KR880000955B1 - Latent heat storage green house - Google Patents

Abstract

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Description

Latent heat storage greenhouse

1 is a longitudinal sectional view showing main parts of an embodiment of the present invention.

2 is a front view of the heat storage body.

3 is a cross-sectional view taken along the line VIII-VIII of FIG.

4 is a front view of another embodiment of a heat storage body.

* Explanation of symbols for main parts of the drawings

1A: Greenhouse 1A ₁ : Greenhouse subject

1B: heat storage chamber 101: transparent plastic sheet

102: blower fan 103: heat storage body

131: main body 132: light transmitting window

133: phase transformation heat storage medium 104: barrel

105: winding device 106: duct

The present invention relates to a latent heat storage greenhouse. Conventional greenhouses are heated by inhaling solar heat during sunshine, but at night or in the rain, they have to be heated by using electric heat, hot water, etc. due to a decrease in external temperature, resulting in expensive fuel costs.

It is an object of the present invention to provide a latent heat storage thermal chamber using solar heat that can eliminate the above drawbacks and save fuel costs for heating.

Next, an embodiment of the present invention will be described with reference to the drawings.

In FIG. 1, 1 A of greenhouses are equipped with the heat storage room 1B in the north side part inside. The heat storage chamber 1B is partitioned by a rollable transparent plastic sheet 101 except for a slight distance from the roof. At least one blower fan 102 is disposed below the heat storage chamber 1B and is opposed to the at least one opening 101a provided at the end of the plastic sheet 101 to accumulate heat through the opening 101a. It is formed to a blown air in the chamber (1B) to the greenhouse main portion (1A _1). Moreover, the heat storage body 103 of the magnitude | size which covers almost the whole area close to the glass surface toward the north axis in the heat storage chamber 1B is suspended in curtain form.

The heat storage body 103 is composed of a bag-shaped body 131 using a plastic film, as shown in the second and third degrees, the bag-shaped body 131 is a plurality of circular windows 132 along the thickness direction Is installed. This window 132 assists in the transmission of light. In the bag body 131, for example, Cacl ₂ . A phase transformation heat storage medium 133 such as 6H ₂ O is enclosed.

This Cacl ₂ . 6H ₂ O exhibits the following reaction at 27-30 ° C.

In addition, the inside of the bag-shaped body 131 is partitioned in the shape of a grid by the heat seal 134, and is divided into many divisions. This internal partition restricts the movement of the medium in the main body 131 and at the same time reduces the amount of outflow of the medium when the main body 131 is torn. In the end face of the bag-shaped body 131, a plurality of tongue pieces 135 having holes 135a for hanging the main body 131 are formed. Another embodiment is shown in FIG. 4. In other words, the seal portion 4 'is a tape-shaped seal that extends parallel to the longitudinal edges and transverse edges of a rectangular flat bag-shaped container made of a flexible material, and has a width B that can be cut so as not to leak the material. have. Thus, a fracture groove may be provided on the center line extending in the longitudinal direction of the seal portion so that it can be easily cut without a cutting tool. In addition, the seal part 5 may be provided in the longitudinal edge or the lateral edge, and the hole 5a for hanging in a wall etc. may be provided, or the tongue tongue 6 for fastening may be provided instead of the seal part 5.

On the lower ground where the bag-shaped body 131 is suspended, a barrel 104 having a discharge pipe 104a is installed to prevent the bag-shaped body from being torn and spreading harmful substances inside the greenhouse.

The transparent plastic sheet 101 is freely rolled up and down for the winding device 105 installed behind the roof in the greenhouse 1A and rotated by the chain 151. Next, the use state of the greenhouse of the present invention will be described. The temperature in the sun-heated greenhouse 1A increases due to solar heat. When the blower fan 102 in the heat storage chamber 1B operates, the air which directly contacted the roof from the space | interval of the said transparent plastic sheet 101 and an upper roof, is drawn in in this heat storage chamber 1B. Thus, when the temperature in the heat storage chamber reaches 30 ° C. or more, the phase transformation heat storage medium 133 in the heat storage body 103 undergoes endothermic decomposition and heat storage. Thus, the cold air deprived of heat returns from the end opening of the transparent plastic sheet 101 to the greenhouse main part 1A ₁ .

When the temperature in the greenhouse at night and rain falls below 27-30 ° C., the Cacl ₂ being decomposed in the sheet body 131 generates heat in combination with water, and heats into the heat storage chamber 1B to operate the blower fan 102. According to this, the warm air in the heat storage chamber 1B is sent to the greenhouse main body 1A ₁ to warm it. Accordingly, no other heating is required while the phase transformation heat storage medium 133 dissipates heat. Therefore, heating by other means only needs to be used for short periods of time, such as when the weather continues for severe periods or over long periods of time. 121 in the figure is a blower fan case.

As the heat storage medium, the followings are used in addition to the above.

Type of Media Melting Temperature

Na ₂ SO ₄ . 10H ₂ O Approx. 32 ° C

Na ₂ SO ₄ . 5H ₂ O Approx. 48 ° C

Paraffin approximately 46 degrees Celsius

Since the heat storage body 103 can be easily detached and attached, the heat storage body 103 can be detached and stored at a time when heat storage is unnecessary. Moreover, when the transparent plastic sheet 101 is rolled up, the heat storage chamber 1B is also a greenhouse main body portion 1A ₁ . Can be used as

According to the present invention, a heat storage chamber (1B) is formed by a transparent plastic sheet (101) which can be rolled up on the inner north side of the greenhouse (1A) and is circulated in the air. The heat storage chamber (phase B) has a phase transformation heat storage medium (133). ) is a sealed one heat storage body 131 is detachably hanging there due to air circulation between the greenhouse main portion (1A ₁₎ there is no il easy to interfere with the random number sequence to the greenhouse main portion (1A ₁₎ of the regenerator (1B) The heat accumulator 103 absorbs and accumulates with high efficiency. In addition, since the heat storage body 103 has a large area, the heat storage amount is large, and thus the heat dissipation duration at the time of heat dissipation is long. In addition, since the heat storage body 103 includes a plurality of light transmitting windows 132, the light is not blocked. In addition, the heat storage chamber 1B can be easily transferred to the greenhouse main body portion 1A ₁ by rolling up the transparent plastic sheet 101. In addition, when the high temperature air in the upper portion of the greenhouse is introduced into the heat storage chamber 1B through the duct 106, the heat storage effect can be further improved.

Since the present invention is constructed as described above, the solar heat in the sun is introduced into a narrow heat storage chamber to accumulate heat using a phase transformation heat storage medium, and the heat is discharged when the outside temperature is lowered. Endothermic and heat storage of. Therefore, heating by heat dissipation lasts for a long time. As a result, auxiliary heating is also required in a very short time, and the fuel cost can be significantly reduced.

Claims (3)

In a latent heat storage greenhouse having a latent heat storage medium (133) enclosed therein and having a heat storage body (103) disposed at a place where sunlight shines into the greenhouse and a fan (102) for performing air circulation in the greenhouse, The heat storage chamber 1B is installed toward the north side by becoming a partition inside the greenhouse by the transparent sheet 101 between the ceiling and the bottom surface, and the air supply fan 102 is an opening portion 101a installed at the lower portion of the heat storage chamber 1B. And a heat storage body 133 having a plurality of light transmitting windows 132 in the heat storage chamber 1B and enclosed with a latent heat storage medium 133 which is a top-side thermal storage medium. A latent heat radiant greenhouse, which is detachably suspended from a position proximate to. 2. The rectangular flat bag of claim 1, wherein the heat accumulator 103 is divided into a plurality of parts by a tape-shaped seal 4 'extending parallel to the longitudinal and transverse edges of the container. A latent heat storage greenhouse, wherein the latent heat storage medium (133) is enclosed in each of the divided portions. The latent heat storage greenhouse according to claim 2, wherein each of the seals (4 ') has a width (B) that can be cut so that the latent heat storage medium (133) is not counted.

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