CN205661102U - Fire -retardant heat preservation separates heat recombination material - Google Patents

Abstract

The utility model provides a fire -retardant heat preservation separates heat recombination material to superfine fiber cotton blanket layer is the substrate, is equipped with first glue layer, glass fiber cloth layer, second glue layer and aluminium foil layer in proper order in the one side on superfine fiber cotton blanket layer. The fire -retardant heat preservation separates heat recombination material adopts long filament superfine fiber cotton blanket, and the fibre array is inseparable, and it is cotton that the insulation effect of 4.5mm's thickness can match in excellence or beauty traditional glass of 20mm, can guarantee the flame retardant efficiency of whole product, the effect that insulates against heat and ageing resistance effect at the on the premise of that does not increase product thickness, utilize the fire behaviour of the whole material of incombustibility improvement of the fine cloth of glass, increase the anti of surface material simultaneously and tear, anti opening and ageing resistance, the aluminium foil can provide 97% reflectivity as the reflection stratum on surface to complete incombustible can effectively provide the heat -proof quality and the flame retardant efficiency of whole product.

Description

Fire-retardant heat insulation heat-insulation composite material

Technical field

This utility model belongs to a kind of heat-insulation composite material, particularly to a kind of fire-retardant heat insulation for pipeline or body of wall every Hot composite, belongs to technical field of novel materials.

Background technology

Along with current global warming, in the overall situation of low-carbon economy, country encourages energetically, promotes energy-saving and emission-reduction, And environmental protection, energy saving building are important rings, Building Energy-saving causes the attention of increasing country.It was verified that build Building the most effective energy-conservation method is to use heat preserving and insulating material.Pipeline that existing market commonly uses, body of wall heat-barrier material Using traditional glass cotton class, but such insulation material volume is big, cost of transportation is high, and installs also inconvenient, general thickness At more than 20mm, fiber alignment is loose, and heat insulation effect is poor, and flame retardant effect and ageing-resistant performance are the best.

Utility model content

For the deficiencies in the prior art, this utility model provides a kind of fire-retardant heat insulation heat-insulation composite material, and it can extensively be answered Being used in pipeline or body of wall, have the most fire-retardant, ageing resistace is superior, and cost of transportation is low, and heat insulation and preservation effect is excellent waits spy Point.

For realizing goal of the invention, this utility model adopts the technical scheme that:

Fire-retardant heat insulation heat-insulation composite material, with superfine fibre cotton blanket layer as base material, depends in the side of superfine fibre cotton blanket layer Secondary it is provided with the first glue layer, fiberglass cloth, the second glue layer and aluminium foil layer.

As preferably, the described fibre diameter 5-12 micron in the superfine fibre cotton blanket in superfine fibre cotton blanket layer, excellent Elect 9 microns as, length 5-12 centimetre, preferably 8 centimetres.

As preferably, described first glue layer and second layer glue are the polyurethanes containing fire retardant.This material The flame-retardant glue that material uses polyurethanes to make is combined, and is combined fastness compared to film and other glue more preferable, fire-retardant effect The best.

As preferably, the specification of the described glass fabric in fiberglass cloth is 80-160g/m²。

As preferably, the thickness of described superfine fibre cotton blanket layer is 3-8 millimeter, preferably 4.5 millimeters；First glue layer Thickness be 1-5 micron, preferably 3 microns；The thickness of fiberglass cloth is 90-200 micron, preferably 100 microns；Second glue The thickness of water layer is 1-5 micron, preferably 5 microns；The thickness of aluminium foil layer is 30-50 micron, preferably 40 microns.

The beneficial effects of the utility model are embodied in: this fire-retardant heat insulation heat-insulation composite material uses filament ultrafine fiber cotton Blanket, fiber alignment is tight, and can the match in excellence or beauty traditional glass of 20 millimeters of the heat insulating effect of the thickness of 4.5 millimeters is cotton, is not increasing The flame retardant effect of integral product, effect of heat insulation and antiageing effect is can guarantee that on the premise of adding product thickness；Utilize glass-fiber-fabric Incombustibility improves the fire resistance of integral material, increases the anti tear of surfacing, anti-tensile and ageing resistance simultaneously；Aluminium foil As the reflecting layer on surface, it is provided that the reflectance of 97%, and does not fires, it is possible to the thermal insulation of integral product is effectively provided Energy and flame retardant effect；This composite is incombustible material, directly enhances flame retardant rating and the antiageing effect of material； Simultaneously the heat conductivity of integral material in the case of room temperature (25 DEG C ± 5 DEG C)≤0.028W/ (M*K), even if at 70 DEG C ± 5 DEG C Still can be maintained at≤0.032W/ (M*K) under hot environment, effect of heat insulation is excellent.

Accompanying drawing explanation

Fig. 1 is the structural representation of fire-retardant heat insulation heat-insulation composite material of the present utility model；

Wherein, 1. superfine fibre cotton blanket layer, 2. the first glue layer, 3. fiberglass cloth, 4. the second glue layer, 5. aluminium foil Layer.

Detailed description of the invention

Below in conjunction with specific embodiment, this utility model is illustrated.

Embodiment 1

Fire-retardant heat insulation heat-insulation composite material as shown in Figure 1, with superfine fibre cotton blanket layer 1 as base material, cotton at superfine fibre The side of blanket layer 1 is sequentially provided with the first glue layer 2, fiberglass cloth the 3, second glue layer 4 and aluminium foil layer 5；Described is ultra-fine Fibre diameter 5-12 micron in superfine fibre cotton blanket in cellucotton blanket layer, preferably 9 microns, length 5-12 centimetre, preferably It it is 8 centimetres；Described first glue layer and second layer glue are the polyurethanes containing fire retardant；Described glass fibre The specification of the glass fabric in layer of cloth is 80-160g/m²；The thickness of described superfine fibre cotton blanket layer is 3-8 millimeter, preferably It it is 4.5 millimeters；The thickness of the first glue layer is 1-5 micron, preferably 3 microns；The thickness of fiberglass cloth is 90-200 micron, It is preferably 100 microns；The thickness of the second glue layer is 1-5 micron, preferably 5 microns；The thickness of aluminium foil layer is 30-50 micron, excellent Elect 40 microns as.

Above example is only to be described preferred implementation of the present utility model, not to of the present utility model Scope is defined, and on the premise of without departing from this utility model design spirit, this area ordinary skill technical staff is to this reality The various deformation made by novel technical scheme and improvement, all should fall into the protection that claims of the present utility model determine In the range of.

Claims (6)

1. fire-retardant heat insulation heat-insulation composite material, it is characterised in that with superfine fibre cotton blanket layer as base material, at superfine fibre cotton blanket layer Side be sequentially provided with the first glue layer, fiberglass cloth, the second glue layer and aluminium foil layer.

Fire-retardant heat insulation heat-insulation composite material the most according to claim 1, it is characterised in that described superfine fibre cotton blanket layer In superfine fibre cotton blanket in fibre diameter 5-12 micron, length 5-12 centimetre.

Fire-retardant heat insulation heat-insulation composite material the most according to claim 1, it is characterised in that described first glue layer and second Layer glue is the polyurethanes containing fire retardant.

Fire-retardant heat insulation heat-insulation composite material the most according to claim 1, it is characterised in that in described fiberglass cloth The specification of glass fabric be 80-160g/m²。

Fire-retardant heat insulation heat-insulation composite material the most according to claim 1, it is characterised in that described superfine fibre cotton blanket layer Thickness be 3-8 millimeter；The thickness of the first glue layer is 1-5 micron；The thickness of fiberglass cloth is 90-200 micron；Second The thickness of glue layer is 1-5 micron；The thickness of aluminium foil layer is 30-50 micron.

Fire-retardant heat insulation heat-insulation composite material the most according to claim 1, it is characterised in that described superfine fibre cotton blanket layer Thickness be 4.5 millimeters；The thickness of the first glue layer is 3 microns；The thickness of fiberglass cloth is 100 microns；Second glue The thickness of layer is 5 microns；The thickness of aluminium foil layer is 40 microns.