KR20110033529A

KR20110033529A - A storage equipment system of rain water

Info

Publication number: KR20110033529A
Application number: KR1020090091070A
Authority: KR
Inventors: 장동원
Original assignee: 장동원
Priority date: 2009-09-25
Filing date: 2009-09-25
Publication date: 2011-03-31

Abstract

The present invention, the upper surface of the cover (cover) is embedded in the reservoir, underground, the assembly support frame is installed in a multi-layer inside the storage chamber, the inlet pipe is installed on one side of the storage chamber, On the other side, it is a rainwater storage system installed by installing overflow pipes and communication pipes up and down, and connecting these overflow pipes and communication pipes to discharge pipes provided with orifices.

The present invention, by covering the cover (cover) on the upper surface of the reservoir buried in the ground can protect the reservoir and prevent foreign matters from entering the reservoir, the assembly support frame is assembled in a multi-layer inside the reservoir By installing it, it can support and protect the storage room and support it steadily.The inlet pipe can be installed on one side of the storage room to fill the rainwater supplied to the reservoir, and the overflow and communication pipes are installed on the other side of the storage room up and down. And it is possible to discharge the rain water stored in the reservoir by connecting the overflow pipe and the communication pipe to the discharge pipe provided with the orifice.

In addition, the present invention, buried in the reservoir in the ground can store a large amount of rainwater by increasing the storage capacity, by storing a large amount of rainwater can efficiently use rainwater and increase the utilization, the inside of the reservoir It is possible to easily clean the inside of the storage chamber by assembling the assembly frame or releasing the assembly state and withdrawal, thereby keeping the interior of the storage chamber clean at all times.

Rainwater Storage System. Reservoir. Pitcher Sheet. Inlet pipe. Inlet pipe. Outflow tube. Communicator. Overflow tube. Outlet pipe. Rainwater discharge pipe. Pump.

Description

A Storage Equipment System of Rain Water

The present invention relates to a rainwater storage system for storing rainwater to be collected in a storage chamber buried in the ground, and making it possible to utilize (use) while draining the collected rainwater.

To explain this in more detail, the reservoir (cover) covered in the upper surface is buried in the ground, and inside the reservoir, the assembly support frame is assembled and installed in multiple layers to support and protect the reservoir, and inflow to one side of the reservoir Install a pipe to collect and supply rainwater, and install overflow pipes and communication pipes up and down on the other side of the reservoir, and connect these overflow pipes and communication pipes to discharge pipes equipped with orifices to store rainwater stored in the storage room. To provide a rainwater storage system that can be discharged according to.

In recent years, the sudden change of climate frequently causes drought or coma, and the importance of water is newly recognized.

In recent years, a method and apparatus for efficiently utilizing rainwater by riding on such a change of perception have been proposed, and receiving and storing rainwater falling in buildings such as houses and using the stored rainwater as living water such as toilets, or in gardens or orchards It is used when watering trees, etc. In this way, it is recommended to store and utilize rainwater, and it is becoming a living.

As a conventional storage tank that receives and stores rainwater falling in a building such as a house as described above, a "rainwater collecting device using a gutter" of Korean registered utility model No. 20-251286 has been proposed.

It is provided with a second reservoir having a rainwater discharge pipe on the upper end of the first reservoir connected to the sump pipe, the first reservoir (bottom of the reservoir) and the second reservoir by connecting the water reservoir to the lower first reservoir The rainwater filled in the water bottle is supplied to the second reservoir in the upper side by the water pipe, and the lower end of the first reservoir is provided with a collecting outlet (valve) and a foreign matter discharge port to discharge the rainwater and foreign matter.

However, since it is exposed to the ground, there is a limit in making the reservoir large, and thus there is a limit in the low water amount.

The present invention is to provide a rain water storage device that can solve the above problems.

The present invention is buried in the ground the reservoir (cover) is covered on the upper surface, the assembly support frame is installed in a multi-layered interior of the reservoir, and the inlet pipe is installed on one side of the reservoir, The other side is to provide a rain water storage device characterized in that the overflow pipe and the communication pipe is installed up and down and these overflow pipe and the communication pipe is connected to the discharge pipe provided with the orifice.

Another object of the present invention, by covering the cover (cover) on the upper surface of the reservoir to be buried in the ground to protect the reservoir and to prevent foreign substances from entering the reservoir, the assembly support frame inside the reservoir By assembling and installing in multiple layers, the reservoir can be supported and protected and firmly supported.Inflow pipes can be installed on one side of the reservoir to fill the rainwater supplied to the catchment. The purpose of the present invention is to provide a rainwater storage system in which communication pipes are installed up and down, and these overflow pipes and communication pipes are connected to discharge pipes provided with orifices to discharge rainwater stored in the reservoir as needed.

Still another object of the present invention is to embed a reservoir in the ground, but can store a large amount of rainwater by increasing the storage capacity, and by storing a large amount of rainwater rainwater storage that can efficiently use rainwater and increase the utilization It is to provide equipment.

Still another object of the present invention is to assemble and install the assembly support frame in the interior of the reservoir, or to release the assembly state and withdrawal, so that the interior of the reservoir can be easily cleaned so that the interior of the reservoir is always kept clean. It is to provide a rainwater storage system.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects,

A storage chamber embedded in the ground with a cover over the top surface;

An assembly support frame assembled and installed in a multi-layer inside the water storage chamber;

An inflow pipe installed in communication with one side of the water storage chamber and receiving rainwater collected;

Achieved by the rainwater storage device 1, characterized in that it comprises an overflow pipe and the communication pipe which is installed up and down on the other side of the water storage chamber, and the discharge pipe is connected to the overflow pipe and the communication pipe, the orifice is installed; do.

Rainwater storage device according to the invention,

A reservoir is embedded in the ground where the cover (cover) is covered on the upper surface, and the assembly support frame is assembled and installed in the inside of the reservoir, the inlet pipe is installed on one side of the reservoir, and overflows on the other side of the reservoir. The pipe and the communication pipe is installed up and down, and the overflow pipe and the communication pipe are connected to the discharge pipe provided with the orifice.

The present invention, by covering the cover (cover) on the upper surface of the reservoir buried in the ground can protect the reservoir and prevent foreign matters from entering the reservoir, the assembly support frame is assembled in a multi-layer inside the reservoir By installing, the reservoir can be supported and protected and steadily supported.

In addition, the present invention, the inlet pipe is provided on one side of the reservoir to fill the rainwater supplied to the water collection, the overflow pipe and the communication pipe is installed up and down on the other side of the reservoir, the overflow pipe and the communication tube is provided with an orifice It is possible to discharge rainwater stored in the reservoir as necessary by connecting to the discharge pipe.

These and other objects and features of the present invention will be more clearly understood from the following detailed description based on the accompanying drawings.

1 to 4B show specific implementations of the rainwater storage device 1 according to the present invention, and FIGS. 1 and 2 show other installation states of the rainwater storage device 1 according to the present invention. 3 is a perspective view illustrating an assembly support frame 30 installed in the rainwater storage device 1 according to the present invention illustrated in FIGS. 1 and 2, and FIGS. 4A and 4B are views. 3 is an exemplary view illustrating a state in which the assembly support frame 30 illustrated in FIG. 3 is assembled and installed in multiple layers.

Rainwater storage system 1 according to the present invention was formed as illustrated in Figs.

The reservoir 2 was buried underground with a cover over the top.

The water storage chamber 2 was formed in the shape of a rectangular parallelepiped with an open top, and integrally bonded the inner protective sheet 4 to the inner surface of the order wall 3 and integrally bonded to the outer protective sheet 5 on the outer surface. .

The cover which is covered on the upper side of the tidal chamber 2 formed as described above is a protective sheet 7 on the upper surface of the assembly support frame 30, ie, the upper side of the tidal chamber 2, which is specifically installed later and assembled in multiple layers. Was installed, and the permeable sheet (6) was installed on the upper surface of the water storage chamber (2) to infiltrate from the ground to be introduced to filter the rainwater introduced.

The inlet pipe 12 is installed in communication with one side of the water storage chamber 2 is introduced to the rainwater is collected; An inlet pipe 12 was installed at the top of one side of the water storage chamber 2, and a filter 13 was provided at the tip of the inlet pipe 12, and an inlet buried in the ground at the tip of the inlet pipe 12. It was connected in communication with the bottom of the tube 10, the top of the inlet pipe 10 was connected to the inlet branch pipe (11).

The overflow pipe 22 and the communication pipe 21 were installed in the upper side and the lower side at the other side of the water storage chamber 2, and the overflow tube 22 and the communication tube 21 which are embedded in the ground It was connected in communication with, the lower end of the outlet 20 is provided with a discharge pipe 23 provided with an orifice 24.

In particular, in the reservoir 2, a rainwater discharge pipe 25 having a pump 26 is installed as illustrated in FIG. 2 so that the rainwater stored in the reservoir 2 can be used to operate the pump 25 arbitrarily. It was.

In addition, the assembly support frame 30, which is assembled and installed in a multi-layer inside the water storage chamber 2, was formed as illustrated in FIG.

The support frame 31 was formed in a hexahedral shape of the upper side down light bursting, and grooves 35 were formed on each of front, rear, left, and right sides of the support frame 31, and intersect with the opposite edges 33. The edge was cut to form the edge cutting surface 34, the upper surface 32 and the outer surface of the support frame 31 was drilled at regular intervals in the distribution hole (36).

A flange 37 is integrally formed at the lower end of the support frame 31, and a groove 38-1 is formed at the edge of the cutting surface edge surface 38 in the flange 37 formed at the lower end of the support frame 31. ) Were formed at regular intervals.

When connecting the assembly support frame 30 formed as described above to connect in a multi-row longitudinal or transverse as illustrated in Figure 4a, the cutting edge surface 38 of the adjacent assembly support frame 30 is connected, the connection The clip 39 is fitted into the groove 38-1 of both side assembly support frame 30 to be coupled.

The assembly support frame 30 formed as described above may be assembled and installed in a multi-layer as illustrated in FIG. 4B while performing as illustrated in FIG. 4A.

Hereinafter will be described the state of use of the rainwater storage system 1 according to the present invention formed as described above.

Rainwater storage device 1 according to the present invention buried in the ground as illustrated in Figure 1 and 2, the rainwater collected in the inlet pipe 10 through the inlet branch pipe 11 is the filter 13 While filtered by the inlet pipe 12 through the inlet of the reservoir 2, rainwater flowing into the inside of the reservoir 2 through the inlet 12 is stacked between the assembly support frame 30 It is stored as it flows in.

In addition, rainwater that penetrates directly into the ground from the ground is introduced into and stored in the storage chamber 2 through the permeable sheet 6 and the protective sheet 7.

Rain water stored in the reservoir 2 as described above is introduced into the outlet pipe 20 through the communication pipe 21 is provided with an opening and closing valve (not specifically shown) installed on the lower side or the upper overflow pipe 22 It flows into the outflow pipe 20 through.

Rainwater flowing into the outflow pipe body 20 is sensed by the orifice 24 and discharged to the outside by the operation of an opening and closing valve (not specifically shown) installed in the outflow pipe 23.

In particular, when the rainwater stored in the water storage chamber 2 is to be artificially drawn out and used, the pump 26 installed in the rainwater discharge pipe 25 is operated as illustrated in FIG. 2.

When the pump 26 is operated, the rainwater is discharged to the outside through the rainwater discharge pipe 25, and another hose (not specifically shown) is connected to the rainwater discharge pipe 25 to a desired predetermined position (place). The rainwater pumped by 26) may be transferred and used.

Although the present invention has been described in detail only with respect to the specific embodiments described, it will be obvious to those skilled in the art that various modifications and changes can be made within the technical scope of the present invention, and such modifications and variations belong to the appended claims. something to do.

1 and 2 is a cross-sectional view showing another installation state of the rainwater storage system according to the present invention.

Figure 3 is a perspective view showing an assembly support frame installed in the rainwater storage device according to the invention illustrated in Figures 1 and 2 above.

4A and 4B are exemplary views showing a state in which the assembly support frame illustrated in FIG. 3 is assembled.

Explanation of symbols on the main parts of the drawings

1: Rainwater Storage System 2: Storage Room 3: Water Wall

6: permeable sheet 10: inlet tube 12: inlet tube

20: outflow pipe 21: communication pipe 22: overflow pipe

23: outlet pipe 24: orifice 25: rainwater discharge pipe

26: pump

Claims

A storage chamber embedded in the ground with a cover over the top surface;

Rainwater storage system characterized in that it comprises an overflow pipe and the communication pipe which is installed on the other side of the water storage chamber up and down, and the discharge pipe connected to the overflow pipe and the communication pipe, the orifice is installed.

The method of claim 1, wherein the reservoir is buried in the ground with a cover;

An order wall formed in a rectangular parallelepiped shape having an upper portion open;

Rain water storage device, characterized in that formed, including: an inner surface protection sheet and an outer surface protection sheet adhered to the inner and outer surfaces of the order wall.

The method of claim 1, wherein the cover is covered on the upper side of the reservoir;

A protective sheet installed on the bottom of the upper plate of the tide chamber;

Rainwater storage system characterized in that it comprises a; water permeable sheet installed on the upper surface of the water storage chamber.

The inlet pipe of claim 1, wherein the inlet pipe is installed at one side of the reservoir;

Installing the inlet pipe on one top of the reservoir;

Having a filter at the tip of the inlet pipe;

Connecting the lower end of the inlet pipe to the front end of the inlet pipe;

The inlet pipe connected to the upper end of the inlet pipe: Rainwater storage system characterized in that it comprises a formed.

The method of claim 1, wherein the reservoir;

Rainwater discharge pipe provided with a pump: Rainwater storage system characterized in that formed, including.

The assembly support frame of claim 1, wherein the assembly support frame is assembled and installed in a multi-layer inside the storage chamber;

A support frame formed in a hexahedral shape of the upper and lower side light having a popped bottom and a flange formed at a bottom thereof;

Grooves formed in front, rear, left and right surfaces of the support frame;

An opposite edge and an intersection with an edge cutting surface formed at the edge portion;

A distribution hole formed on an upper surface and an outer surface of the support frame;

Grooves formed at regular intervals at an edge of a cutting edge at a flange formed at a lower end of the support frame;

Rainwater storage system characterized in that it comprises a; clip coupled to the groove formed on the cutting edge surface of the assembly support frame.