CN209515233U - A kind of ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cable of new energy - Google Patents
A kind of ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cable of new energy Download PDFInfo
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- CN209515233U CN209515233U CN201920629677.XU CN201920629677U CN209515233U CN 209515233 U CN209515233 U CN 209515233U CN 201920629677 U CN201920629677 U CN 201920629677U CN 209515233 U CN209515233 U CN 209515233U
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- installation set
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Abstract
The utility model discloses a kind of ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cables of new energy, including cable core and outer rubber layer, inner rubber layer is enclosed on the outside of the cable core, and filled with fire prevention filled layer between inner rubber layer and outer rubber layer, alumina-silicate ceramic fibre paper is enclosed on the outside of the outer rubber layer, installation set is provided on the outside of the water-proof acrylic acid paint, and the left and right sides setting of installation set is respectively arranged with the first extension blocks and the second extension blocks, the end of first extension blocks is inlaid with convex block, the end of second extension blocks offers mounting hole.The ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cable of the new energy is provided with inner rubber layer and outer rubber layer, and both use EP rubbers material, to improve the heat resistance of device entirety, and it is combined with the use of alumina-silicate ceramic fibre paper, so that device further increases heat resistance, it is ensured that enough flexibilities.
Description
Technical field
The utility model relates to field of cable technology, specially a kind of ethylene propylene rubber insulated heat-resisting soft electricity of wind-powered electricity generation of new energy
Cable.
Background technique
Electric flexible cable is also known as flexible electric power cable, is one of cable family, however existing cable is in the mistake used
There is a problem of in journey one it is relatively broad, the thermo-labile and heat-resisting cable of electric flexible cable cable is generally hard cable, pole
The big use scope for reducing electric flexible cable, while there is also, in some bending parts, hard cable is inconvenient to install again,
And electric flexible cable does not have good heat resistance, and electric flexible cable has installation inconvenience.
So we have proposed a kind of ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cables of new energy, in order to solve to mention among the above
Out the problem of.
Utility model content
The purpose of this utility model is to provide a kind of ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cables of new energy, on solving
The existing market for stating background technique proposition powers on the problem that flexible cable heat resistance is poor and installation is inconvenient.
To achieve the above object, the utility model provides the following technical solutions: a kind of new energy is ethylene propylene rubber insulated heat-resisting
Wind-powered electricity generation flexible cable, including cable core and outer rubber layer, are enclosed with inner rubber layer on the outside of the cable core, and inner rubber layer and outer
It is filled with fire prevention filled layer between rubber layer, is enclosed with alumina-silicate ceramic fibre paper, and alumina silicate on the outside of the outer rubber layer
The outer surface of ceramic fiber paper is coated with water-proof acrylic acid paint, and the outer surface of water-proof acrylic acid paint is coated with reflectorised paint
Layer, installation set is provided on the outside of the water-proof acrylic acid paint, and the left and right sides setting of installation set is respectively arranged with first
Extension blocks and the second extension blocks, the end of first extension blocks are inlaid with convex block, and the end of second extension blocks offers
Mounting hole.
Preferably, the outer surface of the outer rubber layer is in uneven structure, and outer rubber layer and alumina-silicate ceramic fibre
Paper is bonding connection.
Preferably, the installation set is equally distributed on the outer surface of alumina-silicate ceramic fibre paper, and installation set and alumina silicate
Ceramic fiber paper is bonding connection, while the center line of installation set and the center line of alumina-silicate ceramic fibre paper overlap.
Preferably, the center line symmetrical setting of first extension blocks and the second extension blocks about installation set, and first expands
It opens up block and the second extension blocks constitutes male-female engagement, and the first extension blocks, the second extension blocks and installation set are integrated, together
When the first extension blocks, the second extension blocks and installation set three be rubber material.
Preferably, the convex block and mounting hole are in corresponding relationship, and convex block and mounting hole constitute snap-in structure, and convex block
Maximum gauge be greater than mounting hole internal diameter.
Preferably, center line symmetrical setting of the reflective paint layer about alumina-silicate ceramic fibre paper, and reflective paint layer etc.
Away from the outer surface for being distributed in water-proof acrylic acid paint.
Compared with prior art, the utility model has the beneficial effects that the ethylene propylene rubber insulated heat-resisting wind-powered electricity generation of the new energy is soft
Cable is provided with inner rubber layer and outer rubber layer, and both uses EP rubbers material, to improve the resistance to of device entirety
Hot property, and it is combined with the use of alumina-silicate ceramic fibre paper, so that device further increases heat resistance, it is ensured that
Enough flexibilities;
1, it is provided with alumina-silicate ceramic fibre paper, inner rubber layer and outer rubber layer, during use, can greatly be increased
The heat resistance of feeder apparatus, while alumina-silicate ceramic fibre paper and EP rubbers have good flexibility, it is ensured that device energy
Free bending fold;
2, it is provided with reflective paint layer and water-proof acrylic acid paint, during use, water-proof acrylic acid paint can not only
Guarantee the good waterproofness of device, also there is good elasticity, and reflective paint layer can reflect the sunlight of direct projection, increase device
Thermal diffusivity;
3, it is provided with installation set, during use, is combined with the use of the first extension blocks and the second extension blocks, so that
Device can be carried out quickly installation and binding, significantly increase the installation convenience of device.
Detailed description of the invention
Fig. 1 is that the utility model master cuts open structural schematic diagram;
Fig. 2 is the utility model side structure schematic view;
Fig. 3 is the first extension blocks of the utility model and the second extension blocks attachment structure schematic diagram.
In figure: 1, cable core;2, inner rubber layer;3, fire prevention filled layer;4, outer rubber layer;5, alumina-silicate ceramic fibre paper;
6, water-proof acrylic acid paint;7, installation set;8, the first extension blocks;9, the second extension blocks;10, convex block;11, mounting hole;12, reflective
Paint layer.
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.
Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of ethylene propylene rubber insulated heat-resisting wind-powered electricity generation of new energy
Flexible cable, including cable core 1, inner rubber layer 2, fire prevention filled layer 3, outer rubber layer 4, alumina-silicate ceramic fibre paper 5, acrylic acid are anti-
Water paint 6, installation set 7, the first extension blocks 8, the second extension blocks 9, convex block 10, mounting hole 11 and reflective paint layer 12, cable core 1
Outside is enclosed with inner rubber layer 2, and fire prevention filled layer 3 is filled between inner rubber layer 2 and outer rubber layer 4, outside outer rubber layer 4
Side is enclosed with alumina-silicate ceramic fibre paper 5, and the outer surface of alumina-silicate ceramic fibre paper 5 is coated with water-proof acrylic acid paint 6, and
And the outer surface of water-proof acrylic acid paint 6 is coated with reflective paint layer 12, the outside of water-proof acrylic acid paint 6 is provided with installation set 7,
And the left and right sides setting of installation set 7 is respectively arranged with the first extension blocks 8 and the second extension blocks 9, the end edge of the first extension blocks 8
Embedded with convex block 10, the end of the second extension blocks 9 offers mounting hole 11.
The outer surface of outer rubber layer 4 is in uneven structure, and outer rubber layer 4 is Nian Jie with alumina-silicate ceramic fibre paper 5
Connection increases the fastness between outer rubber layer 4 and alumina-silicate ceramic fibre paper 5 using the design of uneven structure.
Installation set 7 is equally distributed on the outer surface of alumina-silicate ceramic fibre paper 5, and installation set 7 and alumina-silicate ceramic fibre
Paper 5 is bonding connection, while the center line of installation set 7 and the center line of alumina-silicate ceramic fibre paper 5 overlap, using equidistant
The installation set 7 of distribution designs, convenient for, come the length of rapid survey cable, facilitating the use of device by installation set 7.
The center line symmetrical setting of first extension blocks 8 and the second extension blocks 9 about installation set 7, and the first extension blocks 8 and
Two extension blocks 9 constitute male-female engagement, and the first extension blocks 8, the second extension blocks 9 and installation set 7 are integrated, while the
One extension blocks 8, the second extension blocks 9 and 7 three of installation set are rubber material, and the design of male-female engagement facilitates the first extension blocks 8
With the splicing of both the second extension blocks 9, while the design of rubber material ensure that the soft of the first extension blocks 8 and the second extension blocks 9
It is soft, it ensures that any adjusting of both the first extension blocks 8 and the second extension blocks 9, facilitates the use of device.
Convex block 10 and mounting hole 11 are in corresponding relationship, and convex block 10 and mounting hole 11 constitute snap-in structure, and convex block 10
Maximum gauge be greater than mounting hole 11 internal diameter, be combined with the use of the first extension blocks 8 and the second extension blocks 9, facilitate device
Installation and fixation, increase the practicability of device.
Center line symmetrical setting of the reflective paint layer 12 about alumina-silicate ceramic fibre paper 5, and reflective paint layer 12 is equally spaced
Effectively direct sunlight is emitted using the design of reflective paint layer 12 in the outer surface of water-proof acrylic acid paint 6, is increased
The heat dissipation performance of device.
Working principle: in heat-resisting wind-powered electricity generation flexible cable ethylene propylene rubber insulated using the new energy, firstly, in conjunction with Fig. 1-2 institute
Show, which is installed to suitable position, to begin to use, during use, reflective paint layer 12 can reflect centainly
Light, thus reduce the sun light direct beam generation temperature, thus the process for improving whole thermal diffusivity, and using
In, water-proof acrylic acid paint 6 effectively obstructs rainwater, guarantees the normal use of device, and alumina-silicate ceramic fibre
Paper 5 has good heat insulating function, so that the phenomenon that improving the resistance to hot wind performance of cable entirety, avoiding the occurrence of thermalization, guarantees
The service life of device.
During the cable laying, as shown in connection with fig. 3, the first extension blocks 8 and second of 7 two sides of installation set can be expanded
It opens up block 9 to be unfolded, to be combined with the use of convex block 10 and mounting hole 11, enables installation set 7 effectively by the first extension blocks 8
Binding operation is carried out with the second extension blocks 9, significantly increases the practicability and installation convenience of device.
To complete a series of activities, the content being not described in detail in this specification belongs to professional and technical personnel in the field
The well known prior art.
Although the utility model is described in detail with reference to the foregoing embodiments, come for those skilled in the art
Say, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic into
Row equivalent replacement, within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on should all
It is included within the scope of protection of this utility model.
Claims (6)
1. a kind of ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cable of new energy, including cable core (1) and outer rubber layer (4), feature
It is: is enclosed with inner rubber layer (2) on the outside of the cable core (1), and is filled between inner rubber layer (2) and outer rubber layer (4)
Have fire prevention filled layer (3), be enclosed with alumina-silicate ceramic fibre paper (5) on the outside of the outer rubber layer (4), and aluminum silicate ceramic is fine
The outer surface of dimension paper (5) is coated with water-proof acrylic acid paint (6), and the outer surface of water-proof acrylic acid paint (6) is coated with instead
Lac varnish layer (12) is provided with installation set (7) on the outside of the water-proof acrylic acid paint (6), and sets at left and right sides of installation set (7)
It sets and is respectively arranged with the first extension blocks (8) and the second extension blocks (9), the end of first extension blocks (8) is inlaid with convex block
(10), the end of second extension blocks (9) offers mounting hole (11).
2. the ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cable of a kind of new energy according to claim 1, it is characterised in that: described
The outer surface of outer rubber layer (4) is in uneven structure, and outer rubber layer (4) is Nian Jie connect with alumina-silicate ceramic fibre paper (5)
It connects.
3. the ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cable of a kind of new energy according to claim 1, it is characterised in that: described
Installation set (7) is equally distributed on the outer surface of alumina-silicate ceramic fibre paper (5), and installation set (7) and alumina-silicate ceramic fibre paper
It (5) is bonding connection, while the center line of installation set (7) and the center line of alumina-silicate ceramic fibre paper (5) overlap.
4. the ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cable of a kind of new energy according to claim 1, it is characterised in that: described
The center line symmetrical setting of first extension blocks (8) and the second extension blocks (9) about installation set (7), and the first extension blocks (8) and
Two extension blocks (9) constitute male-female engagement, and the first extension blocks (8), the second extension blocks (9) and installation set (7) are integration knot
Structure, while the first extension blocks (8), the second extension blocks (9) and installation set (7) three are rubber material.
5. the ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cable of a kind of new energy according to claim 1, it is characterised in that: described
Convex block (10) and mounting hole (11) are in corresponding relationship, and convex block (10) and mounting hole (11) constitute snap-in structure, and convex block
(10) maximum gauge is greater than the internal diameter of mounting hole (11).
6. the ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cable of a kind of new energy according to claim 1, it is characterised in that: described
Center line symmetrical setting of the reflective paint layer (12) about alumina-silicate ceramic fibre paper (5), and reflective paint layer (12) is equally distributed on
The outer surface of water-proof acrylic acid paint (6).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920629677.XU CN209515233U (en) | 2019-05-06 | 2019-05-06 | A kind of ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cable of new energy |
Applications Claiming Priority (1)
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CN201920629677.XU CN209515233U (en) | 2019-05-06 | 2019-05-06 | A kind of ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cable of new energy |
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Publication Number | Publication Date |
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CN209515233U true CN209515233U (en) | 2019-10-18 |
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CN201920629677.XU Active CN209515233U (en) | 2019-05-06 | 2019-05-06 | A kind of ethylene propylene rubber insulated heat-resisting wind-powered electricity generation flexible cable of new energy |
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2019
- 2019-05-06 CN CN201920629677.XU patent/CN209515233U/en active Active
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