CN201665040U - High flame-retardant bubble thermal insulation material - Google Patents
High flame-retardant bubble thermal insulation material Download PDFInfo
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- CN201665040U CN201665040U CN 201020110469 CN201020110469U CN201665040U CN 201665040 U CN201665040 U CN 201665040U CN 201020110469 CN201020110469 CN 201020110469 CN 201020110469 U CN201020110469 U CN 201020110469U CN 201665040 U CN201665040 U CN 201665040U
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Abstract
The utility model discloses a high flame-retardant bubble thermal insulation material. A flame-retardant polythene bubble layer is used as the middle basis layer; a first flame-retardant polythene layer is attached on the upper surface of the flame-retardant polythene bubble layer; a flame-retardant polyester polymer film layer is attached on the upper surface of the first flame-retardant polythene layer; a first aluminum film layer is attached on the upper surface of the flame-retardant polyester polymer film layer; a second flame-retardant polythene layer is attached on the lower surface of the flame-retardant polythene bubble layer; a flame-retardant woven fabric layer or a flame-retardant non-woven fabric layer with the thickness of 10-100 micro and made from polythene or polypropylene is attached on the lower surface of the second flame-retardant polythene layer; and a second aluminum film layer is attached on the lower surface layer of the flame-retardant woven fabric layer or the flame-retardant non-woven fabric layer. The high flame-retardant bubble thermal insulation material has the excellent performances of high flame retardance, high thermal insulation, high corrosion resistance, high intensity, shock absorption, and the like.
Description
Technical field
The utility model relates to a kind of construction material, particularly a kind of high-flame-retardant bubble heat insulation material of architectural usefulness.
Background technology
Along with present global warming, in the overall situation of low-carbon economy, country encourages, promotes energy-saving and emission-reduction energetically, and environmental protection, energy saving building are important rings.The building class roof that existing market is generally used, the heat insulation material of wall are for EPE foam or harmless cloth and the aluminium film individual layer heat-barrier material that forms such as compound.But it generally has shortcoming: at first, class material damping performances such as EPE foam or harmless cloth are poor, and easily oxidation and corrosion, and service life is low.Lost waterproof, heat insulation function in general two to three years gradually.Secondly, this material extending and lower to tensile strength in length and breadth, contact with foreign matter or weight under easily break, and relatively poor owing to surface smoothness, the sunray reflectivity is lower; Heat insulation, heat-insulating property is relatively poor relatively.Once more, no air barrier layer in the middle of this material, interior outside energy forms convection current, conduction easily, and influences heat insulation usefulness.Therefore, develop a kind of not only had higher-strength and elasticity and can be anti-oxidant and corrosion-resistant but also have high effect of heat insulation, the novel heat insulation material of economy and durability is the relevant industries urgent problems.
The utility model content
For overcoming the deficiencies in the prior art, the technical problems to be solved in the utility model provides a kind ofly has higher-strength and elasticity again can the anti-oxidant and corrosion-resistant novel high flame retardant heat-barrier material that also has high effect of heat insulation, economy and durability.
For solving the problems of the technologies described above, the utility model adopts following technical scheme:
A kind of high-flame-retardant bubble heat insulation material, it is the intermediate base layer with fire-retardant PEF bubble layer, the attached first fire-retardant PEF layer that is knotted on the upper surface of described fire-retardant PEF bubble layer, the attached flame retardant polyester quasi-copolymer film layer that is knotted on the upper surface of the described first fire-retardant PEF layer, attached first aluminum membranous layer that is knotted on the upper surface of described flame retardant polyester class thin layer, the attached second fire-retardant PEF layer that is knotted on the lower surface of described fire-retardant PEF bubble layer, attachedly on the lower surface of the described second fire-retardant PEF layer be knotted fire-retardant base fabric or the fire retardant nonwoven fabric layer that the thickness that is made by polyethylene or polypropylene is the 10-100 micron, at attached second aluminum membranous layer that is knotted of the undersurface layer of described fire-retardant base fabric or fire retardant nonwoven fabric layer.
Preferably, described fire-retardant PEF bubble layer is made up of the air bladder that the polyethylene extruded blown forms, and the height of described air bladder is the 3-15 millimeter, and bubble diameter is the 3-30 millimeter.。
Preferably, the thickness of the described first fire-retardant PEF layer, the second fire-retardant PEF layer is the 10-50 micron, the thickness of described flame retardant polyester quasi-copolymer film layer and fire-retardant base fabric or fire retardant nonwoven fabric layer is the 10-25 micron, and the thickness of described first aluminum membranous layer, second aluminum membranous layer is the 6-30 micron.
Preferably, extrude compound connection by polyurethanes coupler or polyethylene or polypropylene between described air bladder, the first fire-retardant PEF layer, the second fire-retardant PEF layer, flame retardant polyester quasi-copolymer film layer, fire-retardant base fabric or fire retardant nonwoven fabric layer, first aluminum membranous layer and second aluminum membranous layer, described polyurethanes coupler or polyethylene or polyacrylic thickness are the 5-30 micron.
Technique scheme has following beneficial effect: this high-flame-retardant bubble heat insulation material has made full use of characteristics such as base fabric or the high reflection of nonwoven layer high strength, good toughness and aluminium film, thicker fire-retardant base fabric or fire retardant nonwoven fabric layer are set on the bubble heat-barrier material, make the heat-barrier material of preparation have excellent properties such as high flame retardant, high heat insulation, highly corrosion resistant, high strength, damping.
Description of drawings
Fig. 1 is the structural representation of the utility model embodiment.
The specific embodiment
Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail.
As shown in Figure 1, this high-flame-retardant bubble heat insulation material is the intermediate base layer with fire-retardant PEF bubble layer 1, and fire-retardant PEF bubble layer 1 is made up of the air bladder that the polyethylene extruded blown forms, and the height of air bladder is the 3-15 millimeter, and bubble diameter is the 3-30 millimeter.The attached first fire-retardant PEF layer 2 that is knotted on the upper surface of fire-retardant PEF bubble layer, the attached flame retardant polyester quasi-copolymer film layer 3 that is knotted on the upper surface of the first fire-retardant PEF layer 2, attached first aluminum membranous layer 4 that is knotted on the upper surface of flame retardant polyester class thin layer 3; The attached second fire-retardant PEF layer 5 that is knotted on the lower surface of fire-retardant PEF bubble layer 1, attached fire-retardant base fabric or the fire retardant nonwoven fabric layer 6 that is made by polyethylene or polypropylene that be knotted on the lower surface of the second fire-retardant PEF layer 5 is at attached second aluminum membranous layer 7 that is knotted of the outer undersurface layer of fire-retardant base fabric or fire retardant nonwoven fabric layer 6.
The thickness of first fire-retardant PEF layer 2, the second fire-retardant PEF layer 5 is the 10-50 micron, flame retardant polyester quasi-copolymer film layer 3 is the 10-25 micron, the thickness of first aluminum membranous layer 4, second aluminum membranous layer 7 is the 6-30 micron, and the thickness of fire-retardant base fabric or fire retardant nonwoven fabric layer 6 is the 10-100 micron.All extrude compound connection by polyurethanes coupler or polyethylene or polypropylene between air bladder, the first fire-retardant PEF layer 2, flame retardant polyester quasi-copolymer film layer 3, first aluminum membranous layer 4 and the second fire-retardant PEF layer 5, fire-retardant base fabric or fire retardant nonwoven fabric layer 6 and second aluminum membranous layer 7, polyurethanes coupler or polyethylene or polyacrylic thickness are the 5-30 micron.The nano-meter flame retardants ratio that adds in fire-retardant PEF bubble layer 1, first fire-retardant PEF layer 2, the second fire-retardant PEF layer 5, flame retardant polyester quasi-copolymer film layer 3, fire-retardant base fabric or the fire retardant nonwoven fabric layer 6 is 2%--50%.
This high-flame-retardant bubble heat insulation material takes full advantage of the characteristics such as fire-retardant base fabric or the high reflection of fire retardant nonwoven fabric floor height intensity, good toughness, good flame resistance and aluminium film, at bubble insulating material thicker fire-retardant base fabric or fire retardant nonwoven fabric layer are set, so that the heat-barrier material of preparation has the excellent properties such as high flame retardant, high heat insulation, highly corrosion resistant, high strength, damping.
Claims (3)
1. high-flame-retardant bubble heat insulation material, it is the intermediate base layer with fire-retardant PEF bubble layer, it is characterized in that: the attached first fire-retardant PEF layer (2) that is knotted on the upper surface of described fire-retardant PEF bubble layer (1), the attached flame retardant polyester quasi-copolymer film layer (3) that is knotted on the upper surface of the described first fire-retardant PEF layer (2), attached first aluminum membranous layer (4) that is knotted on the upper surface of described flame retardant polyester class thin layer (3), the attached second fire-retardant PEF layer (5) that is knotted on the lower surface of described fire-retardant PEF bubble layer (1), attachedly on the lower surface of the described second fire-retardant PEF layer (5) be knotted fire-retardant base fabric or the fire retardant nonwoven fabric layer (6) that the thickness that is made by polyethylene or polypropylene is the 10-100 micron, at attached second aluminum membranous layer (7) that is knotted of the undersurface layer of described fire-retardant base fabric or fire retardant nonwoven fabric layer (6).
2. high-flame-retardant bubble heat insulation material according to claim 1 is characterized in that: described fire-retardant PEF bubble layer (1) is made up of the air bladder that the polyethylene extruded blown forms, and the height of described air bladder is the 3-15 millimeter, and bubble diameter is the 3-30 millimeter.。
3 high-flame-retardant bubble heat insulation materials according to claim 2, it is characterized in that: the thickness of the described first fire-retardant PEF layer (2), the second fire-retardant PEF layer (5) is the 10-50 micron, the thickness of described flame retardant polyester quasi-copolymer film layer (3) and fire-retardant base fabric or fire retardant nonwoven fabric layer (6) is the 10-25 micron, and the thickness of described first aluminum membranous layer (4), second aluminum membranous layer (7) is the 6-30 micron.
4. high-flame-retardant bubble heat insulation material according to claim 2, it is characterized in that: extrude compound connection by polyurethanes coupler or polyethylene or polypropylene between described air bladder, the first fire-retardant PEF layer (2), the second fire-retardant PEF layer (5), flame retardant polyester quasi-copolymer film layer (3), fire-retardant base fabric or fire retardant nonwoven fabric layer (6), first aluminum membranous layer (4) and second aluminum membranous layer (7), described polyurethanes coupler or polyethylene or polyacrylic thickness are the 5-30 micron.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201020110469 CN201665040U (en) | 2010-02-08 | 2010-02-08 | High flame-retardant bubble thermal insulation material |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201020110469 CN201665040U (en) | 2010-02-08 | 2010-02-08 | High flame-retardant bubble thermal insulation material |
Publications (1)
Publication Number | Publication Date |
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CN201665040U true CN201665040U (en) | 2010-12-08 |
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Family Applications (1)
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CN 201020110469 Expired - Fee Related CN201665040U (en) | 2010-02-08 | 2010-02-08 | High flame-retardant bubble thermal insulation material |
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CN (1) | CN201665040U (en) |
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2010
- 2010-02-08 CN CN 201020110469 patent/CN201665040U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20101208 Termination date: 20110208 |