A kind of network wiring of ceramic mould height shielding fire resisting local
Technical field
The utility model is related to technical field of cables, more particularly to a kind of ceramic mould height shielding fire resisting local network cloth
Line.
Background technology
Present road, airport, harbour, dock, station, square, street intersection, industrial and mining enterprises, park, garden illumination
And plant etc. and relatively to mostly use internet and be attached the world, make a general survey of several years domestic large-scale accident fire incidents, 70% or more be due to by
Evil person can not escape and cause, cable burning can distribute toxic gas and sour gas, in addition burning release heat, smog,
It causes to have difficulty in breathing to victim, because more and more products use network-control, after cable burning, only many equipment can not
Operating causes escape more difficult, leads to tragedy, and existing network line product is using mutually right again after conductor cladding insulation
It twists, then coats foil shielding layer after total strand, then coat braiding layer, then be coated with PVC sheath protective layer, such product can be done
To fire-retardant, but fire resisting is not accomplished, product can not bear long-time high temperature and scorch when fire, that aluminium foil layer directly coats so that production
Product are not soft enough.
Invention content
The utility model is mainly solving the technical problems that provide a kind of network wiring of ceramic mould height shielding fire resisting local, energy
It is enough to remove stripping aluminum foil metal layer from during product use, the generation of product smog in combustion is reduced, product is more
Softness, it is more preferable more resistant to fiery, lighter and shielding properties.
In order to solve the above technical problems, the technical solution that the utility model uses is:A kind of ceramic mould Gao Ping is provided
Cover fire resisting local network wiring, including four groups by two twisted wires to form twisted wire unit, braiding layer, nano metal bisque, packet
Kaolinite soil layer, the restrictive coating of nano metal bisque are covered, four groups of twisted wire units are external after always twisting to be coated with braiding layer, the volume
Nano metal bisque is evenly distributed with outside tissue layer, the outer even application of the nano metal bisque has kaolinite soil layer, the kaolinite
Restrictive coating is coated with outside soil layer.
Further, the twisted wire is to including inner wire and the insulator being coated on outside inner wire;
Further, the braiding layer by several groups of metal filaments at;
Further, it is in half plastic cement state to be when the kaolinite soil layer is un-sintered;
Further, the inner wire is formed using more copper wire pair twists, and each copper wire is surface by plating
The bare copper wire of layer.
The utility model has the beneficial effects that:The utility model eliminates individual aluminum foil shielded in known
Layer after being added to one layer of nano metal bisque, and is added to one layer of modified kaolin layer, nano metal outside in nano metal bisque
Bisque is as high shielding action, and for kaolinite soil layer as modified refractory material, product, which encounters thermal-flame, can slowly sinter porcelain into,
It is further used as refractory material use, because the kaolinite soil layer that kaolin is formed when unsintered is to be in half plastic cement shape
State, kaolin are directly sprayed on nano metal bisque comprehensively, and the product formed in this way is directly coated compared to foil shielding layer
Product it is more soft.This product more bears fire resisting, sustainable 950 degree of high temperature for bearing 2 hours, relative to aluminum foil shielded
Layer, nano metal bisque is lighter and shielding properties is more preferable, and this product can use in the presence of a harsh environment for a long time.
Description of the drawings
Fig. 1 is the structural schematic diagram of the prior art;
Fig. 2 is the structural schematic diagram of the utility model ceramic mould height shielding fire resisting local network wiring;
The label of each component is as follows in attached drawing:1, twisted wire unit 2, twisted wire pair 3, inner wire 4, insulator 5, braiding layer
6, nano metal bisque 7, kaolinite soil layer 8, restrictive coating 9, foil shielding layer 10, PVC sheath protective layer.
Specific implementation mode
The preferred embodiment of the utility model is described in detail below in conjunction with the accompanying drawings, so that the advantages of the utility model
It can be easier to be readily appreciated by one skilled in the art with feature, it is apparent clear to be made to the scope of protection of the utility model
Define.
It please refers to Fig.1 to Fig. 2, the utility model embodiment includes:Four groups of twisted wire units 1 being made of two twisted wires pair 2,
Braiding layer 5, nano metal bisque 6, the kaolinite soil layer 7 of cladding nano metal bisque 6, restrictive coating 8, four groups of twisted wire units 1
It is external after total strand to be coated with braiding layer 5, nano metal bisque 6, the Nano metal powder are evenly distributed with outside the braiding layer 5
6 outer even application of layer have kaolinite soil layer 7, and restrictive coating 8 is coated with outside the kaolinite soil layer 7.
Further, the twisted wire is to including inner wire 3 and the insulator 4 being coated on outside inner wire;
Further, the braiding layer 5 by several groups of metal filaments at;
Further, it is in half plastic cement state to be when the kaolinite soil layer 7 is un-sintered;
Further, the inner wire 3 is formed using more copper wire pair twists, and each copper wire is surface by plating
The bare copper wire of layer.
The utility model eliminates individual foil shielding layer 9 in known, is added to one layer of Nano metal powder
After layer 6, and in being added to one layer of modified kaolin layer 7 outside nano metal bisque 6, nano metal bisque 6 is used as high shielding action,
For kaolinite soil layer 7 as modified refractory material, product, which encounters thermal-flame, can slowly sinter porcelain into, be further used as refractory material
It uses, because the kaolinite soil layer 7 that kaolin is formed when unsintered is to be in half plastic cement state, kaolin directly sprays comprehensively
It is coated in nano metal bisque 6, the product that the product formed in this way is directly coated compared to foil shielding layer 9 is more soft.This production
Product more bear fire resisting, and sustainable 950 degree of high temperature for bearing 2 hours, relative to foil shielding layer 9, nano metal bisque 6 is more
Light and shielding properties is more preferable, and compared to PVC sheath protective layer 10, the restrictive coating 8 of low smoke and zero halogen material is more environmentally-friendly, and this production
Product can use in the presence of a harsh environment for a long time.
The above description is only the embodiments of the present invention, and it does not limit the scope of the patent of the present invention, every
Equivalent structure or equivalent flow shift made based on the specification and figures of the utility model, is applied directly or indirectly in
Other related technical areas are equally included in the patent within the scope of the utility model.