KR200404020Y1 - A Waterside Landscape Apparatus with Change from Surface water to Ground water - Google Patents

Abstract

The present invention relates to a waterside landscaping device, and to construct an ecological pond by receiving rainwater, and when there is a lot of rainfall, the ecological pond is configured to be sent to the groundwater to be reduced to groundwater. It is an object of the present invention to provide a waterfront landscaping device that combines groundwater reduction of surface water that can improve the quality of groundwater that is reduced by reducing it to groundwater.

Waterfront landscaping device that combines groundwater reduction of the surface water of the present invention for achieving the above object has a predetermined depth and is built vertically corresponding to one or more through-holes formed in the partition and the partition formed in the middle of the interior; One or more rainwater inflow path and one or more perforations formed in the water collection tank below the partition wall is characterized in that the technical features.

Description

A Waterside Landscape Apparatus with Change from Surface water to Ground water

The present invention relates to a waterfront landscaping device, and in particular, to construct an ecological pond by receiving rainwater, and when there is a lot of rainfall, the ecological pond is configured to be sent to the groundwater to be reduced to groundwater. It is to improve the water quality of the reduced groundwater by reducing the groundwater after the primary purification.

An ecological pond is a type of wetland that is one of the types of artificial wetland designed to inhabit various species in place of natural wetlands damaged or lost by urbanization and industrialization. Considering the tendency of modern people to live in harmony with nature in terms of eco-friendliness, these ecological ponds are being created not only in advanced foreign countries but also in Korea.

On the other hand, as urbanization and industrialization, as well as asphalt or concrete spread on the ground, rainwater does not penetrate into the ground, and groundwater is gradually being depleted through indiscriminate groundwater excavation, and groundwater is gradually contaminated by contaminants introduced through groundwater holes.

In order to solve such depletion and pollution of the groundwater, it is a priority to make the rainwater penetrate the ground much. As rainwater penetrates into the basement, rainwater is filtered to reduce groundwater by depletion and pollution.

However, as described above, in the city, there is no ground condition that can penetrate rainwater, and thus it is defenseless against groundwater depletion and pollution.

The present invention is designed to solve the problems of the prior art as described above, and in addition to providing an ecological pond for aquatic plants to live in, if there is a lot of rainfall, the first filtered rainwater from the ecological pond into the ground to replenish the groundwater The purpose is to provide a waterfront landscaping device that combines groundwater with groundwater.

The present invention for achieving the above object is a water collecting tank having a predetermined depth and the partition is formed in the middle of the interior, one or more rainwater inflow path vertically corresponding to one or more through holes formed in the partition, and the partition Technical features that comprise one or more perforations formed in the collection tank below the center.

In addition, according to a preferred embodiment of the present invention, the upper end of the rainwater inlet is lower than the upper end of the sump, the upper end of the rainwater inlet is provided with a filtering net.

In the following, with reference to the accompanying drawings, a preferred embodiment of the waterfront landscaping device combined with groundwater reduction of the groundwater according to the present invention will be described in detail.

In the drawings, Figure 1 is a cross-sectional view of the waterfront landscape device according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the waterfront landscape device shown in Figure 1 is installed on the ground, Figure 3 is the waterfront shown in Figure 2 It is a top view of the landscaping device.

As shown in FIG. 1, the waterfront landscape device is a water collecting tank 100 having a predetermined depth, and an ecological pond 110 is formed at an inner upper portion of the water collecting tank 100, and a rainwater storage unit 120 is disposed at an inner lower portion thereof. Is formed.

More specifically, the water collecting tank 100 has a partition 101 formed in the middle thereof, the upper space is the ecological pond 110 around the partition 101, the lower space is the rainwater storage unit 120. .

A through hole (101H) is formed at the center of the partition wall (101), and the rainwater inflow path (103) of the cylinder structure is fixed perpendicular to the partition wall (101) corresponding to the through hole (101H). By such a structure, the water level of the rainwater filling the upper portion of the partition 101 is limited to the height of the rainwater inflow path 103. Here, the height of the rainwater inflow path 103 is located lower than the upper end of the sump tank 100, and the filter net 105 is installed at the top of the rainwater inflow path 103.

Meanwhile, a plurality of holes 107 are formed in the water collecting tank 100 in the rainwater storage unit 120. The hole 107 is a passage through which the rainwater introduced into the rainwater storage unit 120 through the rainwater inflow passage 103 is drained underground.

The following describes the process of rainwater seeping into the ground in the state of embedding the waterfront landscape device configured in this way on the ground.

As shown in FIG. 2 and FIG. 3, the water collecting tank 100 is embedded in the ground, and the opening of the water collecting tank 100 is embedded so as to be exposed to the atmosphere.

As such, in the state in which the sump 100 is embedded, the rainwater is introduced into the opening of the sump 100 so that the water level is gradually increased. Then, when the water level of the rain water exceeds the upper end of the rainwater inflow path 103, the rainwater passes through the filter network 105 installed at the top of the rainwater inflow path 103 along the rainwater inflow path 103 below the rainwater storage unit ( 120).

In this case, when the amount of rainwater introduced into the rainwater storage unit 120 is small, the water is directly drained through the holes 107 formed in the rainwater storage unit 120, but when the amount of rainwater is introduced, that is, through the holes 107. When the amount of rainwater flowing in is greater than the amount of rainwater being drained, the rainwater reservoir 120 is filled in the rainwater storage unit 120 and drained through the hole 107.

Therefore, rainwater is accumulated in the upper part of the partition 101 of the sump 100, and the rainwater is formed in the ecological pond 110. When the water level of the deceased rainwater is higher than the height of the rainwater inflow path 103 formed in the middle of the ecological pond 110, the rainwater of the ecological pond 110 is drained, seeps into the ground, and is reduced to groundwater.

On the other hand, the aquatic plant 111 is planted in the upper part of the partition 101 where rainwater is standing and decorates the ecological pond 110. In this way, by aquatic vegetation 111 is supplied, oxygen is supplied to the rainwater to purify the rainwater and also used as a landscaping means. And since the rain water is first drained to the ecological pond 110, the foreign matter is deposited on the bottom of the ecological pond (110).

By allowing the purified rainwater to soak into the basement, it is possible to prevent depletion and contamination of the groundwater.

On the other hand, the diameter and depth of the sump 100, and the total area of the holes 107 are designed in consideration of the rainfall of the installation area.

And when the water tank 100 is buried in the ground to prevent the soil flow into the hole 107, the gravel 121 is located on the outer surface of the water tank 100 buried to facilitate drainage of rain water.

In addition, when the water-scaping landscaping device combined with the groundwater reduction of the surface water according to the present invention is large, the amount of rain water accumulated on the partition 101 may be difficult to support the water collection tank 100 to support the water of the ecological pond 110. have. In this case, by installing a column in the rainwater storage unit 120 may be configured to support the amount of water filled in the ecological pond (110).

As described in detail above, the waterfront landscaping device combined with groundwater reduction of the surface water of the present invention can form an ecological pond, thereby improving the environment of the city. In addition, since rainwater is drained underground through the ecological pond, oxygen is supplied from plants growing in the ecological pond, and foreign substances contained in the rainwater are settled on the bottom of the pond, so that the rainwater is infiltrated into the ground in a purified state and the groundwater is depleted and It can prevent contamination.

In addition, the water-based landscaping device combined with groundwater reduction of the surface water of the present invention can temporarily prevent rainwater flooding, such as by flooding rainwater temporarily during a sudden heavy rain.

In addition, the waterfront landscaping device combined with groundwater reduction of the surface water of the present invention has the advantage of being environmentally friendly by using the waste plastic recycling waste plastics.

In the above description, the technical concept of the waterfront and landscape landscaping device combined with groundwater reduction of the present invention was described together with the accompanying drawings, but this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention.

1 is a cross-sectional view of a waterfront landscape device according to an embodiment of the present invention,

FIG. 2 is a cross-sectional view of the waterfront landscape apparatus shown in FIG. 1 installed on the ground.

FIG. 3 is a plan view of the waterfront landscape apparatus shown in FIG. 2.

Explanation of symbols on main parts of drawing

100: sump tank 101: bulkhead

103: rainwater inlet 105: filter network

107: Pore 110: Ecological pond

111: aquatic plants 120: rainwater reservoir

121: gravel

Claims (2)

A sump having a predetermined depth and a partition formed in the middle of the interior; One or more rainwater inflow passages vertically corresponding to one or more through holes formed in the partition wall; A water change landscape landscaping device that combines groundwater reduction of surface water, characterized in that it comprises one or more perforations formed in the water collection tank below the partition wall. The method of claim 1, The upper end of the rainwater inlet path is lower than the upper end of the sump, the water supply and landscaping apparatus combined with the groundwater reduction of the surface water, characterized in that the filter net is installed on the upper end of the rainwater inlet.