KR101529302B1 - Cold and warmth wind pannel device of the future - Google Patents

Abstract

A future cold and warm air panel device comprises: a heating space formed inside a basic frame and heating air with sunlight entered from an external glass to supply the warm air to a supply fan; a photovoltaic unit to generate electricity in the heating space using the sunlight; and a cooling space arranged in the lower part of the photovoltaic unit and cooling the air using evaporation heat generated in an evaporation space to supply the cold air. The future cold and warm air panel device is to supply the air in a state where the internal humidity of the air cooled by the evaporation heat is lowered.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cold-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a future type cold / warm air panel device, and more particularly, to a panel device capable of supplying cold air and warm air using solar heat and radiant heat.

Existing energy sources based on fossil fuels cause risks such as greenhouse gas emissions, noise, and environmental breakdowns that cause global warming, and are expected to be exhausted in a few decades due to the limit of reserves.

In order to solve the problems of fossil fuels, efforts are being made to produce power using various alternative energy sources such as solar heat, hydroelectric power, and wind power. Among alternative energy, solar energy has an availability of about 2,980 times of the world's annual energy requirement, and unlike site conditions or other wind or seawater power, it has the advantage of being free to install and low maintenance cost.

Therefore, in Korea, where there are few resources, efforts to actively utilize solar power are increasing in terms of resource security.

On the other hand, the solar cell used in the solar module decreases the electromotive force as the temperature rises, which may cause the efficiency of the solar power generation to deteriorate in an environment of high ambient temperature.

Therefore, it is very important to maintain the efficiency of solar power generation by cooling the solar module in an environment with a large amount of solar radiation as in the summer, and it is important to improve the durability of the solar module by preventing the solar module from overheating.

On the other hand, Korean Patent No. 0810720 discloses a cooling and heating air conditioner capable of supplying cold air and hot air using a heat pipe by using heat of vaporization. The conventional air conditioning and heating air conditioner is configured to supply cold air and hot air using the heat of vaporization of the cooling water by using a thermoelectric semiconductor and a heat pipe without using a refrigerant.

However, the above-described conventional heating / cooling apparatus has the following problems.

First, since the conventional cooling / heating apparatus directly supplies cold air generated by directly cooling the cooling water, there is a problem that the humidity in the cold air is so high that the apparatus is corroded or operation error occurs.

In addition, the conventional cooling / heating apparatus has a problem in that it has a limitation in driving a solar panel because it has a very high output for driving by using power generated by using sunlight.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method of reducing humidity inside air cooled by using heat of vaporization.

Another object of the present invention is to minimize the power for supplying cold air and hot air to be driven by sunlight.

According to an aspect of the present invention, there is provided a futuristic cold / warm air panel device comprising: a base frame; A warm air region provided in the basic frame for condensing solar light to heat the air; A cold air area connected to the lower part of the warm air area to cool the air using the heat of vaporization of moisture and a solar unit provided in the warm air area to produce electricity by sunlight, It is preferable that the generated warm air and the cold air generated by the cold air region are supplied to the cooling / heating panel by using electricity generated by the solar light unit.

The hot air region of the present invention includes an outer glass provided on an outer surface of the base frame; A heating space formed between the solar light units at the lower part of the outer glass to heat the air; A warm air supply fan provided on one side of the heating space, and a first heat insulator provided under the solar light unit.

The hot air region of the present invention preferably includes a reflection plate provided on the upper surface of the first thermal insulation material and an air movement flow path formed in a space separated between the reflection plate and the solar light unit.

The outer glass of the present invention preferably includes a plurality of beads for refracting sunlight introduced from the outside and entering the inside of the basic frame and for reflecting the sunlight reflected after being incident into the basic frame.

The cooling zone of the present invention includes a cooling space formed below the first thermal insulation material; A heat transfer plate connected to a bottom surface of the cooling space; A plurality of heat dissipation fins spaced from and connected to the heat transfer plate; A cold air supply fan connected to one side of the cooling space; A vaporization space formed in the lower part of the heat transfer plate for cooling the air using heat of vaporization of moisture, and a second insulation material provided below the vaporization space.

The vaporization space of the present invention is preferably configured to vaporize the water sprayed by the water spray.

The basic frame of the present invention preferably includes a connection path connecting the heating space, the cooling / heating panel, and the vaporization space, and connecting the cooling space with the air conditioning panel and the air movement flow path.

The connection path of the present invention preferably includes a bypass circuit for controlling the air supplied to the cooling / heating panel to bypass.

According to the present invention, since the vaporization space in which the moisture is vaporized and the cooling space for cooling the air by the radiating fins are separated from each other, the humidity in the cold air can be lowered and supplied, And the fan in the cooling space are driven to reduce the maintenance cost.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a layout diagram showing the arrangement of a future type cold / warm air panel apparatus according to the present invention; Fig.
2 is a sectional view showing a preferred embodiment of a future type cold / warm air panel device according to the present invention.
3 is a partial cross-sectional view showing a bead configuration of a future type cold / warm air panel apparatus according to the present invention.
4 is a configuration view showing an operation state of a future type cold / warm air panel apparatus according to the present invention.

Further objects, features and advantages of the present invention will become more apparent from the following detailed description and the accompanying drawings.

Before describing the present invention, the present invention should not be construed as limited to the embodiment (s) described below, but may be embodied in various other forms. The following embodiment (s) are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

When an element is described as being placed on or connected to another element or layer, the element may be directly disposed or connected to the other element, and other elements or layers may be placed therebetween It is possible. Alternatively, if one element is described as being placed directly on or connected to another element, there can be no other element between them. The terms first, second, third, etc. may be used to describe various items such as various elements, compositions, regions, layers and / or portions, but the items are not limited by these terms .

The terminology used herein is for the purpose of describing the particular embodiment (s) only and is not intended to be limiting of the invention. Furthermore, all terms including technical and scientific terms have the same meaning as will be understood by those skilled in the art having ordinary skill in the art, unless otherwise specified.

These terms, such as those defined in conventional dictionaries, shall be construed to have meanings consistent with their meanings in the context of the related art and the description of the present invention, and are to be interpreted as being ideally or externally grossly intuitive It will not be interpreted.

The embodiment (s) of the present invention are described with reference to cross-sectional illustrations which are schematic illustrations of the ideal embodiment (s) of the present invention. Accordingly, changes from the shapes of the illustrations, such as changes in manufacturing methods and / or tolerances, are those that can be expected. Accordingly, the embodiment (s) of the present invention are not to be construed as limited to the specific shapes of the regions illustrated by way of illustration, but rather to include deviations in shapes, and the regions described in the Figures are entirely schematic, Are not intended to illustrate the exact shape of the area and are not intended to limit the scope of the invention.

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

1 to 3 show a preferred embodiment of a future type cold / warm air panel device according to the present invention.

As shown in FIG. 1, the cold air and the warm air supplied by the future type cold / warm air panel device 100 of the present invention are supplied to a plurality of cooling / heating panels 10 installed on a floor or a wall of an indoor space, And may be configured to be recovered to the cold-wind panel device 100 of the invention or to be discharged to the outside.

The cooling / heating panel 10 is installed so that a plurality of the cooling / heating panels 10 are connected to each other. Since the inside and the outside of the cooling / heating panel 10 are communicated with each other, Can be performed.

The cold / warm air panel device 100 of the present invention can be installed continuously outside the building, which is in contact with the outside air, and is installed on the side facing the south so that sunlight can be incident on the cold / .

The cross-sectional structure of the cold-wind panel device 100 of the present invention is shown in Fig. As shown in the figure, the cold / warm air panel device 100 of the present invention may include a hot air area A for generating hot air and a cold air area B for generating cold air inside the basic frame 110.

The hot air region A is located at the outermost portion of the basic frame 110 and includes an outer glass 120 contacting the outside air; A solar light unit 130 positioned below the outer glass 120 to generate power using solar light introduced from the outer glass 120; And a heating space 140 formed between the outer glass 120 and the solar unit 130.

The outer glass 120 may be made of tempered glass so as not to be damaged by an external impact. In addition, a bead 121 may be provided on the lower surface of the outer glass 120 to selectively reflect or refract sunlight.

The beads 121 are formed by combining two beads so that the sunlight L ₁ transmitted from the upper portion is refracted so as to enter the inside of the base frame 110, And reflects the sunlight L ₂ reflected from the solar panel again.

In this way, solar power generation efficiency and air heating effect can be improved by making the sunlight L ₂ incident upon the inside of the basic frame 110 and then reflected into the inside of the basic frame 110 again.

The space under the outer glass 120 is a space for heating the air between the outer glass 120 and the solar light unit 130 and heats the air by a kind of greenhouse effect.

That is, hot air can be generated by continuously heating the air using the sunlight incident into the space shielded by the outer glass 120, the basic frame 110, and the solar unit 130.

The solar light unit 130 generates electricity by sunlight flowing into the heating space 140. The photovoltaic unit 130 may include all of the configurations of the photovoltaic device of a known type.

A hot air supply fan 141 for supplying heated air in the heating space 140 is provided at one side of the heating space 140. The air blown by the warm air supply fan 141 is supplied to the cooling / heating panel 10.

The hot air supply fan 141 may further include a heating unit 143 such as a hot wire. The heating unit 143 is provided to additionally supply warm air at a temperature higher than the warm air generated by the heating space 140. The heating unit 143 may be configured to use the electricity generated by the solar light unit 130, Can be driven.

A reflection plate 145 is disposed below the solar light unit 130 by a predetermined distance. An air movement flow path 147 is formed between the solar light unit 130 and the reflection plate 145.

A first heat insulating material 149 for shielding heat transfer between the heating space 140 and the cooling space described below is provided below the reflection plate 145.

A cooling space 150 is formed below the first heat insulating material 149. A heat transfer plate 151 having a high heat transfer efficiency is provided on the bottom surface of the cooling space 150 and a plurality of heat dissipation fins 153 are spaced apart from the heat transfer plate 151 by a predetermined distance.

The cooling fins 153 are positioned such that their tips are located inside the cooling space 150. The air supplied by the cool air supply fan 155 provided at one side of the cooling space 150 collides with the radiating fins 153 and is cooled to supply cool air.

A vaporization space 160 is formed in the lower part of the heat transfer plate 151 to evaporate moisture to cool the air. In the vaporization space 160, water is vaporized by a separate water spray 161 provided in the vaporization space 160 to cool the air.

Accordingly, the air is cooled by vaporizing the moisture in the vaporization space 160, and the cooled air is cooled by the cooled air to be supplied to the heat transfer plate 151 through the heat radiation fins 153 connected to the heat transfer plate 151 Cool air can be supplied by cooling the ambient air.

2, the heat dissipation fins 153 are disposed in the heating space 150. However, the heat dissipation fins 153 may be disposed in the vaporization space 160 by being provided on the bottom surface of the heat transfer plate 151. [

A separate drain structure may be provided on the bottom surface of the vaporizing space 160 to discharge water from the top to the outside.

The second insulation member 170 may be further provided under the vaporization space 160.

The heating space 140 and the evaporation space 160 are connected to the cooling and heating panel 10 by a separate connection passage 180. The cooling space 150 and the air movement path 147 and the cooling / 10 are also connected to each other by a separate connecting passage 180.

Hereinafter, the future type cold / warm air panel device according to the present invention will be described in detail.

FIG. 4 schematically illustrates an operation state of the future type cold / warm air panel apparatus according to the present invention. As shown in the figure, a cooling / heating panel area where hot air is supplied by the cold / warm air panel device 100 is referred to as UNIT 1, and a panel area to which cool air is supplied is indicated as UNIT 2.

First, the warm air heated by the greenhouse effect in the heating space 140 is supplied to the UINT 1, circulated through the cooling / heating panel 10, and then supplied to the vaporization space 160. The vaporizing space 160 vaporizes the water sprayed in the water spray 161 by using the hot and dry air circulating and lowering the unit 1. The air passing through the vaporization space 160 is discharged to the outside.

The heat transfer plate 151 is cooled using the vaporization action generated in the vaporization space 160 and the heat dissipation fin 153 connected to the heat transfer plate 151 is also cooled by the cooling of the heat transfer plate 151 .

Cooling air is generated by cooling the air by the radiating fins 153 disposed in the cooling space 150, and cool air is supplied to the UNIT 2 that needs cooling again. The cold air supplied to the unit 2 circulates through the air conditioning panel 10 and then moves between the air flow path 147 between the solar light unit 130 and the reflection plate 145.

Generally, when the temperature of the solar cell unit 130 rises, the power generation efficiency is lowered and the durability of the apparatus is lowered. Therefore, by supplying the cold air circulated in the UNIT 2 back to the rear surface of the solar cell unit 130, the solar cell unit 130 can be further cooled to prevent the power generation efficiency from deteriorating and the apparatus from deteriorating.

The cold air passing through the air movement passage 147 is discharged to the outside.

Although the heating and cooling processes are simultaneously performed by the cold / warm air panel device 100 according to the present invention, the bypass circuit provided in the connection flow path 180, in which the hot air supplied from the heating space 140 moves, The heating or cooling may be driven simultaneously or only one of them may be driven by the bypass circuit 200 provided in the connection passage 180 through which the cool air supplied from the cooling space 200 and the cooling space 150 moves.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. will be.

Description of the Related Art [0002]
110: basic frame 120: outer glass
130: Solar light unit 140: Heating space
145: reflector 147:
149: Primary insulation 150: Cooling space
151: heat transfer plate 153: heat radiating fin
160: vaporizing space 161: water spray
170: Secondary insulation

Claims (8)

Basic frame;
A warm air region provided in the basic frame for condensing solar light to heat the air;
A cold air region connected to a lower portion of the warm air region to cool the air using heat of vaporization of moisture;
And a solar light unit provided in the warm air region and producing electricity by solar light,
The hot wind generated by the hot wind area and the cold wind generated by the cold wind area are supplied to the cooling / heating panel using electricity generated by the solar light unit
Futuristic cold and warm air panel device.
The method according to claim 1,
The hot-
An outer glass provided on an outer surface of the base frame;
A heating space formed between the solar light units at the lower part of the outer glass to heat the air;
A warm air supply fan provided on one side of the heating space;
And a first heat insulator provided under the solar light unit
Futuristic cold and warm air panel device.
3. The method of claim 2,
The hot-
A reflector provided on an upper surface of the first heat insulating material,
And an air movement flow path formed in a space separated between the reflection plate and the solar light unit
Futuristic cold and warm air panel device.
3. The method of claim 2,
The outer glass
A plurality of beads for refracting sunlight introduced from the outside and entering the inside of the basic frame and reflecting the sunlight reflected after being incident inside the basic frame
Futuristic cold and warm air panel device.
The method of claim 3,
The cold-
A cooling space formed below the first heat insulating material;
A heat transfer plate connected to a bottom surface of the cooling space;
A plurality of heat dissipation fins spaced from and connected to the heat transfer plate;
A cold air supply fan connected to one side of the cooling space;
A vaporization space formed in the lower portion of the heat transfer plate for cooling the air using heat of vaporization of moisture;
And a second heat insulator provided below the vaporization space
Futuristic cold and warm air panel device.
6. The method of claim 5,
The vaporization space
And is configured to vaporize moisture sprayed by a water spray
Futuristic cold and warm air panel device.
6. The method of claim 5,
The basic frame
And a connection channel connecting the heating space, the cooling / heating panel, and the evaporation space, and connecting the cooling space with the air conditioning panel and the air movement flow path,
Futuristic cold and warm air panel device.
8. The method of claim 7,
The connection channel
And a bypass circuit for controlling the air supplied to the cooling / heating panel to be bypassed
Futuristic cold and warm air panel device.

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