Utility model content
Utility model object of the present utility model is: for the problem of above-mentioned existence, provide a kind of insulation effect good, letterThe very fast charging wire that number shield effectiveness is good, transfer rate is fast.
The technical solution adopted in the utility model is as follows:
The very fast charging wire of one of the present utility model, comprises at least 2 very fast transmission lines and integument, and described integument willTransmission line is wrapped in inside.
The very fast charging wire of one of the present utility model, described very fast transmission line comprises Graphene inner core, metal from the inside to the outsideClad and insulating coating, described Graphene inner core is made up of Graphene, is solid cylinder, and described metal carbonyl coat is electroplatedIn Graphene core surface, described insulating coating is bonded in metal carbonyl coat outer surface, described insulating coating and metal bagGapless between coating.
Owing to having adopted technique scheme, Graphene has unusual electric conductivity, electronics motion speed thereinDegree has reached 1/300 of the light velocity, considerably beyond the movement velocity of electronics in general conductor, adopts Graphene as charging wireInner core, can greatly improve the electronics translational speed of transmission line, thereby improve the charge efficiency of charging wire. Metal carbonyl coatCan catch the electronics of escape, thereby improve the utilization rate of electric energy, save the energy.
The very fast charging wire of one of the present utility model, is characterized in that: the diameter of described Graphene inner core is 0.8 μ m, instituteState metal carbonyl coat and be made up of manganese, the thickness of described metal carbonyl coat is 21 μ m, and the thickness of described insulating coating is 70 μ m.
Owing to having adopted technique scheme, metal carbonyl coat is made up of manganese, the electric conductivity of manganese relatively a little less than, a large amount of electricitySon is still through Graphene conduction, and ensureing only has the electronics of escape to be caught by metal carbonyl coat, can be to normal electric current conductionImpact.
The very fast charging wire of one of the present utility model, described insulating coating comprises 34% ~ 40% vinylite, 19% ~24% silica gel, 4% ~ 6%CMCC, 2% ~ 4% dibasic lead stearate, 2.5% ~ 3.5% containing oxygen silicone oil, 3.5% ~ 4.5% platinum complex, 3% ~7% ethynylcyclohexanol, 1% ~ 5% mica, 6% ~ 12% siloxane oligomer and 7% ~ 13% repefral.
Owing to having adopted technique scheme, the good insulation preformance of insulating coating, and there is good fire resistance, rightAntistatic also have a good effect, simultaneously high temperature resistant, thereby improved the security performance of charging wire inner core.
The very fast charging wire of one of the present utility model, described insulating coating comprises 37% vinylite, 21% silica gel, 5%CMCC, 3% dibasic lead stearate, 3% containing oxygen silicone oil, 4% platinum complex, 5% ethynylcyclohexanol, 3% mica, 9% siloxanes is lowPolymers and 10% repefral.
Owing to having adopted technique scheme, aforementioned proportion is optimal values.
The very fast charging wire of one of the present utility model, described integument comprises screen layer and outer rubber, institute from the inside to the outsideState the outer surface that outer layer glue suitcase is rolled in screen layer, the thickness of described screen layer is 0.4mm, and the thickness of described outer rubber is0.6mm。
Owing to having adopted technique scheme, add screen layer and can effectively mask signal interference, fill thereby improveThe operating efficiency of electric wire.
The very fast charging wire of one of the present utility model, described screen layer and very fast transmission line outer surface are tangent, described shieldingBetween layer and very fast transmission line, be filled with insulation sealing, the space between screen layer and very fast transmission line is filled out in described insulation sealingFull.
Owing to having adopted technique scheme, insulation sealing can better insulate, fire-retardant, further improve charging wireSecurity.
The very fast charging wire of one of the present utility model, described insulation sealing comprises 10% ~ 12% dimethicone, 9% ~ 11% is slidingStone flour, 30% ~ 32%TPR, 2% ~ 4% zinc stearate, 0.8% ~ 1.2% white carbon, 0.8% ~ 1.2% boric acid, 1.5% ~ 2.5% linseed oil,4.5% ~ 5.5% erucyl amide, 12% ~ 14% organic siliconresin, 3% ~ 5% peroxidating phenyl-diformyl, 9% ~ 17% trimethylolpropane trisAcrylate, 2% ~ 10% decabromodiphenyl oxide.
Owing to having adopted technique scheme, not only good insulation preformance of insulation sealing, and there is good fire resistance, rightAntistatic also have good effect, thereby improved the security performance of charging wire inner core.
The very fast charging wire of one of the present utility model, described insulation sealing comprises 11% dimethicone, 10% talcum powder,31%TPR, 3% zinc stearate, 1% white carbon, 1% boric acid, 2% linseed oil, 5% erucyl amide, 13% organic siliconresin, 4% peroxidatingPhenyl-diformyl, 13% trimethylolpropane triacrylate, 6% decabromodiphenyl oxide.
Owing to having adopted technique scheme, aforementioned proportion is optimal values.
In sum, owing to having adopted technique scheme, the beneficial effects of the utility model are:
1, conduct electricity very well, improve greatly the electronics translational speed of transmission line, thereby improve the charge efficiency of charging wire.
2, catch the electronics of escape, thereby improve the utilization rate of electric energy, save the energy, can not pass normal electric current simultaneouslyLead and impact.
3, effectively mask signal and disturb, thus the operating efficiency of raising charging wire; Good insulation preformance, and have fineFire resistance, also have a good effect to antistatic, high temperature resistant, thereby improved the security performance of charging wire inner core.
Embodiment 1
As shown in Figure 1, a kind of very fast charging wire, comprises 2 very fast transmission lines 1 and integument, and integument wraps transmission line 1Be rolled in inside. Very fast transmission line 1 comprises Graphene inner core 2 from the inside to the outside, and metal carbonyl coat 3 and insulating coating 4, in GrapheneCore 2 is made up of Graphene, is solid cylinder, and metal carbonyl coat 3 is plated on Graphene inner core 2 surfaces, and insulating coating 4 is bondingAt metal carbonyl coat 3 outer surfaces, gapless between insulating coating 4 and metal carbonyl coat 3. The diameter of Graphene inner core 2 is 0.8μ m, metal carbonyl coat 3 is made up of manganese, and the thickness of metal carbonyl coat 3 is 21 μ m, and the thickness of insulating coating 4 is 70 μ m. Insulating bagCoating 4 comprises 34% vinylite, 24% silica gel, and 4%CMCC, 4% dibasic lead stearate, 2.5% containing oxygen silicone oil, 4.5% platinumComplex compound, 3% ethynylcyclohexanol, 5% mica, 6% siloxane oligomer and 13% repefral. Integument is by interiorTo comprising screen layer 6 and outer rubber 7 outward, outer rubber 7 is wrapped in the outer surface of screen layer 6, and the thickness of screen layer 6 is0.4mm, the thickness of outer rubber 7 is 0.6mm. Screen layer 6 is tangent with very fast transmission line 1 outer surface, screen layer 6 and very fast transmissionBetween line 1, be filled with insulation sealing 5, the space between screen layer 6 and very fast transmission line 1 is filled up in insulation sealing 5. Insulation sealingComprise 10% dimethicone, 11% talcum powder, 30%TPR, 4% zinc stearate, 0.8% white carbon, 1.2% boric acid, 1.5% flaxOil, 5.5% erucyl amide, 12% organic siliconresin, 5% peroxidating phenyl-diformyl, 9% trimethylolpropane triacrylate,10% decabromodiphenyl oxide.
Embodiment 2
As shown in Figure 1, a kind of very fast charging wire, comprises 4 very fast transmission lines 1 and integument, and integument wraps transmission line 1Be rolled in inside. Very fast transmission line 1 comprises Graphene inner core 2 from the inside to the outside, and metal carbonyl coat 3 and insulating coating 4, in GrapheneCore 2 is made up of Graphene, is solid cylinder, and metal carbonyl coat 3 is plated on Graphene inner core 2 surfaces, and insulating coating 4 is bondingAt metal carbonyl coat 3 outer surfaces, gapless between insulating coating 4 and metal carbonyl coat 3. The diameter of Graphene inner core 2 is 0.8μ m, metal carbonyl coat 3 is made up of manganese, and the thickness of metal carbonyl coat 3 is 21 μ m, and the thickness of insulating coating 4 is 70 μ m. Insulating bagCoating 4 comprises 40% vinylite, 19% silica gel, and 6%CMCC, 2% dibasic lead stearate, 3.5% containing oxygen silicone oil, 3.5% platinumComplex compound, 7% ethynylcyclohexanol, 1% mica, 12% siloxane oligomer and 7% repefral. Integument is by interiorTo comprising screen layer 6 and outer rubber 7 outward, outer rubber 7 is wrapped in the outer surface of screen layer 6, and the thickness of screen layer 6 is0.4mm, the thickness of outer rubber 7 is 0.6mm. Screen layer 6 is tangent with very fast transmission line 1 outer surface, screen layer 6 and very fast transmissionBetween line 1, be filled with insulation sealing 5, the space between screen layer 6 and very fast transmission line 1 is filled up in insulation sealing 5. Insulation sealingComprise 12% dimethicone, 9% talcum powder, 32%TPR, 2% zinc stearate, 1.2% white carbon, 0.8% boric acid, 2.5% flaxOil, 4.5% erucyl amide, 14% organic siliconresin, 3% peroxidating phenyl-diformyl, 17% trimethylolpropane triacrylate, 2%Decabromodiphenyl oxide.
Embodiment 3
As shown in Figure 1, a kind of very fast charging wire, comprises 4 very fast transmission lines 1 and integument, and integument wraps transmission line 1Be rolled in inside. Very fast transmission line 1 comprises Graphene inner core 2 from the inside to the outside, and metal carbonyl coat 3 and insulating coating 4, in GrapheneCore 2 is made up of Graphene, is solid cylinder, and metal carbonyl coat 3 is plated on Graphene inner core 2 surfaces, and insulating coating 4 is bondingAt metal carbonyl coat 3 outer surfaces, gapless between insulating coating 4 and metal carbonyl coat 3. The diameter of Graphene inner core 2 is 0.8μ m, metal carbonyl coat 3 is made up of manganese, and the thickness of metal carbonyl coat 3 is 21 μ m, and the thickness of insulating coating 4 is 70 μ m. Insulating bagCoating 4 comprises 37% vinylite, 21% silica gel, and 5%CMCC, 3% dibasic lead stearate, 3% containing oxygen silicone oil, 4% platinum complex,5% ethynylcyclohexanol, 3% mica, 9% siloxane oligomer and 10% repefral. Integument comprises from the inside to the outsideScreen layer 6 and outer rubber 7, outer rubber 7 is wrapped in the outer surface of screen layer 6, and the thickness of screen layer 6 is 0.4mm, outer layer glueThe thickness of skin 7 is 0.6mm. Screen layer 6 is tangent with very fast transmission line 1 outer surface, between screen layer 6 and very fast transmission line 1, fillsHave insulation sealing 5, the space between screen layer 6 and very fast transmission line 1 is filled up in insulation sealing 5. Insulation sealing comprises 11% diformazanBase silicone oil, 10% talcum powder, 31%TPR, 3% zinc stearate, 1% white carbon, 1% boric acid, 2% linseed oil, 5% erucyl amide, 13% hasMachine silicones, 4% peroxidating phenyl-diformyl, 13% trimethylolpropane triacrylate, 6% decabromodiphenyl oxide.
The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all at thisAny amendment of doing within the spirit of utility model and principle, be equal to and replace and improvement etc., all should be included in the utility modelProtection domain within.