JPH06213583A - Space cooling device - Google Patents

Abstract

PURPOSE:To provide a space cooling device wherein an efficient cooling can be executed by low energy and an easy response can be executed against a layout change of a waste heat source body. CONSTITUTION:There is a composition wherein a circular tube circuit which is formed by a carbureter 3C and a liquefaction device 4C is included in a flat plate body 2 which is composed of a partition and a coolant is so made as to be enclosed in the tube circuit. An air taken through a first air intake 3b is sent from a first air outlet 3d after it is cooled owing to an evaporation gasification of the coolant in the carbureter 3C. Besides, an air taken through a second air intake 3d is sent from a second air outlet 4d after it is warmed in accordance with a condensation liquefaction of the coolant in the liquefaction device 4C. The coolant executes a natural circulation with a state change between the liquefaction device 4C and the carbureter 3C.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a space cooling device.

[0002]

2. Description of the Related Art Conventionally, when cooling an office or a factory, it is generally sufficient to uniformly cool each place by a space cooling device such as an air conditioner or an air conditioner. When there is a waste heat source that emits high waste heat of OA equipment (for example, a computer, a copying machine, a fax machine, a CAD machine, etc.) in a certain space, the temperature is high only around the waste heat source due to the waste heat of the waste heat source. Therefore, conventionally, a space cooling device such as an air conditioner or an air conditioner is installed in a space where the waste heat source is installed by an extension or a repair work so as to perform a more powerful cooling than other spaces. There is.

[0003]

However, as in the prior art, cooling by a space cooling device such as an air conditioner or an air conditioner is
Since it requires a lot of energy and a large amount of money, it is very uneconomical, and a lot of waste heat is generated by driving the space cooling device, which has a bad influence on the environment.

Further, if the layout of the waste heat source is changed, an air conditioner must be added or repaired, which requires a large amount of new construction cost and electricity cost, which is very uneconomical. However, there was a problem that it took a lot of work for the construction. Even if the entire interior of the building is renewed, the waste heat source body does not eliminate the part where the temperature is partly high. Therefore, a space cooling device must be installed together with the layout change of the waste heat source body.
Further, the layout change of the waste heat source cannot be predicted, and general air conditioning equipment cannot handle it.

The present invention has been made in view of the above problems, and a first object thereof is to provide a space cooling device capable of efficiently cooling a space with a small amount of energy. . A second object of the invention is to provide a space cooling device which can be used near the waste heat source body and can easily cope with a layout change of the waste heat source body.

[0006]

The invention according to claim 1 made in view of the above-mentioned first object comprises a flat plate body having two divided bodies having an air passage therein, and the flat plate body is provided. A first air intake port, a vaporizer for changing the state of the refrigerant from a liquid to a gas depending on the temperature of the air taken in from the first air intake port, and air passing through the vaporizer in one of the divided bodies. And a first air delivery port for delivering the liquid, and the second split body of the flat plate body is provided with a second air intake port and a temperature of the air taken in from the second air intake port to change the refrigerant from a gas to a liquid. A liquefier for changing the state of the liquefier, and a second air outlet for sending air through the liquefier, and the carburetor and the liquefier are annularly connected so that the refrigerant circulates. It is what The invention according to claim 3 made in view of the second object is characterized in that, in the invention according to claim 1, the flat plate body is a partition.

[0007]

The invention of claim 1 utilizes the temperature difference between the air on the carburetor side and the air on the liquefier side and the natural circulation that accompanies a change in the state of the refrigerant between the carburetor and the liquefier. The side air is cooled by a refrigerant and sent out. In the invention of claim 2 according to the invention of claim 1, the space cooling device itself is configured as an exterior building material, and can be used as auxiliary cooling in a room.
According to the invention of claim 3, the space cooling device can be used together with the waste heat source body, and the space cooling device can be easily moved together with the waste heat source body when the layout of the waste heat source body is changed. According to the invention of claim 3, the situation in which the warm air from the second air outlet raises the temperature of the air taken in from the second air inlet does not occur. Therefore, the efficiency of space cooling of the apparatus itself becomes very good.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings showing its embodiments.

FIG. 1 is an internal structural view showing a space cooling device 1 according to an embodiment of the present invention. Space cooling device 1 according to an embodiment of the present invention
Form a partition, and as shown in FIG.
It is placed around the waste heat source body 30 such as the A equipment. That is, it is possible to partition the space by the space cooling device 1 and form a collection space for waste heat source bodies such as OA equipment in the space.

The space cooling device 1, as shown in FIG.
It has a flat plate body 2 composed of two divided bodies 3 and 4 having air passages 3a and 4a therein. A heat insulating plate 5 is interposed between the two divided bodies 3, 4.
No direct heat exchange between the four is done. When the space cooling device 1 is used, the divided body 3 side is arranged on the waste heat source body 30 side. Therefore, at the time of use, it is arranged so that the temperature on the side of the divided body 3 is higher than that on the side of the divided body 4.

A first air intake 3b, a vaporizer 3c for changing the state of the refrigerant from a liquid to a gas depending on the temperature of the surrounding air, and a vaporizer 3c are provided in one of the divided bodies 3 of the flat plate body 2. A first air outlet 3d for delivering air as cold air is provided. For the vaporizer 3c, for example, a plate fin heat exchanger is used. The first air intake 3
b and the first air outlet 3d are connected by the air passage 3a, and the carburetor 3c is provided in the middle of the air passage 3a.
Is provided. A blower fan 3f is provided in the middle of the air passage 3a to send the air around the carburetor 3c toward the first air outlet 3d. However, the disposition position and disposition direction of the fan 3f are not limited to those shown in FIG.

In addition, the other divided body 4 of the flat plate body 2 has a second
An air intake port 4b, a liquefier 4c that changes the state of the refrigerant from a gas to a liquid depending on the temperature of the surrounding air, and the liquefier 4c.
2nd air outlet 4 which sends out the air which passed through as a cold wind
d and are provided. A plate fin heat exchanger, for example, is used as the liquefier 4c. The fourth air intake 4b and the second air outlet 4d are the ventilation passages 4a.
The liquefier 4c is disposed in the middle of the ventilation path 4a. In addition, in the middle of the air passage 4a,
The blower fan 4f is provided, and the second air outlet 4b
The air taken in from is sent to the second air outlet 4d. However, the disposition position and disposition direction of the fan 4f are not limited to those shown in FIG.

A pipe 3e for connecting the upper part of the vaporizer 3c and the upper part of the liquefier 4c is provided in the divided body 3, and the divided body 4 has a lower part of the vaporizer 3c. A pipe 4e is provided to connect the liquefier 4c and the lower part of the liquefier 4c. The vaporizer 3c, the liquefier 4c, and the pipes 3e and 4e form a completely sealed annular pipe circuit.
An appropriate amount of a low boiling point refrigerant (not shown) such as Freon R22 is sealed inside the tube circuit. Further, the pipe 4e
4g solenoid valve for shutting off or opening the flow of liquid
Has been inserted.

FIG. 2 is a simplified diagram showing the internal state of the tube circuit. As shown in FIGS. 1 and 2, the tube circuit is
The liquefier 4c is arranged above the vaporizer 3c by a height H (m). The height H is substantially equal to the length of the tube 4e. or,
The refrigerant 6 has a substantially height h (m) (h) inside the vaporizer 3c.
Is smaller than the height of the carburetor 3c), and a small amount is stored in the bottom of the liquefier 4c inside the tube circuit. In addition, a considerable temperature difference occurs between the carburetor 3c side space and the liquefier 4c side space partitioned by the heat insulating plate 5 in the usage state. In FIG. 2, the temperature of the air on the side of the vaporizer 3c is T, and the temperature of the liquefier 4 is
The temperature of the air on the c side is t (t <T).

Next, the operation of the tube circuit will be described.
The liquid refrigerant 6 in the vaporizer 3c is heated by the warm air (temperature T) around the vaporizer 3c and a part thereof is evaporated and vaporized, and at the same time, the air around the vaporizer 3c gives thermal energy to the refrigerant 6. Deprived and cooled, the first air outlet 3
It is transmitted from d. Further, the gas refrigerant 6 vaporized and vaporized in the vaporizer 3c rises in the pipe 3e and is guided to the liquefier 4c. Since the temperature of the air around the liquefier 4c is a temperature t lower than the temperature T of the air around the carburetor 3c,
The gas refrigerant 6 that has flowed in is the temperature t of the air around the liquefier 4c.
At the same time as it is condensed and liquefied by, the air around the liquefier 4c is given thermal energy from the refrigerant 6 to increase its temperature and is sent out from the second air outlet 4d. Liquefier 4
The refrigerant 6 condensed and liquefied in c flows down the pipe 4e and is again guided to the vaporizer 3c. In this way, in the pipe circuit, the refrigerant 6 naturally circulates while changing the state, and in the process, heat exchange is performed between the vaporizer 3c side space and the liquefier 4c side space. The amount of heat exchanged at that time increases substantially in proportion to the temperature difference between the temperature T of the air on the carburetor 3c side and the temperature t of the air on the liquefier 4c side.

In the circulation of the refrigerant 6 as described above, the difference in specific gravity due to the change of the state of the refrigerant 6, the vaporizer 3c and the liquefier 4c.
It is caused by the natural circulation force due to the difference in elevation. 2, assuming that the specific weight of the liquid refrigerant is RL (kg / m ³ ) and the specific weight of the gas refrigerant is RV (kg / m ³ ), the natural circulation force F of the refrigerant 6 in the case of FIG. = (H-h) x
(RL-RV).

When the space cooling device 1 is constructed as a partition as in this embodiment, if the second air outlet 4d is arranged on the upper end face side of the flat plate 2, the second air outlet 4d is formed.
It is difficult to raise the temperature of the air taken in from the air intake port 4b, and the warm air discharged from the second air outlet port 4d is easily ventilated by the overall air conditioner installed on the ceiling, so the space cooling device 1 itself is cooled. Performance is further improved.

When it is not necessary to perform space cooling, it suffices to stop the refrigerant circulation in the pipe circuit. To stop the refrigerant circulation, the fans 3f, 4f are stopped, or
The electromagnetic valve 4g shuts off the tube 4g, or both are used in combination. In this embodiment, the fan 3
It requires almost no energy other than the energy for driving f and 4f, but when it is not necessary, the refrigerant circulation can be stopped to further save energy.

In this embodiment described above, the space cooling device 1 itself constitutes a partition, and since it can be arranged near a waste heat source such as OA equipment and used, the waste heat of the waste heat source is used. Can be efficiently cooled and dispersed, the temperature distribution of the entire room where the waste heat source and the occupant live together and the air conditioning balance is disturbed can be averaged to be good, and OA It is very useful for partitioning and forming a gathering space for waste heat sources such as equipment.

Further, as another embodiment other than the above, as shown in FIG. 3 or 4, the space cooling device 1 may be used as an exterior building material for a building. As shown in the figure, if it is used as an auxiliary air conditioner for a computer room, it can cool a computer room with a very high heating value very economically and efficiently, which is very useful. At this time, the second air outlet 4d
Is disposed on the same surface side (outer wall surface side) as the second air intake port 4b. That is, the excellent practicality obtained by the present invention,
Energy saving, economic efficiency, reliability, etc. can guarantee the quality of air conditioners at a high level.

The space cooling device 1 having the above structure according to the present invention
Unlike an air conditioner or an air conditioner, it does not generate new waste heat and exhausts it, but can cool the space without adversely affecting the environment.

[0022]

According to the invention of claim 1 configured as described above, the space can be efficiently cooled with a small amount of energy. Further, according to the invention of claim 2, in addition to the effect of the invention of claim 1, it is very useful for auxiliary cooling in a room. Further, according to the invention of claim 3, in addition to the effect of the invention of claim 1, the invention can be used in combination near the waste heat source body and can easily cope with a layout change of the waste heat source body. Further, according to the invention of claim 4, in addition to the effect of the invention of claim 3, since the temperature of the air taken in from the second air intake is not raised, the efficiency of space cooling of the device itself becomes very good.

[Brief description of drawings]

FIG. 1 is an internal structure diagram showing a space cooling device 1 according to an embodiment of the present invention.

FIG. 2 is a simplified diagram showing an internal state of a tube circuit according to an embodiment of the present invention.

FIG. 3 is a diagram showing another embodiment of the present invention.

FIG. 4 is a diagram showing another embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Flat plate 3 Split body 3a Ventilation path 3b First air intake port 3c Vaporizer 3d First air delivery port 3e Pipe 3f Fan 4 Split body 4a Ventilation path 4b Second air intake port 4c Liquefaction device 4d Second air delivery port 4e Tube 4f fan

Claims (4)

[Claims] 1. A flat plate body comprising two divided bodies having a ventilation passage therein, and one divided body of the flat plate body,
A first air intake, a vaporizer that changes the state of the refrigerant from a liquid to a gas depending on the temperature of the air taken in from the first air intake, and a first air feed that sends out air through the vaporizer. An outlet is provided, a second air intake port is provided on the other split body of the flat plate body, and a liquefier that changes the state of the refrigerant from a gas to a liquid by the temperature of the air taken in from the second air intake port, A space cooling device, characterized in that a second air outlet for sending air through the liquefier is provided, and the vaporizer and the liquefier are annularly connected so that the refrigerant circulates. 2. The space cooling device according to claim 1, wherein the flat plate body is an exterior building material. 3. The space cooling device according to claim 1, wherein the flat plate body is a partition. 4. The space cooling device according to claim 3, wherein the second air outlet is provided on the upper end face side.