KR101925564B1 - A rainwater collecting device with storage tank - Google Patents

Abstract

The present invention relates to a rainwater collecting apparatus having a storage tank, comprising: a rainwater storage tank; And a rainwater storage tank communicated with the rainwater storage tank through a communicating pipe, wherein the communicating pipe includes an outer communicating pipe located outside the rainwater storage tank and an inner communicating pipe located inside the rainwater storage tank, and the inner communicating pipe is located inside the rainwater storage tank And a rainwater collecting device which is protruded by a predetermined distance in the direction toward the center of the inside of the rainwater storage tank at a predetermined angle with respect to the horizontal direction.

Description

[0001] The present invention relates to a rainwater collecting device with a storage tank,

The present invention relates to a rainwater collecting apparatus having a storage tank. More particularly, the present invention relates to a rainwater collecting apparatus having a storage tank, in which rainwater passing through a filter is passed through a storage tank before being introduced into a rainwater storage tank, .

Generally, rainwater has been used as a water source for a long time, and a lot of ion components are added in composition than tap water. It is also well known that plants have sufficient nutrients to grow crops and the rate of growth of plants by rainwater is much faster than tap water or groundwater. In addition, rainwater is water that is well washed in the training water. For this reason, rainwater has attracted attention as a domestic water as well as for agricultural use.

On the other hand, in cities, the use of tap water is rapidly increasing due to the increase in the size of buildings. In order to prepare for such a situation, it is necessary to expand or expand the water treatment plant. In this situation, interest in rainwater is increasing as an alternative resource.

In order to utilize rainwater as a living water at a time when a large amount of water resources are needed, rainwater storage tanks for rainwater storage are stored.

In addition, the rainwater storage tank stores rainwater, but a foreign matter contained in rainwater is stored together with a rainwater collecting apparatus to which a filter for filtering out foreign matter is introduced before the rainwater enters the rainwater storage tank.

However, even if the rainwater is filtered, fine foreign substances contained in the rainwater itself can not be completely removed, and the rainwater is left as a sediment on the bottom surface of the rainwater storage tank or floated on the water surface.

Korean Unexamined Patent Publication No. 10-2008-0112531, which is a conventional technique for a rainwater collecting device, will be described.

Background Art [0002] Conventional technology relates to a rainwater storage tank, more specifically, a storage space that can be stored for recycling when necessary after cleaning a part of rainwater discharged from the roof of a building through drain pipes or ground To a rainwater storage tank.

Specifically, the rainwater storage tank according to the related art forms an inner space and includes an outer case having an opening and closing cap on an upper surface thereof, an inner pipe provided in the outer case and through which rainwater flows, An overflow pipe coupled to a first exhaust hole formed on an upper side of the outer case and being connected to an overflow pipe through which excess amount of rainwater stored in the inner space is discharged and a second exhaust hole formed on a bottom surface of the outer case, A drain pipe through which sediments accumulated on the bottom surface of the outer case are discharged, and opening / closing means provided below the front surface of the outer case for using stored rainwater.

However, in the conventional technology, the rainwater passes through the filter installed on the excellent pipe before being introduced into the rainwater storage tank, so that the foreign matter in the rainwater is filtered. However, since the density is small, fine foreign matters such as pollen floating on the water are not filtered Thereby causing a problem of flowing into the rainwater storage tank.

Generally, the rainwater stored in the rainwater storage tank flows out to the lower portion of the rainwater storage tank when the rainwater storage tank is cleaned. Fine foreign substances such as pollen are suspended at the upper portion of the rainwater storage tank. Even if rainwater flows out, It is attached to the side surface of the rainwater storage tank or remains attached to the floor without being leaked, and the continuous problem of being floated again by the rainwater flowing after cleaning occurs.

Accordingly, once the foreign matter such as pollen is introduced into the rainwater storage tank, the rainwater is not easily removed from the rainwater storage tank unless the rainwater stored inside the rainwater storage tank is entirely discharged and the inside of the rainwater storage tank is cleaned .

(Patent Document 1) KR10-2008-0112531 A

There is provided a rainwater collecting device capable of minimizing the inflow amount of minute foreign matter into a rainwater storage tank which can be floated in water and has a small density in order to solve the problem of the related art.

Further, it is an object of the present invention to provide a rainwater collecting device capable of easily discharging fine foreign substances introduced into rainwater to the outside.

Further, after the rainwater storage tank is filled with rainwater, the inflow rainwater is automatically discharged to the outside, thereby preventing the overflow in the rainwater storage tank and preventing the adverse effect that the pressure due to the inflow of rainwater may reach the rainwater storage tank A rainwater collecting device capable of being minimized.

In order to solve the above-described problems, a rainwater collecting device according to the present invention includes a rainwater storage tank (400); And a rainwater storage tank 200 communicated with the rainwater storage tank 400 and the communication pipe 300. The communication pipe 300 is connected to the outside communication pipe 320 located outside the rainwater storage tank 200, The inner side communicating pipe 340 located inside the rainwater storage tank 200 and being inclined at a predetermined angle with respect to the horizontal direction inside the rainwater storage tank 200, Respectively.

The rainwater inflow port 346 is formed at one end of the inner communicating pipe 340 so that the rainwater inflow port 346 into which the rainwater stored in the rainwater storage tank 300 flows is directed to the rainwater storage tank 200 ) Inner side in the horizontal direction.

Preferably, the inner communicating tube 340 includes a horizontal inner communicating tube 342 communicating with the outer communicating tube 320 in a state of being horizontally positioned inside the rainwater storage tank 200; And a vertical inner communication pipe (344) formed at a predetermined length in a direction below the horizontal inner communication pipe (342) in a state of being communicated with one end of the horizontal inner communication pipe (342) A rainwater inflow port 346 is formed.

A drain valve 220 is located above the rainwater storage tank 200 and the drain valve 220 is located above the inner communicating pipe 340.

Preferably, the inner upper surface of the rainwater storage tank 400 and the drain valve 250 are located on the same horizontal line.

As a solution to the above-mentioned problem, foreign matter that flows into the rainwater storage tank through the storage tank before the rainwater flows into the rainwater storage tank and is not filtered on the filter but has a density higher than the water density is deposited in the storage tank, can do.

In addition, the amount of fine suspended particles contained in the rainwater flowing into the rainwater storage tank can be minimized.

Also, most of the minute foreign matter introduced into the rainwater storage tank together with the inflow of the rainwater can be discharged to the outside through the drain valve located in the upper part of the rainwater storage tank without flowing into the rainwater storage tank, It is possible to easily remove minute floating matters in the storage tank.

Also, when the rainwater flowing into the rainwater storage tank through the rainwater storage tank is filled in the rainwater storage tank, the rainwater flows out to the drain valve of the rainwater storage tank located on the same horizontal line as the inner upper end surface of the rainwater storage tank. It is possible to efficiently store the rainwater in the rainwater storage tank and to prevent the rainwater from overflowing in the rainwater storage tank.

1 is a view schematically showing a rainwater collecting device according to the present invention.
2A to 2C are views for explaining the flow of rainwater according to the level of the rainwater storage tank.

Hereinafter, preferred embodiments of the method according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

Will be described with reference to Figs. 1 to 2C.

The rainwater collecting apparatus according to the present invention includes a filter 100 for filtering out foreign matter contained in rainwater, an excellent pipe 150 through which the rainwater flows to the storage tank 220 while flowing through the filter 100, a rainwater storage tank 200, A communicating tube 300, and a rainwater storage tank 400.

The rainwater storage tank (200) communicates with the discharge pipe (150). In the rainwater storage tank 200, the rainwater flowing through the excellent pipe 150 through the filter 100 is stored.

The rainwater flowing into the rainwater storage tank (200) flows through the lower part of the rainwater storage tank (200). The drain valve 220 is positioned above the rainwater storage tank 200 and the rainwater is discharged to the outside through the drain valve 220 when the water level rises to the height of the drain valve 220.

When minute foreign matter such as pollen which is not filtered by the filter 100 and is denser than water and precipitated or denser than water is floated on the water surface flows into the rainwater storage tank 200 together with rainwater, rainwater flows into the rainwater storage tank 200 The foreign substances to be settled are settled on the bottom of the rainwater storage tank 200. The fine foreign matter floating on the water surface moves upward to the upper part of the rainwater storage tank 200 and is discharged to the outside through the drain valve 220 .

The rainwater storage tank (200) communicates with the rainwater storage tank (400) through the communicating pipe (300).

One end of the communicating tube 300 communicates with the rainwater storage tank 200 and the other end of the communicating tube 300 communicates with the rainwater storage tank 400.

The communicating tube 300 includes an outer communicating tube 320 positioned outside the rainwater storage tank 200 and an inner communicating tube 340 communicating with the outer communicating tube 320 and positioned inside the rainwater storage tank 200.

The inner communicating tube 340 is located at a certain distance below the inner upper surface of the rainwater storage tank 200 in a state where the inner communicating tube 340 is located inside the rainwater storage tank 200.

The rainwater flowing into the rainwater storage tank 200 is mostly discharged to the outside through the drain valve 220 when the inner communicating tube 340 is positioned at the same position as the drain valve 220 or higher than the drain valve 220 Therefore, the rainwater does not flow into the rainwater storage tank 400.

Therefore, it is preferable that the inner communicating tube 340 is positioned below the drainage valve 220 by a predetermined distance from the inner upper surface of the rainwater storage tank 200.

The inner communicating tube 340 can be protruded by a predetermined distance in a direction toward the center of the inside of the rainwater storage vessel 200 in a state inclined at a predetermined angle with reference to the horizontal direction inside the rainwater storage vessel 200.

When the inner communicating tube 340 is not protruded to some extent toward the center of the inside of the rainwater storage tank 200 and the rainwater flows into the rainwater inflow port formed on one side of the rainwater storage tank 200, all of the inflowed rainwater flows into the rainwater inflow port So that the water level does not rise higher than the position where the rainwater inflow port is formed.

In this case, most of the fine foreign substances that have risen due to the rise of the water level in the rainwater storage tank 200 flow into the rainwater inflow port, and most of the minute foreign matter that flows into the rainwater storage tank 400 flows into the rainwater storage tank 400 .

In order to solve such a problem, in the rainwater collecting apparatus according to the present invention, the inner communicating tube 340 is inclined at a predetermined angle with reference to the horizontal direction inside the rainwater storage tank 200, .

A rainwater inflow port 346 through which the rainwater stored in the rainwater storage tank 300 flows is formed at one end of the inner communicating pipe 340.

The inner side communicating tube 340 is inclined at a predetermined angle with respect to the horizontal direction inside the rainwater storage tank 200 and the water level rises to the rainwater inlet port 346 of the inner communicating tube 340 due to an increase in the water level inside the rainwater storage tank 200 Even if the water level does not reach the point at which the inner communicating tube 340 communicates with the outer communicating tube 320, the rainwater flows into the rainwater inlet 346 and does not flow into the outer communicating tube 320. The water level in the rainwater storage tank 200 keeps rising while the rainwater flowing through the water pipe 150 is stored in the rainwater storage tank 200.

 That is, the cross-sectional area of the rainwater inflow port 346 is very small compared to the cross-sectional area of the rainwater storage tank 300. Therefore, when the inner communicating tube 340 is inclined, the amount of rainwater flowing into the rainwater inflow port 346 corresponds to a very small amount, so that the amount of minute foreign matter flowing into the rainwater inflow port 346 is also small .

Even if the rainwater flowing into the rainwater inflow port 346 and the minute foreign matter contained in the rainwater inflow into the rainwater storage tank 400 through the communication pipe 300, the amount of minute foreign substances introduced into the rainwater storage tank 400 is minimized.

Therefore, the direction in which the rainwater inflow port 346 faces is preferably a downward direction with respect to the horizontal direction inside the rainwater storage tank 200.

More preferably, the inner communicating tube 340 may include a horizontal inner communicating tube 342 and a vertical inner communicating tube 344.

The horizontal inner communicating tube 342 may communicate with the outer communicating tube 320 while being horizontally positioned inside the rainwater storage tank 200 and the vertical inner communicating tube 344 may be communicated with the horizontal inner communicating tube 342 at one end thereof The inner communicating tube 342 may be formed with a predetermined length in the downward direction. The above-described rainwater inflow port 346 may be formed at one end of the vertical inner communicating pipe 344.

The water level of the rainwater storage tank 200 is increased by the inflow of the rainwater, and thus the minute floating foreign matter such as pollen is also raised. Even when the water level of the raised rainwater storage tank 200 reaches the height of the vertical inner communicating tube 344, only a minute amount of the water flows into the vertical inner communicating tube 344 through the rainwater inlet 346, The rainwater flowing into the vertical inner communicating tube 344 flows through the rainwater inflow port 346 only when the height of the horizontal communicating tube 344 reaches the height where the horizontal communicating tube 344 is located, do.

Accordingly, only a very small portion of all the minute fine particles floating on the water surface and flowing into the vertical inner communicating tube 344 through the rainwater inflow port 346 passes through the horizontal inner communicating tube 346 even if the minute floating suspended matter rises as the water level rises And flows into the rainwater storage tank 400, so that the inflow of fine foreign matter into the rainwater storage tank 400 can be minimized.

In summary, even if the rainwater inflow port is formed to allow the rainwater to flow into one side of the rainwater storage tank 200, or if the communication pipe 300 is formed in a horizontal state rather than a tilted state even though it protrudes toward the center of the inside of the rainwater storage tank 200 When the water level reaches the rainwater inflow port or reaches the height of the rainwater inflow port of the horizontal communicating pipe 300, a large amount of rainwater flows to the rainwater inflow port and the water level inside the rainwater storage tank 200 is further raised It does not. As a result, a large amount of minute foreign matter flows together and flows into the rainwater storage tank 400.

In addition, even when the rainwater inflow port is directed to the upper direction rather than downward, the rainwater flows downward as soon as the water level reaches the rainwater inflow port, and the rainwater leaks more and the water level is not increased any more. So that the fine foreign matter flows into the rainwater storage tank.

In order to solve such a problem, in the rainwater collecting apparatus according to the present invention, the inner communicating tube 340 communicates with the horizontal inner communicating tube 342 protruding toward the center of the inside of the rainwater storage tank 200 by a predetermined distance, And a vertical inner communicating tube 344 formed therein. More preferably, the vertical inner communication pipe 344 may be formed to have a predetermined length in the vertical direction inside the rainwater storage tank 200.

Preferably, the inner top surface of the rainwater storage tank 400 and the drain valve 220 may be located on the same horizontal line.

The rainwater storage tank (400) and the rainwater storage tank (200) are communicated with the communication pipe (300). Accordingly, the rainwater flows from the rainwater storage tank 200 to the rainwater storage tank 400, and after a predetermined time, the water level in the rainwater storage tank and the water level of the rainwater storage tank 200 become equal.

That is, after the water level of the rainwater storage tank 200 at the height of the horizontal inner communicating pipe 342 located inside the rainwater storage tank 200 is equal to the water level of the rainwater storage tank 400, the rainwater continues to flow inside the rainwater storage tank 200 The water level of the rainwater storage tank 200 and the water level of the rainwater storage tank 400 rise to the same height.

In this state, when the drain valve 220 is positioned higher than the inner upper surface of the rainwater storage tank 400, rainwater is not discharged to the drain valve 220 when the upper part of the rainwater storage tank 400 is opened, The rainwater is discharged to the drain valve 220. However, when a strong water pressure is constantly applied to the rainwater storage tank 400, the rainwater is discharged from the rainwater storage tank 400 ) May cause cracks and the like.

When the drain valve 220 is positioned lower than the inner upper surface of the rainwater storage tank 400, the rainwater is discharged to the outside through the drain valve 220 before the rainwater is filled in the rainwater storage tank 400.

Therefore, in order to solve such a problem, in the rainwater collecting device according to the present invention, the inner upper surface of the rainwater storage tank 400 and the drain valve 220 are located on the same horizontal line.

There are many rainwater storage tanks 400. The plurality of rainwater storage tanks 400 communicate with the rainwater storage tank 200 through the communicating tubes 300.

When there are a plurality of rainwater storage tanks 400, it is necessary that the rainwater flowing from the rainwater storage tank 200 is equally supplied to a plurality of rainwater storage tanks 400. If the same is not supplied, the rainwater overflowing into one of the rainwater storage tanks 400 may overflow, but the other rainwater may not go up. In this case, it is not efficient to store the rainwater, It becomes inconvenient to use.

When the rainwater is introduced into the plurality of rainwater storage tanks 400 through the lower part of the rainwater storage tank 400, the water levels of the plurality of rainwater storage tanks 400 are maintained at the same atmospheric pressure.

Accordingly, when rainwater is stored in a rainy season, it is possible to store rainwater using a plurality of rainwater storage tanks 400, which is very efficient in storing rainwater. In addition, even when a plurality of rainwater storage tanks 400 are installed in various places when rainwater is used as living water, the rainwater flows into all the rainwater storage tanks 400 at the same water level.

The flow of the rainwater according to the water level L in the rainwater storage tank 200 will be described with reference to FIGS. 2A to 2C.

Will be described with reference to FIG. When the water level L of the rainwater storage tank 200 reaches the lower inner communicating tube 342 even when the water level reaches the rainwater inlet 346 formed at one end of the vertical inner communicating tube 344, the amount of rainwater stored in the rainwater storage tank 200 The rainwater does not flow into the horizontal inner communicating tube 342 and does not flow into the rainwater storage tank 400. [

At this time, most microscopic foreign matter is still floated on the surface of the water, rising with the rise of the water surface, and only a small amount of minute floating foreign matter flows into the rainwater inflow port 346.

Will be described with reference to FIG. The rainwater flowing into the rainwater storage tank 200 flows into the horizontal inner communication pipe 342 and flows through the outer communication pipe 320 And then flows into the rainwater storage tank 400.

At this time, most of the microscopic foreign matter still floats on the surface of the water and rises with the rise of the water level. Only a small amount of minute foreign matter that has already flowed into the rainwater inflow port 346 flows together with the rainwater and flows into the rainwater storage tank 400 ≪ / RTI > It is possible to minimize the amount of fine foreign matter flowing into the rainwater storage tank 400.

Will be described with reference to FIG. 2C. The amount L of the rainwater flowing into the rainwater inlet port 346 is smaller than the amount of rainwater flowing into the rainwater storage tank 200. Therefore, the level L of the rainwater storage tank 200 continues to rise as the rainwater flows in. The rainwater flowing into the rainwater inflow port 346 continuously flows into the rainwater storage tank 400 through the communication pipe 300 and the rainwater flowing into the rainwater storage port 200, and the rainwater reaching the position of the drain valve 220 is discharged to the outside through the drain valve 220.

At this time, most of the microscopic foreign substances floating on the surface of the rainwater storage tank 200 are discharged to the outside together with the rainwater discharged to the outside through the drain valve 220 and removed. Only a small amount of minute foreign matter that has already flowed through the rainwater inflow port 346 flows into the rainwater storage tank 400 through the inner communicating pipe 340 and the outside communicating pipe 320.

Even when the rainwater flows into the rainwater storage tank 200 and then flows into the rainwater storage tank 400, if the water level L of the plurality of rainwater storage tanks 400 reaches the upper end surface of the rainwater storage tank 400, The rainwater is discharged to the drain valve 220 of the rainwater storage tank 400, and thus no overflow occurs in the rainwater storage tank 400. When the water level L of the plurality of rainwater storage tanks 400 reaches the upper end surface of the rainwater storage tank 400, the rainwater does not flow to the rainwater storage tank 400 through the communication pipe 300, And is discharged to the outside only through.

While the present invention has been described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. It will be appreciated that embodiments are possible. Accordingly, the scope of protection of the present invention should be determined by the claims.

100: filter
150: Excess pipe
200: Rainwater storage
220: drain valve
300: communicator
320: outer communicating tube
340: inner communicating tube
342: Horizontal inner communicating tube
344: Vertical inner communicating tube
346: Rainwater inlet
400: Rainwater storage tank
L: Level

Claims (5)

A rainwater storage tank (400); And
And a rainwater storage tank (200) communicated with the rainwater storage tank (400) and the communicating pipe (300)
The communicating tube 300 includes an outer communicating tube 320 formed to extend outward from the rainwater storage tank 200; And an inner communicating tube (340) communicating with the outer communicating tube (320) and communicating with the inner communicating tube while being positioned inside the rainwater storage tank (200)
The inner communicating tube 340 is extended in a horizontal direction in the rainwater storage tank 200 and then extends to a predetermined length while being inclined downward by a predetermined angle with respect to the horizontal direction,
And a rainwater inflow port (346) through which the rainwater stored in the rainwater storage tank (200) flows is formed at one end of the inner communicating pipe (340).
delete delete The method according to claim 1,
A drain valve 220 is positioned above the rainwater storage tank 200,
Wherein the drain valve (220) is located above the inner communicating tube (340).
5. The method of claim 4,
Wherein the inner upper surface of the rainwater storage tank (400) and the drain valve (220) are located on the same horizontal line.

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