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Heat insulation structure formed by heat insulation units and method for manufacturing same

A technology of structure and unit body, applied in the field of heat insulation structure and its manufacturing, can solve the problems of difficult operation of heat insulation structure volume or size, decline of heat insulation durability, difficulty of heat insulation or heat preservation, etc., to achieve improvement Bidirectional heat conduction and heat transfer limitation, improvement of operation loss, improvement of heat conduction and heat transfer limit effect

Inactive Publication Date: 2016-06-22
努倍昆(株)
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The general heat insulation structure composed as above is easily exposed to the pollution source of the outside air due to the heat reflection plate and the radiation heat reflection sheet. The problem of reduced durability of heat insulation
[0005] At the same time, it is difficult to operate due to the large volume or size of the heat insulation structure, and it also has the structural disadvantage that it can only be used for building heat insulation. In addition to buildings, it is difficult to be compatible with special applications that require heat insulation or heat preservation. Clothing, automobiles, refrigerators and other home appliances, industrial factories, etc.

Method used

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  • Heat insulation structure formed by heat insulation units and method for manufacturing same
  • Heat insulation structure formed by heat insulation units and method for manufacturing same
  • Heat insulation structure formed by heat insulation units and method for manufacturing same

Examples

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no. 2 Embodiment

[0099] The second embodiment combines Figure 11 to Figure 14 To be specific.

[0100] The heat insulation structure of the second embodiment of the present invention is a collection of heat insulation units composed of spheres, that is, the heat insulation units composed of spheres are regularly or irregularly arranged adjacent to each other for more than one layer, and each heat insulation The outside of the unit body is covered with heat reflection film respectively.

[0101] An example thereof is that the thermal insulation unit 2050 of the present invention is as Figure 11 As shown, it is composed of a sphere 2010 filled inside and covered with a heat-reflecting film 2020 on the outside of the sphere to form an integrated independent sphere. The diameter of the thermal insulation unit 2050 is preferably 10-100mm, but it is not limited to this size, and the size can be appropriately changed according to the use conditions.

[0102] The spherical body 2010 is preferably...

no. 3 Embodiment

[0113] The third embodiment combines Figure 15 to Figure 18 Be explained.

[0114] like Figure 15 and Figure 16As shown, the heat insulating structure 3150 of the third embodiment of the present invention includes a first sheet 3016, a second sheet 3017, and a heat reflection film 3020 formed on one surface of the first sheet.

[0115] A plurality of arched recesses 3117 are formed in the same direction on the second piece 2017 .

[0116] The concave part 3117 preferably consists of a hemispherical or elliptical shape with a diameter of 10-100mm, but it is not limited to this size and shape, and can be variously deformed according to the usage conditions.

[0117] The second sheet is pasted on one side of the heat reflection film 3020 forming the first sheet so that the respective recesses 3117 form closed spaces 3217 . The enclosed space may be filled with argon, which has a lower heat transfer coefficient than air.

[0118] It is advisable for the first sheet 3016 to...

no. 4 Embodiment

[0131] The fourth embodiment combines Figure 19 to Figure 22 to illustrate.

[0132] like Figure 19 and Figure 20 As shown, the heat insulation structure 4150 of the fourth embodiment of the present invention is composed of a rod-shaped heat insulation unit 4050 formed in a barrel shape.

[0133] Each rod-shaped thermal insulation unit body 4050 includes a film material 4010 composed of synthetic resin, vinyl plastic, foam, etc., and an integral closed space 4017 formed in the film material along the length direction of the thermal insulation unit body. A heat reflective film in the enclosed space.

[0134] The heat reflective film is made of such as Figure 20 As shown in (a), the entire inner surface of the closed space 4017 covered with the film 4010 is covered with an aluminum film or a heat reflective film 4025 formed by silver foil paper, etc., or as shown in FIG. Figure 20 As shown in (b), it is formed in half of the inner surface of the heat reflection film 41...

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Abstract

The purpose of the present invention is to provide a heat insulation unit in which heat rays, which are introduced into the spherical heat insulation unit, are irregularly-reflected in a space part of the spherical heat insulation unit, thereby efficiently capturing heat in the space part. A heat insulation unit (1050) is formed by forming a heat reflection film (1020) by coating an aluminum film on an inner peripheral surface of a spherical film material (1010). Further, a heat insulation structure is formed by attaching the heat insulation structures (1050) to a support member such as a vinyl sheet, a non-woven fabric, a synthetic fiber, a natural fiber, etc. or filling the heat insulation units (1050) in a predetermined space.

Description

technical field [0001] The present invention relates to a heat insulation structure composed of heat insulation units and a manufacturing method thereof, in particular to a heat insulation structure applicable to various fields and capable of improving heat insulation performance and a manufacturing method thereof. Background technique [0002] In the field of construction and the like, various studies are being conducted to improve heat insulation efficiency. For example, Korean Patent Publication No. 2011-82099 also discloses figure 1 As shown, one side of each surface material (21, 21a) is equipped with a heat reflective material (23) to make it opposite, forming a pair of heat reflective plates (20, 20a), and the heat reflective plates (20, 20a) ) between the heat-reflective clad panels (100) with spacers (30) installed to form an air layer. [0003] And disclosed in Korean Patent Publication No. 2013-19786, such as figure 2 Shown on one side of the 1st heat insulati...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F16L59/06E04B1/78
CPCF16L59/08B23P19/04F16L59/02
Inventor 金于楠沈昌燮沈相权
Owner 努倍昆(株)