JPS5866740A - Space cooling and heating device - Google Patents

Abstract

PURPOSE:To improve the efficiency of a cooling and heating device by carrying out room cooling is summer season with cryogenic heat accumulated in winter, and in winter, by carrying out room heating with heat accumulated in summer. CONSTITUTION:In summer, the air of high temperatures admitted into the device through an external air intake port 10, passes through a high temperature heat accumulating part 5 while carrying out heating and also passes through a latent heat exchanger 9 and exhaused from the device. Air within a room 2 is passed through an indoor intake port 11 and cooled at a cryogenic heat accumulating part 6, passing through the latent heat exchanger 9 and returning to the room. Upon this occasion, while air within the room 2 is cooled, the humidity within the room increases, and the humid air moves to the high-temperature external air side throuth the latent heat exchanger 9. In winter, low-temperature air entering through an external air intake port 12 carries out cooling while passing the cryogenic heat accumulating part 6, and exhausted via the latent heat exchanger 9. Air within the room 2 enters through an indoor intake port 13 into the high-temperature heat accumulating part 5 wherein the air within the room is heated, and returns to the room 2 via the latent heat exchanger 9. Upon this occasion, the air within the room is heated and humidity within the room decreases, but receives humidity from low-temperature external air and humidified by the latent heat exchanger 9.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an air-conditioning and heating system that uses underground heat to perform air-conditioning and heating. The entire village is not air-conditioned with the cold energy stored in the winter, and while the cold is stored in the winter, the heat stored in the summer is used for 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.
indicates a building, 2 indicates an indoor location, 3 indicates an underground vibe, and 4 indicates a heat storage section. This device takes advantage of the fact that heat is transmitted underground, and that the temperature is almost constant below 5 meters underground, by passing indoor air through a metal tube buried underground. It is air conditioned in the summer and heated in the winter. However, since leather allows all the hot indoor air to pass through, it cools underground and increases humidity.On the other hand, in winter, it allows cold air to pass through, increasing the humidity, making it difficult to feel comfortable even in the case of a chair. I could not say it. ”
Because TFCs use the same part of the ground for heating and cooling, they are not able to maintain a sufficient temperature difference between the thighs and the winter, but they have the disadvantage of being less efficient. The present invention has been proposed to improve the above-mentioned drawbacks. Figure 2 shows an embodiment of the present invention.
is a building, 2 is an indoor room, 5 and 6 are heat storage parts, and 7.8 is a vibrator. This device has two heat storage parts 5.6 underground, one of which is a high-temperature heat storage part that stores heat in the summer. 51,000,000 and others store cold in winter
This is the low temperature heat storage section 6. A heating vibrator 7 and a cooling vibrator 8 pass through each of the heat storage parts 5 and 6, and the heating vibrator 7
Both ends of the heating vibrator 7, which has a latent heat exchanger 9 installed in the contact area with the cooling vibrator 8, are placed outdoors in the summer.
In winter, it is opened indoors. Contrary to the heating pipe 7, both ends of the cooling pipe' are opened indoors in summer and outdoors in winter. A blower (not shown) is provided in each pipe to blow air.

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

Operation status in summer? ] - shown in FIG.

The high temperature air entering from the outside air intake port IO is transferred to the dual-temperature heat storage section 5.
The air inside the room is exhausted through the latent heat exchanger 9, enters through the indoor inlet 11, is cooled by the low-temperature heat storage section 6, and returns to the room through the latent heat exchanger 9. At this time, the indoor air is cooled and its humidity increases, but the latent heat exchanger 9 moves the humidity to the high temperature outside air.

Figure 4 shows the operating state fl' in winter.

The low-temperature air that enters through the outside air intake port 12 is cooled while passing through the low-temperature heat storage section 6, and is discharged through the entire heat exchanger 9.11. Ru. Indoor air enters from the indoor intake port U, is heated by the high temperature heat storage unit 5, and returns to the room after passing through the latent heat exchanger 9. At this time, the indoor air is heated, and the humidity decreases, but the latent heat The exchanger 9 receives all the moisture from the low-temperature outside air and humidifies it.

As mentioned above, the present invention has the heat storage part all on the high temperature side and the low temperature side on the 1141 side.
Part 1! As a result, there is no need to heat the heat storage section at a high temperature in the summer and then lower it to a low temperature in the winter, as in the conventional case. Therefore, it is possible to create a sufficient temperature difference between the tube @ n sea bream and the low temperature side.
However, by providing a latent heat exchanger 9 at the part where both pipes 7 and 8 meet, it has the effect of dehumidifying in summer and humidifying in winter. .

[Brief explanation of the drawing]

FIG. 1 shows a conventional heating and cooling system, FIG. 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 patent applicant Matsushita Electric Works Co., Ltd.6

Claims (1)

[Claims] Is there a low-temperature heat storage part and a high-temperature heat storage part in the soil? This air-conditioning and heating system is patented in that a pipe system having an outdoor and indoor opening is inserted into each heat storage part, and a latent heat exchanger is inserted through each of the pipes.