CN201059404Y

CN201059404Y - Vacuum flexible insulation lining

Info

Publication number: CN201059404Y
Application number: CNU2007200384721U
Authority: CN
Inventors: 章育骏; 章澄
Original assignee: Individual
Current assignee: Nanjing Shanghai Composite Materials Ltd By Share Ltd
Priority date: 2007-07-09
Filing date: 2007-07-09
Publication date: 2008-05-14
Anticipated expiration: 2017-07-09

Abstract

The utility model relates to a vacuum flexible heat insulating lining which is characterized in that flexible heat insulating materials in vacuum state are filled and sealed in a high-barrier bag. The utility model has the advantages that: with structure that the flexible heat insulating materials in vacuum state are filled and sealed in a high-barrier bag, the utility model overcomes the problem in use that insulating blocks form gaps or absorb water easily so as to affect the heat insulation effect, has flexible and convenient use and is not limited by appearances of workpieces; the flexible insulating materials in vacuum state being filled in a high-barrier bag and then vacuumed, the production process is simpler than that of a vacuum insulating layer and production cost is relative lower; the flexible insulating materials contain molecular sieve or getter, and heat insulation work mode under high vacuity is adopted, thereby greatly improving the heat insulation effect of the utility model.

Description

The Flexible vacuum insulation lining

Technical field

The utility model relates to a kind of thermal insulating material, especially a kind of Flexible vacuum insulation lining.

Background technique

Thermal insulating material uses very extensive in daily life, and for example thermal cup, refrigerator, freezer all be unable to do without thermal insulating material, also needs to obtain optimum efficiency by thermal insulating material in occasions such as air-conditioning, freezing prevention tubing and insulations.Present common thermal insulating material mainly contains the insulation block that the foamed plastics polyamine fat of hard, cork chips etc. is compression molded into geometry in particular, the vacuum heat-insulating layer that vacuumizes formation in rigid material interlayer (as glass, stainless steel) is arranged, also has flexibly thermal insulation material, as foamed plastics band, foamed plastics pipe etc.In above-mentioned thermal insulating material, tending to during insulation block uses influences heat insulation effect because of fabrication error causes forming easily between the adjacent insulation block slit, and in addition, polyamine fat, cork chips all have stronger absorbent function, also can influence heat insulation effect; Though the vacuum heat-insulating layer heat insulation effect is better, cost of production is higher, and shape can't change; Flexibly thermal insulation material then has easy to use, but heat insulation effect is not as vacuum heat-insulating layer.About the vacuum flexibly thermal insulation material, be not reported.

Summary of the invention

The purpose of this utility model is: forming the slit easily in using at present insulation block influences heat insulation effect; Some thermal insulating material easily absorbs water, and influences heat insulation effect; The vacuum heat-insulating layer cost of production is higher, and shape can't change; The heat insulation effect of flexibly thermal insulation material provides a kind of Flexible vacuum insulation lining not as a series of problems such as vacuum heat-insulating layers.

The purpose of this utility model is achieved in that a kind of Flexible vacuum insulation lining, it is characterized in that: be packaged with the flexibly thermal insulation material under the vacuum state in the high-barrier sealing package.

In the utility model: described flexibly thermal insulation material is a rock wool, or glass fibre, or foam body, or other flexibly thermal insulation materials.

In the utility model: the bag of described high-barrier sealing package adopts polyethylene (PE), binding agent, aluminium foil (AL), binding agent, PA nylon, binding agent, seven layers of sheet material that is compounded to form successively of polyethylene (PE).

In the utility model: described binding agent is AD dry-type composite glue stick or EVA hot melt adhesive.

In the utility model: it is characterized in that: contain an amount of molecular sieve or getter in the described flexibly thermal insulation material.

Advantage of the present utility model is: because structure of the present utility model is the flexibly thermal insulation material that is packaged with in the high-barrier sealing package under the vacuum state, overcome in the use insulation block form easily the slit or easily suction influence the problem of heat insulation effect, flexible and convenient to use, be not subjected to the restriction of workpiece profile; Packing in the high-barrier sealing package vacuumizes behind the flexibly thermal insulation material again, and its production technology is simpler than vacuum heat-insulating layer, and cost of production is relatively low; Contain molecular sieve or getter in the flexibly thermal insulation material, and adopt the heat insulation work pattern under the condition of high vacuum degree, improved heat insulation effect of the present utility model greatly.

Description of drawings

Fig. 1 is the structural representation of the used sheet material of bag of high-barrier sealing package;

Fig. 2 is the utility model embodiment's a structural representation.

Among the figure: 1, polyethylene (PE), 2, binding agent, 3, aluminium foil (AL), 4, PA nylon, 5, the high-barrier sealing package, 6, flexibly thermal insulation material.

Embodiment

Accompanying drawing discloses the sheet material of the utility model use and the structure of specific embodiment without limitation, below in conjunction with accompanying drawing the utility model is done to describe further.

As seen from Figure 1: the sheet material that the bag of the high-barrier sealing package that relates in the utility model uses be by: polyethylene (PE) 1, binding agent 2, aluminium foil (AL) 3, binding agent 2, PA nylon 4, binding agent 2,1 seven layers of sheet material that is compounded to form successively of polyethylene (PE), described binding agent 2 can be selected AD dry-type composite glue stick or EVA hot melt adhesive.In the present embodiment, described binding agent 2 is an AD dry-type composite glue stick.

As seen from Figure 2: flexibly thermal insulation material 6 is housed in high-barrier sealing package 5, vacuumizes then, the flexibly thermal insulation material 6 in the high-barrier sealing package 5 is in the environment of condition of high vacuum degree all the time.Described flexibly thermal insulation material 6 can be selected one and select to use rock wool, or glass fibre, or foam body, or other flexibly thermal insulation materials.In the present embodiment, flexibly thermal insulation material 6 has adopted glass fibre.During concrete enforcement,, can in flexibly thermal insulation material 6, mix an amount of molecular sieve or getter in order to improve heat insulation effect.

Claims

1. a Flexible vacuum insulation lining is characterized in that: be packaged with the flexibly thermal insulation material under the vacuum state in the high-barrier sealing package.

2. Flexible vacuum insulation lining according to claim 1 is characterized in that: described flexibly thermal insulation material is a rock wool, or glass fibre, or foam body, or other flexibly thermal insulation materials.

3. Flexible vacuum insulation lining according to claim 1 is characterized in that: the bag of described high-barrier sealing package adopts polyethylene (PE), binding agent, aluminium foil (AL), binding agent, PA nylon, binding agent, seven layers of sheet material that is compounded to form successively of polyethylene (PE).

4. Flexible vacuum insulation lining according to claim 3 is characterized in that: described binding agent is AD dry-type composite glue stick or EVA hot melt adhesive.

5. according to claim 1 or 2 or 3 or 4 described Flexible vacuum insulation linings, it is characterized in that: contain an amount of molecular sieve or getter in the described flexibly thermal insulation material.