CN206205179U - Nanometer air bag thermal isolation film - Google Patents

Abstract

The utility model is related to a kind of nanometer air bag thermal isolation film, including the first cryptomere bubble layer, second cryptomere bubble layer, first aluminium foil layer, second aluminium foil layer, first layers of nanofibers, second layers of nanofibers and base fabric, the upper surface of the first cryptomere bubble layer is provided with the first layers of nanofibers, the upper surface of the first layers of nanofibers is provided with the first aluminium foil layer, the lower surface of the first cryptomere bubble layer is provided with base fabric, base fabric lower surface is provided with the second cryptomere bubble layer, the lower surface of the second cryptomere bubble is provided with the second layers of nanofibers, the lower surface of the second layers of nanofibers is provided with the second aluminium foil layer, some cryptomere bubbles in first cryptomere bubble layer and the second cryptomere bubble layer are set to the cryptomere bubble filled with inert gas and fire-retardant master granule；A kind of nanometer air bag thermal isolation film that the utility model is provided has heat-insulated, high intensity and various functions such as wear-resisting.

Description

Nanometer air bag thermal isolation film

Technical field

The utility model is related to heat-insulating heat-preserving material field, more particularly to a kind of nanometer air bag thermal isolation film.

Background technology

It is well known that heat preserving and insulating material is just towards the integrated direction of shield outside efficient, energy-conservation, thin layer, heat-insulated, waterproof at present Development, in Development of Novel heat preserving and insulating material and meets structural thermal insulation power-saving technology simultaneously, more emphasizes targetedly to use insulation Heat-insulating material；Although air bag thermal isolation film of the prior art is with good heat-proof quality, be difficult to possess elasticity well and Resiliency.

Utility model content

In order to solve the above technical problems, the utility model purpose is to provide a kind of nanometer that thermal insulation is good and resiliency is good Air bag thermal isolation film.

To achieve these goals, the utility model provides a kind of nanometer air bag thermal isolation film, and a kind of nanometer air bag is heat-insulated Film, including the first cryptomere bubble layer, the second cryptomere bubble layer, the first aluminium foil layer, the second aluminium foil layer, the first layers of nanofibers, Two layers of nanofibers and base fabric, the upper surface of the first cryptomere bubble layer are provided with first layers of nanofibers, described The upper surface of the first layers of nanofibers is provided with first aluminium foil layer, and the lower surface of the first cryptomere bubble layer is provided with the volume Nonwoven fabric layer, the base fabric lower surface is provided with the second cryptomere bubble layer, and the lower surface of the second cryptomere bubble is provided with Second layers of nanofibers, the lower surface of second layers of nanofibers is provided with second aluminium foil layer, first cryptomere Some cryptomere bubbles in bubble layer and the second cryptomere bubble layer are set to the cryptomere gas filled with inert gas and fire-retardant master granule Bubble.

Further, the first cryptomere bubble layer and the second cryptomere bubble layer is highly consistent, is set to 1-5mm.

Further, the inert gas in the cryptomere bubble includes nitrogen and helium.

Further, the ratio of nitrogen and helium is set to 2 in the inert gas：1.

Further, the fire-retardant master granule is set to polyethylene anti-flaming master batch or polypropylene fire retardant master batch.

Further, the first cryptomere bubble layer, the second cryptomere bubble layer, the first aluminium foil layer, the second aluminium foil layer, first Bonding agent bonding is passed sequentially through between layers of nanofibers, the second layers of nanofibers and base fabric, the bonding agent is set to epoxy Resin glue or polyurethanes bonding agent.

Further, the thickness of the bonding agent is 0.4-0.8 μm.

By such scheme, the utility model at least has advantages below：Due to nanometer air bag thermal isolation film realize it is fire-retardant, Damping and the integration of reflection heat, can be used for than being used for heat-insulated and damping in relatively rugged environment.

Described above is only the general introduction of technical solutions of the utility model, in order to better understand skill of the present utility model Art means, and being practiced according to the content of specification, with preferred embodiment of the present utility model and coordinate accompanying drawing detailed below Describe in detail bright as after.

Brief description of the drawings

Fig. 1 shows the structural representation of a kind of nanometer of air bag thermal isolation film of the present utility model.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below Embodiment is used to illustrate the utility model, but is not limited to scope of the present utility model.

Referring to Fig. 1, the nanometer air bag thermal isolation film that the utility model is provided includes the first cryptomere bubble layer 1, the second cryptomere gas Alveolar layer 2, the first aluminium foil layer 3, the second aluminium foil layer 4, the first layers of nanofibers 5, the second layers of nanofibers 6 and base fabric 7, first The upper surface of cryptomere bubble layer 1 is provided with the first layers of nanofibers 5, and the upper surface of the first layers of nanofibers 5 is provided with the first aluminium foil layer 3, the lower surface of the first cryptomere bubble layer is provided with base fabric 7, and the lower surface of base fabric 7 is provided with the second cryptomere bubble layer 2, the The lower surface of two cryptomere bubble layers 2 is provided with the second layers of nanofibers 6, and the lower surface of the second layers of nanofibers 6 is provided with the second aluminium foil Layer 4, some cryptomere bubbles in the first cryptomere bubble layer 1 and the second cryptomere bubble layer 2 are set to filled with inert gas and resistance Fire the cryptomere bubble of master batch 8.

The mechanism of heat insulation of a kind of nanometer of air bag thermal isolation film that the utility model is provided is as follows：

Nanometer air bag thermal isolation film includes the first cryptomere bubble layer 1, the second cryptomere bubble layer 2, the first aluminium foil layer 3, the second aluminium Layers of foil 4, the first layers of nanofibers 5, the second layers of nanofibers 6 and base fabric 7, double-deck cryptomere bubble thermal isolation film have more preferable Buffering and effect of heat insulation, improve the security and resiliency of heat-insulation layer, and the upper surface of double-deck cryptomere bubble thermal isolation film is provided with the One layers of nanofibers 5, the first layers of nanofibers 5 can improve the tensile strength and vertically and horizontally tensile strength of cryptomere bubble surface, Intensity is also improved while improve heat-proof quality, is difficult to be extruded shock, the upper surface of the first layers of nanofibers 5 is provided with One aluminium foil layer 3, the first aluminium foil layer 3 can reflect heat and be thermally shielded, and at utmost reduce heat radiation, and double-deck cryptomere bubble is heat-insulated The lower surface of film is provided with the second layers of nanofibers 6, and the lower surface of the second layers of nanofibers 6 is provided with the second aluminium foil layer 4, double-deck cryptomere 7 layers of woven cloth is provided between the first cryptomere bubble layer 1 and the second cryptomere bubble layer 2 in bubble thermal isolation film, cryptomere is prevented from Filling in cryptomere bubble in collision and friction between bubble layer, and the first cryptomere bubble layer 1 and the second cryptomere bubble layer 2 There are inert gas and fire-retardant master granule 8, substantially increase the heat-proof quality of double-deck cryptomere bubble thermal isolation film, to sum up, the utility model The nanometer air bag thermal isolation film of offer has higher-strength, effect of heat insulation high, economy and durability.

All there is certain damping and effect of heat insulation, the first cryptomere bubble in order to keep positive and negative in nanometer air bag thermal isolation film Layer 1 and second cryptomere bubble layer 2 it is highly consistent, be set to 1-5mm.

In order to increase a nanometer voltage endurance capability for air bag thermal isolation film, the inert gas in cryptomere bubble includes nitrogen and helium, Wherein the ratio of nitrogen and helium is set to 2 in inert gas：1.

In order to strengthen the heat-proof quality of cryptomere bubble, fire-retardant master granule 8 is set to polyethylene anti-flaming master batch or polypropylene fire retardant Master batch.

For the bonding together tightly by each layer of double-deck cryptomere bubble thermal isolation film, the first cryptomere bubble layer 1, the second capsule Shape bubble layer 2, the first aluminium foil layer 3, the second aluminium foil layer 4, the first layers of nanofibers 5, the second layers of nanofibers 6 and base fabric 7 Between pass sequentially through bonding agent bonding, bonding agent is set to epoxide-resin glue or polyurethanes bonding agent, and the thickness of bonding agent is 0.4-0.8μm。

The above is only preferred embodiment of the present utility model, be not limited to the utility model, it is noted that for For those skilled in the art, on the premise of the utility model know-why is not departed from, if can also make Dry to improve and modification, these are improved and modification also should be regarded as protection domain of the present utility model.

Claims (7)

1. a kind of nanometer air bag thermal isolation film, including the first cryptomere bubble layer, the second cryptomere bubble layer, the first aluminium foil layer, the second aluminium Layers of foil, the first layers of nanofibers, the second layers of nanofibers and base fabric, it is characterised in that：The first cryptomere bubble layer Upper surface is provided with first layers of nanofibers, and the upper surface of first layers of nanofibers is provided with first aluminium foil layer, institute The lower surface for stating the first cryptomere bubble layer is provided with the base fabric, and the base fabric lower surface is provided with the second cryptomere gas Alveolar layer, the lower surface of the second cryptomere bubble is provided with second layers of nanofibers, the following table of second layers of nanofibers Face is provided with second aluminium foil layer, and some cryptomere bubbles in the first cryptomere bubble layer and the second cryptomere bubble layer are set to Cryptomere bubble filled with inert gas and fire-retardant master granule.

2. according to claim 1 nanometer of air bag thermal isolation film, it is characterised in that：The first cryptomere bubble layer and the second capsule Shape bubble layer it is highly consistent, be set to 1-5mm.

3. according to claim 1 nanometer of air bag thermal isolation film, it is characterised in that：Inert gas bag in the cryptomere bubble Include nitrogen and helium.

4. according to claim 3 nanometer of air bag thermal isolation film, it is characterised in that：Nitrogen and helium in the inert gas Ratio is set to 2：1.

5. according to claim 1 nanometer of air bag thermal isolation film, it is characterised in that：The fire-retardant master granule is set to polyethylene anti-flaming Master batch or polypropylene fire retardant master batch.

6. according to claim 1 nanometer of air bag thermal isolation film, it is characterised in that：The first cryptomere bubble layer, the second capsule Between shape bubble layer, the first aluminium foil layer, the second aluminium foil layer, the first layers of nanofibers, the second layers of nanofibers and base fabric according to Secondary to be bonded by bonding agent, the bonding agent is set to epoxide-resin glue or polyurethanes bonding agent.

7. according to claim 6 nanometer of air bag thermal isolation film, it is characterised in that：The thickness of the bonding agent is 0.4-0.8 μ m。