CN202549439U - Tension-resistant high-temperature resistant irradiation cross-linked polyolefin insulated photovoltaic cable - Google Patents
Tension-resistant high-temperature resistant irradiation cross-linked polyolefin insulated photovoltaic cable Download PDFInfo
- Publication number
- CN202549439U CN202549439U CN2012200573067U CN201220057306U CN202549439U CN 202549439 U CN202549439 U CN 202549439U CN 2012200573067 U CN2012200573067 U CN 2012200573067U CN 201220057306 U CN201220057306 U CN 201220057306U CN 202549439 U CN202549439 U CN 202549439U
- Authority
- CN
- China
- Prior art keywords
- temperature resistant
- resistant
- irradiation cross
- low
- cable
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Insulated Conductors (AREA)
Abstract
The utility model discloses a tension-resistant high-temperature resistant irradiation cross-linked polyolefin insulated photovoltaic cable, comprising a copper conductor, a tension-resistant element, a high-temperature resistant structural layer, a low-smoke halogen-free irradiation cross-linked flame-retardant polyolefin insulation layer, a low-smoke halogen-free high-temperature resistant insulation layer and a low-smoke halogen-free irradiation cross-linked flame-retardant polyolefin sheath layer, wherein the copper conductor is closely stranded with the tension-resistant element to form a stranding body, the high-temperature resistant structural layer is covered on the stranding body, the low-smoke halogen-free irradiation cross-linked flame-retardant polyolefin insulation layer is covered on the high-temperature resistant structural layer, the low-smoke halogen-free high-temperature resistant insulation layer is covered on the low-smoke halogen-free irradiation cross-linked flame-retardant polyolefin insulation layer, and the low-smoke halogen-free irradiation cross-linked flame-retardant polyolefin sheath layer is extruded on the low-smoke halogen-free high-temperature insulation layer. The operation temperature of the cable is relatively wide, namely the temporary overload of the conductor can achieve +130 DEG C, the operation environment temperature ranges from -40 DEG C to +110 DEG C (TUV upper limit is +90DEG C), simultaneously the cable has the capability that the high-temperature resistant short-period temperature exceeds 130 DEG C environment requirement. The tension-resistant high-temperature resistant irradiation cross-linked polyolefin insulated photovoltaic cable further has good features of resistance to ozone, ultraviolet, water vapor and flame retardant property.
Description
Technical field
The utility model relates to the power cable technical field, and particularly a kind of resisting opened high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable, is used to connect the wiring system of solar panel, storage battery or other current collection unit such as photovoltaic module and inverter.
Background technology
Have that zero discharge, life-span are long, resource never the solar photovoltaic grid-connection power generating industry of advantage such as exhaustion become one of world today's new industry of greatest concern gradually.Solar photovoltaic cable is used to connect the wiring system of solar panel, storage battery or other current collection unit such as photovoltaic module and inverter.
The solar energy system environment for use is abominable, and photovoltaic cable should have good special performance.
Heliotechnics will become one of following green energy resource technology.If fail to adopt the private cable of Application of Solar Energy, will have influence on the useful life of whole system.
In fact, solar energy system usually can use under severe environmental conditions, like high temperature and ultraviolet radiation.In Europe, the scene temperature that will cause solar energy system when fine is up to 100 ℃.At present; The adoptable various materials of photovoltaic cable have PVC, rubber, TPE and high-quality cross-linked polymer material; But regrettably, rated temperature is 90 ℃ a rubber cable, is that 70 ℃ PVC cable also usually uses out of doors even if also have rated temperature; Obviously, this will influence the useful life of system greatly.
With regard to photovoltaic application, the material of outdoor use should be decided according to ultraviolet ray, ozone, violent variations in temperature and chemical erosion situation.Under this kind environmental stress, use low-grade material, will cause cable cover(ing) frangible, even can decompose cable insulation.All these situation all can directly increase the cable system loss, and the risk that cable short circuit takes place simultaneously also can increase, and in a midium or long term, the possibility of breaking out of fire or personnel's injury is also higher.
Solar cables is the cross-linked cable of a kind of electron beam, and rated temperature is 120 ℃, in corresponding device, can resist extreme climate environment and stand mechanical shock.According to international standard IEC216, solar cables, under the environment, be 8 times of rubber cable its useful life out of doors, is 32 times of PVC cable.These cables and parts not only have best weather resistance, UV resistant and ozone aggressivity, and can bear wider variations in temperature (for example: from 40 ℃ to 125 ℃).
Be the potential hazard that reply high temperature causes, manufacturer tends to use the double hyer insulation rubber sheathed cable.But it is under 60 ℃ the environment that the Standard Edition of this type of cable only allows to be used for maximum operating temperature.And in Europe, the temperature value that can record out on the roof is but up to 100 ℃.
The rated temperature of solar cables is 120 ℃ (can use 20000 hours).This rated value is equivalent under 90 ℃ lasting temperature conditions, can use 18 years; And when temperature is lower than 90 ℃, its longer service life.Usually, require to reach more than 20 to 30 years the useful life of solar facilities.
Based on above-mentioned various reasons, in solar energy system, use special solar cable and parts to be necessary.
In fact, during installation and maintenance, cable can connect up on the sharp edge of roof structure, and cable must bear pressure, bending, tension force, stretched across load and powerful the impact simultaneously.If the cable cover(ing) insufficient strength, then cable insulation will receive badly damaged, thereby influence useful life of whole cable, perhaps cause the appearance of problems such as short circuit, fire and personnel's risk of injury.
Through the cross-linked material of radiation, possesses higher mechanical strength.Cross-linked process reform the chemical constitution of polymer, the meltability thermoplastic material converts non-meltability elastomeric material into, cross-linked radiation has significantly improved thermal characteristic, mechanical property and the chemical characteristic of cable insulation material.
The utility model content
The utility model technical problem to be solved is that a kind of anti-high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable of opening is provided to the existing in prior technology problem, and this photovoltaic cable is used to connect the wiring system of solar panel, storage battery or other current collection unit such as photovoltaic module and inverter.Should anti-ly open high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable and have anti-ozone, ultraviolet ray, steam-unleaded, Halogen; Fire-retardant, extremely low smoke release, oil resistant, resistance to chemical attack, the interim overload of conductor can reach+and 130 ℃; Ambient temperature-40 ℃ still can keep fabulous flexibility under the cryogenic conditions, anti-cutting to+110 ℃ (the TUV upper limit+90 ℃); Tear and fracture extension, insulating barrier and oversheath can disposablely be peeled off, and surpass 20 years useful life (the highest+90 ℃).The solar energy system environment for use is abominable, and photovoltaic cable should have good special performance.
The utility model technical problem to be solved can realize through following technical scheme:
An anti-high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable; Comprise copper conductor; It is characterized in that, also comprise anti-element, high-temperature-resistant structure layer, low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin insulation layer, the high temperature resistant separator of low smoke and zero halogen and the low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin jacket layer opened; Said copper conductor closely twists together formation one intertwist body with the anti-element of opening; Said high-temperature-resistant structure layer is coated on the said intertwist body; Said low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin insulation layer is coated on the said high-temperature-resistant structure layer; The high temperature resistant separator of said low smoke and zero halogen is coated on the said low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin insulation layer, and said low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin jacket layer is extruded on the high temperature resistant separator of said low smoke and zero halogen.
A said anti-element is the high temperature resistant gasket for packing of alkali-free glass wool.
Said high-temperature-resistant structure layer is wrapped aromatic polyamide and the synthetic belt of mica powder on said intertwist body.
The utility model adopts high temperature resistant irradiation type Insulation Material to substitute the organic insulation material that common power cable is used; To satisfy the anti-130 ℃ high temperature of cable; The anti-element of opening plays and carries and stressed effect, and that separator plays a part is fire-retardant, outer jacket has effects such as anti-ozone, ultraviolet ray, steam.
The utility model has the advantages that:
1. an anti-high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable of the utility model has effects such as anti-ozone, ultraviolet ray, steam;
2. resistance to elevated temperatures short-term temperature environmental requirement above 130 ℃.
3. cable has good flame retardancy.
An anti-high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable of the utility model has perfect cable core concentricity, and jacket thickness is even, and diameter is less, and tension stress is strong, and temperature resistant grade is high, and bigger ampacity is arranged.The utlity model has anti-ozone, uvioresistant and steam performance, it is unleaded, Halogen, fire-retardant, has extremely low smoke release; An anti-high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable oil resistant of the utility model, resistance to chemical attack; The interim overload of conductor can reach+and 130 ℃, environment for use temperature-40 ℃ is to+110 ℃ (the TUV upper limit+90 ℃), and it still can keep fabulous flexibility under cryogenic conditions; Anti-cutting; Tear and fracture extension, insulating barrier and oversheath can disposablely be peeled off, and surpass 20 years useful life (the highest+90 ℃).Possess and the joint of standard, the compatibility of connected system, meet international standard, antibiotic, antimicrobial.
Description of drawings
Fig. 1 is an anti-high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable structural representation.
Embodiment
Below in conjunction with accompanying drawing and embodiment the utility model is described further.
Referring to Fig. 1, Fig. 1 is an anti-high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable structural representation.
Should anti-open a high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable, and comprise copper conductor 2, anti-ly open element 1, high-temperature-resistant structure layer 6, a low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin insulation layer 3, low smoke and zero halogen is high temperature resistant separator 4 and low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin jacket layer 5.
An anti-element 1 is the high temperature resistant gasket for packing of alkali-free glass wool, and copper conductor 2 closely twists together with the high temperature resistant gasket for packing of alkali-free glass wool and forms an intertwist body, and high-temperature-resistant structure layer 6 adopts aromatic polyamide and mica powder anamorphic zones, and is wrapped on intertwist body.Low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin insulation layer 3 is coated on the high-temperature-resistant structure layer 6; Low smoke and zero halogen is high temperature resistant, and separator 4 is coated on the low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin insulation layer 3, and low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin jacket layer 5 is extruded on the high temperature resistant separator 4 of low smoke and zero halogen.
The utility model will become the homemade new varieties that substitute the import photovoltaic cable.
Claims (3)
1. an anti-high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable; Comprise copper conductor; It is characterized in that, also comprise anti-element, high-temperature-resistant structure layer, low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin insulation layer, the high temperature resistant separator of low smoke and zero halogen and the low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin jacket layer opened; Said copper conductor closely twists together formation one intertwist body with the anti-element of opening; Said high-temperature-resistant structure layer is coated on the said intertwist body; Said low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin insulation layer is coated on the said high-temperature-resistant structure layer; The high temperature resistant separator of said low smoke and zero halogen is coated on the said low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin insulation layer, and said low smoke and zero halogen irradiation cross-linking flame-retardant polyolefin jacket layer is extruded on the high temperature resistant separator of said low smoke and zero halogen.
2. the anti-high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable of opening as claimed in claim 1 is characterized in that a said anti-element is the high temperature resistant gasket for packing of alkali-free glass wool.
3. the anti-high temperature resistant cross-linking radiation polyolefin insulation photovoltaic cable of opening as claimed in claim 1 is characterized in that, said high-temperature-resistant structure layer is wrapped aromatic polyamide and the synthetic belt of mica powder on said intertwist body.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2012200573067U CN202549439U (en) | 2012-02-21 | 2012-02-21 | Tension-resistant high-temperature resistant irradiation cross-linked polyolefin insulated photovoltaic cable |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2012200573067U CN202549439U (en) | 2012-02-21 | 2012-02-21 | Tension-resistant high-temperature resistant irradiation cross-linked polyolefin insulated photovoltaic cable |
Publications (1)
Publication Number | Publication Date |
---|---|
CN202549439U true CN202549439U (en) | 2012-11-21 |
Family
ID=47170032
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2012200573067U Expired - Fee Related CN202549439U (en) | 2012-02-21 | 2012-02-21 | Tension-resistant high-temperature resistant irradiation cross-linked polyolefin insulated photovoltaic cable |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN202549439U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115547564A (en) * | 2022-10-09 | 2022-12-30 | 铭品电缆集团股份有限公司 | High-flame-retardant tear-resistant photovoltaic cable and preparation process thereof |
-
2012
- 2012-02-21 CN CN2012200573067U patent/CN202549439U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115547564A (en) * | 2022-10-09 | 2022-12-30 | 铭品电缆集团股份有限公司 | High-flame-retardant tear-resistant photovoltaic cable and preparation process thereof |
CN115547564B (en) * | 2022-10-09 | 2023-05-12 | 铭品电缆集团股份有限公司 | High-flame-retardance tearing-resistant photovoltaic cable and preparation process thereof |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN201142245Y (en) | Novel flame-proof fire resistant cable | |
CN102354564B (en) | 2MW wind power generation cable with torsion-resistant sheath | |
CN214253955U (en) | Novel fireproof cable assembly | |
CN202549439U (en) | Tension-resistant high-temperature resistant irradiation cross-linked polyolefin insulated photovoltaic cable | |
CN102568686A (en) | Tension-resistant high-temperature resistant irradiation cross-linked polyolefin insulated photovoltaic cable | |
CN201965959U (en) | Photovoltaic cable | |
CN207895903U (en) | A kind of fire-retardant fireproof cable | |
CN202736558U (en) | Photovoltaic cable | |
CN201138582Y (en) | Control cable control cable for railway | |
CN212380162U (en) | Anti-cutting cable | |
CN209388724U (en) | A kind of photovoltaic cable | |
CN203812608U (en) | Photovoltaic cable | |
CN103426557B (en) | Two core low-smoke low-halogen flame-retardant power cable | |
CN201845603U (en) | Yellow-green grounding flexible cable for communication power supply | |
WO2019114208A1 (en) | Low-smoke zero-halogen fire-resistant flexible power cable | |
CN201237928Y (en) | Wind energy cable | |
CN201435246Y (en) | Heat-resistant shielded cable for aviation | |
CN104157357A (en) | Low-smoke zero-halogen solar photovoltaic cable | |
CN218513195U (en) | Special cable for photovoltaic power generation | |
CN211628718U (en) | Environment-friendly and energy-saving copper stranded wire for photovoltaic cable | |
CN215577762U (en) | Flame-retardant B1-grade flexible control cable | |
CN103824620A (en) | Safety environmental-friendly fireproof type control instrument cable | |
CN204066852U (en) | Rated voltage 0.6/1kV and following wind power cable | |
CN218299408U (en) | Ageing-resistant flexible fireproof sheath flexible cable | |
CN110070962A (en) | A kind of long-lived electric wire |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20121121 Termination date: 20180221 |
|
CF01 | Termination of patent right due to non-payment of annual fee |