CN206663904U - A kind of novel waterborne nanometer heat preserving and insulating material - Google Patents

Abstract

The utility model discloses a kind of novel waterborne nanometer heat preserving and insulating material, including flame-retardant layer, the bottom of the flame-retardant layer is provided with thermal insulation layer, side of the thermal insulation layer away from flame-retardant layer is provided with aluminum membranous layer, side of the aluminum membranous layer away from thermal insulation layer is provided with heat-insulation layer, side of the heat-insulation layer away from aluminum membranous layer is provided with flame-proof polyethylene bubble layer, the side of the flame-proof polyethylene bubble layer away from heat-insulation layer is provided with cement layer, and side of the cement layer away from flame-proof polyethylene bubble layer is provided with base fabric.The setting that the utility model passes through flame-retardant layer, the fire resistance of construction material can be increased, prevent from meeting fiery spontaneous combustion, pass through the setting of thermal insulation layer, it is possible to reduce temperature distributes, with heat insulating function, by the setting of heat-insulation layer, it can make construction material that there is heat insulation function, be convenient for people to use, solve construction material simultaneously and be unable to reach preferable heat insulating effect, the problem of reducing service efficiency.

Description

A kind of novel waterborne nanometer heat preserving and insulating material

Technical field

Environmental-friendly construction material technical field is the utility model is related to, specially a kind of novel waterborne nanometer insulation material Material.

Background technology

With expanding economy, high energy consumption building in China's accounts for more than the 95% of gross floors area, unit area heating energy consumption 2-3 times of developed country close equivalent to weather conditions, architectural energy consumption is huge, traditional building heat preservation heat-barrier material, such as EPS The organic heat-insulating heat-barrier material fire protecting performance such as plate, XPS plate, PU hard bubbles is poor, in recent years, the architectural exterior insulation that China recurs Engineering fire disaster accident, loss is serious, causes have a strong impact in China, for these fire disaster accidents, lives Portion, Ministry of Public Security's clear stipulaties are built, China's civil buildings external thermal insulation heat-barrier material must use combustibility as A levels or B1 levels, high Building of the degree less than 24m, its insulation material combustibility is not lower than B2 levels, while sets fire-blocking belt, and this is with regard to the day of one's doom Made application of traditional building heat preservation heat-barrier material in architectural engineering, inorganic heat insulation material, such as rock wool, mineral wool, Mineral wool, foam concrete, glass bead etc., although combustibility reaches A levels, existing construction material is unable to reach reason The heat insulating effect thought, reduces service efficiency.

Utility model content

The purpose of this utility model is to provide a kind of novel waterborne nanometer heat preserving and insulating material, and possessing construction material can be with Reach preferable heat insulating effect, the advantages of improving service efficiency, solve construction material and be unable to reach preferable thermal insulation separation Thermal effect, the problem of reducing service efficiency.

To achieve the above object, the utility model provides following technical scheme：A kind of novel waterborne nanometer insulation material Material, including flame-retardant layer, the bottom of the flame-retardant layer are provided with thermal insulation layer, and side of the thermal insulation layer away from flame-retardant layer is provided with aluminium Film layer, side of the aluminum membranous layer away from thermal insulation layer are provided with heat-insulation layer, and side of the heat-insulation layer away from aluminum membranous layer is provided with Flame-proof polyethylene bubble layer, the side of the flame-proof polyethylene bubble layer away from heat-insulation layer are provided with cement layer, the cement layer Side away from flame-proof polyethylene bubble layer is provided with base fabric, and side of the base fabric away from cement layer is provided with glass Glass fibrous layer, side of the glass layer away from base fabric set organic/inorganic nano layer.

Preferably, the thickness of the aluminum membranous layer is ten nanometers to 60 nanometers.

Preferably, the thickness of the base fabric is five millimeters to 20 millimeters.

Preferably, it is connected between the cement layer and base fabric by bonding agent.

Preferably, the bonding agent is between cement layer and base fabric, and thickness is 20 nanometers to 30 nanometers.

Compared with prior art, the beneficial effects of the utility model are as follows：

1st, the utility model can increase the fire resistance of construction material, prevent from meeting fiery spontaneous combustion by the setting of flame-retardant layer, Pass through the setting of thermal insulation layer, it is possible to reduce temperature distributes, and has heat insulating function, by the setting of heat-insulation layer, can make building Material has heat insulation function, is convenient for people to use, while solves construction material and be unable to reach preferable heat insulating effect, drop The problem of low service efficiency.

2nd, the utility model increases the corrosion resistance of construction material, passes through flame-proof polyethylene gas by the setting of aluminum membranous layer The setting of alveolar layer, cement layer and base fabric, increase the flintiness of construction material, improve product quality, pass through glass layer With the setting of inorganic nano layer, increase the intensity of construction material, make it have the features such as weatherability is good, service life is long, pass through The setting of bonding agent, the intensity of cement layer and base fabric bonding can be increased, increase adhesive force, so as to effectively solve water The problem of mud layer and base fabric bonding are unstable, and adhesive force is not high.

Brief description of the drawings

Fig. 1 is the utility model structure diagram.

In figure：1 flame-retardant layer, 2 thermal insulation layers, 3 aluminum membranous layers, 4 heat-insulation layers, 5 flame-proof polyethylene bubble layers, 6 cement layers, 7 braidings Layer of cloth, 8 glass layers, 9 inorganic nano layers, 10 bonding agents.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

Referring to Fig. 1, a kind of novel waterborne nanometer heat preserving and insulating material, including flame-retardant layer 1, the bottom of flame-retardant layer 1 are set There is thermal insulation layer 2, side of the thermal insulation layer 2 away from flame-retardant layer 1 is provided with aluminum membranous layer 3, and the thickness of aluminum membranous layer 3 is received for ten nanometers to 60 Rice, by the setting of aluminum membranous layer 3, increases the corrosion resistance of construction material, side of the aluminum membranous layer 3 away from thermal insulation layer 2 is provided with guarantor Warm layer 4, side of the heat-insulation layer 4 away from aluminum membranous layer 3 are provided with flame-proof polyethylene bubble layer 5, and flame-proof polyethylene bubble layer 5 is away from guarantor The side of warm layer 4 is provided with cement layer 6, is connected between cement layer 6 and base fabric 7 by bonding agent 10, bonding agent 10 Between cement layer 6 and base fabric 7, and thickness is 20 nanometers to 30 nanometers, passes through the setting of bonding agent 10, Ke Yizeng The intensity for adding cement layer 6 and base fabric 7 to be bonded, increases adhesive force, so as to effectively solve cement layer 6 and base fabric 7 The problem of bonding is unstable, and adhesive force is not high, side of the cement layer 6 away from flame-proof polyethylene bubble layer 5 is provided with base fabric 7, The thickness of base fabric 7 is five millimeters to 20 millimeters, passes through flame-proof polyethylene bubble layer 5, cement layer 6 and base fabric 7 Set, increase the flintiness of construction material, improve product quality, side of the base fabric 7 away from cement layer 6 is provided with glass fibers Layer 8 is tieed up, side of the glass layer 8 away from base fabric 7 sets organic/inorganic nano layer 9, by glass layer 8 and inorganic receives The setting of rice layer 9, increases the intensity of construction material, makes it have the features such as weatherability is good, service life is long, pass through flame-retardant layer 1 Setting, the fire resistance of construction material can be increased, prevent from meeting fiery spontaneous combustion, pass through the setting of thermal insulation layer 2, it is possible to reduce temperature Distribute, there is heat insulating function, by the setting of heat-insulation layer 4, can make construction material that there is heat insulation function, be convenient for people to make With, while solve construction material and be unable to reach preferable heat insulating effect, the problem of reducing service efficiency.

In use, the fire resistance of construction material can be increased by flame-retardant layer 1, temperature can be reduced by thermal insulation layer 2 Distribute, can make construction material that there is heat insulation function by heat-insulation layer 4, by the setting of aluminum membranous layer 3, increase construction material Corrosion resistance, by the setting of flame-proof polyethylene bubble layer 5, cement layer 6 and base fabric 7, increase the flintiness of construction material, Product quality is improved, by the setting of glass layer 8 and inorganic nano layer 9, increases the intensity of construction material.

In summary：The novel waterborne nanometer heat preserving and insulating material, pass through flame-retardant layer 1, thermal insulation layer 2, aluminum membranous layer 3, insulation The cooperation of layer 4, flame-proof polyethylene bubble layer 5, cement layer 6, base fabric 7, glass layer 8 and inorganic nano layer 9, is solved Construction material is unable to reach preferable heat insulating effect, the problem of reducing service efficiency.

While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out with a variety of changes in the case where not departing from principle of the present utility model and spirit, repaiied Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of novel waterborne nanometer heat preserving and insulating material, including flame-retardant layer (1), it is characterised in that：The bottom of the flame-retardant layer (1) Portion is provided with thermal insulation layer (2), and side of the thermal insulation layer (2) away from flame-retardant layer (1) is provided with aluminum membranous layer (3), the aluminum membranous layer (3) side away from thermal insulation layer (2) is provided with heat-insulation layer (4), and side of the heat-insulation layer (4) away from aluminum membranous layer (3) is provided with Flame-proof polyethylene bubble layer (5), side of the flame-proof polyethylene bubble layer (5) away from heat-insulation layer (4) are provided with cement layer (6), side of the cement layer (6) away from flame-proof polyethylene bubble layer (5) is provided with base fabric (7), the base fabric (7) side away from cement layer (6) is provided with glass layer (8), the remote base fabric (7) of the glass layer (8) Side sets organic/inorganic nano layer (9).

A kind of 2. novel waterborne nanometer heat preserving and insulating material according to claim 1, it is characterised in that：The aluminum membranous layer (3) thickness is ten nanometers to 60 nanometers.

A kind of 3. novel waterborne nanometer heat preserving and insulating material according to claim 1, it is characterised in that：The base fabric (7) thickness is five millimeters to 20 millimeters.

A kind of 4. novel waterborne nanometer heat preserving and insulating material according to claim 1, it is characterised in that：The cement layer (6) it is connected between base fabric (7) by bonding agent (10).

A kind of 5. novel waterborne nanometer heat preserving and insulating material according to claim 4, it is characterised in that：The bonding agent (10) between cement layer (6) and base fabric (7), and thickness is 20 nanometers to 30 nanometers.