CN205310989U - Resistance to deformation multilayer heat preservation combined material - Google Patents
Resistance to deformation multilayer heat preservation combined material Download PDFInfo
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- CN205310989U CN205310989U CN201620021122.3U CN201620021122U CN205310989U CN 205310989 U CN205310989 U CN 205310989U CN 201620021122 U CN201620021122 U CN 201620021122U CN 205310989 U CN205310989 U CN 205310989U
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Abstract
The utility model belongs to the technical field of the packaging film is used, specifically disclose a resistance to deformation multilayer heat preservation combined material, aluminize the rete and the multilayer filling layer that sets up in the middle of the rete is aluminized to the first rete of aluminizing, second is formed by the first rete of aluminizing, second. Multilayer heat preservation combined material stronger deformation resistance has, can effectively completely cut off outside heat, stop the damage of outside heat to the packing product, the service life of overall structure's tearing toughness, the merit of breaking and dynamic intensity, the extension membrane is prolonged, reduce cost, surfacing, packing are used pleasing to the eyely. The utility model relates to a rationally, the easy popularization.
Description
Technical field
This utility model belongs to packaging film materials application technical field, is specifically related to a kind of resistance to deformation multi-layer heat preserving composite, and its multiple structure constituted is wear-resisting, high temperature resistant and corrodes, and has efficient static electricity resistance and deformation resistance simultaneously.
Background technology
Components and parts Protective coatings, it is packed in component surface, is used for protecting components and parts from external environment influence, it is prevented that a kind of packaging material of the damage of components and parts. Such as aluminizer material, its a kind of composite soft packaging material adopting special process to plate the very thin metallic aluminium of last layer in Plastic film surface and being formed, the most frequently used processing method is when the vacuum aluminum-coated method of number, under high vacuum state, by high temperature, metallic aluminium is melted evaporation, the steam precipitation making aluminum is stacked in Plastic film surface, so that Plastic film surface has metallic luster, both there is the characteristic of plastic sheeting due to it, there is again the characteristic of metal, be a kind of attractive in appearance, function admirable, practical packaging material.
The metallized film that current application is maximum mainly has polyester aluminizer (VMPET) and CPP aluminizer (VMCPP), the effect that film surface is aluminized is shading, resisting ultraviolet radiation, both the shelf-life of content had been extended, improve again the brightness of thin film, instead of aluminium foil to a certain extent, be mainly used in the outer package of dry, puffed food packaging and some medicine, cosmetics and components and parts.
But, the aluminizer material for packagings such as components and parts of traditional structure, its structural design is unreasonable, cause that performance is poor in wear-resisting, high temperature resistant, burn into static electricity resistance and deformation resistance, cause components and parts or the loss of other packaging article, can not meet existing packaging instructions for use.
Therefore, based on the problems referred to above, this utility model provides a kind of resistance to deformation multi-layer heat preserving composite.
Utility model content
Utility model purpose: the purpose of this utility model is to carry a kind of resistance to deformation multi-layer heat preserving composite, and its multi-layer structure design is reasonable, and multiple structure Wear-resistant, high-temperature resistant, has efficient static electricity resistance and deformation resistance simultaneously and appearance is smooth, attractive in appearance.
Technical scheme: this utility model provides a kind of resistance to deformation multi-layer heat preserving composite, by the first aluminium plating membrane, the second aluminium plating membrane be arranged on the multilamellar packed layer in the middle of the first aluminium plating membrane, the second aluminium plating membrane and form; Described multilamellar packed layer, including the first layers of kraft paper, the first polyethylene layer, the second layers of kraft paper and the second polyethylene layer, wherein, the two sides of the first layers of kraft paper connects the first aluminium plating membrane, the first polyethylene layer respectively, and the two sides of the second polyethylene layer connects the second aluminium plating membrane, the second layers of kraft paper respectively; Described first aluminium plating membrane, the second aluminium plating membrane, the first layers of kraft paper, the first polyethylene layer, the second layers of kraft paper integral membrane thickness that is identical with the thickness of the second polyethylene layer and that constitute is 0.1mm-0.25mm.
The technical program, described first aluminium plating membrane, the second aluminium plating membrane, the first layers of kraft paper thickness identical; Described first polyethylene layer, the second layers of kraft paper, the second polyethylene layer thickness identical.
The technical program, described first aluminium plating membrane, the second aluminium plating membrane, the first layers of kraft paper thickness be respectively greater than the thickness of the first polyethylene layer, the second layers of kraft paper, the second polyethylene layer.
The technical program, the integral membrane Rotating fields thickness that described first aluminium plating membrane, the second aluminium plating membrane, the first layers of kraft paper, the first polyethylene layer, the second layers of kraft paper and the second polyethylene layer are constituted is 0.13mm-0.24mm.
The technical program, the integral membrane Rotating fields thickness that described first aluminium plating membrane, the second aluminium plating membrane, the first layers of kraft paper, the first polyethylene layer, the second layers of kraft paper and the second polyethylene layer are constituted is 0.15mm-0.21mm.
The technical program, described first aluminium plating membrane, the second aluminium plating membrane thickness respectively 7 microns-8 microns.
Compared with prior art, the having the beneficial effects that of a kind of resistance to deformation multi-layer heat preserving composite of the present utility model:
1, the multiple structure of appropriate design, has stronger deformation resistance;
2, the first aluminium plating membrane and the second aluminium plating membrane, can effectively completely cut off outside heat, stops the outside heat damage to packaging product;
3, the first layers of kraft paper and the second kraft paper are layer by layer, improve integrally-built tearing toughness, break and resistance to vibration, prolonging service lifetime of film, reduction cost;
4, surfacing, packaging use attractive in appearance. This utility model is reasonable in design, easily promotes.
Accompanying drawing explanation
Fig. 1 is the structural representation of a kind of resistance to deformation multi-layer heat preserving composite of this utility model embodiment one.
Fig. 2 is the structural representation of a kind of resistance to deformation multi-layer heat preserving composite of this utility model embodiment two.
Wherein, in figure, sequence number mark is as follows: 1-the first aluminium plating membrane, 2-the second aluminium plating membrane, 3-the first layers of kraft paper, 4-the first polyethylene layer, 5-the second layers of kraft paper, 6-the second polyethylene layer.
Detailed description of the invention
Below in conjunction with the drawings and specific embodiments, it is further elucidated with this utility model.
Embodiment one
A kind of resistance to deformation multi-layer heat preserving composite as shown in Figure 1, is made up of first aluminium plating membrane the 1, second aluminium plating membrane 2 and the multilamellar packed layer being arranged on first aluminium plating membrane the 1, second aluminium plating membrane 2 middle; Multilamellar packed layer, including the first layers of kraft paper the 3, first polyethylene layer the 4, second layers of kraft paper 5 and the second polyethylene layer 6, wherein, the two sides of the first layers of kraft paper 3 connects first aluminium plating membrane the 1, first polyethylene layer 4 respectively, and the two sides of the second polyethylene layer 6 connects second aluminium plating membrane the 2, second layers of kraft paper 5 respectively.
It is further preferred that first aluminium plating membrane the 1, second aluminium plating membrane the 2, first layers of kraft paper the 3, first polyethylene layer the 4, second layers of kraft paper 5 is identical with the thickness of the second polyethylene layer 6 and the integral membrane thickness of composition is 0.1mm-0.25mm; And first thickness respectively 7 microns-8 microns of aluminium plating membrane the 1, second aluminium plating membrane 2, multi-layer structure design, it being effectively improved integrally-built heat-proof quality and wearability, its toughness is strong and reusable.
Embodiment two
A kind of resistance to deformation multi-layer heat preserving composite as shown in Figure 2, is made up of first aluminium plating membrane the 1, second aluminium plating membrane 2 and the multilamellar packed layer being arranged on first aluminium plating membrane the 1, second aluminium plating membrane 2 middle;Multilamellar packed layer, including the first layers of kraft paper the 3, first polyethylene layer the 4, second layers of kraft paper 5 and the second polyethylene layer 6, wherein, the two sides of the first layers of kraft paper 3 connects first aluminium plating membrane the 1, first polyethylene layer 4 respectively, and the two sides of the second polyethylene layer 6 connects second aluminium plating membrane the 2, second layers of kraft paper 5 respectively.
It is further preferred that the thickness of first aluminium plating membrane the 1, second aluminium plating membrane the 2, first layers of kraft paper 3 is identical, the thickness of first polyethylene layer the 4, second layers of kraft paper the 5, second polyethylene layer 6 is identical; And first the thickness of aluminium plating membrane the 1, second aluminium plating membrane the 2, first layers of kraft paper 3 be respectively greater than the thickness of first polyethylene layer the 4, second layers of kraft paper the 5, second polyethylene layer 6; And first the integral membrane Rotating fields thickness that constitutes of aluminium plating membrane the 1, second aluminium plating membrane the 2, first layers of kraft paper the 3, first polyethylene layer the 4, second layers of kraft paper 5 and the second polyethylene layer 6 be 0.13mm-0.24mm; And first thickness respectively 7 of aluminium plating membrane the 1, second aluminium plating membrane 2, multi-layer structure design, it being effectively improved integrally-built heat-proof quality and wearability, its toughness is strong and reusable.
Wherein, the integral membrane Rotating fields thickness that first aluminium plating membrane the 1, second aluminium plating membrane the 2, first layers of kraft paper the 3, first polyethylene layer the 4, second layers of kraft paper 5 in embodiment one and embodiment two and the second polyethylene layer 6 are constituted is 0.2mm, it has good heat insulation, Wear-resistant, high-temperature resistant, static electricity resistance and deformation resistance, it is generally applicable to large-scale precision plant equipment packaging, such as elevator, lathe and food and the protection against the tide of electronic product, waterproof, antistatic, pack every light, oxygen barrier, evacuation; Or it is affixed on glass cotton rubber and plastic boards and silicate aluminum board, glass cotton, rock wool again, for the outer wrapper material that protects of the heat-insulation layers such as air conditioner cold-warm equipment pipe; Or high-rise building, the sound insulation in hotel, heat-barrier material; Or damp proof, the mildew-resistant of outlet plant equipment, anti-flaming, anticorrosion ensure material.
The above is only preferred implementation of the present utility model; it should be pointed out that, for those skilled in the art, under the premise without departing from this utility model principle; can also making some improvement, these improvement also should be regarded as protection domain of the present utility model.
Claims (6)
1. a resistance to deformation multi-layer heat preserving composite, it is characterised in that: by the first aluminium plating membrane (1), the second aluminium plating membrane (2) and be arranged on the first aluminium plating membrane (1), multilamellar packed layer in the middle of the second aluminium plating membrane (2) forms; Described multilamellar packed layer, including the first layers of kraft paper (3), the first polyethylene layer (4), the second layers of kraft paper (5) and the second polyethylene layer (6), wherein, the two sides of the first layers of kraft paper (3) connects the first aluminium plating membrane (1), the first polyethylene layer (4) respectively, and the two sides of the second polyethylene layer (6) connects the second aluminium plating membrane (2), the second layers of kraft paper (5) respectively; Described first aluminium plating membrane (1), the second aluminium plating membrane (2), the first layers of kraft paper (3), the first polyethylene layer (4), the second layers of kraft paper (5) integral membrane thickness that is identical with the thickness of the second polyethylene layer (6) and that constitute is 0.1mm-0.25mm.
2. a kind of resistance to deformation multi-layer heat preserving composite according to claim 1, it is characterised in that: described first aluminium plating membrane (1), the second aluminium plating membrane (2), the first layers of kraft paper (3) thickness identical;Described first polyethylene layer (4), the second layers of kraft paper (5), the second polyethylene layer (6) thickness identical.
3. a kind of resistance to deformation multi-layer heat preserving composite according to claim 2, it is characterised in that: described first aluminium plating membrane (1), the second aluminium plating membrane (2), the first layers of kraft paper (3) thickness be respectively greater than the thickness of the first polyethylene layer (4), the second layers of kraft paper (5), the second polyethylene layer (6).
4. a kind of resistance to deformation multi-layer heat preserving composite according to claim 3, it is characterised in that: the integral membrane Rotating fields thickness that described first aluminium plating membrane (1), the second aluminium plating membrane (2), the first layers of kraft paper (3), the first polyethylene layer (4), the second layers of kraft paper (5) and the second polyethylene layer (6) are constituted is 0.13mm-0.24mm.
5. a kind of resistance to deformation multi-layer heat preserving composite according to claim 1 or 4, it is characterised in that: the integral membrane Rotating fields thickness that described first aluminium plating membrane (1), the second aluminium plating membrane (2), the first layers of kraft paper (3), the first polyethylene layer (4), the second layers of kraft paper (5) and the second polyethylene layer (6) are constituted is 0.15mm-0.21mm.
6. a kind of resistance to deformation multi-layer heat preserving composite according to claim 5, it is characterised in that: described first aluminium plating membrane (1), the second aluminium plating membrane (2) thickness respectively 7 microns-8 microns.
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CN201620021122.3U CN205310989U (en) | 2016-01-11 | 2016-01-11 | Resistance to deformation multilayer heat preservation combined material |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110239151A (en) * | 2019-07-12 | 2019-09-17 | 广州市白云区裕晟包装材料厂 | A kind of environment protecting thermal insulating plate, preparation method and incubation chamber |
CN111590048A (en) * | 2019-02-21 | 2020-08-28 | 昆山华复精密金属有限公司 | Forming die with heat preservation structure |
-
2016
- 2016-01-11 CN CN201620021122.3U patent/CN205310989U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111590048A (en) * | 2019-02-21 | 2020-08-28 | 昆山华复精密金属有限公司 | Forming die with heat preservation structure |
CN110239151A (en) * | 2019-07-12 | 2019-09-17 | 广州市白云区裕晟包装材料厂 | A kind of environment protecting thermal insulating plate, preparation method and incubation chamber |
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