阅读说明：本技术 消防机器人隔热层用天然纤维织物与镀铝薄膜的复合材料 (The composite material of fire-fighting robot thermal insulation layer natural fabric and metallized film ) 是由 郭延达 于 2019-08-07 设计创作，主要内容包括：本发明公开了消防机器人隔热层用天然纤维织物与镀铝薄膜的复合材料,复合材料包括中心纤维层和薄膜层,薄膜层设置于中心纤维层的表面,并通过连接部与中心纤维层连接,中心纤维层内部嵌设有惰性气体球,薄膜层包括铝膜和塑料薄膜。本发明制备得到的天然纤维织物与镀铝薄膜的复合材料,该复合材料由中心纤维层和薄膜层组成,而薄膜层包括铝膜和塑料薄膜,薄膜层是通过真空环境下,以电阻、高频或电子束加热使铝丝熔融气化,在塑料薄膜表面附着一层铝膜,通过这样的方式使得该复合材料的表面为铝膜,具备极强的耐高温性能,同时具备较强的耐折性能和韧性。(The invention discloses the composite materials of fire-fighting robot thermal insulation layer natural fabric and metallized film, composite material includes center fiber layer and film layer, film layer is set to the surface of center fiber layer, and it is connect by interconnecting piece with center fiber layer, inert gas ball is embedded with inside center fiber layer, film layer includes aluminium film and plastic film.The composite material of natural fabric and metallized film that the present invention is prepared, the composite material is made of center fiber layer and film layer, and film layer includes aluminium film and plastic film, film layer is by under vacuum environment, make aluminium wire fusion and gasification with the heating of resistance, high frequency or electron beam, adhere to one layer of aluminium film in Plastic film surface, making the surface of the composite material in this way is aluminium film, have extremely strong high temperature resistance, is provided simultaneously with stronger folding quality and toughness.)

1. the composite material of fire-fighting robot thermal insulation layer natural fabric and metallized film, it is characterised in that: described compound Material includes center fiber layer (1) and film layer (2), and the film layer (2) is set to the surface of the center fiber layer (1), And connect by the interconnecting piece (5) with the center fiber layer (1), indifferent gas is embedded with inside the center fiber layer (1) Body ball (6), the film layer (2) include aluminium film (3) and plastic film (4).

2. the composite material of fire-fighting robot thermal insulation layer natural fabric and metallized film according to claim 1, It is characterized by: the film layer (2) is by making aluminium wire melt gas with the heating of resistance, high frequency or electron beam under vacuum environment Change, adheres to form one layer of aluminium film (3) on the plastic film (4) surface.

3. the composite material of fire-fighting robot thermal insulation layer natural fabric and metallized film according to claim 1, It is characterized by: the inert gas ball (6) is made of glass fibre, internal inert gas is nitrogen, the inertia Gaseous sphere (6) uses two-flap type structure, is binded between inert gas ball (6) described in two valves by viscose glue.

4. the composite material of fire-fighting robot thermal insulation layer natural fabric and metallized film according to claim 1, It is characterized by: the center fiber layer (1) is suppressed using asbestos, glass fibre and viscose glue mixing.

5. a kind of preparation method of high-strength high-impact glass fabric according to claim 4, it is characterised in that: the company The silk thread that socket part (5) is prepared using asbestos, glass fibre and viscose glue mixing by wire drawing process, is stitched by the silk thread Make the center fiber layer (1) and film layer (2).

6. being answered according to any the fire-fighting robot thermal insulation layer natural fabric and metallized film in claim 3-4 Condensation material, it is characterised in that: the viscose glue uses SL3318 high temperature resistant epoxy.

7. any the fire-fighting robot thermal insulation layer natural fabric and metallized film are answered in -7 according to claim 1 Condensation material, it is characterised in that: the processing flow of the composite material, the specific steps are as follows:

(S1), center fiber layer (1) is prepared

(S1.1), petaloid inert gas ball is prepared by mold, and is bonded in the environment full of helium by viscose glue, shape At complete inert gas ball (6)；

(S1.2), asbestos, glass fibre, viscose glue and inert gas ball are taken respectively according to the weight proportion of 1:2.5:0.1:0.2 (6), it is added into mixing machine and is stirred mixing, form the first raw material；

(S1.3), first raw material is pressed by plate embryo material by board-like forming press；

(S1.4), the plate embryo material is cut to the center fiber layer (1) of standard dimensions by cutter；

(S2), interconnecting piece (5) are prepared

Take asbestos, glass fibre, viscose glue to be mixed respectively according to the weight proportion of 1:2.5:0.1, and by drawing machine by its It is prepared into silk thread, i.e. interconnecting piece (5)；

(S3), by the interconnecting piece (5) prepared in step (S2) that the center fiber layer (1) and plastics prepared in step (S1) is thin Film (4) suture, obtains product prototype；

(S4), aluminium wire fusion and gasification under vacuum conditions, is made with the heating of resistance, high frequency or electron beam, outside the product prototype One layer of aluminium film (3) coating is adhered on surface, forms composite material.

8. the composite material of fire-fighting robot thermal insulation layer natural fabric and metallized film according to claim 1, It is characterized by: the center fiber layer (1) with a thickness of 7-10mm, the film layer (2) with a thickness of 2-3mm, it is described lazy Property gaseous sphere (6) diameter be 3-4mm.

Technical field

The present invention relates to fire-fighting robot production technical field, in particular to fire-fighting robot thermal insulation layer is knitted with natural fiber The composite material of object and metallized film.

Background technique

The one kind of fire-fighting robot as specialized robot plays very important work in fire extinguishing and rescue further With various Large Scale Petrochemical Enterprises, tunnel, subway etc. are increasing, and oil product combustion gas, toxic gas leakage explosion, tunnel, subway collapse The equal Hidden hazrads that collapse are continuously increased, and fire-fighting robot can replace fire-fighting and rescue personnel to enter inflammable and explosive, toxic, anoxic, dense smoke The equal hazards scene of the accident carries out data sampling and processing；

And the composite material of fire-fighting robot thermal insulation layer natural fabric and metallized film is for fire-fighting robot A kind of upper heat-insulated material, however existing composite material high temperature resistance, toughness and folding quality are general, and when in use Easily there is the phenomenon that degumming.

Summary of the invention

It is a primary object of the present invention to answering by fire-fighting robot thermal insulation layer natural fabric and metallized film Condensation material can effectively solve the problems in background technique.

To achieve the above object, the technical scheme adopted by the invention is as follows:

The composite material of fire-fighting robot thermal insulation layer natural fabric and metallized film, during the composite material includes Core fiber layer and film layer, the film layer are set to the surface of the center fiber layer, and by the interconnecting piece with it is described Center fiber layer connects, and is embedded with inert gas ball inside the center fiber layer, the film layer includes that aluminium film and plastics are thin Film.

Preferably, the film layer is by keeping aluminium wire molten with the heating of resistance, high frequency or electron beam under vacuum environment Melt gasification, adheres to form one layer of aluminium film in the Plastic film surface.

Preferably, the inert gas ball is made of glass fibre, internal inert gas is nitrogen, described Inert gas ball uses two-flap type structure, is binded between inert gas ball described in two valves by viscose glue.

Preferably, the center fiber layer is suppressed using asbestos, glass fibre and viscose glue mixing.

Preferably, the interconnecting piece using asbestos, glass fibre and viscose glue mixing by wire drawing process preparation and At silk thread, pass through the silk thread and sew the center fiber layer and film layer.

Preferably, the viscose glue uses SL3318 high temperature resistant epoxy.

Preferably, the invention also discloses the processing flows of the composite material, the specific steps are as follows:

(S1), center fiber layer is prepared

(S1.1), petaloid inert gas ball is prepared by mold, and is glued in the environment full of helium by viscose glue It closes, forms complete inert gas ball；

(S1.2), asbestos, glass fibre, viscose glue and inert gas are taken respectively according to the weight proportion of 1:2.5:0.1:0.2 Ball is added into mixing machine and is stirred mixing, forms the first raw material；

(S1.3), first raw material is pressed by plate embryo material by board-like forming press；

(S1.4), the plate embryo material is cut to the center fiber layer (1) of standard dimensions by cutter；

(S2), interconnecting piece is prepared

It takes asbestos, glass fibre, viscose glue to be mixed respectively according to the weight proportion of 1:2.5:0.1, and passes through drawing machine It is prepared into silk thread, i.e. interconnecting piece；

(S3), the center fiber layer and plastic film that will be prepared in step (S1) by the interconnecting piece prepared in step (S2) Suture, obtains product prototype；

(S4), aluminium wire fusion and gasification under vacuum conditions, is made with the heating of resistance, high frequency or electron beam, it is former in the product One layer of aluminium film coating is adhered in type outer surface, forms composite material.

Preferably, the center fiber layer with a thickness of 7-10mm, the film layer with a thickness of 2-3mm, it is described The diameter of inert gas ball is 3-4mm.

Compared with prior art, the invention has the following beneficial effects:

Composite material is made of center fiber layer and film layer, and film layer includes aluminium film and plastic film, and film layer is By making aluminium wire fusion and gasification with the heating of resistance, high frequency or electron beam under vacuum environment, adhere to one layer of aluminium in Plastic film surface Film, making the surface of the composite material in this way is aluminium film, has extremely strong high temperature resistance, is provided simultaneously with relatively strong Folding quality and toughness；

Center fiber layer is to be mixed with asbestos, glass fibre, viscose glue and inert gas ball, then suppressed by board-like forming press It cuts to form center fiber layer with cutter, and viscose glue uses SL3318 high temperature resistant epoxy, has good high temperature resistance, So that the composite material is not in the effect of degumming when in use, and the setting of inert gas ball is so that the composite material Quality is lighter.

Detailed description of the invention

Fig. 1 is the structure of the composite material of fire-fighting robot thermal insulation layer natural fabric of the present invention and metallized film Figure.

Specific embodiment

To be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, below with reference to Specific embodiment, the present invention is further explained.

As shown in Figure 1, the invention discloses the compound of fire-fighting robot thermal insulation layer natural fabric and metallized film Material, composite material include center fiber layer 1 and film layer 2, and film layer 2 is set to the surface of center fiber layer 1, and passes through company Socket part 5 is connect with center fiber layer 1, and inert gas ball 6 is embedded with inside center fiber layer 1, and film layer 2 includes aluminium film 3 and modeling Expect film 4.