CN201933685U - Glass fiber energy-saving anti-corrosive plate - Google Patents

Abstract

The utility model discloses a glass fiber energy-saving anti-corrosive plate, which comprises a composite plate main body and a baking varnish layer, wherein the composite plate main body is formed by compounding two or more single composite plates; the baking varnish layer is adhered to the upper surface layer and/or the lower surface of the composite plate main body; each single composite plate comprises a glass fiber layer and a resin layer; and the glass fiber layer is positioned in the resin layer. The glass fiber energy-saving anti-corrosive plate has the advantages of energy conservation, corrosion resistance, high temperature resistance, high flame retardance and ant resistance, and is environmentally-friendly, durable and safe.

Description

Glass energy-saving anti-corrosive plate

Technical field

The utility model relates to a kind of building composite board, is a kind of glass energy-saving anti-corrosive plate that the industrialization factory building is laid that can be used for specifically.

Background technology

Adopt building board to lay roofing and metope in the non-civilian construction of modern industry.In the market mainly to adopt color steel and glass wool board as the material of laying industrial plant factory building metope and roofing.But there are following shortcoming respectively in color steel and glass wool board:

Color steel:

1, heat insulation poor, be not incubated; After the solar radiation, temperature rises fast, and night weather turns cold, and temperature descends fast;

2, soundproof effect is poor: outside noise easily imports in the industrial building, and following rain noise is very big;

3, poor insulativity; The danger of conduction is arranged, being struck by lightning;

4, perishable: as to meet the easy corrosion of soda acid;

5, application life is short: product can only use once, needs often to change the use cost height;

6, yielding, meet that high wind is yielding to come off;

Glass fiber polyester plate:

1, adopts unsaturated polyester (UP), easily embrittlement under hot environment;

2, anti-anti-uv is poor;

3, not fire-retardant, fire line is poor;

Can produce poisonous black smoke and gas when 4, meeting the naked light burning.

Comprehensive above shortcoming, for some particular factory, color steel and glass wool board can't satisfy its requirement: as Acidity of Aikalinity factory buildings such as metal smelt, meltshop, chemical plant, electroplating factory, pickling factory, steel mills, need to adopt can acid-alkali-corrosive-resisting glass energy-saving anti-corrosive plate lay end face; Be subjected to the factory building of salt damage as strand building, Hai Bu storage warehouse, dockyard etc., the glass energy-saving anti-corrosive plate that needs to prevent salt damage is laid the roof; And for example processing of farm products factory building, refrigeration plant, big market, storehouse, station, station etc., needing can be heat insulation, sound insulation, fire-retardant glass energy-saving anti-corrosive plate be as the roof.So be badly in need of a kind of high temperature resistant, good flame retardation effect, heat insulation, insulation, sound insulation, corrosion resistant building board.

Summary of the invention

Goal of the invention: the purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of high temperature resistant, fire-retardant, energy-conservation, corrosion-resistant and durable glass energy-saving anti-corrosive plate is provided.

Technical scheme: to achieve these goals, the utility model provides a kind of glass energy-saving anti-corrosive plate, and it comprises: composite plate main body and baking vanish layer; The composite plate main body is composited by one group of composite plate monomer; The baking vanish layer is attached to the upper epidermis and/or the following top layer of composite plate main body; Described composite plate monomer comprises resin bed and glass layer, and glass layer is positioned at resin bed.Adopt glass fiber as base material in the utility model, reduced the material cost of whole glass energy-saving anti-corrosive plate; The combination of glass layer and resin bed improves the intensity and the flame retardant effect of glass energy-saving anti-corrosive plate described in the utility model.

The composite plate main body is composited through HTHP by two or more composite plate monomers in the energy-saving anti-corrosive of glass described in the utility model plate.

In order to improve the durability of multilayer thin type composite plate described in the utility model, described resin bed is for being mixed the mixed phenol urea formaldehyde layer that constitutes by calcium carbonate, quartz powder, amines catalyst, phenolic aldehyde stabilizing agent and thermosetting phenolic resin.Glass layer can adopt alkali-free or medium alkali fiber cloth.

In the utility model, the thickness of described baking vanish layer is 20um-30um.

Beneficial effect: a kind of glass energy-saving anti-corrosive plate described in the utility model compared with prior art has following advantage:

1, because glass energy-saving anti-corrosive plate described in the utility model adopts the combination of glass fiber, phenolic resins and baking vanish layer, make and itself have superpower corrosion resistance, so can in acid or alkali environment, use,, also can use particularly for highly-saline coastal strip;

2, owing to have glass fiber and phenolic resins in the utility model, make glass energy-saving anti-corrosive plate coefficient of thermal conductivity described in the utility model low and produce heat insulation effect, has good thermal insulation, solve the problem of zinc-plated color steel thermal insulation difference, can be widely used in places such as high temperature, low temperature factory, refrigeration plant, storehouse, platform station; And glass energy-saving anti-corrosive plate described in the utility model has the very strong ability of being heated, and can use under 140 ℃ temperature.

3,, make it the same with wood materials have a good soundproof effect owing to select phenolic resins for use in the utility model; Again owing to the effect of phenolic resins, termite moth etc. is stymied by simultaneously, has good insect protected ant effect.

Because the structure of glass energy-saving anti-corrosive plate described in the utility model, it has good frost resistance, can the electrical resistance method ripple, and Wind-Pressure Resistance, and durable.

Description of drawings

Fig. 1 is a kind of contour structures schematic diagram of the present utility model;

Fig. 2 is a kind of structural representation of the present utility model;

Fig. 3 is a kind of structural representation of composite plate monomer in the utility model;

Fig. 4 is a kind of structural representation of embodiment in the utility model;

Fig. 5 is the structural representation of another embodiment in the utility model.

The specific embodiment:

Below in conjunction with specific embodiment, further illustrate the utility model, should understand these embodiment only be used to the utility model is described and be not used in the restriction scope of the present utility model, after having read the utility model, those skilled in the art all fall within the application's claims to the modification of the various equivalent form of values of the present utility model and limit.

Embodiment 1

A kind of glass energy-saving anti-corrosive plate as shown in Figure 1, its integral body is waveform, its structure comprises: composite plate main body 2 and baking vanish layer 1; Composite plate main body 2 is composited through HTHP by two composite plate monomers 3; Baking vanish layer 1 is attached to the upper epidermis and the following top layer (as Fig. 2, shown in Figure 4) of composite plate main body 2; Composite plate monomer 3 comprises resin bed 31 and glass layer 32, and glass layer 32 is positioned at resin bed 31 (as shown in Figure 3).Glass layer 32 adopts medium alkali fiber cloth in the present embodiment.

Embodiment 2

A kind of glass energy-saving anti-corrosive plate as shown in Figure 5, its structure comprises: baking vanish layer 1 and composite plate main body 2; Composite plate main body 2 is composited by three composite plate monomers 3; Baking vanish layer 1 is attached to the upper epidermis of composite plate main body 2; Composite plate monomer 3 comprises resin bed 31 and glass layer 32, and glass layer 32 is positioned at resin bed 31 (as shown in Figure 3).Glass layer 32 adopts medium alkali fiber cloth in the present embodiment; Described resin bed is made of calcium carbonate, quartz powder, amines catalyst, phenolic aldehyde stabilizing agent and thermosetting phenolic resin mixing; The thickness of described baking vanish layer 1 is 30um.

Claims (4)

1. glass energy-saving anti-corrosive plate, it is characterized in that: it comprises: baking vanish layer (1) and composite plate main body (2); Composite plate main body (2) is composited by one group of composite plate monomer (3); Baking vanish layer (1) is attached to the upper epidermis and/or the following top layer of composite plate main body (2);

Described composite plate monomer (3) comprises resin bed (31) and glass layer (32), and glass layer (32) is positioned at resin bed (31).

2. a kind of glass energy-saving anti-corrosive plate according to claim 1 is characterized in that: the composite plate main body is composited through HTHP by two or more composite plate monomers in the described glass energy-saving anti-corrosive plate.

3. a kind of glass energy-saving anti-corrosive plate according to claim 1 is characterized in that: glass layer (32) adopts alkali-free or medium alkali fiber cloth.

4. a kind of glass energy-saving anti-corrosive plate according to claim 1, it is characterized in that: the thickness of described baking vanish layer (1) is 20um-30um.

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