KR101504224B1 - Control apparatus for indoor temperature of building by using water - Google Patents

Abstract

The present invention relates to an indoor temperature control device for a building by using fresh water. The indoor temperature control device comprises a fixing plate installed on the inner wall surface of a building; a support box having a fresh water inlet installed on one side of the fixing plate and having the fresh water flowing from the outside on one side, a fresh water outlet for discharging the coming fresh water to the outside, and an accommodation space inside; a fixing unit, which penetrates one side of the support box and allows the support box to be fixed to one side of the fixing plate by being fixed to one side of the fixing plate; a fresh water passage where fresh water is moved inside; and a fresh water passing pipe, which is installed inside the accommodation space of the support box, and which is connected to the fresh water inlet on one side and connected to the fresh water outlet on the other side. According to the present invention, when the fresh water provided to the fresh water supply place inside the building passes through the wall of the building or the roof, the fresh water can be provided to each fresh water supply place. Therefore, the temperature of the wall, which directly affects the inner temperature of the building, can be controlled, so energy consumption caused by the continuous operation of an air conditioning device or a boiler can be greatly saved.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for controlling indoor temperature of a building using fresh water,

The present invention relates to a room temperature control system for a building using fresh water, and more particularly, to a system and method for controlling a temperature of a building which directly affects a room temperature of a building using fresh water stored in a storage space, The present invention relates to a room temperature control system for a building using fresh water, which can greatly reduce energy consumption due to continuous operation of an air conditioner or a boiler.

In general, the finishing materials used in the walls of buildings are usually used for waterproofing, insulation, and soundproofing purposes. Recently, in the present time when climate change becomes serious, the period of spring and autumn in the four seasons is remarkably shortened, And the period of winter increases, the heating and cooling costs inside the building are increasing due to the severe cold and heat, and the nation is also suffering from the burden of supplying electricity or petrochemical energy.

In the case of the summer, the temperature of the building wall increases due to the thermal energy of the sun, and as the heat from the building wall is released into the interior of the building, In winter, the temperature of the building wall is also lowered by the surrounding air temperature of the building, and the indoor temperature of the building is lowered due to heat exchange between the building wall and the indoor air inside the building.

That is, the indoor temperature of the building changes according to the temperature of the building wall. Even if the indoor air temperature is lowered through the air conditioner or the indoor air temperature is increased through the boiler, the indoor temperature of the building is temporarily controlled only , When the temperature of the building wall continuously increases or decreases due to the external environment, the air conditioner or the boiler must be continuously operated to control the temperature of the building interior.

On the other hand, some people want to lower the wall temperature of the building by spraying water on the wall or roof of the building in summer. However, in order to lower the wall temperature of the building, the water must be sprayed continuously and the water consumption to lower the temperature of the building wall There has been a problem that remarkably increases.

The object of the present invention is to solve the above problems and to provide a method of controlling the temperature of a building that directly affects a room temperature of a building using fresh water stored in a storage space, Which can greatly reduce the energy consumption due to the continuous operation of the air conditioner or the boiler.

According to an aspect of the present invention, there is provided a water supply system for a building, comprising: a fixing plate installed on an inner wall surface of a building; and a water inlet and a water inlet, both of which are fixed to one side of the fixing plate, A support box having a receiving space formed therein and having a fresh water outlet formed therein for discharging fresh water to the outside and a support box fixed to one side of the fixing plate and fixed to one side of the fixing plate, And a fresh water moving pipe which is provided in the receiving space of the support box and has one end connected to the fresh water inlet and the other end connected to the fresh water outlet, The present invention provides a room temperature control device for a building using fresh water.

The fresh water moving pipe is preferably bent at least once inside the support box.

In addition, the support box may be provided so as to be spaced apart from the fixation plate, and a space portion may be formed between the fixation plate and the support box.

The desalination apparatus may further include a pressure transmission unit installed at one side of the fresh water moving path to move the fresh water upward from the lower side of the building along the fresh water moving pipe.

The support box may further include a soft filler filled between the support box adjacent to the support box and the support box when the support box is provided at a side of the fixation plate.

According to the present invention, the fresh water supplied to each fresh water supply source in the building is supplied to each fresh water supply source while passing through the wall, bottom surface or roof of the building, so that the wall temperature of the building, The energy consumption due to the continuous operation of the air conditioner or the boiler can be greatly reduced.

1 is an exploded perspective view of a room temperature control system for a building using fresh water according to an embodiment of the present invention,
FIG. 2 is a sectional view of a room temperature control system for a building using fresh water according to an embodiment of the present invention;
3 is a view illustrating an operation of an indoor temperature control apparatus for a building using fresh water according to an embodiment of the present invention,
4 illustrates various fresh water movement patterns in accordance with one embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view of a room temperature control apparatus using fresh water according to an embodiment of the present invention, and FIG. 2 is a sectional view of a room temperature control apparatus using fresh water according to an embodiment of the present invention.

1 to 2, an apparatus 1 for controlling indoor temperature of a building using fresh water according to an embodiment of the present invention includes a fixing plate 10, a support box 20, a filler 30, Fixing means (40) and a fresh water moving pipe (50).

The fixing plate 10 is formed in a substantially plate shape and is fixed firmly to the inner wall surface of the building and fixed to the support box 20 so as to be easily installed on the inner wall surface of the building, Providing a fixed area of the means 40 and providing a flat surface.

The support box 20 is formed in a box shape of a rectangular parallelepiped having a large surface area and has a housing space 21 in which a fresh water moving pipe 50 to be described later is installed. A fresh water inflow port 22 into which the inflowed fresh water is discharged and a fresh water discharge port 23 through which the inflowed fresh water is discharged to the outside are formed.

The support box 20 provides an installation area of the fresh water moving pipe 50 and is heat-exchanged with a room temperature of the building through a large surface area when the temperature of the fresh water is transferred from the fresh water moving pipe 50, It is preferable to be made of a metal material having high heat transfer efficiency such as copper and aluminum which can control the temperature more easily. In order to increase the efficiency of blocking heat or cool air transmitted from the wall of the building, Is formed of a material having a high heat insulating efficiency and the surface of the building facing the room is formed of a material having a high heat transfer efficiency.

On the other hand, a plurality of support boxes 20 are provided on one side of the fixing plate 10 so as to correspond to the shape of the building wall body, and the fresh water discharge port 23 and the fresh water discharge port 23 of the neighboring support box 20, The installation worker of the support box 20 is provided with the fresh water inlet 22 of each support box 20 installed in the fixed plate 10 and the fresh water inlet 22 of the fresh water By setting the direction of the discharge port 23, the movement pattern of the fresh water can be set according to the environmental conditions.

The filler 30 is filled between the neighboring support box 20 and the support box 20 and basically serves to interconnect the plurality of support boxes 20 on which the fixture plate 10 is installed, When a soft material such as urethane is used, the support box 20 is caused to flow by an external force to collide with the neighboring support box 20, thereby preventing the support box 20 from being damaged or damaged.

One end of the fastening means 40 passes through one side of the support box 20 and one end of the fastening means 40 is fixedly coupled to one side of the fastening plate 10 to firmly fasten the support box 20 to one side of the fastening plate 10 It plays a role of fixing.

The reason why the support box 20 is installed so as to be spaced apart from one side of the fixing plate 10 is that the fixing box 40 is installed so that the supporting box 20 is spaced apart from one side of the fixing plate 10 And a space formed between the support box 20 and the fixing plate 10 to form a heat insulating layer of heat or cold transmitted from the wall of the building.

The fresh water moving pipe 50 is formed in a substantially rectangular pipe shape and is provided inside the support box 20 with one end connected to the fresh water inlet 22 and the other end connected to the fresh water outlet 23.

The fresh water moving pipe 50 is provided with a fresh water moving path to provide the moving path of the fresh water flowing through the fresh water inlet 22 and to transmit the temperature of the moving fresh water to the support box 20, So that the indoor air of the indoor heat exchanger can be heat-exchanged.

It is preferable that the fresh water moving pipe (50) is formed of a metal material having high heat transfer efficiency like the support box (20).

In addition, since the freshwater moving pipe 50 is bent at least once on one side accommodated in the support box 20, it is preferable that the time for transferring the temperature of the fresh water to the support box 20 can be increased.

In this embodiment, the fresh water moving pipe 50 is described as a tubular body separate from the supporting box 20. However, the fresh water moving tube 50 of the present invention is not limited thereto, It can be integrally formed with the support box 20 through injection at that time.

On the other hand, when the potential energy of the water falling down from the water storage tank installed on the roof of the building is utilized, a separate press-feeding device 60 is not required. However, when the fresh water is to be moved upward from the bottom of the building A press-feeding device 60 for pressurizing the fresh water is required.

Here, a general pump may be used as the pressure-feeding device 60. Such a pressure-feeding device 60 is well known to those skilled in the art so that it can be purchased and used commercially. And detailed description of the configuration is omitted.

FIG. 3 is a view illustrating an operation of an indoor temperature control system for a building using fresh water according to an embodiment of the present invention, and FIG. 4 is a diagram illustrating various fresh water movement patterns according to an embodiment of the present invention.

The operation of the indoor temperature control apparatus 1 using fresh water according to an embodiment of the present invention will now be described with reference to FIGS. 3 and 4. FIG.

First, when desalination water is to be stored in a fresh water storage tank installed on the roof of a building, fresh water supplied from the outside flows through the fresh water inlet 22 of the support box 20 located in the lower portion of the plurality of support boxes 20 do.

Fresh water flowing through the fresh water inlet port 22 is transported by the press transfer means and moved along the fresh water transfer pipe 50 and is transferred along the fresh water transfer pipe 50 to transfer heat or cool air to the support box 20.

In this case, for example, when the building wall W is heated by the sun's heat in summer, and the heat is released from the building wall W to the building interior, the heat is firstly insulated by the space portion, The temperature of the indoor space W can be easily adjusted by being discharged into the indoor space of the building in a state where the temperature of the building wall W is significantly lowered as the secondary insulation is performed by the support box 20 whose temperature is lowered by the fresh water .

As shown in FIG. 4, the fresh water flowing into the fresh water moving pipe 50 passes through the plurality of supporting boxes 20, and the installation worker of the support box 20 moves the fresh water in the moving pattern designed in consideration of the working environment, That is, inside the support box 20, as shown in Fig.

The fresh water passing through the fresh water moving pipe (50) is moved to the fresh water storage tank installed on the roof of the building and stored in the fresh water storage tank.

On the other hand, when the fresh water is supplied from the fresh water storage tank to each use place in the building, the fresh water can be used as the fresh water supply path, and the fresh water can be discharged by using the potential energy of the fresh water, It is possible to greatly reduce electric power for moving the fresh water and to significantly reduce the temperature of the heat released from the building wall W to the inside of the building.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications and variations without departing from the spirit and scope of the invention. Accordingly, the appended claims are intended to cover such modifications or changes as fall within the scope of the invention.

1: Room temperature control system of building using fresh water 10: Fixing plate
20: support box 21: accommodation space
22: fresh water inlet 23: fresh water outlet
24: Connection hose 30: Filler
40: fixing means 50: fresh water moving pipe
60:

Claims (5)

A fixing plate installed on an inner wall surface of the building;
A support box fixedly installed on one side of the fixing plate and having a fresh water inlet for receiving fresh water from the outside and a fresh water outlet for discharging the fresh water to the outside,
Fixing means passing through one side of the support box and fixed to one side of the fixing plate to fix the supporting box to one side of the fixing plate; And
And a fresh water moving pipe formed in the receiving space of the support box and having one end connected to the fresh water inlet and the other end connected to the fresh water outlet,
Wherein the support box is spaced from the fixing plate so that a space is formed between the fixing plate and the support box.
The method according to claim 1,
Wherein the fresh water moving pipe is bent at least once inside the support box.
delete The method according to claim 1,
Further comprising a pressure transmitting means installed at one side of the fresh water moving path to move the fresh water upward from the lower side of the building along the fresh water moving pipe.
The method according to claim 1,
Further comprising: a soft filler filled between the adjacent support box and the support box when the support box is installed on one side of the fixing plate.

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