KR20170093766A - Building exterior wall heating system using storm water - Google Patents

Abstract

The present invention relates to a building exterior wall heat-shielding system using rainwater storage. More specifically, a plate water storage tank containing rainwater is installed in an exterior wall surface of a building, and a rainwater feeding guide plate installed in a front surface thereof to be separated at an interval therefrom to feed rainwater driving to a building side to the plate water storage tank. As such, even when rainfall is low, rainwater falling to a rooftop and a roof and rainwater driving to a building side is able to be stored together in the plate water storage tank to improve a rate of water storage. The plate water storage tank stores rainwater on the outside of the exterior wall of a building. The rainwater feeding guide plate covers the exterior wall surface of a building, thus solar heat and winter cold air are blocked from being transferred to a building exterior wall. In addition, a solar battery module is installed in the outside of the rainwater feeding guide plate, relieving the burden of electric bills at home. A water storage space body to collect and store rainwater falling from a rooftop and a roof is installed in the exterior wall of a building (1). The rainwater feeding guide plate (20) is installed in an interval from an outer surface of the water storage space body to form a front water storage unit (27) on the outside of the water storage space body. Several flowing water feeding holes (21) are formed on the rainwater feeding guide plate (20) to make rainwater driving to a building (1) side flow into the front water storage unit (27) by downwardly flowing along the outer surface of the rainwater feeding guide plate (20).

Description

Background of the Invention Field of the Invention The present invention relates to a building exterior wall heating system using storm water storage,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a building exterior wall heating system using storm water storage, and more particularly, By installing the inflow guide plates at intervals, rainwater falling on the roof and the roof and rainwater falling on the building side can be stored together in the plate-type water storage tank even when the amount of rainfall is small and the rainwater can be stored outside the outer wall of the building The plate-type water tank and the rainwater inflow guide plate cover the exterior wall surface of the building to prevent the solar heat and the cold of the winter season from being transmitted to the exterior wall of the building. In addition, a solar cell module is installed outside the rainwater inflow guide plate, So that the burden on the user can be alleviated.

Conventionally, the invention is known from the patent publication No. 10-0523751 (title of invention: excellent building collecting tank).

1, a plurality of water storage tanks 3 for storing water on the entire outer wall 2 of a high-rise building 1 such as an apartment are installed axially from the ground to the roof of the building And the rainwater falling from the roof of the building 1 in which the plurality of water storage tanks 3 are installed is stored in the respective water storage tanks 3 and stored.

However, the rainwater falling from the sky does not fall only in the vertical direction, and the rainwater falls off in the oblique direction due to the wind, so that it falls on the roof of the building naturally. However, in the case of the high-rise building, since the outer wall area is much wider than the roof, Only a small amount of rainwater was forced to fall.

Therefore, the conventional invention has a problem that it can not collect rainwater which is hitting the outer surface of the high-rise building from the outside of the roof at all, and a large amount of rainwater storage space is installed by putting a large amount of the facility cost on the outer wall of the high- There is a problem that the storage amount of the rainwater is very low when the rainfall amount is small.

Invention Patent No. 10-0523751 (title of invention: excellent building water collecting tank)

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a rainwater inflow guide plate having a plate-like water reservoir containing rainwater on the outer wall surface of a building, A plate-like water storage tank in which rainwater falling on a roof and a roof and rainwater impinging on a building side are stored together in a plate-type water storage tank so as to increase a water storage rate and rainwater is stored outside an outer wall of a building, And it is a technical object to cover the outer wall surface of the building so as to prevent the solar heat and cold air in the winter season from being transmitted to the outer wall of the building.

In addition, the solar cell module is installed outside the rainwater inflow guide plate of the present invention, so that it is possible to conveniently and effectively use various components to be used for operating the system according to the present invention. In addition, Another technical task is to reduce the burden.

Another technical problem is to include a heat insulating means in the plate-type water reservoir constituting the present invention to prevent the plate-like water reservoir from freezing in the winter season.

According to an aspect of the present invention, there is provided a building exterior wall heating system using storm water, wherein a water storage space for collecting and storing rainwater from a roof and a roof is installed on an exterior wall of a building, The rainwater inflow guide plate is provided with a rainwater inflow guide plate spaced apart from the outer surface of the low-flow hollow body so as to form a front water reservoir outside the low-flow hollow body. Rainwater infiltrated into the building- And a plurality of flow-feeding mouths are formed to flow into the front reservoir while flowing down.

As described above, the building exterior wall heating system using rainwater storage according to the present invention has a plate-type water reservoir containing rainwater on the outer wall surface of a building, and a rainwater inflow By providing the guide plates at intervals, even when the amount of rainfall is small, there is an effect that the rainwater falling on the roof and the roof and the rainwater impinging on the building side can be stored together in the plate type water storage tank to increase the water storage rate. And the rainwater inflow guide plate covers the outer wall surface of the building in a plurality of layers to block the solar heat and the cold air in the winter season from being transmitted to the outer wall of the building so that the indoor temperature does not rise excessively during the summer, There is a very special effect that does not go too low.

In addition, the solar cell module is installed outside the rainwater inflow guide plate to operate the system according to the present invention, and various components used for electricity can be conveniently and effectively used without charging electricity. There is a very realistic effect that can alleviate the burden on electricity usage fees.

In addition, since the plate-type water reservoir constituting the present invention includes the adiabatic means, it is possible to prevent the plate-type water reservoir from freezing in the winter season, and thus the system according to the present invention can be stably used. So that it can prevent a small insect such as a mosquito from living.

1 is a perspective view showing a conventional invention.
2 is a side sectional view showing an embodiment of the present invention.
3 is a side cross-sectional view showing an example of the present invention.
FIG. 4A is a sectional view taken along the line AA in FIG. 3, FIG. 4B is a sectional view taken along the line BB, FIG.
5 is a side sectional view showing a third embodiment of the present invention.
6 (A) is an EE line in FIG. 5, (B) is an FF line, (C) is a GG line, and FIG.
Fig. 7 is a sectional view taken along line II in Fig. 6 (A). Fig.

Hereinafter, a building exterior wall heating system using storm water storage according to the present invention will be described with reference to FIGS. 2 to 7 attached hereto.

As shown in FIG. 2, an embodiment of the present invention is characterized in that a water storage space for collecting and storing rainwater from a roof and a roof 1b is installed in an outer wall 2 of a building 1, ≪ / RTI >

The low-flow hollow body is fixed to the outer wall 2 by forming a plate-like water storage tank 10 in the form of a plate in which a water storage space 15 is formed, and another space portion The rainwater inflow guide plate 20 is installed at an interval from the outer surface of the plate-type water storage tank 10 so that the rainwater inflow guide plate 20 is formed.

The rainwater inflow guide plate 20 is provided with a front space portion 27 between the plate-like water storage tank 10 and the rainwater inflow guide plate 20 so that rainwater infiltrated toward the building 1 flows down along the outer surface of the rainwater inflow guide plate. A plurality of flow milk feeding inlets 21 are formed.

A drainage pipe 4 provided with a valve 5 is provided below the plate type water storage tank 10 and a drainage pipe 4a is provided below the rainwater inflow guide plate 20. And a lower water tank 6 in which rainwater flowing down through the drain pipes 4 and 4a is disposed is provided below the ground on which the rainwater inflow guide plate 20 is installed and on the upper part of the lower water tank 6, (8) provided with a pump (7) for discharging the rainwater contained in the rainwater (6) to the outside.

The solar cell module 30 is installed on the front surface of the rainwater inflow guide plate 20 at a distance from the rainwater inflow guide plate 20 by the installation bracket 31 and injects insecticide into the front space 27 (Not shown) for monitoring the intrusion of a thief and an alarm sound generator (not shown) and a heat insulating material 16 for preventing freezing of water contained in the plate-type water storage tank 10 It can be installed in common in all of the embodiments.

3 to 4 (d). In this case as well, a water storage space for collecting and storing rainwater from the roof and the roof 1b is installed in the building 1, The present invention relates to a building exterior wall heating system using rainwater stored in an outer wall 2 of a building.

3 to 4 (d), the plate-shaped water storage tank 10 is formed in a plate shape in which the water storage space 15 is formed in the water storage space body, A plurality of horizontal partition plates 12 for partitioning the water storage space 15 in the vertical direction are provided in the inside of the water storage space 10 and water storage spaces 15 And upper inlet ports 11 and 11a for allowing the rainwater to flow into the interior of the indoor space.

The upper water inlet 11 of the upper water storage space 15 of the plate type water storage tank 10 receives rainwater from the roof and the roof 1b and flows into the water storage space 15 installed below the upper water storage space 15 The upper inlet 11a formed at the upper part of the water storage space 15 is formed in the front plate-like water storage tank front 13 of the water storage space 15 and flows into the building 1 side, The rainwater flowing over from the water storage space 15 of the water tank 15 flows.

An overflow hole 14 is formed through the front surface 13 of the plate-like water storage tank below the respective upper inlet ports 11 and 11a. Valves 5 are installed in the respective horizontal partition plates 12, A drain pipe (4) provided with a valve (5) is installed below the side water storage space (15).

A rainwater inflow guide plate 20 for allowing rainwater infiltrated toward the building 1 to flow into each of the water storage spaces 15 through respective upper inflow openings 11a is provided in front of the plate- And the rainwater inflow guide plate 20 is provided with a plurality of flow-milk inflow openings 21 through which rainwater flowing down from the outside of the rainwater inflow guide plate 20 flows.

At this time, an inclined guide portion 22 for guiding the inflow of rainwater flowing down from the upper side into the flow-feeding inflow inlet 21 is formed to be upwardly inclined at the lower side of the flow-through inflow inlet 21, and inside the rainwater inflow guide plate 20 The flow water guide portion 23 for guiding the inflow of the rainwater flowing into the front reservoir portion 27 through the flow feeding inlet 21 into the water storage space 15 inside the plate type water storage tank 10 is connected to the upper inlet 11a It is installed to be connected.

A drainage pipe 4a is installed at a lower portion of the rainwater inflow guide plate 20 and a rainwater inflow guide plate 20 is installed at a lower portion of the ground where the plate- A lower water tank 6 in which rainwater is stored is installed and a discharge pipe 8 having a pump 7 for discharging the rainwater contained in the lower water tank 6 to the outside is provided at an upper portion of the lower water tank 6 Respectively.

The solar cell module 30 and the insecticide spraying tube 9 can be installed in the case of this embodiment, a camera and alarm sound generator for monitoring the intrusion of a thief, and a heat insulating material 16 for preventing the freezing of water contained in the plate type water storage tank 10 .

The following describes the three embodiments shown in Figs. 5 to 7 (B), in which the water storage space for collecting and storing rainwater from the roof and the roof 1b is connected to the outer wall 2 of the building 1, And more particularly to a building exterior wall heating system using rainwater storage installed in a building.

The low-flow hollow body is formed with a plate-like water storage tank 10 in the form of a plate in which a water storage space 15 is formed. Inside the plate-type water storage tank 10, several horizontal A vertical guide pipe 17 is vertically arranged in the center of the plate-like water storage tank 10 to divide the water storage space 15 in the left-right direction.

An upper inlet 11 through which the rainwater flows is formed in the upper portion of the upper water storage space 15 and an upper water storage space 15 is formed in the upper left portion of the water storage space 15 And an upper inlet 11a through which rainwater flows are respectively formed.

A slope guide 24 is installed in the vertical guide pipe 17 corresponding to each of the upper inlet 11a to guide the rainwater flowing through the vertical guide pipe 17 into the right water storage space 15. [ And an overflow hole 14 is formed on both sides of the upper portion of the vertical guide pipe 17 at a position lower than the upper inlet 11a and the inclination guide 24 for each layer.

The inclined guide 24 guides the rainwater flowing into the water storage space 15 through the upper inlet 11 and the vertical guide tube 17 in all three embodiments so as not to fall directly onto the water surface to minimize noise , And a drain pipe (4) provided with a valve (5) is installed downward in the lower side water storage space (15).

A rainwater inflow guide plate 20 for allowing rainwater infiltrated toward the building 1 to flow into each of the water storage spaces 15 through respective upper inflow openings 11a is provided in front of the plate- (13).

The rainwater inflow guide plate 20 is provided with several flow-feeding inflow openings 21 through which rainwater flowing down against the outer surface of the rainwater inflow guide plate flows, and a flow-feeding inflow inlet 21 is formed inside the rainwater inflow guide plate 20 The flow water guide portion 23 for guiding the rainwater flowing into the front reservoir portion 27 into the water storage space 15 inside the plate-shaped water storage tank 10 is connected to the upper inlet 11a.

A drainage pipe 4a is installed at a lower portion of the rainwater inflow guide plate 20 and a rainwater inflow guide plate 20 is installed at a lower portion of the ground where the plate- A lower water tank 6 in which rainwater is stored is installed and a discharge pipe 8 having a pump 7 for discharging the rainwater contained in the lower water tank 6 to the outside is provided at an upper portion of the lower water tank 6 Respectively.

In the case of the three embodiments as well, the inclined guide portion 22 formed upwardly inclined below the flow feeding inlet 21 included in the removal example, the solar cell module 30, and the insecticide spraying tube 9. A camera and an alarm sound generator for monitoring the intrusion of a thief, and a heat insulating material 16 for preventing freezing of water contained in the plate-type water storage tank 10 can be provided.

The plate-like water storage tank 10 shown in FIG. 7 (a) and FIG. 7 (b) shows a vertical guide pipe 17 partitioning the water storage space 15 of the plate-like water storage tank 10 to the left and right, A case in which the diaphragm 17a is provided on both sides of the base plate 17 and a vertical guide tube 17 in the form of a square tube are formed by joining the two band-shaped steel plates.

Reference numeral 25 in the reference numerals denotes a drain port formed on the upper surface of the lower water tank 6 and reference numeral 26 denotes a drain port cover net covering the upper portion of the drain port 25 provided in the lower water tank 6.

The operational relationship of the present invention constructed as described above will be described with reference to FIGS. 2 to 7. FIG.

In the embodiment shown in Fig. 2, when the rain from the sky is lowered while the valve 5 provided at the lower part of the plate-type water storage tank 10 is closed, rainwater falling down to the roof of the building 1 and the roof 1b The rainwater flows into the inside of the plate-type water storage tank 10 through the upper inlet 11 formed on the upper side of the plate-type water storage tank 10, and is stored up to the upper side of the plate-like water storage tank 10.

When the rainwater continues to flow into the inside of the plate-type water storage tank 10 even when water is contained in the plate-type water storage tank 10, the water in the plate-type water storage tank 10 The rainwater inflow guide plate 20 and the rainwater inflow guide plate 20. The rainwater inflow guide plate 20 is installed inside the lower water tank 6 through a drain pipe 4a provided below the rainwater inflow guide plate 20.

A plurality of flow milk feeding openings 21 are formed in the rainwater inflow guide plate 20 disposed outside the plate type water storage tank 10 and exposed to the outside. So that the rainwater impinging on the building 1 side collides with the outer surface of the rainwater inflow guide plate 20 and then flows down along the outer surface of the rainwater inflow guide plate 20,

The rainwater flowing downward flows into the flow milking inlet 21 and the amount of the rainwater flowing therefrom is large so that the rapidly flowing rainwater can pass the flow milking inlet 21. However, the rainwater flowing into the rainwater inflow guide plate 20 And the rainwater flowing into the lower side of the rainwater inflow guide plate 20 is contained in the lower water tank 6 through the water pipe 4 below the rainwater inflow guide plate 20. [

like this. When the water is contained in the plate-type water storage tank 10, since the plate-shaped water storage tank 10 containing rainwater and the rainwater inflow guide plate 20 provided at intervals in front of the plate-like water storage tank 10 cover the outer wall surface of the building in multiple layers, The outer wall 2 of the building 1 is not heated by the solar heating and cold cold air can prevent the outer wall of the building from freezing during the winter season.

Further, a heat insulating material 16 including heat shielding paint is provided on the outer surface of the plate-type water storage tank 10 to exert an even better heat shielding effect on the outer wall of the building, and is provided at an interval on the outer surface of the rainwater inflow guide plate 20 The solar cell module 30 also shields the sun and shades the rear surface thereof, thereby further increasing the heat shielding effect.

In addition to storing the rainwater on the outer wall surface of the building, the rainwater is stored in the plate water tank (10) and the lower water tank (6), and the water can be recycled. (10) is opened, the valve (5) provided at the lower part of the plate-shaped water storage tank (10) is opened and sent down to the lower water tank (6).

Then, when the valve 5 provided at the lower part of the plate-type water storage tank 10 is closed, new rainwater can be contained in the plate-type water storage tank 10 by the above action.

Hereinafter, the operation of the present invention will be described with reference to FIGS. 3 to 4 (D).

In this case, when the rainfall is reduced while each of the valves 5 provided inside the plate-type water storage tank 10 is closed, the rainwater falling down to the roof and the roof is passed through the upper inlet 11 formed on the upper side of the plate- And then flows into the plate-type water storage tank 10.

At this time, since the inner water storage space 15 of the plate-type water storage tank 10 is partitioned by the respective horizontal partition plates 12, the rainwater is first stored in the upper water storage space 15, When all the rainwater is contained in the water storage space 15 on the upper side and the rainwater continues to flow, the rainwater flows over the front surface of the plate-like water storage tank 13 beyond the overflow hole 14 on the upper side.

At this time, a rainwater inflow guide plate 20 is provided at an interval in front of the plate-type water storage tank 10 so as to flow over the front water storage portion 27, and on the upper part of the lower water storage space 15 therebelow, And the flow water guide portion 23 is formed in communication with the upper inlet 11a so that the rainwater flows into the (intermediate) water storage space 15. As shown in FIG.

In the case where the present invention is formed into a multi-layered structure (multi-layered structure), if the entire water storage space 15 becomes full water level while flowing down from top to bottom and the rainwater is also contained in the bottom water storage space 15 And flows into the front reservoir portion 27 through the overflow hole 14 and is contained in the lower water tank 6 through the drain pipe 4a.

In this case, several water storage spaces 15 are formed in the upper and lower direction of the plate-like water storage tank 10 in a multi-layered structure, and an overflow hole 14 is formed on the upper side of each of the water storage spaces 15, 14).

Also in this case, the rainwater flowing downward while hitting the rainwater inflow guide plate 20 flows into the plurality of flow-through inflow inlets 21 formed in the rainwater inflow guide plate 20 when the rainwater flows into the building 1 side, The inflow amount of the rainwater is increased by the guide of the inclined guide portion 22 and the rainwater flowing into the flow-feeding inflow inlet 21 is also supplied to the water storage space 15 through the upper inflow opening 11a. The rainwater flows into the rainwater.

In the case of rainfall, when the rain falls and the water contained in the plate-type water storage tank 10 is to be replaced with new rainwater, each valve 5 provided in the plate-type water storage tank 10 is opened from the top to the bottom The rainwater contained in the upper side water storage space 15 is continuously lowered into the lower intermediate water storage space 15 and the lower water storage space 15 below the lower water storage space 15, The rainwater flowing into the lower water tank 6 flows into the lower water tank 6 through the water pipe 4 having the water pipe 5 and the rainwater in the front water storage portion 27 is stored in the lower water tank 6 through the water pipe 4a.

When the respective valves 5 are then locked, the rainwater is successively contained in the lower water storage space 15 from the upper water storage space 15 of the plate-like water storage tank 10.

Hereinafter, the operational relationship will be described with respect to the three embodiments shown in Figs. 5 to 7 (B).

The rainwater falling down to the roof and the roof is discharged through the upper side inlet 11 on both sides formed on the upper side of the plate type water storage tank 10, 10).

6 (a), in the three embodiments, the water storage space 15 inside the plate-type water storage tank 10 is divided into upper and lower parts and left and right by the respective horizontal partition plates 12 and the vertical guide pipes 17, The overflow hole 14 is formed on both sides of the upper portion of the vertical guide pipe 17 for each layer and the vertical guide pipe 17 corresponding to each upper inlet 11a is provided with rainwater And an inclination guide 24 for guiding the flow of the water into the right water storage space 15 is provided.

In this state, when the rainwater flows into the both side water storage spaces 15 located on the upper side and the rainwater reaches the full water level, the rainwater descends downward along the vertical guide pipe 17 through the both side overflow holes 14, Guided by the inclined guide 24 provided on the right side from the upper side of the vertical guide pipe 17 and stored in the water storage space 15 of the intermediate layer.

When the intermediate layer reaches the full water level, the water flows down the vertical guide pipe 17 beyond the overflow hole 14 formed on the upper side of the water storage space 15 and then flows downward to the right side of the lower water storage space 15 And is contained in the lower side water storage space 15 by another inclined guide 24 installed.

In this state, even if water is completely filled in the water storage space 15 at the lower right, if the rainwater continues to flow into the lower water tank 6 through the overflow hole 14 formed on the upper side of the lower vertical guide pipe 17, do.

Also in this case, the rainwater flowing downward while hitting the rainwater inflow guide plate 20 flows into the plurality of flow-through inflow openings 21 formed in the rainwater inflow guide plate 20 when the rainwater flows into the building 1 side The inflow amount of the rainwater is increased by the guide of the inclined guide portion 22. The rainwater flowing into the flow-feeding inflow inlet 21 is also supplied through the upper inflow port 11a, The rainwater flows into the space 15.

In the third embodiment, when the rain is reduced and the water contained in the plate-type water storage tank 10 is to be replaced with new rainwater, the respective valves 5 provided inside the plate-type water storage tank 10 are opened to open the water storage spaces 15 The stored rainwater continues to descend through the lower water storage spaces 15 and then flows through the water storage tank 4 having the valve 5 in the lowest water storage space 15 to the lower water tank 6 .

When the respective valves 5 are then locked, the rainwater is successively deposited from the upper water storage space 15 to the lower water storage space 15 of the plate-like water storage tank 10.

When all of the first, second, and third embodiments of the present invention are filled with water in the plate-type water storage tank 10, the plate-like water storage tank 10 containing rainwater and the rainwater inflow guide plate 20 provided at a distance in front of the plate- The outer wall 2 of the building 1 is not heated by the sun's heat. In the winter, cold cool air causes the outer wall of the building to freeze, and the plate-like water storage tank 10 is frozen It is possible to block something.

In addition, a heat insulating material including heat shield paint is provided on the outer surface of the plate-type water storage tank 10 to exert an even better heat shielding effect on the outer wall of the building, and a solar cell module (30) shields the sunlight and shadows behind the solar cell module (30) to further increase the heat shielding effect.

The rainwater inflow guide plate 20 and the solar cell module 30 are installed at intervals by the installation bracket 31 even when the solar cell module 30 is installed on the front surface of the rainwater inflow guide plate 20, The rainwater is sufficiently blown on the outer surface to the water tank 20.

Accordingly, since the rainwater striking the rainwater inflow guide plate 20 strikes against the front surface of the rainwater inflow guide plate 20 and flows into the milk feeding inlet 21, the rainwater can be stored very efficiently, A pump or a heating means such as a surface heating element may be provided on the surface in contact with the wall if necessary, or a camera and an alarm sound generator for monitoring the intrusion of a thief may be used as electricity generated by the solar cell module 30, It can be used as an auxiliary power source.

The pesticide spraying tube 9 can be installed in the present invention because the insecticide spraying tube 9 can be installed in case the rainwater is contained in the present invention for a long time because insects such as mosquito larvae can live there. The cap provided at the end of the pesticide spraying tube 9 is opened.

Then, when the tip of the pest controller is connected to the open end of the pesticide spraying tube 9 to spray the pesticide, the pesticide introduced into the pesticide spraying tube 9 is divided into a plurality of small And sprayed with holes to spray the insecticide into the inner space of the present invention.

1: Building 2: Outer wall 3: Water storage tank
4: Drain pipe 5: Valve 6: Lower water tank
7: Pump 8: Discharge tube 9: Insecticide sprayer
10: plate type water tank 11: upper inlet 12: horizontal plate
13: Plate-type water tank front 14: Overflow hole 15: Water storage space
16: Insulating material 17: Vertical guide pipe 20: Rainwater inflow guide plate
21: flow feeding inlet 22: inclined guide portion 23: flow water guide portion
24: inclined guide 25: drain hole 26: drain hole cover mesh
27: front space part 30: solar cell module 31: mounting bracket

Claims (7)

Claims [1] A building exterior wall heating system using storm water storage installed in an outer wall of a building (1) for collecting and storing rainwater from a roof and a roof,
A rainwater inflow guide plate 20 is installed on the outside of the low-flow hollow body so as to be spaced from the outer surface of the low-flow hollow body so as to form a front reservoir portion 27. In the rainwater inflow guide plate 20, And a plurality of flow-milking inlets (21) for flowing the rainwater flowing downward along the outer surface of the rainwater inflow guide plate (20) to the front reservoir (27) Building exterior wall heating system. Claims [1] A building exterior wall heating system using storm water storage installed in an outer wall of a building (1) for collecting and storing rainwater from a roof and a roof,
The low-flow hollow body is formed with a plate-like water storage tank 10 in the form of a plate in which a water storage space 15 is formed. Inside the plate-type water storage tank 10, several horizontal Upper side inflow ports 11 and 11a for allowing rainwater to flow into the water storage space 15 are respectively formed on the respective water storage spaces 15 partitioned by the horizontal partition plate 12 , An overflow hole (14) is formed through the front surface (13) of the plate-like water storage tank below each of the upper inflow ports (11, 11a)
A rainwater inflow guide plate 20 for allowing rainwater infiltrated toward the building 1 to flow into each of the water storage spaces 15 through respective upper inflow openings 11a is provided in front of the plate- The rainwater inflow guide plate 20 is provided with a plurality of flow-milk inflow openings 21 through which rainwater flowing down against the outer surface of the rainwater inflow guide plate 20 flows, and the rainwater inflow guide plate 20 Is guided into the water storage space (15) inside the plate-type water storage tank (10) through the flow-feeding inlet (21) to flow the rainwater flowing between the rainwater inflow guide plate (20) and the plate- And a guide part (23) is installed to be connected to the upper inlet (11a). Claims [1] A building exterior wall heating system using storm water storage installed in an outer wall of a building (1) for collecting and storing rainwater from a roof and a roof,
The low-flow hollow body is formed with a plate-like water storage tank 10 in the form of a plate in which a water storage space 15 is formed. Inside the plate-type water storage tank 10, several horizontal A vertical guide pipe 17 is vertically installed in the center of the plate-like water storage tank 10 to divide the water storage space 15 in the left-right direction;
An upper inlet 11 into which rainwater flows is formed at an upper portion of the upper water storage space 15 and a water storage space 15 of the corresponding layer is formed at a left upper portion of the remaining water storage space 15 except for the upper water storage space 15 And the vertical guide pipe 17 corresponding to each of the upper inlet ports 11a is formed with a rainwater flowing down through the vertical guide pipe 17 into the right water storage space 15) for guiding the inflow of the air into the room;
An overflow hole 14 is formed at a predetermined position on both sides of the vertical guide pipe 17 at a lower position than the upper inlet 11a and the inclination guide 24 for each layer;
A rainwater inflow guide plate 20 for allowing rainwater infiltrated toward the building 1 to flow into each of the water storage spaces 15 through respective upper inflow openings 11a is provided in front of the plate- The rainwater inflow guide plate 20 is provided with a plurality of flow-milk inflow openings 21 through which rainwater flowing down against the outer surface of the rainwater inflow guide plate 20 flows, and the rainwater inflow guide plate 20 Is guided into the water storage space (15) inside the plate-type water storage tank (10) through the flow-feeding inlet (21) to flow the rainwater flowing between the rainwater inflow guide plate (20) and the plate- And a guide part (23) is installed to be connected to the upper inlet (11a). The apparatus according to claim 1, wherein the low-flow hollow body is formed with a plate-like water storage tank (10) in the form of a plate having a water storage space (15) formed therein, (4a) is installed at a lower portion of the rainwater inflow guide plate (20);
A lower water tank 6 in which rainwater descending through a drain pipe 4 and 4a is installed is provided below the ground where the plate water tank 10 and the rainwater inflow guide plate 20 are installed, And a discharge pipe (8) having a pump (7) for discharging rainwater contained in the lower water tank (6) to the outside is installed on the upper part of the building. The solar cell module according to any one of claims 1 to 3, wherein the solar cell module (30) is installed on the front surface of the rainwater inflow guide plate (20) with an installation bracket (31) spaced from the rainwater inflow guide plate ;
And an inclined guide portion (22) inclined upward is formed on the lower side of the flow feeding inlet (21). The system according to any one of claims 1 to 3, wherein a heat insulating material (16) is provided outside the plate type water storage tank (10). The water treatment system according to claim 2 or 3, wherein a valve (5) is provided in each of the horizontal partition plates (12), and a drain pipe (4) provided with a valve (5) Downward,
A drain pipe 4a is installed at a lower portion of the rainwater inflow guide plate 20 and a rainwater flowing down through the drain pipe 4 and 4a is installed below the ground where the plate water tank 10 and the rainwater inflow guide plate 20 are installed. And a drain pipe 8 having a pump 7 for discharging the rainwater contained in the lower water tank 6 to the outside is installed at an upper portion of the lower water tank 6 Wherein the building exterior wall heating system comprises rainwater storage.

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