KR20160116384A - Cooling Apparatus In Building Using The Rainwater - Google Patents

Abstract

The present invention relates to an apparatus to lower a temperature of a building using rainwater, comprising: a rainwater repository installed in the rooftop of a building to store rain; an injection pipe connected to the rainwater repository, installed on the floor of the rooftop, and having sprinklers formed at a predetermined interval to inject rainwater stored in the rainwater repository to the entirety of the rooftop; a temperature sensor installed on a surface of the rooftop to measure a temperature of the rooftop; a controller controlling driving of the sprinklers to inject the rainwater to the entirety of the rooftop when the temperature measured by the temperature sensor exceeds a preset temperature; a solar panel installed on an outer wall of the rainwater repository to convert solar energy into electric energy; and a storage battery storing electric energy produced by the solar panel and supplying power. According to the present invention, rain at normal times is stored in the rainwater repository installed on the rooftop, and when a temperature of the rooftop is equal to or higher than a preset temperature, the sprinklers of the injection pipe connected to the rainwater repository are operated to evenly inject the stored rainwater to the rooftop to lower a temperature of the upper portion of the building. Therefore, cooling cost and energy can be saved by lowering a rate of operation of a cooling apparatus and electric power shortage severe in the summer can be resolved. Also, since the solar panel is installed on the outer wall of the rainwater repository to operate the sprinklers by self-generated electric energy and lower a temperature of a building utilizing discarded rainwater, it is environmentally-friendly and management and maintenance cost can be saved.

Description

[0001] The present invention relates to a building temperature lowering apparatus using rainwater,

More particularly, the present invention relates to a building temperature lowering apparatus using rainwater, and more particularly, to a rainwater storage unit installed on a roof of a building, storing a normal rainfall rate, The present invention relates to a building temperature lowering apparatus utilizing rainwater, which is capable of lowering the temperature of an upper portion of a building by spraying a stored rain on a roof by operating a sprinkler when the temperature is higher than a predetermined temperature.

Generally, the rooftop of the building absorbs the sunlight, so the temperature of the building is increased in summer, the temperature of the building is increased to the inside of the building to raise the temperature of the room, and in order to lower the temperature of the room, The energy consumption is extremely increased due to the high utilization rate.

Conventionally, a technique has been proposed in which a cooling system is installed on a building roof to cool the roof by spraying water.

Prior Art Patent Application No. 0239827 (Application No. 1996-55312) "Sprayhead for Cooling System on Roof Surface" combines a spray head with a tee pipe coupled to a conventional water supply pipe for supplying water on the roof, A technique has been proposed in which water supplied to the water supply pipe is supplied to the roof surface to spray water onto the surface of the roof to cool the surface of the roof heated by solar heat to lower the room temperature.

In addition, in patent application No. 1132544 (Application No. 2009-0071941) entitled " Roof Cooling System ", it is proposed that the cooling of the roof surface is carried out in such a manner that a continuous flow cold water film is formed on the surface of the roof without water spraying The cooling water is maximized and the used cooling water is stored in a tank installed in the basement so that the cooling water can be naturally cooled down below the ground surface and then reused as the cooling water of the roof.

However, the above-mentioned prior arts have a drawback in that groundwater or tap water on the ground is pulled up to the top of the roof by using a pump, and power consumption for driving the pump is large. In the case of a large building, a large factory, The structure for spraying the ground water or the tap water to the roof or the roof is very complicated and the maintenance and maintenance cost is very high. In addition, since the power consumption is large, the power shortage which increases in the summer can not be solved, and the efficiency is inferior economically.

Korea Registered Patent: 10 - 1132544 (Notification Mar. 04, 03)

Korean Registered Patent: 10 - 0239827 (Notification Date 2000. 01. 15)

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems,

The object of the present invention is to provide a rainwater storage facility on the roof of a building, which stores a normal rainfall, and when the temperature measured by a temperature sensor installed on the roof of the building is above a predetermined temperature, Thereby reducing the temperature of the upper part of the building.

Another object of the present invention is to provide a solar panel by installing a solar panel on the outer wall of a storm water reservoir, operating the sprinkler with self-developed electric energy, and utilizing the abandoned rainwater to lower the temperature of the building, To thereby reduce the power shortage in summer, and to provide a building temperature lowering device utilizing rainwater.

According to an aspect of the present invention, there is provided a building temperature lowering apparatus utilizing rainwater, the rainwater storage apparatus comprising: a rainwater reservoir for storing rain to be installed on a roof of a building; A sprinkler having a sprinkler at a predetermined interval so as to spray rainwater stored in the rainwater storeroom on the entire roof; a temperature sensor installed on a surface of the rooftop for measuring the temperature of the rooftop; A control unit for controlling the driving of the sprinkler so that the rainwater is sprayed over the entire roof of the building when the temperature exceeds a predetermined temperature, a solar panel installed on an outer wall of the rainwater storage and converting solar energy into electrical energy, The electric energy generated from the panel is stored to power the control unit and the sprinkler. And a battery which supplies power to the battery.

The rainwater storeroom is provided with an overflow pipe for storing the ratio of opening and closing the upper surface and controlling the water level of the rainwater to prevent the stored rainwater from overflowing to the outside, and a drain pipe for draining the stored rainwater is provided at the lower end .

The outer wall of the rainwater storage room is formed in a spherical shape so that the solar panel can collect sunlight as much as possible.

In addition, floating plants for improving water quality are vegetated in the rainwater reservoir.

Wherein the floating plant is planted on the float, and the float is provided as a grid-like plate.

In addition, the inside of the rainwater storage compartment is formed so that the diameter of the upper part and the diameter of the bottom surface, which are opened to facilitate discharge of the floating plants and float, are the same.

In addition, the inlet of the spray pipe connected to the rain water storage room is provided with a filter unit for filtering the foreign substances contained in the stored rainwater

According to the embodiment of the present invention, the normally falling rain rate is stored in the rainwater reservoir installed on the roof, and when the temperature of the roof surface is above the predetermined temperature, the sprinkler of the spray pipe connected to the rainwater reservoir is operated to distribute the stored rainwater evenly on the roof Thereby lowering the operating rate of the cooling device by reducing the temperature of the upper part of the building, thereby saving cooling cost and energy, and resolving the power shortage which is increased in summer.

In addition, by installing a solar panel on the outer wall of the storm water reservoir, the sprinkler is operated by the self-developed electric energy, and the temperature of the building is lowered by utilizing the abandoned rainwater, thereby saving the cost of management and maintenance .

In addition, it is possible to improve the quality of the stored rainwater by raising floating plants in the rainwater reservoir, and to prevent the stored rainwater from being warmed by the sunlight.

1 is a perspective view illustrating a building temperature lowering apparatus using rainwater according to an embodiment of the present invention;
BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a building temperature lowering apparatus using rainwater,
3 is a cross-sectional view illustrating the floating vegetation in a rainwater reservoir in a building temperature lowering apparatus utilizing rainwater according to an embodiment of the present invention.

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. Hereinafter, a building temperature lowering apparatus utilizing rainwater according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. For purposes of this specification, like reference numerals in the drawings denote like elements unless otherwise indicated.

FIG. 1 is a perspective view illustrating a building temperature lowering apparatus using rainwater according to an embodiment of the present invention. FIG. 2 is a perspective view illustrating a structure of a rainwater pool in a building temperature lowering apparatus using rainwater according to an embodiment of the present invention. FIG. 3 is a cross-sectional view illustrating floating vegetation in a rainwater reservoir in a building temperature lowering apparatus utilizing rainwater according to an embodiment of the present invention.

As shown in FIG. 1, a building temperature lowering apparatus using rainwater according to an embodiment of the present invention includes a rainwater storeroom 100 for storing rain to be installed on a roof of a building, A spraying tube 200 disposed on a floor of a roof and having a sprinkler 210 at regular intervals so as to spray rainwater stored in the stormwater storage 100 to the entire roof of the roof, A controller 400 for controlling the operation of the sprinkler 210 so that rainwater is sprayed over the entire roof when the measured temperature of the temperature sensor 300 exceeds a predetermined temperature, A solar panel 500 installed on an outer wall of the solar panel 100 for converting solar energy into electric energy and a storage battery 600 for storing electric energy produced from the solar panel 500 to supply power .

As shown in FIG. 2, the rainwater storeroom 100 internally stores a ratio of the upper surface of the rainwater tank 100 to the lower surface of the rainwater tank 100.

An overflow pipe 110 is provided at the upper end of the rainwater storeroom 100 to control the level of the rainwater to prevent the rainwater stored inside from being overflowed when the amount of rainwater is exceeded due to heavy rain or heavy rain .

In addition, a drain pipe 120 for draining stored rainwater to the outside is provided at a lower end portion of the rainwater storeroom 100. Here, the drain pipe 120 is provided with a drain valve 122 for opening and closing the drain pipe. When the interior of the storm water storage 100 is to be cleaned, or when drainage of stored stormwater is needed to prepare for the winter season, So that the rainwater can be easily drained to the outside.

The rainwater storeroom 100 may be installed directly on the upper surface of the roof, but it may be supported by the legs 113 so as to be spaced apart from the upper surface of the roof.

The spraying tube 200 is connected to the rainwater storeroom 100 and is disposed on the floor of the roof. At this time, the spray tube 200 provided with the sprinkler 210 at regular intervals is evenly distributed throughout the roof top so that rainwater is sprayed to the entire rooftop through the sprinkler 210.

An automatic opening and closing valve 220 for controlling the opening and closing of the spray tube 200 is provided at the tip of the spray tube 200. The automatic opening and closing valve 220 is electrically connected to the control unit 400 and is opened and closed according to the signal of the control unit 400.

The temperature sensor 300 measures the surface temperature of the roof in real time and transmits it to the control unit 400.

Here, the temperature sensor 300 is electrically connected to the controller 400, and the controller 400 is electrically connected to the sprinkler 210.

That is, the control unit 400 determines whether the measured temperature transmitted from the temperature sensor 300 is out of a predetermined temperature, and when the temperature is out of the preset temperature, the control unit 400 applies a signal to the automatic opening / closing valve 220 of the spray tube 200 The rainwater stored in the rainwater storeroom 100 is supplied to the sprayer 200 and a driving signal is applied to the sprinkler 210 to cause the rainwater supplied to the sprayer 200 to be sprayed to the outside.

Meanwhile, a solar panel 500 for converting solar energy into electric energy is installed on the outer wall of the rainwater storeroom 100, and a capacitor 600 for storing the generated electric energy is connected to the solar panel 500 . The electric energy stored in the battery 600 is used as a driving power for the control unit and the sprinkler.

Here, the outer wall of the rainwater storeroom 100 is formed in a spherical shape so that the solar panel 500 can collect sunlight as much as possible.

The power generation amount of the solar panel 500 changes according to the amount of solar radiation received on the light surface. The outer shape of the spherical outer panel increases the power generation efficiency by making the angle of the solar panel 500 installed thereon opposed to the sunlight. In addition, at the time of rainfall, dirt and an angle at which sediments are washed away can be provided, so that the life of the solar panel 500 can be extended.

As shown in FIG. 3, a floating plant 700 for improving the quality of rainwater stored in the rainwater storeroom 100 is planted.

The floating plants (700) refers to plants which purify water quality such as water hyacinth, flower irises, buttercups, water lily, water lettuce, peppermint, etc. It is preferable that the floating plants (700) are planted on float (710) for easy harvesting.

Here, the float 710 is provided as a grid-like plate that floats on water and through which rainwater can pass.

In this case, the inside of the rainwater storeroom 100 may be provided in the form of a straight line having the diameter of the upper end portion and the diameter of the lower end portion opened to facilitate discharge of the floating plants 700 and float 710, or the diameter of the upper end portion may be larger than the diameter of the lower end portion Respectively.

The diameter of the float 710 must be smaller than the diameter of the lower end of the rainwater storeroom 100 when the amount of rainwater stored in the rainwater storeroom 100 is small, Since the float 710 may be positioned on the lower end side inside the rainwater storeroom 100 because it must float on the rainwater.

In addition, a filter unit 230 for filtering the foreign substances contained in stored rainwater is further provided at an inlet of the spray pipe 200 connected to the rainwater storage 100.

The filter unit 230 is provided at the inlet of the spray pipe 200 to prevent the nozzle of the sprinkler 210 from being clogged due to foreign substances contained in the rainwater supplied to the spray pipe 200, Filter out foreign matter contained in incoming rainwater.

In addition, when the rainwater is discharged to the overflow pipe 110 at the inlet of the overflow pipe 110, the filtering network 112 may be installed so that the floating vegetation 700 is not swept away by the rainwater.

As described above, according to the present invention, a normal rain rate is stored in a rainwater storage room installed on a roof, and when the temperature of the roof measured by the temperature sensor is equal to or higher than a predetermined temperature, a sprinkler of a discharge pipe connected to the rainwater storage is operated to store the stored rainwater The temperature of the upper part of the building is lowered by the uniformly spraying.

If the upper temperature of the building is lowered, the indoor temperature is lowered, so that the operation rate of the cooling system can be lowered. If the operation rate of the cooling system is lowered, the cooling cost and the energy can be saved. In addition, do.

In addition, the sprinkler is operated by self-developed electric energy in the solar panel installed on the outer wall of the storm reservoir, and the temperature of the building is lowered by using abandoned rainwater, thereby saving the management and maintenance costs.

In addition, by improving the quality of the stored rainwater by growing floating plants in the rainwater reservoir, the rainwater can be continuously used throughout the summer, and the rainwater stored by the floating plants can be prevented from being warmed by the sunlight.

Although the preferred embodiments of the present invention have been described, the present invention is not limited to the specific embodiments described above. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims, And equivalents may be resorted to as falling within the scope of the invention.

100: Rain water storage tank 110: Overflow pipe
112: drain pipe 120: drain pipe
122: Drain valve 200:
210: sprinkler 220: automatic opening / closing valve
230: filter unit 300: temperature sensor
400: control unit 500: solar panel
600: Storage battery 700: Floating plant
710: float

Claims (7)

A rainwater reservoir for storing the rain that is installed on the roof of the building;
A spraying pipe connected to the rainwater storeroom and having a sprinkler at a predetermined interval so as to spray rainwater stored on the bottom of the rooftop on the entire roof;
A temperature sensor installed on the surface of the roof for measuring the temperature of the roof;
A controller for controlling driving of the sprinkler so that the rainwater is sprayed over the entire roof of the roof when the temperature measured by the temperature sensor is out of a preset temperature;
A solar panel installed on an outer wall of the rainwater storage and converting solar energy into electrical energy,
A battery for storing electric energy produced from the solar panel to supply power;
A building temperature lowering device utilizing rainwater. The method according to claim 1,
The rainwater storeroom is provided with an overflow pipe for storing the ratio of opening and closing the upper surface and controlling the water level of the rainwater to prevent the stored rainwater from overflowing to the outside, and a drain pipe for draining the stored rainwater is provided at the lower end Building temperature lowering device using rainwater. The method according to claim 1,
Wherein the outer wall of the rainwater storeroom is formed in a spherical shape so that the solar panel can collect sunlight as much as possible. The method according to claim 1,
And a floating plant for improving water quality is vegetated in the rainwater pool. 5. The method of claim 4,
Wherein the floating plant is vegetated on float, and the float is provided in a grid-like plate. 6. The method of claim 5,
The inner diameter of the upper end portion and the diameter of the lower end portion may be the same or may be larger than the diameter of the lower end portion to facilitate the discharge of the floating plants and floating bodies, Wherein the lower end of the rainwater has a smaller diameter than the lower end of the rainwater. The method according to claim 1,
And a filter unit for filtering the foreign substances contained in the rainwater stored in the inlet of the discharge pipe connected to the rainwater storage.

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