KR200466978Y1 - Rain water storing apparatus using digging hole - Google Patents

Abstract

Disclosed is a storm storage device using an excavation hole.
Rainwater storage device using the excavation hole is disclosed is an upper portion of the rainwater storage pipe is exposed to the upper surface, the bottom is inserted into the excavation hole formed; A rainwater inlet hole formed at a predetermined height from the ground at an upper portion exposed to the ground of the rainwater storage pipe to allow rainwater to flow into the rainwater storage pipe; And a rainwater outlet hole formed in a lower portion of the rainwater storage pipe, which is discharged through the rainwater inflow hole so that the rainwater flowing along the rainwater storage pipe can flow out into the ground. As the inflow hole is formed on a certain height from the ground, the initial rainwater during rainy weather is not introduced into the rainwater inflow hole, and the rainwater level after the initial rainwater is drained reaches the height of the rainwater inflow hole so that the initial rainwater After rain is characterized in that flowing into the rain inlet hole.
According to the rainwater storage device using the excavation hole disclosed, it can be installed relatively simple and inexpensive compared to the case of installing a facility such as rainwater storage tank, while the rainwater storage can be stored, but facilities such as rainwater storage tank are not required. And, there is an advantage that can not be introduced into the rainwater that is stored in the pollutants, garbage, etc. contained in the initial rainwater.

Description

Rain water storing apparatus using digging hole}

The present invention relates to a rainwater storage device using an excavation hole.

Rain water is drained through drains, and attempts are being made to recycle rainwater by storing it in certain facilities.

For example, by installing rainwater storage tanks that can store rainwater in the ground of the building installed on a large site, such as a general sports ground in the city, there is a method of storing the rainwater, if necessary to utilize the stored rainwater.

However, according to this conventional method, it is necessary to secure a large area on which large storm water storage tanks and the like for storing storm water can be installed. The installation of large stormwater storage tanks, etc., could cost astronomical costs, making activation of stormwater storage difficult.

In addition, conventionally, the first rainwater flowing in the rainy weather to collect all, according to this method, the pollutants in the air dropped with the rain, the ground rubble, which was floating together while the rainwater flows from the ground to the beginning Although stored in rainwater, by storing up to that initial rainwater, the stored rainwater could be contaminated by contaminants, trash or the like.

The object of the present invention is to provide a rainwater storage device using an excavation hole that can be stored rainwater can be installed relatively simple and inexpensive compared to the case of installing a facility such as a conventional rainwater storage tank.

Another object of the present invention is to provide a rainwater storage device using an excavation hole that can be prevented from entering the rainwater that is stored in the pollutants, garbage, etc. contained in the initial rainwater.

Rainwater storage device using an excavation hole according to an aspect of the present invention, the upper portion is exposed to the ground on which the excavation hole is formed, the rainwater storage tube with a lower portion inserted into the excavation hole; A rainwater inlet hole formed at a predetermined height from the ground at an upper portion exposed to the ground of the rainwater storage pipe to allow rainwater to flow into the rainwater storage pipe; And a rainwater outlet hole formed in a lower portion of the rainwater storage pipe buried in the bottom of the rainwater storage pipe so that the rainwater flowing through the rainwater inflow hole and flowed along the rainwater storage pipe can flow out into the soil.

As the storm inflow hole is formed on a certain height from the ground, during rainy rain, the initial storm may not flow into the storm inflow hole, and the rainwater level after the initial storm is drained reaches the height of the storm inflow hole. Rainfall after the initial rainwater is characterized in that it is introduced into the rainwater inlet hole.

According to the rainwater storage device using an excavation hole according to an aspect of the present invention, the rainwater storage pipe formed with rainwater inlet hole and rainwater outlet hole is embedded in the excavation hole through which rainwater can flow, through the rainwater inlet hole The rainwater that flows along the rainwater storage conduits and then flows out to the ground through the stormwater discharge hole can be stored in the ground, so it is possible to store rainwater, but facilities such as stormwater storage tanks are not required. Compared to the installation of facilities, there is an effect that can be installed relatively simple and inexpensive.

According to the rainwater storage device using an excavation hole according to another aspect of the present invention, as the rainwater inlet hole is formed on a certain height from the ground, the initial rainwater in the early rainy weather is relatively low, the initial rainwater does not flow into the rainwater inlet hole When the rainwater after the initial rainwater is drained, that is, when the rainwater level at the time of rain out of the initial rain reaches the height of the rainwater inlet hole, the rainwater after the initial rainwater flows into the rainwater inflow hole, so that the pollutants contained in the initial rainwater, There is an effect that the waste, etc. do not flow into the rainwater is stored.

1 is a perspective view showing a state in which a rainwater storage device using an excavation hole according to the first embodiment of the present invention is applied to the drainage.
Figure 2 is a cross-sectional view showing a state that the rainwater storage device using the excavation hole according to the first embodiment of the present invention is applied to the drainage.
Figure 3 is a cross-sectional view showing a state in which water flows to the water level so that the rainwater storage device to the drainage storage device is applied rainwater storage device using the excavation hole according to the first embodiment of the present invention.
Figure 4 is a cross-sectional view showing the appearance of water overflows into the rainwater storage device in the drainage to which the rainwater storage device using the excavation hole according to the first embodiment of the present invention.
5 is a perspective view showing a state in which the rain inlet hole is closed in the rainwater storage device using the drilling hole according to the second embodiment of the present invention.
Figure 6 is a cross-sectional view showing a rain inlet hole is closed in the rain storage device using an excavation hole according to a second embodiment of the present invention.
Figure 7 is a perspective view showing the appearance of the rain inlet hole in the rain storage device using the drilling hole according to the second embodiment of the present invention.
Figure 8 is a cross-sectional view showing the appearance of the rain inlet hole in the rain storage device using the drilling hole according to the second embodiment of the present invention.

Hereinafter, with reference to the drawings will be described in the rain storage device using an excavation hole according to embodiments of the present invention.

1 is a perspective view showing a rainwater storage device using an excavation hole according to the first embodiment of the present invention applied to the drainage, Figure 2 is a rainwater storage device using the excavation hole according to the first embodiment of the present invention 3 is a cross-sectional view showing a state that flows to the water level so that water does not overflow to the rainwater storage device to the drainage to which the rainwater storage device using the excavation hole according to the first embodiment of the present invention is applied to 4 is a cross-sectional view showing the water overflowing into the rainwater storage device in the drainage path to which the rainwater storage device using the excavation hole according to the first embodiment of the present invention.

1 to 4 together, the storm storage device 100 using an excavation hole according to the present embodiment includes a storm storage pipe 110, storm rain inlet hole 111, storm rain outlet 115. It is installed in the excavation hole. As illustrated in FIG. 1, a plurality of rainwater storage devices 100 using the excavation hole may be installed while being spaced apart from each other at predetermined intervals.

Here, the excavation hole, refers to an elongated hole formed by digging the ground, it can be formed by a general drilling equipment that can drill the ground for installation of geothermal return pipes.

10 is a drainage path through which rainwater that has flowed along the ground may flow, and the reference numeral 20 may cover the drainage path 10 to block relatively large foreign substances from entering the drainage path 10 and to allow the pedestrian to It is a grating so as not to trip over the drainage path 10.

In the present embodiment, the excavation hole is presented as being formed on the bottom surface of the drainage passage 10, but this is exemplary, and the excavation hole is formed without restriction where rainwater flows, and the rainwater storage device 100 in the excavation hole ) Can be installed.

The rainwater storage tube 110 is empty and is formed in a tubular shape relatively longer than the width, and the upper portion of the rainwater storage tube 110 is exposed on the ground on which the excavation hole is formed, and the rainwater storage tube ( The lower part of 110 is inserted into the excavation hole and embedded in the ground.

The upper end of the rainwater storage pipe 110 is formed in a clogged form to prevent foreign matter from entering, and the lower end of the rainwater storage pipe 110 may be formed in an open shape so that the rainwater flows into the ground smoothly. .

As the inside of the rainwater storage pipe 110 forms an empty form, the rainwater flowing through the rainwater inflow hole 111 to be described later flows toward the ground along the rainwater storage pipe 110 and then the rainwater discharge hole to be described later. It may be discharged to the ground through the (115).

Although not shown, a filter medium capable of filtering foreign matter while filtering rainwater may be disposed in the rainwater storage tube 110, particularly near the rainwater inlet hole 111.

The rainwater inlet hole 111 is formed at an upper portion of the rainwater storage pipe 110 exposed to the ground, and is formed on a predetermined height from the ground on which the rainwater storage pipe 110 is installed. Rainfall may be introduced into the rainwater storage tube 110 through the rainwater inlet hole 111. The rainwater inlet hole 111 may be formed in plural along the circumference of the rainwater storage tube 110 at the same height.

The rainwater outlet hole 115 is formed in the lower portion of the rainwater storage tube 110 buried in the rain, the rainwater flowing through the rainwater inlet hole 115 flows along the rainwater storage pipe 110 It is to be able to leak to the ground.

The rainwater outflow hole 115 is formed in plural in the longitudinal direction of the rainwater storage pipe 110, that is, the buried direction so that the rainwater flowing along the rainwater storage pipe 110 can be smoothly flowed out into the ground. In addition, each storm drain hole 115 may communicate the ground of the other depth and the storm storage pipe 110 inside.

In the present embodiment, the rainwater inlet hole 111 and the rainwater outlet hole 115 is formed with a predetermined depth in the excavation hole through which the rainwater storage pipe 110 can flow, the rainwater inlet hole ( Rainwater introduced through 111 may flow along the rainwater storage conduit 110 and then flow out into the ground through the stormwater discharge hole 115 to be stored in the ground. Since no facility is required, it can be installed relatively simply and inexpensively as compared with the installation of such a storm storage tank.

In addition, as the storm inflow hole 111 is formed on a certain height from the ground, as shown in Figure 3, the initial rain in the early rain is relatively low water level, the initial rain is the rain inflow hole 111 4, when the rainwater after the initial rain is drained, that is, when the rainwater level at the time out of the rainy rain reaches the height of the rainwater inlet hole 111, the initial rainwater is discharged. Since rainwater may be introduced into the rainwater inlet hole 111 and stored in the ground, contaminants, garbage, etc. contained in the initial rainwater may not be introduced into the rainwater that is stored.

Meanwhile, a water level control hole 112 may be formed at a position relatively higher than the rainwater inflow hole 111 in the upper portion of the rainwater storage pipe 110 exposed to the ground. A plurality of the water level control hole 112 may be formed along the circumference of the rainwater storage tube 110 at the same height.

The water level control hole 112 is a rainwater that exceeds the water level of the rainwater inlet hole 111 is introduced into the rainwater storage pipe 110 when the rainwater level exceeds the rainwater inlet hole 111 during the flood. To make it possible. According to the formation of the water level control hole 112, when the storm water level is suddenly increased, such as during the flood, rainwater is excellent through the water level control hole 112, as well as the storm water inlet hole 111. ) Can be introduced into the interior, the flow of rainwater to the ground can be made smoother and faster.

In this embodiment, the height of the rainwater inlet hole 111 and the water level control hole 112 is appropriate for the region by using the historical precipitation data of the region where the storm storage device 100 using the excavation hole is installed. Can be formed. For example, the rainwater inlet hole 111 is formed at a height corresponding to the rainwater level of rainy weather at an average level of the region in the past rainfall data of the region where the rainwater storage device 100 using the excavation hole is installed. In addition, the water level adjusting hole 112 may be formed at a height corresponding to the storm water level in the region.

Hereinafter, with reference to the drawings will be described for the rain storage device using an excavation hole according to another embodiment of the present invention. In carrying out these explanations, the description overlapping with the contents already described in the first embodiment of the present invention described above will be replaced by the same, and will not be described here.

5 is a perspective view showing a state in which the rainwater inlet hole is closed in the rainwater storage device using the drilling hole according to the second embodiment of the present invention, Figure 6 is a rainwater storage device using a drilling hole according to the second embodiment of the present invention In Figure 8 is a cross-sectional view showing the rain inlet hole is closed, Figure 7 is a perspective view showing the rain inlet hole is opened in the rain storage device using a drilling hole according to a second embodiment of the present invention, Figure 8 2 is a cross-sectional view showing a state in which the rainwater inlet hole is opened in the rainwater storage device using the excavation hole according to the second embodiment.

5 to 8 together, the rainwater storage device 200 using the excavation hole according to this embodiment is a rainwater inlet hole opening and closing unit 220 that can open and close the rainwater inlet hole 211 according to the level of rainwater It includes.

The rainwater inlet hole opening and closing unit 220 moves along the rainwater storage tube 210 and the rainwater inlet hole opening and closing cover 227 capable of opening and closing the rainwater inflow hole 211 and the rainwater inflow hole opening and closing cover 227. And a lifting member 225 which is lifted according to the water level of rain.

Numeral 221 is a rain inlet hole opening and closing unit body 221 is formed on the upper outer surface of the rain storage pipe 210, the rain inlet hole opening and closing unit body 221 inside the rain inlet hole opening and closing cover 227 is elevated A space may be formed, and the lower end of the rain inlet opening / closing unit body 221 forms an open shape. Then, the rain inlet hole opening and closing cover 227 may be elevated while being guided along the rain inlet hole opening and closing unit body 221.

The elevating member 225 is formed in the shape of an empty sphere, such as to float on the surface, it can be lifted together in accordance with the elevation of the storm water level on the rain surface.

Reference numeral 226 denotes a cover connecting portion connecting the elevating member 225 and the rainwater inlet opening / closing cover 227, and reference numeral 222 indicates that the cover connecting portion 226 can pass when the elevating member 225 moves up and down. It is a connection part moving hole formed in the rain inlet opening and closing unit body 221 so that.

When configured as described above, when the storm water level is increased, as shown in Figures 7 and 8, the elevating member 225 is raised in accordance with the storm water level in the state of floating on the storm water surface, and thus the storm inflow The hole opening and closing cover 227 is also raised to open the rainwater inlet hole 211.

On the other hand, when the rainwater level is lowered, as shown in Figures 5 and 6, the elevating member 225 is lowered in accordance with the rainwater level, and thus the rainwater inlet hole opening and closing cover 227 is also lowered to Rainwater inlet hole 211 is closed.

As described above, because the rain inlet hole 211 can be automatically opened and closed by the rain inlet hole opening and closing unit 220 according to the level of rain, rain does not flow through the rain inlet hole 211 The rainwater inlet hole 211 is kept closed during normal times and rainy days, so that foreign matter does not flow into the rainwater storage pipe 210, and the rainwater flows through the rainwater inlet hole 211. After rainy season, which is to be introduced, the rainwater inflow hole 211 is opened, and rainwater can be smoothly introduced into the rainwater storage pipe 210.

The configuration of the rainwater inlet opening and closing unit 220 presented here is exemplary, and various configurations that can open and close the rainwater inflow hole 211 according to the level of rainwater may be presented.

While the present invention has been shown and described with respect to specific embodiments, those skilled in the art can variously modify the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. And that it can be changed. However, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

According to the rainwater storage device using an excavation hole according to an aspect of the present invention, it can be installed relatively simple and inexpensive compared to the case of installing a facility such as a conventional rainwater storage tank while storing rainwater, it is contained in the initial rainwater Since the pollutants and wastes can be prevented from entering the rainwater where they are stored, the industrial availability is high.

10: drainage 20: grating
100, 200: rainwater storage device using an excavation hole
110, 210: rainwater storage pipe 111, 211: rainwater inflow hole
112: water level adjustment hole 115: rainwater outflow hole
220: rainwater inlet opening and closing unit
221: rain inlet hole opening and closing unit body 222: connection portion moving hole
225: elevating member 226: cover connection
227: rain inlet opening and closing cover

Claims (4)

A rainwater storage tube having an upper portion exposed to the ground on which an excavation hole is formed and a lower portion inserted into the excavation hole;
A rainwater inlet hole formed at a predetermined height from the ground at an upper portion exposed to the ground of the rainwater storage pipe to allow rainwater to flow into the rainwater storage pipe; And
A rainwater outlet hole formed at a lower portion of the rainwater storage pipe, buried through the rainwater inflow hole, and allowing the rainwater flowing along the rainwater storage pipe to flow out into the soil; and
As the storm inflow hole is formed on a certain height from the ground, during rainy rain, the initial storm may not flow into the storm inflow hole, and the rainwater level after the initial storm is drained reaches the height of the storm inflow hole. Rainfall storage device using an excavation hole, characterized in that rainwater after the initial rainwater flows into the rainwater inlet hole. The method of claim 1,
It is formed at a position relatively higher than the rain inlet hole in the upper portion exposed to the ground of the rain storage container, when the rain water level exceeds the rain inlet hole rainwater beyond the level of the rain water inlet hole into the rain storage container Rainwater storage device using an excavation hole comprising a; water level adjusting hole to be introduced. The method of claim 1,
Rainwater storage device using an excavation hole comprising; rainwater inlet hole opening and closing unit that can open and close the rainwater inlet hole according to the rainwater level. The method of claim 3, wherein
The rain inlet opening and closing unit
Rainfall inlet opening and closing cover that can open and close the rainwater inlet hole while moving along the rainwater storage tube,
It is connected to the rain inlet opening and closing cover, and includes a lifting member which is lifted in accordance with the water level of rain,
When the rainwater level rises, the elevating member is raised in accordance with the rainwater level, and thus the rainwater inflow opening / closing cover is raised to open the rainwater inflow hole,
When the rainwater level is low, the elevating member is lowered according to the rainwater level, the rainwater inlet hole opening and closing cover is lowered to close the rainwater inlet hole, characterized in that the rainwater storage device using a digging hole.

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