Abstract:
The present invention concerns a method of producing an insulation product comprising a board of porous insulation material wrapped in a gas-impermeable foil, said method comprising the steps of providing a succession of porous insulation material boards on a first conveyor apparatus and feeding the boards on a second conveyor apparatus; providing wrapping foil and wrapping said foil to form a tube around the boards on said second conveyor apparatus, flushing the boards with an insulating gas, and sealing the wrapping foil at the ends of each board transverse to the direction of travel of the second conveyor apparatus.
Abstract:
An insulated cabinet structure includes an inner liner having a plurality of walls defining a refrigerator compartment, and an external wrapper having a plurality of walls defining a refrigerator compartment receiving area. An insulation gap is formed between the walls of the inner liner and the walls of the external wrapper. A first insulation material is positioned on a wall of the external wrapper and extends outwardly into the insulation gap to partially fill the insulation gap. The first insulation material includes a renewable resource component having a particle size in a range from about 10 microns to about 25 microns. A second insulation material is disposed in the insulation gap, such that the first insulation material and the second insulation material together substantially fill the insulation gap.
Abstract:
A vacuum insulating panel (10) comprises a core (11) in an envelope. The envelope comprises two film sections (21, 41) which are connected by spaced-apart sealing flaps (51, 52), the sealing flaps (51, 52) being especially arranged at a major surface (36) of the vacuum insulation panel (10) and folded against the major surface (36) in the same direction.
Abstract:
A vacuum insulation panel (1) improves heat transfer performance while improving durability of a core material (10) and a manufacturing method thereof. The vacuum insulation panel includes a gas-interception sheathing (12) material to cover a core material (10). The interior of the sheathing material is decompressed so that the sheathing material is hermetically sealed. The core material is formed of a lump of fiber, and the fiber has a hollow part formed therein.
Abstract:
The present invention relates to an insulation used in home appliances and building materials. A method of manufacturing an insulation includes fabricating an adhesive solution by inputting a binder to water contained in a water tank, inputting long glass fibers to the adhesive solution, removing moisture by supplying the long glass fibers to a mesh belt, wherein the mesh belt move left and right and front and rear so that the long glass fibers are uniformly spread, fabricating glass fiber paper by drying the long glass fibers, winding the glass fiber paper in a roll form, and preparing the glass fiber paper rolls in multiple layers, stacking two or more sheets of the glass fiber paper supplied from the rolls, and sewing the sheets of stacked glass fiber paper.
Abstract:
The use of a vacuum heat insulation material using a core material formed by laminating inorganic fiber sheets of particular shape and composition provides a heat insulation box which is superior in time-varying heat insulation performance and in productivity. A vacuum heat insulation material which is easy to pattern; therefore, a vacuum heat insulation material which is suitable for portions requiring heat insulation can be easily prepared and applied to a heat insulation box. This property improves the covering ratio of the vacuum heat insulation material to the heat insulation box and also improves the heat insulation performance of the heat insulation box. For this reason, it is possible to improve the heat insulation property of refrigerators, heat insulation appliances, cold insulation appliances, vending machines, etc. and to improve productivity, and contributes to energy saving.
Abstract:
Es wird ein Verfahren zur Herstellung eines Isolierkörperformteils und ein Isolierkörperformteil zur Tieftemperaturisolierung angegeben, bei dem ein Vorvlies (5) aus Glasfasern, insbesondere Glasstapelfasern, gebildet und mehrere Vorvlieslagen zu einem Stapel (8) übereinander gelegt und bei erhöhter Temperatur zusammengepreßt werden. Hierbei möchte man bei guter Wirksamkeit eine Kälteisolierung kostengünstig realisieren können. Hierzu werden als Glasfaser textile Glasfasern mit einem mittleren Durchmesser von mindestens 6 µm verwendet und die Vorvlieslagen (5) vor dem Zusammenpressen mechanisch vernadelt.
Abstract:
An insulating vacuum panel comprising a microporous, open cell silica foam or a precipitated silica insulating support member enclosed within a sealed, flexible polymeric envelope, the envelope comprising a heat-sealable barrier film comprising a multiple layer laminate containing at least one polyethylene terephthalate layer and at least two barrier layers selected from the group consisting of polyvinylidene chloride, polyvinyl alcohol, polyamide, polyolefin and aluminum foil, or a biaxially oriented liquid crystal barrier film which minimizes permeation of gas and liquid through the barrier film, the panel having an R value per inch of at least about 20 wherein the enclosed insulated vacuum panel is useful as insulation to maintain an essentially constant temperature in a closed structure, a system for storing and transporting temperature-sensitive materials wherein the insulated vacuum panels are employed to provide and maintain a constant temperature in the system, a method for manufacturing the insulating vacuum panel, and a system for storing and transporting temperature-sensitive materials are described.
Abstract:
PROBLEM TO BE SOLVED: To provide a vacuum heat insulation member and a refrigerator provided therewith in which loads on a core member and an outer covering member are reduced, resulting in heat insulation performance being able to be secured for a long period of time.SOLUTION: The vacuum heat insulation member is equipped with the core member; and the outer covering member, which houses the core member, and the interior of which is depressurized. Cutouts are provided in first pieces of material of the core member. A second piece of material the density of which is lower than that of the first pieces of material, and the thickness-wise deformation rate of which is larger than that of the same, is placed in overall contact with the first pieces of material. The second piece of material is bent toward the cutouts in such a way as to form recesses.