TH154698A - Vacuum Thermal Insulators, Thermal Insulating Boxes, and Methods for Vacuum Thermal Insulation Manufacturing - Google Patents

Abstract

Modified invention summary 10/22/2015 that was organized were the vacuum insulation and thermal insulation boxes to be manufactured. While saving energy and resources, and methods for producing vacuum insulators Vacuum insulation is included. Cores formed with fiber assemblies; And enclosures Which encapsulates the core completely in its interior, inside to be depressed, the core is shaped to have The compressive stress is 5 kPa or less when the core is removed from the inside of the enclosure and Compressed to a thickness equal to 50% under atmospheric pressure. -------------------------------------------------- ----------------------:

Claims (9)

Disclaimer (all) which will not appear on the advertisement page. : ------ 10/04/2018 ------ (OCR) Page 1 of 2 pages Disclaimer 1. Vacuum insulation, which is included. Cores formed with fiber assemblies; And the shroud, which completely encapsulates the core in its interior, the interior to be pressure reduced. The core is sheathed to have a compressive stress of 5 kPa or less when the axis is It is removed from the inside of the enclosure and is compressed to a thickness equal to 50% under atmospheric pressure. 2. The vacuum heat insulator is included. Cores formed with fiber assemblies; And the shroud, which completely encapsulates the core in its interior, the interior to be pressure reduced. The core is encapsulated in the enclosure, and is shaped to have a compressive stress of 5 kPa, or Less than when the core is removed from the inside of the enclosure and compressed to a thickness equal to 50% under atmospheric pressure 3. Vacuum insulation of claim 1 or 2 where the fiber assembly 4. Vacuum insulation of any Clause 1 or 2, where the fiber assembly will be formed independently of the fastening agent. 5. Thermal insulation. Vacuum of any clause 1 or 2, whereby the fiber assembly is formed independently of compression by heating. 6. Vacuum thermal insulation of any clause of Clause 1 or 2, where the distance between the end of the core and the weld sealing part of the enclosure is 5 mm or more and 100 mm or less 7.Method for manufacturing vacuum insulators, method The construction includes The core encapsulation is formed with a fiber assembly with a compression enclosure, prior to reducing the internal pressure of the enclosure, core and enclosure as The same piece by external force to bring the core into a compressed state. Forming the sealing section by welding at least on two opposite sides at the site By the circumference of the enclosure in a compressed state; And page 2 of the number 2 pages Pressure reduction and hermetically sealed, after the formation of the sealing part by welding, the inside of the enclosure to obtain vacuum heat insulation. The core is sheathed to have a compressive stress of 5 kPa or less when the core is It is compressed to a thickness equal to 50% under atmospheric pressure before being encapsulated in the enclosure. 8. The thermal insulating box, which is assembled with the vacuum insulation of any Clause No. 1 to 6 ------------ Revised 10/22/2015 1. Vacuum heat insulation, which includes Cores formed with fiber assemblies; And the cover which encapsulates the core intuitively in its interior, the interior to be reduced. The core is sheathed to have a compressive stress of 5 kPa or less when the axis is Removed from the inside of the enclosure and compressed to a thickness equal to 50% under atmospheric pressure. 2. Vacuum heat insulation, which includes Cores formed with fiber assemblies; And the encapsulation that encapsulates the core completely in its interior, inside to be pressure relieved. The core is encapsulated in the enclosure, and is shaped to have a compressive stress of 5 kPa, or Less than when the core is removed from the inside of the enclosure and compressed to a thickness equal to 50% under atmospheric pressure. 3. Vacuum insulation of claim No. 1 or No. 2, where the fiber assembly Will be formed with glass fibers 4. Vacuum insulation of any one of claims 1 to 3, whereby the fiber assembly is formed independently of the bonding agent. 5. Vacuum insulation of any clause 1 to 4, whereby the fiber assembly is formed independently of compression by heating. 6. Vacuum insulation of any of the clauses 1 to 5, where the distance between the end of the core and the welding sealing part of the enclosure is 5 mm or more and 100 mm or less. 7.Methods for the manufacture of vacuum insulators, methods which include The core encapsulation is formed with a fiber assembly with a compression seal, prior to reducing the internal pressure of the enclosure, the core and the enclosure is The same piece by external force to bring the core into a compressed state. Forming the sealing section by welding at least on two opposite sides at the site By the circumference of the enclosure in a compressed state; And pressure relief and sealing completely, after welding sealing part forming, inside of the enclosure to obtain vacuum heat insulation. The core is sheathed to have a compressive stress of 5 kPa or less when the core is It was compressed to 50% greater strength, taken under atmospheric pressure before being encapsulated in the hood. 8. Vacuum thermal insulation produced by the method of claim number 7. 9. Thermos insulation box which consists of vacuum insulation of any Number one of claims 1 to 6 and 8 ------------------------------------- ---------------------------