JPS6222782Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a large number of heat storage material-enclosed containers that can be easily hung in parallel.

Conventional containers filled with latent heat storage materials are cylindrical;
They have a spherical or box shape, and installing them over a wide area requires complicated equipment and a lot of effort.

An object of the present invention is to provide a heat storage material enclosing container that can be installed in large numbers even in a narrow heat storage chamber with simple equipment.

Hereinafter, one embodiment of the present invention will be described based on the drawings.

In FIGS. 1 to 3, the heat storage material enclosing container A has, for example, water resistance, water resistance,
Synthetic resin polypropylene sheet with corrosion resistance 1
1. A laminated thin film body was used in which a reinforcing metal foil aluminum sheet 12, a corrosion-resistant synthetic resin nylon sheet 13, and a synthetic resin polyester sheet 14 having both corrosion resistance and strength were heat-sealed, and the two sheets were further heat-sealed. It is a flexible rectangular flat bag-shaped container.
The container A has a peripheral portion 1 sealed in the shape of a flat plate, and a bag portion 2a partitioned into a plurality of upper and lower sections via an intermediate seal portion 2b extending along the longitudinal direction of the container A and parallel to the lateral edges. It consists of a main body part 2 having. The boundary line between the bag part 2a and the seal part consists of a straight line 2c parallel to the upper and lower sides in the middle part in the lateral direction,
It consists of a semicircular curve 2d that smoothly continues with the straight line at both ends in the lateral direction.

A latent heat storage material (heat storage material) 3 such as CaCl ₂ .6H ₂ O is sealed in the bag portion 2a. this
CaCl ₂ 6H ₂ O is CaCl ₂ and 6H ₂ O at 27-30℃
It decomposes and absorbs heat, and stores the heat. When the temperature is lower than the above temperature, heat is generated due to the combination.

A plurality of hooking holes 4 are provided at upper and lower end portions of the peripheral portion 1 at symmetrical positions both left and right and up and down.

Thus, the plurality of containers are arranged upside down so that the bag portion 2a of two adjacent containers faces the seal portion 2b (FIG. 2).

Therefore, _{the distance S 1 between the center of the upper hole 4 and the horizontal center line of the upper first section, the distance S 2 between} each horizontal center line of each section, and the horizontal center line between the center of the lower hole 4 and the lower first section The distance S 3 from S 3 to S ₃ is determined by the following relationship.

S ₁ = 1/2 S ₂ + S ₃ When using the heat storage material enclosing containers A, as shown in the second figure, a large number of them are alternately turned upside down and hooked into the hook holes 4.
They are suspended in parallel at the same height and in close proximity to each other through a hanging rod 5 or by a hook, and housed in a heat storage chamber or the like.

In this state, air or liquid serving as a heat medium flows in a meandering manner through the gaps in each container A, and when the temperature of these fluids reaches 27 to 30°C or higher due to heating, for example, by solar heat, it passes through the thin film body and enters the interior. The heat storage material 3 decomposes and absorbs heat, and stores the heat. When the temperature of the heat storage material 3 falls below 27 to 30°C, such as at night or on rainy days, the heat storage material 3 generates heat by combining and warms the fluid. The temperature inside the heat storage chamber is maintained at a substantially constant temperature.

The thin film body has excellent strength and is resistant to impact, and since both ends of the boundary line between the bag portion 2a and the seal portion are rounded, this portion will not be torn. Furthermore, it is highly corrosion resistant and has good thermal conductivity. And the container A
Even if a large number of them are arranged at close intervals, the flow of the heating medium will not be hindered. In addition, bag part 2
Since a has a short vertical width, the latent heat storage material 3 inside is not biased in the vertical direction.

In addition to the above, the heat storage material 3 also contains Na ₂ SO ₄ 10H ₂ O (melting temperature approximately 32°C), Na ₂ SO ₃ 5H ₂ O (melting temperature approximately 48°C).
(°C) Latent heat storage materials such as paraffin (melting temperature approximately 46°C), water, and metal powder are also used.

The boundary line between the bag portion and the seal portion may be a straight line 2c in the middle, and a curved line 2e and a straight line 2f smoothly continuous at both ends, as shown in FIG. 4.

As described above, the heat storage material enclosing containers of the present invention can be compactly arranged in a large number in a narrow heat storage chamber, allowing good circulation of the heat medium and achieving high heat storage efficiency.

In addition, the bag-shaped container is made of polypropylene, aluminum, nylon, etc. in order from the inside to the outside.
Since a laminated thin film body made by heat-sealing polyester sheets is used, commercially available sheets can be used, and it has excellent water and corrosion resistance as well as strength.
Even if the heat storage material crystallizes, it will not break. Furthermore, since both lateral ends of the boundary line between the bag portion and the seal portion are rounded, breakage of these portions is also prevented.

[Brief explanation of the drawing]

Figure 1 is a front view showing one embodiment of the present invention;
The figures are a cross-sectional view taken from FIG. 1, FIG. 3 is an enlarged view of the main part of FIG. 2, and FIG. 4 is a diagram of another embodiment. A... Heat storage material enclosing container, 1... Peripheral part, 2...
Main body part, 2a...Bag part, 2b...Intermediate seal part,
3...Latent heat storage material, 4...Hook hole.

Claims (1)

[Scope of utility model registration request] A flexible rectangular flat bag-shaped container using a laminated thin film body made by heat-sealing polypropylene, aluminum, nylon, and polyester sheets sequentially from the inner surface to the outer surface has a seal portion extending parallel to its lateral edges. The bag section is divided into upper and lower sections through the bag, rounded edges are provided at both lateral ends of the boundary line between the bag section and the seal section, and a heat storage material is sealed in each of the bag sections. Container containing heat storage material.