KR20210105114A - Rainfall storage system structure using underground space - Google Patents

Abstract

The present invention relates to a structure of a rainwater storage facility utilizing an underground space. More particularly, the present invention relates to a rainwater storage facility utilizing an underground space that prevents damage by storing rainwater by installing the rainwater storage facility in the underground space, which is the lower part of a building, and has an earthquake-resistant function so that the impact that can occur in an earthquake can be minimized by using the weight of the water stored in the rainwater storage facility.

Description

Rainfall storage system structure using underground space

The present invention relates to a structure of a rainwater storage facility utilizing an underground space, and more particularly, a rainwater storage facility is installed in an underground space, which is the lower part of a building, to store rainwater to prevent damage, but the weight of the water stored in the rainwater storage facility It is related to the structure of a rainwater storage facility using an underground space with seismic resistance to minimize the impact that may occur in the event of an earthquake.

In general, due to changes in land use patterns due to urbanization, the impervious layer increases, causing flood damage and damage to non-point pollutants in cities to increase. Accordingly, the need for an efficient and sustainable water circulation system is emphasized. In this case, there is a limit to the storage capacity of rainfall runoff due to the characteristics of rainfall concentrated in summer and the limitation of the catchment surface and storage tank size.

As such storage facilities, various storage facilities have been proposed, such as Korean Patent Publication No. 10-0869775 (November 21, 2008) is proposed.

However, since they have a structure to collect rainwater by burying a storage tank in a specific space, there is a disadvantage in that space is limited, such as a separate landfill site is required.

The present invention has been devised to solve the above problems, and a rainwater storage facility is installed in an underground space, which is the lower part of a building, to store rainwater to prevent damage, but it occurs when an earthquake occurs using the weight of the water stored in the rainwater storage facility It is intended to provide a structure of a rainwater storage facility utilizing an underground space with seismic resistance to minimize possible impact.

In order to achieve the above object, the present invention provides a concrete retaining wall structure installed on an inner wall of an underground space; a seismic isolator installed on the bottom or side of the retaining wall structure; a storage tank installed on the upper part of the seismic isolator or the lower part of the building and storing rainwater; and a guide plate installed at an angle from an upper side of the storage tank to guide rainwater flowing into the underground space into the storage tank.

Preferably, the storage tank is formed in a shape with both sides higher than the central portion, so that while suppressing the sloshing of the stored water, a curved structure or a blocking wall that can prevent a sloashing phenomenon that occurs when an earthquake occurs is formed.

According to the present invention, a rainwater storage facility is installed in the underground space, which is the lower part of the building, and the building is placed on the upper part to store rainwater to prevent damage, but it occurs when an earthquake occurs using the weight of the water stored in the rainwater storage facility It shows the effect of the seismic function to minimize the possible impact.

1 is a schematic cross-sectional view showing the structure of a rainwater storage facility utilizing an underground space according to a preferred embodiment of the present invention.

Hereinafter, the structure of the rainwater storage facility utilizing the underground space of the present invention will be described in more detail with reference to the accompanying drawings.

Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to conventional or dictionary meanings, and the inventor should properly understand the concept of the term in order to best describe his invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Accordingly, one embodiment described in the present specification and the configuration shown in the drawings are only the most preferred embodiment of the present invention and do not represent all the technical spirit of the present invention, so at the time of the present application, they can be replaced It should be understood that various equivalents and modifications may be made.

1 is a schematic cross-sectional view showing the structure of a rainwater storage facility utilizing an underground space according to a preferred embodiment of the present invention.

Referring to the drawings, the rainwater storage facility structure using the underground space of the present invention forms an underground space on the ground, and the concrete retaining wall structure 100 formed on the inner wall is installed.

Thereafter, the seismic isolator 200 is installed on the bottom or side of the retaining wall structure 100 . It is obvious that various well-known types of the seismic isolator 200 may be used.

In addition, the storage tank 300 is installed above the seismic isolator 200, and it is natural that the storage tank 300 has a space for storing rainwater. At this time, the storage tank 300 is formed in an approximately "U" shape with both sides higher than the central portion, and thus is proposed to minimize the sloshing of stored rainwater when an earthquake occurs. In particular, the storage tank 300 is more preferably formed so as to prevent a sloashing phenomenon by forming a structure such that the corner portion has a curved shape or a blocking wall (not shown) therein.

In addition, a guide plate 400 is installed on the upper side of the storage tank 300 to collect rainwater flowing into the retaining wall structure 100 and to guide it so that it can be stored in the storage tank 300 .

A building is formed on the upper part of the storage tank 300 installed in this way.

When the storage tank 300 is installed in the underground space of the building in this way, rainwater flows into the underground space and then is stored in the storage tank 300, thereby preventing damage caused by rainwater. Although earthquake damage can be minimized by Sloshing is suppressed as well as having the advantage of preventing the sloashing phenomenon by the curved shape.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order to better understand the claims of the invention to be described later. Additional features and advantages constituting the claims of the present invention will be detailed below. It should be appreciated by those skilled in the art that the concept and specific embodiments of the present invention disclosed may be readily used as a basis for designing or modifying other structures for carrying out purposes similar to the present invention.

In addition, the concept and embodiment of the invention disclosed in the present invention as a basis for modifying or designing other structures for carrying out the same purpose of the present invention, such modified or changed equivalent structures by those skilled in the art are patented Various changes, substitutions and changes are possible without departing from the spirit or scope of the invention described in the claims.

100: retaining wall structure 200: seismic isolator
300: storage tank 400: guide plate
500 : building

Claims (2)

Concrete retaining wall structure installed on the inner wall of the underground space;
a seismic isolator installed on the bottom or side of the retaining wall structure;
a storage tank installed on the upper part of the seismic isolator or the lower part of the building and storing rainwater; and
a guide plate installed at an angle from an upper side of the storage tank to guide rainwater flowing into the underground space into the storage tank;
A structure of a rainwater storage facility using an underground space, characterized in that it comprises a. The method of claim 1,
The storage tank is formed in a shape with both sides higher than the central part, and while suppressing the sloshing of stored water, a curved structure or blocking wall that can prevent the sloashing phenomenon that occurs during an earthquake is formed. Stormwater storage facility structure.

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