CN208985763U - The wind-powered electricity generation cable of resistance to twist mode of high temperature resistant and wind erosion prevention - Google Patents

Abstract

The utility model relates to field of cable technology, and disclose the high temperature resistant wind erosion prevention wind-powered electricity generation cable of resistance to twist mode, the cable core for being three including quantity.The wind-powered electricity generation cable of resistance to twist mode of the high temperature resistant and wind erosion prevention, pass through the establishment shielded layer of setting, work out external the first high-temperature-resistant layer being fixedly mounted of shielded layer, first high-temperature-resistant layer is nano iron oxide, nano-titanium oxide and the mixing of nanometer zirconium are filled, to realize according to nano iron oxide, nano-titanium oxide and nanometer zirconium characteristic resistant to high temperature protect internal cable core, avoid the aging that high temperature causes cable core, pass through the third high-temperature-resistant layer being fixedly mounted on the second high-temperature-resistant layer, second high-temperature-resistant layer is polytetrafluoroethylene (PTFE), third high-temperature-resistant layer extrudes for Ceramic silicon rubber, to realize the excellent high-temperature resistant result by the second high-temperature-resistant layer and third high-temperature-resistant layer, reduce influence of the high temperature to cable, it facilitates the wind-powered electricity generation cable of resistance to twist mode and reaches purpose resistant to high temperature.

Description

The wind-powered electricity generation cable of resistance to twist mode of high temperature resistant and wind erosion prevention

Technical field

The utility model relates to field of cable technology, the resistance to twist mode electricity of wind-powered electricity generation of specially a kind of high temperature resistant and wind erosion prevention Cable.

Background technique

Cable is usually the cable of similar rope as several or made of several groups of wire strandings, between every group of conducting wire mutually absolutely Edge, and be often twisted into around a center, entire outside is surrounded by the coating of high-insulation, and multi rack is located in the air or mounted in underground And the bottom, it is used for telecommunication or power Transmission.

With the development in epoch and science and technology, scientific and technological progress also promote simultaneously the technology of the wind-powered electricity generation cable of resistance to twist mode into Step, but defect is still remained, present wind-powered electricity generation does not have the ability of high temperature resistant and wind erosion prevention with the cable of resistance to twist mode, thus In the case where long term high temperature and wind erosion, cable premature aging often will cause, reduce the service life of cable, so The wind-powered electricity generation for proposing a kind of high temperature resistant and wind erosion prevention solves the problems, such as this with the cable of resistance to twist mode.

Utility model content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the utility model provides the resistance to twist mode of wind-powered electricity generation of a kind of high temperature resistant and wind erosion prevention Cable has the advantages that high temperature resistant and wind erosion prevention, solves present wind-powered electricity generation and does not have high temperature resistant with the cable of resistance to twist mode and prevent The ability of wind erosion, to often will cause cable premature aging in the case where long term high temperature and wind erosion, reduce cable Service life the problem of.

(2) technical solution

For the purpose for realizing above-mentioned high temperature resistant and wind erosion prevention, the utility model is provided the following technical solutions: a kind of high temperature resistant And the wind-powered electricity generation cable of resistance to twist mode of wind erosion prevention, the cable core for being three including quantity, the outside of the cable core is fixedly installed with absolutely Edge rubber sleeve, the outside of the insulation rubber sleeve are fixedly installed with establishment shielded layer, the external fixed peace of the establishment shielded layer Equipped with the first high-temperature-resistant layer, it is fixedly connected with armor outside three first high-temperature-resistant layers, the outside of the armor Be fixedly installed with insulation sleeve, the outside of the insulation sleeve is fixedly installed with the first wind erosion prevention layer, the first wind erosion prevention layer it is outer Portion is fixedly installed with the second high-temperature-resistant layer, and the outside of second high-temperature-resistant layer is fixedly installed with third high-temperature-resistant layer, and described The outside of three high-temperature-resistant layers is fixedly installed with insulating coating layer, and the outside of the insulating coating layer is fixedly installed with the second wind erosion prevention Layer.

Preferably, first high-temperature-resistant layer is that nano iron oxide, nano-titanium oxide and the mixing of nanometer zirconium are filled.

Preferably, second high-temperature-resistant layer is polytetrafluoroethylene (PTFE), and the company of the second high-temperature-resistant layer and third high-temperature-resistant layer Mode is connect as seamless connection.

Preferably, the second wind erosion prevention layer is that nanotechnology improves wind erosion prevention haloflex.

Preferably, the third high-temperature-resistant layer extrudes for Ceramic silicon rubber, and third high-temperature-resistant layer and insulating coating layer Connection type be seamless connection.

Preferably, the first wind erosion prevention layer is that windproof polyester band is spaced substantially equidistant with electro-insulating rubber liquid, and is prevented Wind polyester band and electro-insulating rubber liquid are no less than two layers.

(3) beneficial effect

Compared with prior art, the utility model provides the resistance to twist mode electricity of wind-powered electricity generation of a kind of high temperature resistant and wind erosion prevention Cable, have it is following the utility model has the advantages that

1, the wind-powered electricity generation cable of resistance to twist mode of the high temperature resistant and wind erosion prevention passes through the establishment shielded layer of setting, establishment shielding External the first high-temperature-resistant layer being fixedly mounted of layer, the first high-temperature-resistant layer are that nano iron oxide, nano-titanium oxide and nanometer zirconium are mixed Conjunction is filled, to realize according to nano iron oxide, nano-titanium oxide and nanometer zirconium characteristic resistant to high temperature to internal cable Core is protected, and the aging that high temperature causes cable core is avoided, by the third high-temperature-resistant layer being fixedly mounted on the second high-temperature-resistant layer, Second high-temperature-resistant layer is polytetrafluoroethylene (PTFE), and third high-temperature-resistant layer extrudes for Ceramic silicon rubber, to realize resistance to by second The excellent high-temperature resistant result of heat zone and third high-temperature-resistant layer reduces influence of the high temperature to cable, avoids cable and cross senilism Change, facilitates the wind-powered electricity generation cable of resistance to twist mode and reach purpose resistant to high temperature.

2, the wind-powered electricity generation cable of resistance to twist mode of the high temperature resistant and wind erosion prevention, passes through the insulation sleeve of setting, the outside of insulation sleeve The first wind erosion prevention layer being fixedly mounted, the first wind erosion prevention layer are that windproof polyester band is spaced substantially equidistant with electro-insulating rubber liquid, And windproof polyester band and electro-insulating rubber liquid are no less than two layers, to realize special by the strong wind erosion prevention of the first wind erosion prevention layer Property improve Resistance to wind Erosion inside cable, by external the second wind erosion prevention layer being fixedly mounted of insulating coating layer, second Wind erosion prevention layer is that nanotechnology improves wind erosion prevention haloflex, from the wind erosion prevention characteristic for utilizing haloflex is realized, is reduced External environment causes to erode to Exterior cable, extends the service life of cable, facilitates wind-powered electricity generation and reached with the cable of resistance to twist mode To the purpose of wind erosion prevention.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model.

In figure: 1 cable core, 2 insulation rubber sleeves, 3 establishment shielded layers, 4 first high-temperature-resistant layers, 5 armors, 6 insulation sleeves, 7 the One wind erosion prevention layer, 8 second high-temperature-resistant layers, 9 third high-temperature-resistant layers, 10 insulating coating layers, 11 second wind erosion prevention layers.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Referring to Fig. 1, the wind-powered electricity generation cable of resistance to twist mode of a kind of high temperature resistant and wind erosion prevention, the cable core for being three including quantity 1, the outside of cable core 1 is fixedly installed with insulation rubber sleeve 2, and the outside of insulation rubber sleeve 2 is fixedly installed with establishment shielded layer 3, compiles The outside of shielded layer 3 processed is fixedly installed with the first high-temperature-resistant layer 4, the first high-temperature-resistant layer 4 be nano iron oxide, nano-titanium oxide and Nanometer zirconium mixing is filled, and three 4 outsides of the first high-temperature-resistant layer are fixedly connected with armor 5, and armor 5 strengthens cable Hardness, improve the distortion resistance of cable, the outside of armor 5 is fixedly installed with insulation sleeve 6, and the outside of insulation sleeve 6 is solid Dingan County is equipped with the first wind erosion prevention layer 7, and the first wind erosion prevention layer 7 is that windproof polyester band is spaced substantially equidistant with electro-insulating rubber liquid, And windproof polyester band and electro-insulating rubber liquid are no less than two layers, the outside of the first wind erosion prevention layer 7 is fixedly installed with the second resistance to height Warm layer 8, the outside of the second high-temperature-resistant layer 8 are fixedly installed with third high-temperature-resistant layer 9, and the second high-temperature-resistant layer 8 is polytetrafluoroethylene (PTFE), and The connection type of second high-temperature-resistant layer 8 and third high-temperature-resistant layer 9 is seamless connection, and the external of third high-temperature-resistant layer 9 is fixedly mounted There is insulating coating layer 10, third high-temperature-resistant layer 9 extrudes for Ceramic silicon rubber, and third high-temperature-resistant layer 9 and insulating coating layer 10 Connection type be seamless connection, the outside of insulating coating layer 10 is fixedly installed with the second wind erosion prevention layer 11, the second wind erosion prevention layer 11 improve wind erosion prevention haloflex for nanotechnology, by the establishment shielded layer 3 of setting, work out the external fixed of shielded layer 3 First high-temperature-resistant layer 4 of installation, the first high-temperature-resistant layer 4 are that nano iron oxide, nano-titanium oxide and the mixing of nanometer zirconium are filled, Internal cable core 1 is protected according to nano iron oxide, nano-titanium oxide and nanometer zirconium characteristic resistant to high temperature to realize, The aging that high temperature causes cable core 1 is avoided, the third high-temperature-resistant layer 9 being fixedly mounted on the second high-temperature-resistant layer 8, the second resistance to height are passed through Warm layer 8 is polytetrafluoroethylene (PTFE), and third high-temperature-resistant layer 9 extrudes for Ceramic silicon rubber, to realize through the second high-temperature-resistant layer 8 With the excellent high-temperature resistant result of third high-temperature-resistant layer 9, reduce influence of the high temperature to cable, avoids cable premature aging, side The wind-powered electricity generation cable of resistance to twist mode reach purpose resistant to high temperature, pass through the insulation sleeve 6 of setting, the external fixed peace of insulation sleeve 6 First wind erosion prevention layer 7 of dress, the first wind erosion prevention layer 7 are that windproof polyester band is spaced substantially equidistant with electro-insulating rubber liquid, and is prevented Wind polyester band and electro-insulating rubber liquid are no less than two layers, to realize the strong wind erosion prevention characteristic by the first wind erosion prevention layer 7 The Resistance to wind Erosion inside cable is improved, the second wind erosion prevention layer 11 being fixedly mounted by the outside of insulating coating layer 10, the Two wind erosion prevention layers 11 are that nanotechnology improves wind erosion prevention haloflex, and the wind erosion prevention characteristic of haloflex is utilized from realization, Reduce external environment and Exterior cable is caused to erode, extend the service life of cable, facilitates wind-powered electricity generation with resistance to twist mode electricity Cable achievees the purpose that wind erosion prevention.

When in use, cable is installed, passes through the first high-temperature-resistant layer 4, the second high-temperature-resistant layer 8 and third high-temperature-resistant layer 9 combinations, by the first wind erosion prevention layer 7 and the second wind erosion prevention layer 11, are reinforced inside and outside cable high temperature protection is carried out inside and outside cable Wind erosion prevention ability.

In conclusion the wind-powered electricity generation cable of resistance to twist mode of the high temperature resistant and wind erosion prevention, by the establishment shielded layer 3 of setting, Work out external the first high-temperature-resistant layer 4 being fixedly mounted of shielded layer 3, the first high-temperature-resistant layer 4 is nano iron oxide, nano oxidized Titanium and the mixing of nanometer zirconium are filled, to realize according to nano iron oxide, nano-titanium oxide and nanometer zirconium spy resistant to high temperature Property internal cable core 1 is protected, the aging that high temperature causes cable core 1 is avoided, by being fixedly mounted on the second high-temperature-resistant layer 8 Third high-temperature-resistant layer 9, the second high-temperature-resistant layer 8 is polytetrafluoroethylene (PTFE), and third high-temperature-resistant layer 9 extrudes for Ceramic silicon rubber, from And the excellent high-temperature resistant result by the second high-temperature-resistant layer 8 and third high-temperature-resistant layer 9 is realized, reduce high temperature to the shadow of cable It rings, avoids cable premature aging, facilitate the wind-powered electricity generation cable of resistance to twist mode and reach purpose resistant to high temperature, pass through the insulation of setting Set 6, external the first wind erosion prevention layer 7 being fixedly mounted of insulation sleeve 6, the first wind erosion prevention layer 7 are windproof polyester band and insulation rubber Glue is spaced substantially equidistant, and windproof polyester band and electro-insulating rubber liquid are no less than two layers, to realize by first The strong wind erosion prevention characteristic of wind erosion prevention layer 7 improves the Resistance to wind Erosion inside cable, passes through the external fixed of insulating coating layer 10 Second wind erosion prevention layer 11 of installation, the second wind erosion prevention layer 11 are that nanotechnology improves wind erosion prevention haloflex, are utilized from realizing The wind erosion prevention characteristic of haloflex, reduces external environment and causes to erode to Exterior cable, extends the service life of cable, It facilitates wind-powered electricity generation and achievees the purpose that wind erosion prevention with the cable of resistance to twist mode, solve present wind-powered electricity generation and do not have with the cable of resistance to twist mode The ability of high temperature resistant and wind erosion prevention, thus often will cause cable premature aging in the case where long term high temperature and wind erosion, The problem of reducing the service life of cable.

It should be noted that the terms "include", "comprise" or its any other variant are intended to the packet of nonexcludability Contain, so that the process, method, article or equipment for including a series of elements not only includes those elements, but also including Other elements that are not explicitly listed, or further include for elements inherent to such a process, method, article, or device. In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including the element Process, method, article or equipment in there is also other identical elements.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. the high temperature resistant wind erosion prevention wind-powered electricity generation cable of resistance to twist mode, the cable core (1) for being three including quantity, it is characterised in that: described The outside of cable core (1) is fixedly installed with insulation rubber sleeve (2), and the outside of the insulation rubber sleeve (2) is fixedly installed with establishment screen It covers layer (3), the outside of establishment shielded layer (3) is fixedly installed with the first high-temperature-resistant layer (4), three first high-temperature-resistant layers (4) external to be fixedly connected with armor (5), the outside of the armor (5) is fixedly installed with insulation sleeve (6), the insulation The outside of set (6) is fixedly installed with the first wind erosion prevention layer (7), and the outside of the first wind erosion prevention layer (7) is fixedly installed with second The outside of high-temperature-resistant layer (8), second high-temperature-resistant layer (8) is fixedly installed with third high-temperature-resistant layer (9), the third high temperature resistant The outside of layer (9) is fixedly installed with insulating coating layer (10), and it is anti-that the outside of the insulating coating layer (10) is fixedly installed with second It erodes layer (11).

2. the high temperature resistant wind erosion prevention wind-powered electricity generation cable of resistance to twist mode according to claim 1, it is characterised in that: described first is resistance to Heat zone (4) is that nano iron oxide, nano-titanium oxide and the mixing of nanometer zirconium are filled.

3. the high temperature resistant wind erosion prevention wind-powered electricity generation cable of resistance to twist mode according to claim 1, it is characterised in that: described second is resistance to Heat zone (8) is polytetrafluoroethylene (PTFE), and the connection type of the second high-temperature-resistant layer (8) and third high-temperature-resistant layer (9) is seamless connection.

4. the high temperature resistant wind erosion prevention wind-powered electricity generation cable of resistance to twist mode according to claim 1, it is characterised in that: described second is anti- Layer (11) are eroded as nanotechnology improvement wind erosion prevention haloflex.

5. the high temperature resistant wind erosion prevention wind-powered electricity generation cable of resistance to twist mode according to claim 1, it is characterised in that: the third is resistance to Heat zone (9) extrudes for Ceramic silicon rubber, and the connection type of third high-temperature-resistant layer (9) and insulating coating layer (10) is seamless Connection.

6. the high temperature resistant wind erosion prevention wind-powered electricity generation cable of resistance to twist mode according to claim 1, it is characterised in that: described first is anti- Wind erosion layer (7) is spaced substantially equidistant for windproof polyester band with electro-insulating rubber liquid, and windproof polyester band and electro-insulating rubber liquid It is no less than two layers.