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JP2010030261A - Thin multistage heat insulator - Google Patents

Thin multistage heat insulator Download PDF

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Publication number
JP2010030261A
JP2010030261A JP2008211154A JP2008211154A JP2010030261A JP 2010030261 A JP2010030261 A JP 2010030261A JP 2008211154 A JP2008211154 A JP 2008211154A JP 2008211154 A JP2008211154 A JP 2008211154A JP 2010030261 A JP2010030261 A JP 2010030261A
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JP
Japan
Prior art keywords
performance
heat insulating
thin
thickness
insulating material
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Pending
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JP2008211154A
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Japanese (ja)
Inventor
Kazuhiro Oikawa
一博 及川
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METAL PANEL KK
YOSHIMITSU TOORU
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METAL PANEL KK
YOSHIMITSU TOORU
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Priority to JP2008211154A priority Critical patent/JP2010030261A/en
Publication of JP2010030261A publication Critical patent/JP2010030261A/en
Pending legal-status Critical Current

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Abstract

<P>PROBLEM TO BE SOLVED: To provide an extremely-thin and high-performance heat insulator, which can be cut, affixed, and perforated anywhere. <P>SOLUTION: The extremely-thin heat insulator consists of a laminate of a metal sheet 1 (aluminum, 6-100 microns, etc.), a resin foam 2 such as urethane, PET, styrol, and an object such as glass wool, having a thickness of 0.5-5 mm, by which the heat insulator is thin, has a high performance, can be cut, affixed, and perforated anywhere, can prevent also a heat bridge from the circumference, and has a performance equal to a vacuum insulation material. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明は、冷凍、冷蔵庫。冷凍庫、コンテナ、パイプカバー、住宅用断熱パネル、空調ダクト等に用いられる断熱材に関するものである。      The present invention is a refrigerator and refrigerator. The present invention relates to a heat insulating material used for a freezer, a container, a pipe cover, a heat insulating panel for a house, an air conditioning duct, and the like.

特許公開2005−214341Patent Publication 2005-214341

近年、地球環境保全のために、オゾン層保護及び地球温暖化防止等の技術として、脱フロン又は省エネルギー技術の確立が求められており、省エネルギー技術の一つである断熱技術分野では、高性能の真空断熱材が注目されているが、欠点が無い訳ではなく、切ったり、穴を空けたり出来ない等の弱点が有るのである。また 周囲からのヒートブリッジも防ぐことができない。
断熱性能を上げるには単純に断熱材の厚みを、2倍にすれば 性能は2倍になるが、2倍のコストと厚みを増すための、断熱幅が増えるので、単純に厚みを増やす事は出来ない。
断熱厚みを増やさず性能を上げるには更なる高性能な断熱材を必要とする。
厚みとコストを抑えられる断熱材が理想なのである。同材質の断熱材を加工し断熱性能を上げる事が出来れば、新規選択の必要もなく,同材質での性能アップが簡単に選択出来る。In recent years, in order to protect the global environment, it has been required to establish chlorofluorocarbon-free or energy-saving technologies as technologies for protecting the ozone layer and preventing global warming. Vacuum insulation is attracting attention, but it is not without its drawbacks and has weaknesses such as being unable to cut or drill holes. Also, heat bridge from the surroundings cannot be prevented.
To increase the thermal insulation performance, simply double the thickness of the thermal insulation to double the performance, but the thermal insulation width increases to double the cost and thickness, so simply increase the thickness. I can't.
In order to improve the performance without increasing the insulation thickness, a further high-performance insulation is required.
Insulation that can reduce thickness and cost is ideal. If it is possible to improve the heat insulation performance by processing the same heat insulating material, it is not necessary to make a new selection and it is easy to select the performance improvement with the same material.

真空断熱材に匹敵する性能を持ち、どこでも切断、穴加工が出来る高性能断熱材を開発する。Develop high-performance insulation that has performance comparable to vacuum insulation and can cut and drill holes anywhere.

断熱材は薄く、高性能で、どこででも切ったり、貼ったり、穴加工が出来るのが理想である。本断熱材は真空断熱材と同等の性能を持ち、真空パックされていないからどこでも切れるし、どこでも穴が空けられ、作業環境を選ばないのである。Ideally, the insulation is thin, high performance, and can be cut, pasted and drilled anywhere. This insulation has the same performance as the vacuum insulation, and since it is not vacuum-packed, it can be cut anywhere, and holes can be drilled anywhere, so it doesn't matter the working environment.

ここでは、アルミシート(6〜100ミクロン)に発泡樹脂(0.5ミリから5ミリを積層した。極薄型の断熱材を作り、これを積層して、多層断熱材を製作する。Here, foamed resin (0.5 to 5 mm is laminated on an aluminum sheet (6 to 100 microns). An ultra-thin heat insulating material is made and laminated to produce a multilayer heat insulating material.

上記で製作した極薄断熱材を(アルミ6ミクロン、発泡樹脂0.5ミリ)合計0.506ミリの断熱材を用途、求める断熱性能により多段式に積み重ねる。たとえば20ミリ必要なら20枚積層すれば、0.506*20枚は10.12ミリの多段断熱材が完成する。
構成する部材の厚みを求める断熱条件により変化させる事も出来る。
これは 真空断熱材に匹敵する性能を持っている。The ultra-thin heat insulating materials manufactured above (aluminum 6 microns, foamed resin 0.5 mm) are stacked in a multi-stage manner with a total of 0.506 mm of heat insulating materials depending on application and required heat insulating performance. For example, if 20 sheets are required, if 20 sheets are stacked, a multistage heat insulating material of 0.506 * 20 sheets of 10.12 mm is completed.
It can also be changed according to the heat insulation condition for obtaining the thickness of the constituent members.
This is comparable to vacuum insulation.

同様に100ミリ程度の物が必要な場合は、0.506*100枚積層すれば良い。Similarly, if an object of about 100 mm is required, 0.506 * 100 sheets may be laminated.

また 求める断熱性能によりアルミ10ミクロン+発泡樹脂5ミリとして、これを10段積層しても良い、その場合厚みは、(0.01+5)*10枚=50.1ミリの多段高性能断熱材が完成する。Also, depending on the required heat insulation performance, aluminum 10 micron + foamed resin 5 mm may be laminated 10 layers, in which case the thickness is (0.01 + 5) * 10 sheets = 50.1 mm multi-stage high-performance insulation Complete.

発泡樹脂をグラスウール/ボード等に換え、同等の性能を出す事も出来る。
またこの場合、製作単価も材質を換える事により安価な物を選択できる。The same performance can be achieved by replacing the foamed resin with glass wool / board.
In this case, the manufacturing unit price can be selected by changing the material.

このように、求める性能、コスト、厚みに、簡単に対応できる高性能断熱材である。
アルミ箔を強度の面から、PEフィルム(2ミクロン程度)で積層した物を利用して溶着しても良い。Thus, it is a high-performance heat insulating material that can easily cope with the required performance, cost, and thickness.
From the viewpoint of strength, aluminum foil may be welded using a laminate of PE films (about 2 microns).

最低で1.006ミリの極薄断熱材を提供でき、希望の断熱性能を、厚み、積層数で、選択する事が出来る。希望する断熱性能を向上出来る結果、各種断熱材として適用できる。An ultra-thin heat insulating material of 1.006 mm can be provided at a minimum, and desired heat insulating performance can be selected by thickness and number of layers. As a result of improving the desired heat insulating performance, it can be applied as various heat insulating materials.

アルミと発泡樹脂を積層したものの断面図です。  Cross section of laminated aluminum and foamed resin. 図1に記す断熱材を積層した多段断熱材です。  This is a multistage heat insulating material in which the heat insulating materials shown in Fig. 1 are laminated.

符号の説明Explanation of symbols

1. 6ミクロンから100ミクロンのアルミ
2. 発泡樹脂1. Aluminum from 6 microns to 100 microns Foam resin

Claims (3)

金属シート(アルミ 6ミクロンから100ミクロンなど)と発泡樹脂、グラスウール、ペット樹脂繊維等の0.5ミリから5ミリ厚みの物を積層した。極薄い断熱材を提供する。A metal sheet (aluminum 6 microns to 100 microns, etc.) and foamed resin, glass wool, PET resin fiber, etc. having a thickness of 0.5 to 5 mm were laminated. Provide ultra-thin insulation. 1で製作された極薄の断熱材を5層から100層積層した 、多段式断熱材を提供する。求める性能に合わせて厚みを調整できる断熱材を提供する。A multi-stage heat insulating material is provided by stacking 5 to 100 layers of the ultra-thin heat insulating material manufactured in 1. Provided is a heat insulating material whose thickness can be adjusted according to the required performance. 求められる断熱性能に合わせるよう、1で製作するアルミ、発泡樹脂、グラスウール、ペット樹脂繊維等の厚みを変える事により、最適な厚みの断熱材を提供する。By changing the thickness of aluminum, foamed resin, glass wool, PET resin fiber, etc. manufactured in 1 so as to match the required heat insulation performance, a heat insulating material having an optimum thickness is provided.
JP2008211154A 2008-07-24 2008-07-24 Thin multistage heat insulator Pending JP2010030261A (en)

Priority Applications (1)

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Application Number Priority Date Filing Date Title
JP2008211154A JP2010030261A (en) 2008-07-24 2008-07-24 Thin multistage heat insulator

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JP2010030261A true JP2010030261A (en) 2010-02-12

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102501473A (en) * 2011-11-07 2012-06-20 青岛科瑞新型环保材料有限公司 Envelope fabric of an insulation board and a preparation process for the same
CN102501472A (en) * 2011-11-07 2012-06-20 青岛科瑞新型环保材料有限公司 Insulation board cladding material and preparation method thereof
CN106183347A (en) * 2016-08-10 2016-12-07 广德天运新技术股份有限公司 A kind of preparation method of heat-insulating soundproof damping fibrofelt
CN106335253A (en) * 2016-08-25 2017-01-18 广德天运新技术股份有限公司 Vehicle engine thermal-insulation pad
JP6414835B1 (en) * 2018-03-29 2018-10-31 株式会社エスコ Insulation

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102501473A (en) * 2011-11-07 2012-06-20 青岛科瑞新型环保材料有限公司 Envelope fabric of an insulation board and a preparation process for the same
CN102501472A (en) * 2011-11-07 2012-06-20 青岛科瑞新型环保材料有限公司 Insulation board cladding material and preparation method thereof
CN106183347A (en) * 2016-08-10 2016-12-07 广德天运新技术股份有限公司 A kind of preparation method of heat-insulating soundproof damping fibrofelt
CN106335253A (en) * 2016-08-25 2017-01-18 广德天运新技术股份有限公司 Vehicle engine thermal-insulation pad
JP6414835B1 (en) * 2018-03-29 2018-10-31 株式会社エスコ Insulation
JP2019171806A (en) * 2018-03-29 2019-10-10 株式会社エスコ Heat insulation material

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