initial excellent treatment device is lowered below the freezing point in winter. If the temperature of the sedimentation tank falls below the freezing point in winter with the rainwater remaining in the sedimentation tank, the rainwater remaining in the sedimentation tank is frozen.In this state, when additional initial rainwater occurs due to rainfall, the initial flow into the sedimentation tank Rainwater is not purified anywhere in the sedimentation tank and filtration tank, there is a problem that is discharged as it is to pollute the river.

The present invention was developed to solve the problems of the prior art as described above, specifically in the initial excellent treatment apparatus installed in the piers, etc. in order to store and purify the initial excellent rain containing a high concentration of non-point source, early in winter The purpose of the present invention is to create an environment-friendly bridge installation environment by preventing the rainwater remaining due to the newly generated rainfall not being purified and discharged due to freezing of the previous rainfall remaining in the stormwater treatment apparatus.

In order to achieve the above problems, in the present invention, by installing an electric heating type heat sink in the initial excellent treatment device and supplying electricity to the heat sink through a solar generator installed on the bridge initial excellent treatment device through the heat sink in winter The inside of the sedimentation tank is heated to prevent the rainwater contained in the sedimentation tank from freezing, so that even if a new initial rainwater flows into the initial rainwater treatment system due to the new rainfall, the sedimentation tank and the filtration tank can be purified and discharged smoothly. An initial excellent treatment apparatus is provided.

Specifically, in the present invention, as the initial excellent treatment device for purifying the initial excellent water generated from the bridge, the sedimentation tank and the filtration tank is formed by separating the partition by the partition wall, the initial excellent water generated in the bridge flows into the sedimentation tank and contaminated while The primary purification is made by the precipitation of the material, and the initial excellent water flows into the filtration tank and subsequently passes through the filtration device provided in the filtration tank to perform secondary filtration and discharge it to the outside; A heat sink installed inside the settling tank of the treatment tank and heated by an electric supply; And a photovoltaic generator installed on the bridge to supply electricity to the heat sink through power generation by the solar light, and the temperature inside the treatment tank is lowered below the freezing point to prevent freezing within the treatment tank. An initial excellent treatment apparatus for a bridge is provided.

In the initial excellent treatment device of the present invention, the fixing pin of the form protruding on the wall surface of the settling tank is installed, the heat sink is mounted on the fixing pin, the heat sink is installed at intervals from the inner wall surface of the settling tank, the heat sink It is possible to have a configuration such that the heat generated by is not absorbed into the sedimentation tank directly transferred to the rainwater that is stored in the sedimentation tank, further, an air injector for generating and injecting air by the power supply from the solar generator; An air injection pipe through which the air is injected from the air injector is disposed in the settling tank; An end of the air injection pipe is installed at the front of the heat sink; By the operation of the air injector may have a configuration to generate bubbles in the front of the heat sink.

According to the present invention, by using the heat sink supplied with electricity generated by the solar generator to maintain the temperature inside the sedimentation tank of the initial excellent treatment device above the freezing point, the rainwater stored in the sedimentation tank is prevented from freezing, the initial untreated Rainwater can be prevented from being discharged endlessly due to freezing of the sedimentation tank, and even if new initial rainwater is introduced into the initial rainwater treatment system due to the new rainfall, the rainwater can be discharged smoothly through the sedimentation tank and the filtration tank.

In addition, in the initial excellent treatment apparatus according to the present invention by generating air bubbles in the front of the heat sink through the air injector, the cleaning effect on the front of the heat sink is exerted to prevent the moss or contaminants adhere to the front surface of the heat sink, furthermore Since water movement by bubbles occurs, it also helps to prevent freezing of rainwater stored in the sedimentation tank, and aeration effect is exerted, and further water purification effect of rainwater is exerted.

1 is a schematic perspective view of a pier showing a state where a conventional initial excellent treatment device is installed in a pier.
2 is a schematic configuration diagram of an initial excellent treatment apparatus according to an embodiment of the present invention.
3 is a view corresponding to FIG. 2, which is a schematic configuration diagram of an initial excellent treatment apparatus according to a further embodiment of the present invention in which an air injection pipe is installed in a settling tank.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

2 is a schematic configuration diagram of an initial excellent treatment apparatus 100 according to an embodiment of the present invention, in FIG. 2, the settling tank 10 and the filtration tank 11 are shown in cross-sectional view. Initial excellent water treatment apparatus 100 according to the present invention is installed on the pier or installed on the ground or ground of the alternate portion to clean the initial excellent water generated from the bridge, as shown in the figure, the sedimentation tank 10 ) And the filtration tank 11 are formed in the treatment tank (1) formed by the partition wall 14, the heat sink (2) installed inside the sedimentation tank (10) and heated by electricity supply, and the bridge. It is configured to include a solar generator (3) for supplying electricity to the heat sink (2) through the generation of solar light.

Specifically, the treatment tank 1 provided in the initial excellent water treatment apparatus 100 of the present invention is divided into a sedimentation tank 10 and a filtration tank 11 by partition walls 14 provided in the inner space. When the rain begins, the initial rainwater flows into the settling tank 10 through the drain pipe installed in the bridge. In the sedimentation tank 10, the initial rainwater is stored, and the pollutants contained in the initial rainwater are primarily precipitated. When the water level of the settling tank 10 is above a predetermined height, the rainwater flows into the filtration tank 11, passes through the filtration device 12 provided in the filtration tank 11, and is discharged to the outside after the filtration is secondary.

In the embodiment shown in the figure, the partition wall 14 is composed of a double wall, and the rainwater flowing out of the settling tank 10 flows between the double walls and flows into the lower part of the filtration tank 11 and floats to raise the filtration device 12. It consists of being discharged to the outside. However, the structure of the said processing tank 1 in this invention is not limited to this. For example, the partition 14 is formed as a single wall, and the through-hole is formed in the bottom of the partition 14 so that the rainwater of the settling tank 10 does not flow through the partition 14, and the filter tank 11 passes through the lower through-hole. It can also be introduced into. As described above, in the present invention, the treatment tank 1 is divided into a sedimentation tank 10 and a filtration tank 11, and it is sufficient that the filtration device 12 is provided in the filtration tank 11, and from the sedimentation tank 10, the filtration tank ( 11) the flow of the water flow and the configuration of the filtration device 12 can be modified as necessary.

Inside the settling tank 10 of the initial excellent treatment device 100 according to the present invention is provided with a heat sink (2) for heating the temperature of the inside of the treatment tank (1), specifically, inside the settling tank (10). The heat sink (2) is installed on the inner wall surface of the settling tank 10, as shown in the drawing, is provided with a fixing pin 21 of the protruding form on the wall surface of the settling tank 10, the fixing pin 21 Mounting and installing the heat sink (2), the heat sink (2) can be installed at intervals with the inner wall surface of the precipitation tank (10). When the heat sink 2 is installed at intervals with the inner wall surface of the settling tank 10 as described above, the heat generated by the heat sink 2 is prevented from being absorbed by the settling tank 10, and the heat of the heat sink 2 is directly transferred to the rainwater. Thus, freezing of rainwater can be prevented more efficiently. In the present invention, when the settling tank 10 consists of a rectangular space, it is preferable that the heat sink 2 is provided on all four wall surfaces of the settling tank 10. If necessary, the heat dissipation plate 2 may be installed inside the filtration tank 11.

The heat sink 2 is a device that generates heat by supplying electricity, and for example, embeds a resistance coil in the heat sink 2 or resists the back surface of the heat sink 2, that is, a surface in the wall direction of the settling tank 10. The heat sink 2 can be easily configured by attaching the coil in a waterproofed state and manufacturing the heat sink 2 as a heat conductor.

In the present invention, the main power source for supplying electricity to the heat sink 2 is a solar generator (3). The photovoltaic generator 3 may be implemented in a form in which a prop is installed on a railing of a bridge, and supplies electricity to the heat sink 2 through solar power generation. As described above, in the present invention, power is supplied to the heat sink 2 using the solar generator 3, thereby achieving environmentally friendly energy utilization. Although it may be possible to supply the heat sink 2 directly from the solar generator 3, a battery (not shown) is provided so that electricity generated from the solar generator 3 can be stored and supplied to the heat sink 2 when necessary. You may.

According to the initial excellent treatment apparatus 100 according to the present invention of such a configuration, it can be made smooth rainwater treatment by preventing the freezing of rainwater accumulated in the precipitation tank in the winter.

As described above, when the rainfall starts, the initial rainwater flows into the sedimentation tank 10 through the drain pipe installed in the bridge and is stored thereafter. It flows into the filtration tank 11 and is purified secondly through the filtration device 12 and discharged to the outside. When the amount of rainwater flowing into the initial excellent treatment device 100 decreases, the rainwater stays in the settling tank 10. In the case of the prior art, in the winter, the temperature inside the settling tank 10 falls below the freezing point and the settling tank 10 The rainwater staying in) freezes. If the rainwater in the settling tank 10 is frozen, the storage capacity of the settling tank 10 is reduced, and according to the internal manner of the treatment tank 1, the passage of the rainwater connected from the settling tank 10 to the filtration tank 11 is I get stuck. In this way, when rainfall starts again in a situation where the previous rainwater that has been stored in the settling tank 10 is frozen, the newly introduced initial rainwater is not sufficiently precipitated in the settling tank 10, and the filtering tank 11 from the settling tank 10. There was a problem that the passage flowing into is blocked by freezing so that the rainwater flowing through the settling tank 10 does not pass through the filtering tank 11 and is immediately discharged to the outside.

However, in the present invention, by measuring the temperature inside the settling tank 10 by a thermometer, when the internal temperature of the settling tank 10 is lowered below the freezing point, the heat sink (2) supplied with electricity produced by the solar generator (3) ) Is operated and heated to raise the temperature in the settling tank 10, thereby preventing the rainwater stored in the settling tank 10 from freezing. Therefore, it is possible to solve the problem of the endless discharge of the untreated initial excellent, which is generated by the rain in the precipitation tank 10 in the winter as described above.

On the other hand, the heat sink (2) is part or all of the rainwater that is stored in the sedimentation tank 10 is immersed, due to the long time evaporation of heat generated by the heat sink (2) is attached to the front surface of the heat sink (2) May not be properly delivered to excellence. In order to prevent this, it may be further provided with a configuration for generating bubbles to the front of the heat sink (2).

FIG. 3 is a view corresponding to FIG. 2 and illustrates an embodiment in which an air injection pipe 41 is installed in the settling tank 10.

As shown in the figure, it is provided with an air injector 4 for generating and injecting air, the air inlet pipe 41 is disposed in the settling tank 10, and the end of the air inlet pipe 41 of the heat sink 2 It may be installed to be located at the front surface to generate bubbles in the front of the heat sink (2). As shown in the figure, for this purpose, a hole into which the end of the air injection pipe 41 is fitted is formed in the heat sink 2 and the air injection pipe 41 is embedded in the wall surface of the precipitation tank 10 or the heat sink 2 and the precipitation tank. It can arrange in the space | interval between the inner wall surfaces of (10).

In this way, when the air injector 4 is provided to generate bubbles from the front surface of the heat sink 2, the cleaning effect on the front surface of the heat sink 2 is exerted to prevent moss or contaminants from adhering to the front surface of the heat sink 2. In addition, since water movement by bubbles occurs, it also helps to prevent freezing of rainwater stored in the settling tank 10, and the aeration effect is also exerted, and the additional water purification effect of rainwater is also exerted.

The air injector 4 may also be supplied with electricity from the solar generator 3, and if necessary, by operating the air injector 4, pollution prevention and water quality of the front of the heat sink 2 in addition to the time when the ice is formed. Can cleanse.

1: treatment tank 2: heat sink
3: solar generator 4: air injector
10: sedimentation tank 11: filtration tank
12: filtration device 100: initial excellent treatment device

Claims (3)

delete An initial excellent treatment device for purifying the initial excellent water generated from the bridge,
The inside of the sedimentation tank 10 and the filtration tank 11 is formed by the partition wall 14, so that the initial rainwater generated in the bridge flows into the sedimentation tank 10, and the primary purification by sedimentation of pollutants is carried out. A treatment tank (1) to be discharged to the outside after the initial excellent water flows into the filtration tank (11) and passes through the filtration device (12) provided in the filtration tank (11), after which the filtration is secondary;
A heat sink (2) installed inside the precipitation tank (10) of the treatment tank (1) and heated by electric supply; And
Is installed on the bridge is configured to include a solar generator (3) for supplying electricity to the heat sink (2) through power generation by solar,
When the temperature inside the processing tank 1 falls below the freezing point, the temperature inside the processing tank 1 is increased by the heat generation of the heat sink 2 to prevent the rainwater in the processing tank 1 from freezing. Will be done;
The fixing pin 21 is installed on the wall surface of the settling tank 10, and the heat sink 2 is mounted on the fixing pin 21, so that the heat sink 2 is installed at an interval with the inner wall surface of the settling tank 10. The initial excellent treatment device for a bridge, characterized in that the heat generated by the heat sink (2) is not absorbed by the settling tank 10 is directly transferred to the rainwater stored in the settling tank (10). The method of claim 2,
An air injector 4 for generating and injecting air by the power supply from the solar generator 3;
An air injection pipe 41 into which air is injected from the air injector 4 is disposed in the settling tank 10;
An end of the air injection pipe 41 is installed at the front of the heat sink 2;
Initial excellent treatment apparatus for a bridge, characterized in that the air bubbles in the front of the heat sink (2) by the operation of the air injector (4).

Images