JPS6164250A - Heat accumulation element - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to heat storage elements used for local heating of the body and the like.

Conventional configurations and their problems Conventionally, heat storage materials that involve transpiration of constituent components during heat storage (e.g., latent heat storage materials mainly composed of inorganic hydrated salts such as sulfur-IJium acetate trihydrate) have been designed to have at least one layer. aluminum j-
It was sealed in a container made of laminate film with a heat-sealing layer. However, such a heat storage element using the J1 laminate film has the same I3. ' If a cut is made due to F factor, it is extremely easy to tear. Therefore, when this heat storage element is used under stress such as twisting, the container may be damaged due to the above-mentioned small size, and the heat storage material may come out of the container.

Purpose of the Invention The present invention provides a safe system that does not tear easily even if a cut is made in the periphery of the container due to the same reason, and that the risk of the container being damaged and the heat storage material being exposed is extremely small. This provides a heat storage element.

Structure of the Invention The present invention is characterized in that a heat storage material is enclosed in a container made of a laminate film that includes at least one aluminum layer, a fabric layer, and a fusion layer. is a nonwoven fabric or a cloth having a mesh structure, aluminum 1- is an aluminum foil layer, and the fusion layer is a polyethylene layer.

Description of Examples Example 1 From the outside, a 12 μm polyester layer, a 4071 m polyethylene-impregnated nonwoven fabric layer, a 15 μm nylon layer,
A bag with an internal volume of 40 mm x 60 mm was made using 5 layers of 9 μm aluminum foil layer and 8071 m polyethylene layer (fusion layer), and sodium acetate was placed inside the bag. The heat storage element of this example was made by enclosing a heat storage material mainly composed of aqueous salt. The width of the welded part is 10 mm (part of the outer periphery of this heat storage element).The tear strength was measured by making a cut of about 2 mm using a knife and pulling both ends of the cut. The container was pulled away by force, but the container did not break.
It has been confirmed that the heat storage element of this example is extremely strong and has a high level of safety.In addition, when this heat storage element connected together was used as a heating device for a part that is subjected to low force, there were no problems. did not survive. Example 2 From the outside, 7 pieces of mesh (1" 4 cloth layer, 12 μm polyester layer, 15 μm nylon layer, 9 μm aluminum foil layer, and 80 μm polyethylene layer (fusion layer), generally called cheesecloth, were formed from the outside. A heat storage element similar to that in Example 1 was made using a 5-layer laminate film, and its tear strength was measured in the same manner.
L] It was confirmed that the heat storage element of this example was extremely strong and highly safe. Further, when the heat storage element of this example was used as a tool for removing a knee or the like in the same manner as in Example 1, no problems occurred.

Comparative Example A heat storage array similar to Examples 1 and 2 was made using a laminate film consisting of four layers: a 12 μm polyester layer from the outside, a 9 μm aluminum foil layer with a 15 μm nylon layer, and an 80 μm polyethylene layer. When the tear strength was measured using the same method, it was approximately 200 g.
The container broke due to the force. Further, when this heat storage element was used as a knee warming device as in Examples 1 and 2 and moved vigorously, a portion of the container was damaged and the heat storage material was blocked.

Effects of the Invention The heat storage element of the present invention has a heat storage material sealed in a container made of a laminated film including at least one layer of aluminum, a cloth layer including the ram 1, and a fusion layer. It has extremely high tear strength, and there is very little risk of the container being damaged and the heat storage material leaking out, making it extremely safe. Therefore, the heat storage element of the present invention is not limited to being used as a local heating device for the body, but can be applied to all fields that utilize heat storage.

Claims (5)

[Claims] (1) A heat storage element in which a heat storage material is enclosed in a container made of a laminate film including at least one aluminum layer, a fabric layer, and a fusion layer. (2) The heat storage element according to claim 1, wherein the fabric layer is a nonwoven fabric layer. (3) The heat storage element according to claim 1, wherein the cloth layer is made of a cloth having a mesh structure. (4) The heat storage element according to claim 1, wherein the aluminum layer is an aluminum foil layer. (5) The heat storage element according to claim 1, wherein the fusion layer is a polyethylene layer.