JPS6143606B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a heating and cooling device, which uses underground heat to perform heating and cooling.
In the summer, the system uses the high outside temperature to store heat while using the cold energy stored in the winter to provide cooling; in the winter, it stores cold while using the heat stored in the summer to provide heating. At the same time, the purpose is to dehumidify in the summer and humidify in the winter.

Figure 1 shows a conventional air conditioning system. In the figure, 1 is a building, 2 is an indoor room, 3 is an underground pipe,
4 indicates a heat storage section. This device takes advantage of the fact that heat is difficult to transmit underground, and that the temperature is almost constant below 5 meters underground.By passing indoor air through ducts buried underground, this device cools the room in the summer. It is heated in winter. However, in the summer, the hot indoor air cooled underground, resulting in too much humidity, and in the winter, the cold air was allowed to pass through, causing the humidity to drop too much, making it uncomfortable in either case. Additionally, since the same part of the earth is used for heating and cooling, it is not possible to take advantage of the temperature difference between summer and winter, resulting in inefficiency. The present invention has been proposed to improve the above-mentioned drawbacks.

FIG. 2 shows an embodiment of the present invention, in which 1 is a building, 2 is an indoor room, 5 and 6 are heat storage parts,
7 and 8 are pipes, and this device has two heat storage sections 5 and 6 underground, one of which is a high temperature heat storage section 5 where heat is stored in the summer, and the other is a low temperature heat storage section 6 where cold is stored in the winter. A heating pipe 7 and a cooling pipe 8 pass through each of the heat storage sections 5 and 6, and a latent heat exchanger 9 is provided at a portion where the heating pipe 7 and the cooling pipe 8 are in contact. Both ends of the heating pipe 7 are placed outdoors in summer.
In winter, it is opened indoors. Contrary to the heating pipe 7, both ends of the cooling pipe 8 are opened indoors in the summer and outdoors in the winter. Each pipe is equipped with a blower (not shown),
Blow air.

Next, the operation of the present invention will be explained.

Figure 3 shows the operating status in summer.

High-temperature air entering from the outside air intake port 10 is heated while passing through the high-temperature heat storage section 5 and is discharged through the latent heat exchanger 9. Indoor air enters through the indoor intake port 11 and is cooled by the low temperature heat storage section 6.
It passes through the latent heat exchanger 9 and returns to the room. At this time, the humidity of the indoor air increases as it is cooled, but the latent heat exchanger 9 moves the humidity to the high temperature outside air.

Figure 4 shows the operating status in winter.

The low-temperature air that enters from the outside air intake port 12 is cooled while passing through the low-temperature heat storage section 6, and is then transferred to the latent heat exchanger 9.
is discharged through. Indoor air enters through the indoor intake port 13 and is heated by the high temperature heat storage section 5.
It passes through the latent heat exchanger 9 and returns to the room. At this time, the indoor air is heated and its humidity decreases, but the latent heat exchanger 9 receives moisture from the low-temperature outside air and humidifies it.

As described above, the present invention divides the heat storage section into a high temperature side and a low temperature side, so that it is not necessary to lower the heat storage section, which is kept at a high temperature in the summer as in the conventional example, to a low temperature in the winter. Since the heat storage section is kept at a high temperature all year round, and the low temperature heat storage section is kept at a low temperature, it is possible to maintain a sufficient temperature difference between the high temperature side and the low temperature side, thereby improving efficiency. Further, by providing the latent heat exchanger 9 at the portion where both the pipes 7 and 8 are in contact, it is possible to perform dehumidification in the summer and humidification in the winter.

[Brief explanation of the drawing]

FIG. 1 shows a conventional heating and cooling system, FIG. 2 shows a heating and cooling system according to the present invention, and FIGS. 3 and 4 illustrate the operation. 1...Building, 2...Indoor, 3...Underground pipe, 4...Heat storage section, 5...High temperature heat storage section, 6...Low temperature heat storage section, 7...Heating pipe, 8...Cooling pipe, 9...Latent heat exchanger.

Claims (1)

[Claims] 1. A low-temperature heat storage section and a high-temperature heat storage section are installed in the soil,
A heating and cooling device characterized in that a pipe having an outdoor and indoor opening is inserted into each of the heat storage parts, and a latent heat exchanger is provided at a portion where both pipes come into contact.