Abstract: A composite thermally insulating material suitable for use in houses, which can manifest high thermal insulation performance when packed into a restricted cavity between outer and inner walls. The composite is constructed from two sheet-shaped fiber-based thermally insulating materials and a vacuum thermally insulating material incorporated between the fiber-based thermally insulating materials. The region between the fiber-based thermally insulating materials and vacuum thermally insulating material can be secured with adhesive agent.
Abstract: A method for producing a glass wool molded product includes the steps of processing a glass material into fibers so as to obtain a glass wool, gathering such glass wools to form a glass wool mat, and subjecting the glass wool mat to press molding, wherein the above described press molding is carried out, while supplying water so that the water content of the above described glass wool mat becomes 0.1% to 7.0% by mass, and while maintaining a temperature between 250° C. and 450° C.
Abstract: A method for producing a glass wool molded product includes the steps of processing a glass material into fibers so as to obtain a glass wool, gathering such glass wools to form a glass wool mat, and subjecting the glass wool mat to press molding, wherein the above described press molding is carried out, while supplying water so that the water content of the above described glass wool mat becomes 0.1% to 7.0% by mass, and while maintaining a temperature between 250° C. and 450° C.
Abstract: A composite thermally insulating material suitable for use in houses, which can manifest high thermal insulation performance when packed into a restricted cavity between outer and inner walls. The composite is constructed from two sheet-shaped fiber-based thermally insulating materials and a vacuum thermally insulating material incorporated between the fiber-based thermally insulating materials. The region between the fiber-based thermally insulating materials and vacuum thermally insulating material can be secured with adhesive agent.
Abstract: Disclosed is a heat insulating structure in which the surrounding of a heat insulating material such as glass wool is covered with and glued to a casing material such as a poly-film, wherein hotmelts (4,5,6) are applied to the center part or all and an inner portion d and an outer portion e of both ends of a poly-film (3b), and a glass wool (2) is placed on the center to apply a hotmelt (7) to the surface, which is then covered with an aluminum deposition poly-film. In the lower reaches of the conveyer, both ends of the lower poly-film (3b) are folded at the divided line between the inner portion d and the outer portion e to form a three-ply structure, which is pressed to fix, is cooled to normal temperature, and is cured. This heat insulating structure is featured in that improvement in productivity and high adhesive strength can be attained.
Type:
Grant
Filed:
April 6, 1998
Date of Patent:
April 25, 2000
Assignee:
MAG Co., Ltd.
Inventors:
Haruki Imamura, Tadashi Yoshikawa, Gen Itafuji, Hiroyuki Iwadera