CN206098049U - Elevator retinue photoelectricity compound cable - Google Patents

Abstract

The utility model relates to a cable, especially elevator retinue photoelectricity compound cable. This cable includes butterfly -shaped optical cable, braided conductor, an insulating layer, tensile steel wires and elasticity sheath, butterfly -shaped optical cable, tensile steel wires arranges in the elastic protective sleeve with the establishment conductor, the establishment conductor still wraps up outward has the insulating layer, butterfly -shaped optical cable is by aramid fiber tensile fibre, insensitive single mode fiber of bending loss and polyvinyl chloride sheath are constituteed, aramid fiber tensile fibre and bending loss insensitive single mode fiber arrange in the polyvinyl chloride sheath, the insensitive single mode fiber both ends of bending loss are arranged respectively in to aramid fiber tensile fibre, the polyvinyl chloride sheath is the butterfly, braided conductor is the two -way intersection of coalesced copper line share split more than one and weaves and form, for the flat, the insulating layer is polyethylene material, tensile steel wires is formed by the transposition of the zinc -plated small -ga(u)ge wire more than, the utility model discloses outstanding flexibility ability and tensile strength have to small, easy processing provides power and light signal transmission function for elevator monitoring equipment.

Description

Elevator trailing photoelectricity compound cable

Technical field

This utility model is related to a kind of cable, especially elevator trailing photoelectricity compound cable.

Background technology

With the development of skyscraper, the CCTV camera from vertical hoistway in lift car is to building monitoring center Channel length becomes increasingly longer.Using traditional coaxial video cable and multiple twin balanced cable（Netting twine）Cannot be by car Interior high-definition monitoring video signal over long distances, it is non-relay, stably transfer out, additionally due to space is relative in elevator hoistways sealing Close, electromagnetic interference it is relative complex, also become more difficult using Radio Transmission Technology, then become optimal using fiber-optic transfer Select, because many advantages, such as fiber channel has big capacity, little, anti-interference decay, long transmission distance.First use fiber optical transceiver The signal of telecommunication of CCTV camera in lift car is converted into into optical signal, then with optical fiber by the monitoring of optical signal transmission to distal end Center.Optical fiber easily realized in building during permanent wiring, but connect lift car part be it is movable, be with cab Continually move up and down, it is necessary to possess certain resistance to bend(ing) and pull resistance, if common inside cable makes in such a case With, easily it is pulled off, fractures, thus it is not competent.In addition, fiber optical transceiver and CCTV camera are required for power supply to power, Therefore also need to configure power line.Lack in the market one kind disclosure satisfy that above-mentioned use requirement and small volume, be easy to plus The elevator trailing photoelectricity compound cable of work.

The content of the invention

In order to overcome the shortcomings of that existing lift car monitor video signal transmission technology is present, this utility model is provided Elevator trailing photoelectricity compound cable.

This utility model solves the technical scheme that its technical problem adopted：Elevator trailing photoelectricity compound cable, including Butterfly optical cable, knitted conductor, insulating barrier, tensile steel wire and flexible sheath, butterfly optical cable, tensile steel wire and establishment conductor are placed in bullet Property protective case in, establishment conductor outside be also enclosed with insulating barrier, butterfly optical cable is by aramid fiber traction-resistant fibre, the insensitive single mode of bending loss Optical fiber and pvc sheath are constituted, and aramid fiber traction-resistant fibre and bending loss insensitive single-mode fiber are placed in pvc sheath Interior, aramid fiber traction-resistant fibre is respectively placed in bending loss insensitive single-mode fiber two ends, and pvc sheath cross section is butterfly, is compiled Knit the bidirectional crossed braiding of oxygen-free copper-wire share split that conductor is more than to form, its cross section is flat, and insulating barrier is polyethylene Material, tensile steel wire is formed by the seizing wire of more than is stranded, and flexible sheath adopts rubber and plastic composite elastic material.

According to another embodiment of the present utility model, further include tensile steel wire it is stranded after external diameter be 1.0mm.

According to another embodiment of the present utility model, further include that knitted conductor is by 144 line diameters The bidirectional crossed braiding of 24 bursts of the oxygen-free copper-wire of 0.09mm point is formed.

According to another embodiment of the present utility model, further include that tensile steel wire is 0.20mm by 19 line diameters Zinc-coated wire stranded form.

According to another embodiment of the present utility model, the thickness for further including the upper and lower thinnest part of flexible sheath is not less than 0.8 ㎜, the thinnest part thickness on the outside of tensile steel wire is not less than 1.2mm.

The beneficial effects of the utility model are, this utility model has outstanding resistance to bend(ing) energy and tensile property, and It is small volume, easy to process, provide power supply and optical signal transmission function for elevator monitoring equipment.

Description of the drawings

This utility model is further illustrated with reference to the accompanying drawings and examples.

Fig. 1 is axonometric chart of the present utility model；

Fig. 2 is top view of the present utility model；

1. butterfly optical cable in figure, 2. knitted conductor, 3. insulating barrier, 4. tensile steel wire, 5. flexible sheath, 11. is fragrant Synthetic fibre traction-resistant fibre, 12. bending loss insensitive single-mode fibers, 13. pvc sheaths.

Specific embodiment

If Fig. 1 is axonometric chart of the present utility model, Fig. 2 is top view of the present utility model, and the mixing of elevator trailing photoelectricity is electric Cable, including butterfly optical cable 1, knitted conductor 2, insulating barrier 3, tensile steel wire 4 and flexible sheath 5, butterfly optical cable 1, the and of tensile steel wire 4 Establishment conductor 2 is placed in elastic protecting sleeve 5, and establishment conductor 2 is outer to be also enclosed with insulating barrier 3, and butterfly optical cable 1 is by aramid fiber traction-resistant fibre 11st, bending loss insensitive single-mode fiber 12 and pvc sheath 13 are constituted, and aramid fiber traction-resistant fibre 11 and bending loss are unwise Sense single-mode fiber 12 is placed in pvc sheath 13, and aramid fiber traction-resistant fibre 11 is respectively placed in bending loss insensitive single-mode fiber 12 two ends, the cross section of pvc sheath 13 is butterfly, and knitted conductor 2 is the bidirectional crossed volume of oxygen-free copper-wire share split of more than Knit and form, its cross section is flat, insulating barrier 3 is polythene material, and tensile steel wire 4 is stranded by the seizing wire of more than Form, flexible sheath 5 adopt rubber and plastic composite elastic material, the external diameter after tensile steel wire 4 is stranded be 1.0mm, knitted conductor 2 by 144 line diameters are formed for the bidirectional crossed braiding of 24 bursts of oxygen-free copper-wire point of 0.09mm, and tensile steel wire 4 is by 19 line diameters For 0.20mm zinc-coated wire it is stranded form, the thickness of flexible sheath thinnest part about 5 is not less than 0.8 ㎜, positioned at tensile steel wire 4 The thinnest part thickness in outside is not less than 1.2mm.

The center of butterfly optical cable 1 contain two bending loss insensitive single-mode fibers 12, both sides carry it is nonmetallic Reinforcement, pvc sheath 13 are in butterfly using polrvinyl chloride material, profile；Knitted conductor 2 is double using up to a hundred fine copper wires Form to interlacing, in flat, its outer layer extrudes the insulating barrier 3 of soft grade PVC material；By butterfly optical cable 1 and The knitted conductor 2 of extruded insulation layer 3 and by the stranded word order of tensile steel wire 4 of many zinc-coated wires, integrally extrudes bullet Property sheath 5, makes the elevator trailing photoelectricity compound cable of a flat, as shown in Figure 2.The flexible sheath 5 is multiple using rubber and plastic Elastomeric material is closed, with softness, with outstanding bending resistance characteristic.Because butterfly optical cable 1 itself has resist bending and tension special Property, knitted conductor 2 have bending resistance characteristic, both sides softness tensile steel wire 4 as whole cable load-bearing tensile structure, elasticity shield Set 5 is in flat using flexible resilient material, cable, so cable has outstanding resistance to bend(ing) energy and tensile property, and body Product is little, easy to process, integrates optical cable and cable, and for elevator monitoring equipment power supply and optical signal transmission function are provided.

Claims (5)

1. elevator trailing photoelectricity compound cable, is characterized in that, including butterfly optical cable（1）, knitted conductor（2）, insulating barrier（3）, it is anti- Draw steel wire（4）And flexible sheath（5）, butterfly optical cable（1）, tensile steel wire（4）With establishment conductor（2）It is placed in elastic protecting sleeve（5） It is interior, work out conductor（2）Also it is enclosed with insulating barrier outward（3）, butterfly optical cable（1）By aramid fiber traction-resistant fibre（11）, bending loss it is unwise Sense single-mode fiber（12）And pvc sheath（13）Composition, aramid fiber traction-resistant fibre（11）With bending loss insensitive single-mode fiber （12）It is placed in pvc sheath（13）It is interior, aramid fiber traction-resistant fibre（11）It is respectively placed in bending loss insensitive single-mode fiber（12） Two ends, pvc sheath（13）Cross section is butterfly, knitted conductor（2）Oxygen-free copper-wire share split for more than one is bidirectional crossed Braiding is formed, its cross section be flat, insulating barrier（3）For polythene material, tensile steel wire（4）By the zinc-plated thin steel of more than Silk is stranded to be formed, flexible sheath（5）Using rubber and plastic composite elastic material.

2. elevator trailing photoelectricity compound cable according to claim 1, is characterized in that, tensile steel wire（4）It is outer after stranded Footpath is 1.0mm.

3. elevator trailing photoelectricity compound cable according to claim 1, is characterized in that, knitted conductor（2）By 144 single lines The bidirectional crossed braiding of 24 bursts of the oxygen-free copper-wire of a diameter of 0.09mm point is formed.

4. elevator trailing photoelectricity compound cable according to claim 1 and 2, is characterized in that, tensile steel wire（4）By 19 lists Linear diameter stranded is formed for the zinc-coated wire of 0.20mm.

5. elevator trailing photoelectricity compound cable according to claim 1, is characterized in that, flexible sheath（5）Upper and lower thinnest part Thickness be not less than 0.8 ㎜, positioned at tensile steel wire（4）The thinnest part thickness in outside is not less than 1.2mm.