KR100998496B1

KR100998496B1 - Early rainwater separation screen tank

Info

Publication number: KR100998496B1
Application number: KR1020080083097A
Authority: KR
Inventors: 안승규
Original assignee: 누리환경(주)
Priority date: 2008-08-25
Filing date: 2008-08-25
Publication date: 2010-12-06
Also published as: KR20100024303A

Abstract

The present invention relates to a tank for collecting rainwater, and more particularly, includes impurities such as dust in the process of collecting rainwater collected in order to utilize the collected rainwater as living water for installation on outdoor ground floors, roofs, rooftops, etc. The present invention relates to an initial rain rejection screen tank that can exclude, separate, and collect only clean rainwater.

The present invention provides a tank having a space formed therein and collecting rainwater, wherein the tank has an inlet formed at an upper surface thereof, and an outlet controlled by an electric valve is formed at one side of the lower end of the tank, and closed at the other side thereof. An inlet and outlet formed with a reservoir, controlled by an electric valve, to be automatically opened according to the present invention; A first water level sensor formed on one side of the outlet and automatically controlling the opening of the outlet after 5 to 30 minutes when the rainwater initially overflows; Formed to the upper side of the first water level sensor is provided to automatically open the discharge port when the rain water overflows after detecting that the rain water is initially introduced, and automatically after 5 to 15 minutes in the open state A third water level sensor for closing the outlet and controlling the opening of the reservoir; A second water level sensor interposed between the first water level sensor and a third water level sensor to control the closing of the water reservoir by detecting that the water level of the incoming rainwater falls; By including the first, second, third water level detection sensor and all the substrate panels for supplying power to the electric valve, the initial rainwater having a lot of impurities such as fallen leaves and dust and high acidity is automatically excluded for a predetermined time to obtain sufficiently clean rainwater. It is an object of the present invention to provide an initial storm drain screen tank.

Initial Rainwater, Water Level Sensor, Electric Valve, Screen, Slope

Description

Early rainwater separation screen tank

As it is well known today, as water resources are gradually exhausted, rainwater is collected in rainy weather to store rainwater for daily use, and facilities or facilities such as rainwater storage tanks are installed on roofs and roofs of buildings for use when needed. .

Conventional rainwater storage tank is configured to simply store the rainwater obtained from the roof of the building to the rainwater storage tank immediately through the water collection guide pipe by connecting the roof drainage of the building and the collection guide. Therefore, the entire rainwater from the initial rainwater to the last rainwater obtained from the roof of the building must flow into and be stored in the rainwater storage tank.Therefore, the rainwater stored in the rainwater has many impurities such as fallen leaves and dust due to the initial rainwater. There was this.

In addition, the initial rainwater has a high acidity of rainwater, which is high due to the extreme industrial pollution. Since it is mixed with the rainwater storage tank, the entire rainwater can not only be acid rainwater, so rainwater can not be used in places that adversely affect the acidity, there was a problem such as rainwater utilization falls.

The present invention has been made in order to solve the problems as described above, in the tank having a space formed therein and collecting rainwater, the tank is formed with an inlet in the upper surface and the electric valve on one side of the lower end of the tank An inlet and outlet having a water outlet controlled by an electric valve so that the outlet is formed to be controlled and the other side is automatically opened according to the closing of the outlet; A first water level sensor formed on one side of the outlet and automatically controlling the opening of the outlet after 5 to 30 minutes when the rainwater initially overflows; Formed to the upper side of the first water level sensor is provided to automatically open the discharge port when the rain water overflows after detecting that the rain water is initially introduced, and automatically after 5 to 15 minutes in the open state A third water level sensor for closing the outlet and controlling the opening of the reservoir; A second water level sensor interposed between the first water level sensor and a third water level sensor to control the closing of the water reservoir by detecting that the water level of the incoming rainwater falls; By including the first, second, third water level sensor and the electric panel for supplying power to the electric valve, it is possible to obtain sufficiently clean rain water by automatically excluding the initial rain water having a large amount of impurities such as fallen leaves and dust and having a high acidity. The aim is to provide an initial storm drain screen tank.

The initial rain screen screen tank according to the present invention is a tank having a space formed therein and collecting rainwater, wherein the tank has an inlet formed in the upper surface and a discharge port controlled by an electric valve formed on one side of the lower end of the tank. On the other side of the inlet and outlet is formed with a reservoir is controlled by the electric valve to be automatically opened in accordance with the closing of the outlet; A first water level sensor formed on one side of the outlet and automatically controlling the opening of the outlet after 5 to 30 minutes when the rainwater initially overflows; Formed to the upper side of the first water level sensor is provided to automatically open the discharge port when the rain water overflows after detecting that the rain water is initially introduced, and automatically after 5 to 15 minutes in the open state A third water level sensor for closing the outlet and controlling the opening of the reservoir; A second water level sensor interposed between the first water level sensor and a third water level sensor to control the closing of the water reservoir by detecting that the water level of the incoming rainwater falls; It characterized in that it comprises an electrical panel for supplying power to the first, second, third level sensor and the electric valve.

In addition, the initial rain rejection screen tank according to the present invention is characterized in that the inclined surface is formed in the inlet portion of the reservoir from the inner bottom surface of the tank and the screen is formed above the inclined surface.

In addition, the initial rain screen screen tank according to the present invention is characterized in that the screen is formed inside the inlet.

On the other hand, the initial rain screen screen tank according to the present invention is characterized in that the emergency discharge port is formed on the lower side of the inlet and the inlet discharge outlet is formed on the upper side of the tank.

According to the initial rain screen screen tank according to the present invention, by the first, second, third water level detection sensor and the electric valve actuated by this, the initial rain water having a lot of impurities such as leaves and dust and high acidity is automatically excluded for a certain time. You can get enough rainwater.

Hereinafter, described in detail with reference to the accompanying drawings, the initial rain-excluded screen tank according to the present invention.

1 is a front view of an initial rain rejection screen tank according to the present invention and FIG. 2 is a plan view of an initial rain rejection screen tank according to the present invention.

The initial rain rejection screen tank according to the present invention is a tank having a space formed therein and collecting rainwater as shown in FIGS. 1 to 2, wherein the tank 100 has an inlet 11 formed at an upper surface thereof. And a discharge port 12 controlled by the electric valve 14 on one side of the lower end of the tank 100, and controlled by the electric valve 15 so that the other side is automatically opened according to the closing of the discharge port 12. An inlet and outlet 10 in which the reservoir 13 is formed; A first water level sensor 21 which is formed at one side of the outlet 12 and automatically opens and controls the outlet 12 after 5 to 30 minutes when the rainwater introduced initially overflows; Is formed to the upper side of the first water level sensor 21 is provided to open the outlet 12 automatically when the rain water overflows after detecting that the rain water is initially introduced, the outlet 12 is opened A third water level sensor 22 controlling to automatically close the outlet 12 and open the reservoir 13 after 5 to 15 minutes in a state; A second water level sensor interposed between the first water level sensor 21 and a third water level sensor 22 to control the closing of the water reservoir 13 by detecting that the water level of the inflowed rain drops; 23; It characterized in that it comprises an electrical panel 40 for supplying power to the first, second, third level sensor (21, 23, 22) and the electric valve (14, 15).

According to this, the initial rain screen screen tank according to the present invention is installed on the outdoor first floor, roof, roof, etc. of the house or building, the rain begins to flow through the inlet 11 and the water level in the tank 100 After gradually rising and being detected by the first water level sensor 21, 1) the time detected by the first water level sensor 21 has passed 5 to 30 minutes or 2) the rain suddenly drops so much that the third water level above When the sensor 22 is detected, the electric valve 14 on the outlet 12 side automatically opens and contains a large amount of impurities such as rain water, that is, fallen leaves and dust, introduced through the inlet 11, and has an acidity. High initial rainwater is discharged and excluded. The initial rainwater introduced in this way is excluded until the time detected by the third water level sensor 22 is 5 to 15 minutes, after which the electric valve 14 on the outlet 12 side is automatically closed. In addition, the electric valve 15 of the reservoir 13 is opened to communicate with the reservoir 13 so that rainwater flows into and stored in an underground reservoir (not shown) separately formed. Accordingly, impurities such as fallen leaves and dust are removed from the underground reservoir, and only clean rainwater with low acidity is introduced and stored.

In addition, the second water level detection sensor 23 is formed to detect that the water level of the incoming rain drops. That is, the introduced rainwater is introduced into the underground reservoir through the reservoir 13 and the amount of rainwater introduced through the inlet 13 is reduced so that the water level in the tank 100 is gradually lowered to the second. When the water level sensor 23 is lower than the water reservoir 13 side electric valve 15 is automatically closed and the outlet 12 side electric valve 14 is automatically opened to open the tank 100. It is cleared and initialized.

On the other hand, a separate water level sensor is formed in the underground reservoir, which is formed separately in communication with the reservoir 100, detects when the underground reservoir overflows and drives the electric valves 14 and 15 to detect the overflow. It is preferable to close the water valve 13 side electric valve 15 to prevent further rainwater inflow and open the discharge port 12 side electric valve 14 to empty the tank 100 and initialize it.

In addition, it is preferable that the check valve 121 is formed at the inlet of the discharge port 12 so that the discharged rain water flows in only one direction and, on the contrary, automatically closes when it flows back toward the tank.

On the other hand, in the initial rain screen screen tank according to the present invention as shown in Figure 1 to 2 inclined surface 15 is formed in the inlet portion of the reservoir 13 from the inner bottom surface of the tank 100 and The screen 16 is characterized in that the upper side of the inclined surface 15 is formed.

According to this, not only the rainwater introduced through the inlet 11 is initially excluded by the automatic control as described above, but also impurities such as fallen leaves and dust included in the rainwater introduced into the underground reservoir are then inclined. 15) to sink to the bottom surface of the tank 100 is to prevent the primary flow into the underground reservoir. In addition, the impurities of the rainwater are filtered out by the screen 16 formed of a mesh, thereby preventing secondary water from flowing into the underground reservoir.

In addition, the initial rain rejection screen tank according to the present invention is characterized in that the screen 112 is formed inside the inlet 11 as shown in Figs.

According to this, the rainwater flowing through the inlet 11 is not only excluded the initial rainwater as described above, but also impurities such as fallen leaves, dust and the like contained in the rainwater by the screen 112 formed of the mesh in the pretreatment process. It will be filtered first. The screen 112 is formed to be detachable to the inside of the inlet 11 and is blocked by impurities such as the fallen leaves, dust and the like to be detached and cleaned and then reattached.

In addition, the initial rain screen screen tank according to the present invention, as shown in Figures 1 to 2, the emergency outlet 111 is formed on the lower side of the inlet 11, the upper one side of the tank 100 is excessive It is characterized in that the inlet outlet 17 is formed.

According to this, when the rainwater flowing into the inlet 11 is excessively impurity or undesired rainwater, or the first, second, third level sensor 21, 23, 22 or the electric valves 14, 15 In case of an emergency such as the initial rainwater is not smoothly removed due to a malfunction of the), the closing valve 113 formed on the lower side of the inlet 11 is closed, and the rainwater flowing into the inlet 11 immediately outside. It can be discharged. In addition, when there is too much rainwater flowing into the inlet 11, the water level in the tank 100 exceeds the third water level sensor 22 to exceed the capacity of the tank 100. Rain water is discharged to the excess inlet outlet 17 side.

On the other hand, in the initial rain screen screen tank according to the present invention as shown in Figure 1 to 2 through the upper surface of the tank 100 is formed with a through hole 18 and the through hole 18, the sensor fixing rod ( 19 is formed, the sensor unit 20 is formed in the fitting coupling, characterized in that the first, second, third level sensor 21, 23, 22 is formed on the sensor fixing rod 19 from the lower side, respectively do.

According to this, the first, second, third water level detection sensors 21, 23, 22 do not need to be separately formed on the inner surface of the tank 100 in accordance with the water level, the sensor unit 20 and the sensor fixing rod 19 It is possible to simply form into the tank 100 by the).

On the other hand, the present invention has been listed the best configuration of the present invention, but is not limited to this, it can be considered that changes to the configuration described before it can be practiced without departing from the scope of the appended claims.

1 is a front view of an initial storm drain screen tank according to the present invention;

Figure 2 is a plan view of the initial storm drain screen tank according to the present invention.

10. Inlet and Outlet 11. Inlet

111. Emergency exit 112. Screen

113. Valves

12. Outlet 121. Check valve

13. Water reservoir 14, 15. Electric valve

15. Slope 16. Screen

17. Excess inflow outlet 18. Through hole

19. Sensor fixing rod 20. Sensor unit

21. 1st water level sensor 22. 3rd water level sensor

23. 2nd water level sensor

40. Electric panel

100. Tank

Claims

In the tank having a space portion formed therein and collecting rainwater,

The tank 100 has an inlet 11 formed on an upper surface thereof, and an outlet 12 controlled by an electric valve 14 is formed on one side of the lower end of the tank 100, and the other side of the outlet 12 is formed. An inlet and outlet 10 formed with a reservoir 13 controlled by an electric valve 15 to be automatically opened upon closing;

A first water level sensor 21 which is formed at one side of the outlet 12 and automatically opens and controls the outlet 12 after 5 to 30 minutes when the rainwater introduced initially overflows;

Is formed to the upper side of the first water level sensor 21 is provided to open the outlet 12 automatically when the rain water overflows after detecting that the rain water is initially introduced, the outlet 12 is opened A third water level sensor 22 controlling to automatically close the outlet 12 and open the reservoir 13 after 5 to 15 minutes in a state;

A second water level sensor interposed between the first water level sensor 21 and a third water level sensor 22 to control the closing of the water reservoir 13 by detecting that the water level of the inflowed rain drops; 23;

Initial drain screen screen tank characterized in that it comprises an electrical panel (40) for supplying power to the first, second, third level sensor (21, 23, 22) and the electric valve (14, 15).

The method of claim 1,

Initial rain rejection screen, characterized in that the inclined surface 15 is formed in the inlet portion of the reservoir 13 from the inner bottom surface of the tank 100 and the screen 16 is formed above the inclined surface 15 Tank.

The method of claim 1,

Initial rain rejection screen tank, characterized in that the screen 112 is formed inside the inlet (11).

The method according to any one of claims 1 to 3,

Initial discharge screen screen tank, characterized in that the emergency discharge port 111 is formed on the lower side of the inlet 11 and the inlet discharge outlet 17 is formed on the upper side of the tank 100.

The method according to claim 1 or 2,

The through hole 18 is formed on the upper surface of the tank 100, and the sensor unit 20 having the sensor fixing rod 19 formed therein is fitted into the through hole 18, but the sensor fixing rod 19 The first, second, and third water level detection sensors (21, 23, 22) are formed from the lower side, respectively, the initial storm water screen tank.