CN106556898A - A kind of optical cable insulating fire resistant coating spraying coating process - Google Patents

Abstract

A kind of optical cable insulating fire resistant coating spraying coating process, it is characterised in that：Described optical cable insulating fire resistant coating spraying coating process, specially to the boron carbon source solution for being passed through spraying nitrogen carrying on optical cable, flow both which：Nitrogen 100sccm, boron carbon source solution 2.0ML/min, by mass flowmenter control, obtain the BCN fire-proof insulation thin film on optical cable, and thin film thick film is between 180～220nm.The purity in described boron carbon source solution reaction source is 99.99%, and is passed through on optical cable by nitrogen carrying.The purity of the nitrogen reaction source is 99.99%.Advantages of the present invention：Optical cable insulating fire resistant coating spraying coating process of the present invention, successfully realizes that thin film has acid and alkali-resistance, anticorrosive; the advantage performances such as insulation fire prevention, its BCN film thickness are little, the weight of conventional cable protective case before largely alleviating; make its convenient in carrying, and the effect with cable protection layer.

Description

A kind of optical cable insulating fire resistant coating spraying coating process

Technical field

The present invention relates to optical cable insulating fire resistant coating Applied research fields, a kind of more particularly to light Cable insulation fire resistant coating spraying coating process.

Background technology

Though traditional PVC sheath has resistance to flame-retarding power, its humidity resistance is poor, should not use In outdoor.It is reported that, foreign countries have been developed for the leading in cable or lower beam optical cable of indoor and outdoor dual-purpose, They be not only resistant to outdoor low temperature and ultraviolet radiation but also energy is fire-retardant and were easy to bending wiring.It is this Optical cable is blocked water and low-smoke halogen-free flame-retardant sheath using PVC tight tube fibers, imbibition dried bean noodles formula. Domestic research is still within backward state at present.Once naked light is run into, traditional light Cable can be undesirable due to its resistance to flame-retarding power, and the intensity of a fire is difficult to be effectively controlled.

The content of the invention

The invention aims to realize acid and alkali-resistance, anticorrosive, insulation fire prevention, spy are provided A kind of optical cable insulating fire resistant coating spraying coating process.

The invention provides a kind of optical cable insulating fire resistant coating spraying coating process, it is characterised in that：Institute The optical cable insulating fire resistant coating spraying coating process stated, specially to be passed through on optical cable spray nitrogen carry Boron carbon source solution, flow both which：Nitrogen 100sccm, boron carbon source solution 2.0ML/min, By mass flowmenter control, the BCN fire-proof insulation thin film on optical cable, thin film thick film are obtained Between 180～220nm.

The purity in described boron carbon source solution reaction source is 99.99%, and is passed through by nitrogen carrying On optical cable.

The purity of the nitrogen reaction source is 99.99%.

On optical cable, take the mode of spraying to apply one layer very thin of BCN thin film, the BCN thin film Not only outdoor low temperature and ultraviolet radiation be resistant to but also can be fire-retardant and be easy to bending wiring, and had The effect of cable protection layer, this optical cable adopt thin film coating technology, and meeting indoor and outdoors makes With requiring.

Advantages of the present invention：

Optical cable insulating fire resistant coating spraying coating process of the present invention, successfully realizes that thin film has resistance to Soda acid, anticorrosive, the advantage performance such as insulation fire prevention, its BCN film thickness are little, largely The weight of conventional cable protective case before alleviating so as to convenient in carrying, and protect with optical cable The effect of sheath.

Description of the drawings

Below in conjunction with the accompanying drawings and embodiment the present invention is further detailed explanation：

Fig. 1 is the surface topography schematic diagram of the B-C-N thin film of deposition.

Specific embodiment

Embodiment 1

Present embodiments provide a kind of optical cable insulating fire resistant coating spraying coating process, it is characterised in that： Described optical cable insulating fire resistant coating spraying coating process, specially to be passed through on optical cable spray nitrogen take The boron carbon source solution of band, flow both which：Nitrogen 100sccm, boron carbon source solution 2.0ML/min, By mass flowmenter control, the BCN fire-proof insulation thin film on optical cable, thin film thick film are obtained 180nm。

The purity in described boron carbon source solution reaction source is 99.99%, and is passed through by nitrogen carrying On optical cable.

The purity of the nitrogen reaction source is 99.99%.

On optical cable, take the mode of spraying to apply one layer very thin of BCN thin film, the BCN thin film Not only outdoor low temperature and ultraviolet radiation be resistant to but also can be fire-retardant and be easy to bending wiring, and had The effect of cable protection layer, this optical cable adopt thin film coating technology, and meeting indoor and outdoors makes With requiring.

Embodiment 2

Present embodiments provide a kind of optical cable insulating fire resistant coating spraying coating process, it is characterised in that： Described optical cable insulating fire resistant coating spraying coating process, specially to be passed through on optical cable spray nitrogen take The boron carbon source solution of band, flow both which：Nitrogen 100sccm, boron carbon source solution 2.0ML/min, By mass flowmenter control, the BCN fire-proof insulation thin film on optical cable, thin film thick film are obtained 200nm。

The purity in described boron carbon source solution reaction source is 99.99%, and is passed through by nitrogen carrying On optical cable.

The purity of the nitrogen reaction source is 99.99%.

On optical cable, take the mode of spraying to apply one layer very thin of BCN thin film, the BCN thin film Not only outdoor low temperature and ultraviolet radiation be resistant to but also can be fire-retardant and be easy to bending wiring, and had The effect of cable protection layer, this optical cable adopt thin film coating technology, and meeting indoor and outdoors makes With requiring.

Embodiment 3

Present embodiments provide a kind of optical cable insulating fire resistant coating spraying coating process, it is characterised in that： Described optical cable insulating fire resistant coating spraying coating process, specially to be passed through on optical cable spray nitrogen take The boron carbon source solution of band, flow both which：Nitrogen 100sccm, boron carbon source solution 2.0ML/min, By mass flowmenter control, the BCN fire-proof insulation thin film on optical cable, thin film thick film are obtained 220nm。

The purity in described boron carbon source solution reaction source is 99.99%, and is passed through by nitrogen carrying On optical cable.

The purity of the nitrogen reaction source is 99.99%.

On optical cable, take the mode of spraying to apply one layer very thin of BCN thin film, the BCN thin film Not only outdoor low temperature and ultraviolet radiation be resistant to but also can be fire-retardant and be easy to bending wiring, and had The effect of cable protection layer, this optical cable adopt thin film coating technology, and meeting indoor and outdoors makes With requiring.

Claims (3)

1. a kind of optical cable insulating fire resistant coating spraying coating process, it is characterised in that：Described optical cable is exhausted Edge fire resistant coating spraying coating process, it is specially molten to the boron carbon source that spraying nitrogen is carried on optical cable is passed through Liquid, flow both which：Nitrogen 100sccm, boron carbon source solution 2.0ML/min, by quality stream Gauge is controlled, and obtains the BCN fire-proof insulation thin film on optical cable, and thin film thick film exists Between 180～220nm.

2. according to the optical cable insulating fire resistant coating spraying coating process described in claim 1, its feature It is：The purity in described boron carbon source solution reaction source is 99.99%, and carries logical by nitrogen Enter on optical cable.

3. according to the optical cable insulating fire resistant coating spraying coating process described in claim 1, its feature It is：The purity of the nitrogen reaction source is 99.99%.