CN104977677A

CN104977677A - Optical communication unit and optical cable using same

Info

Publication number: CN104977677A
Application number: CN201510414830.3A
Authority: CN
Inventors: 沈群华
Original assignee: Individual
Current assignee: Weihai Changhe Light Guide Technology Co ltd; Weihai Weixin Fiber Technology Co ltd; Hongan Group Co Ltd
Priority date: 2014-01-02
Filing date: 2014-01-02
Publication date: 2015-10-14
Anticipated expiration: 2034-01-02
Also published as: CN103744151B; CN104977678B; CN104977679A; CN103744151A; CN104977679B; CN104977677B; CN104977678A

Abstract

The invention belongs to the technical field of cables, and particularly relates to an optical communication unit, which is characterized by comprising an optical fiber belt (1), a flexible reinforcement piece and a unit sheath (3), wherein the optical fiber belt is composed of multiple light-guide fibers (11) arranged in parallel and a bonding layer (12) coating the light-guide fibers, and adjacent light-guide fibers are not contacted; the flexible reinforcement piece is arranged outside the optical fiber belt; the unit sheath coats the optical fiber belt and the flexible reinforcement piece; and grooves facing the optical fiber belt are arranged in the upper surface and the lower surface of the unit sheath. The invention also discloses an optical cable using the optical communication unit. The optical communication unit of the invention has the following main beneficial effects of excellent anti-lateral pressure performance, and good product flexibility. The optical cable has the following main beneficial effects that the optical communication unit can be used repeatedly, and the optical cable can be used in a high temperature environment.

Description

Optical communication element and use the optical cable of this optical communication element

The application is that name is called: light unit and use the optical cable of this light unit, application number is: 201410000869.6, the applying date is: the divisional application of the patent of invention of on 01 02nd, 2014.

Technical field

The invention belongs to technical field of cables, especially relate to a kind of optical communication element and use the optical cable of this optical communication element.

Background technology

Along with the propelling that hastens soon of FTTX, the demand of optical cable increases day by day, for this reason, increases the research and development for optical cable and application both at home and abroad.Publication No. be CN101958162A patent discloses optoelectronic composite cable, comprise cable core, embossing metal tube and oversheath, embossing metal tube is positioned at outside cable core, oversheath is positioned at outside embossing metal tube, described cable core comprises at least one pair of wire and at least one optical fiber be contained in ferrule of being coated with insulation course separately, also accommodates for the fortifying fibre with described optical fiber in described ferrule; Solve fortifying fibre increases tensile strength individually effect to optical fiber, and the tensile strength of the entirety of cable body is significantly improved.Publication No. be CN202917234U patent discloses optoelectronic composite cable, comprise oversheath, be provided with photoelectricity transmission unit in oversheath, photoelectricity transmission unit comprises photoelectricity transmission unit and comprises center conductor and be molded over center conductor outside and the optical fiber of coated center conductor; Its optical fiber is molded over the outside of center conductor by photoelectricity transmission unit, instead of as traditional optoelectronic composite cable by optical fiber shaping in advance together with wire stranding, thoroughly can eliminate the problem that the optical fiber that causes due to twisting process is scrapped.Publication No. be CN2916864 patent discloses optoelectronic composite cable, comprise cable core, water barrier, sheath, in cable core, be provided with some beam tubes with several signal wires to unit, signal wire five is to being a stranded unit, form SZ stranded, signal wire unit outside surface is wrapped shaping polyester belt; Sheath is indulge with wrinkle composite steel-plastic belt the composite rope sheath that bag extrudes high density polyethylene again, and when high temperature or low temperature, optoelectronic composite cable is stable, and waterstop plays good block-water effect.Publication No. be CN202258544U patent discloses optoelectronic composite cable, it comprises optical fiber, Loose tube, reinforcement, copper conductor and sheath, optical fiber is in Loose tube, Loose tube overcoat plastic-coated metal compound belt, fire retardant jacket outside plastic-coated metal compound belt, plastic-coated metal compound belt overcoat fire retardant jacket is built with reinforcement, copper conductor overlaps outward successively fireprotection layer and insulating sheath, they to be contained in outside reinforcement in fire retardant jacket, sleeve pipe filling material is had in Loose tube, therefore optoelectronic composite cable has fire-resistant, high temperature resistant, tool fire protecting performance.What publication No. number was CN202615928U patent discloses optoelectronic composite cable, comprise the oversheath (2) of cable core (1) and parcel cable core (1), cable core (1) comprises wrapping layer (3), fiber unit (4), signal wire copper conductor (5), power supply copper conductor (6) and central reinforce member (7) is provided with in wrapping layer (3), the periphery of sheath (2) is provided with burr (11), the xsect of described burr (11) is square, on the surface of optical cable, burr is set, namely decrease the friction between mounting pipe, installation rate is significantly improved.Publication No. be CN102290140A patent discloses optoelectronic composite cable and optoelectronic composite cable assembly; this optoelectronic composite cable 11 has optical fibre core 12 and electric wire 15 in the inner side of sheath 20; optical fibre core 12 is accommodated in and is configured in the first protection tube 13 of cross section central authorities; electric wire 15 is configured between the first protection tube 13 and sheath 20, and can move along the circumference of the first protection tube 13.

Above-mentioned composite rope all includes optical fiber and power transmission line or the electric wire for Signal transmissions, and optical fiber is filled with separately the material of greasy for preventing water one class in Loose tube or in Loose tube, brings inconvenience to construction; In addition, fiber unit is due to stranded together with other Loose tube or power transmission unit, and power transmission line very easily flattens Loose tube, causes the deterioration of optical property; And stranded due to the Loose tube with fibre ribbon, when manufacturing defectiveness, even if electrical transmission unit is reusable after stripping cable core, but the Loose tube of stranded mistake cannot utilize again, can cause very large loss.

Summary of the invention

In order to solve the problem, object of the present invention discloses a kind of optical communication element, discloses the optical cable that this kind of optical communication element is formed further.The present invention is achieved through the following technical solutions.

Optical communication element, is characterized in that it is made up of a fibre ribbon 1, flexible reinforcement, unit sheath 3; Fibre ribbon, by the many light transmitting fibers 11 placed and envelope fibre-optic tack coat 12 and form of being parallel to each other, is non-touching between adjacent light transmitting fiber; Flexible reinforcement is positioned at the outside of fibre ribbon; Fibre ribbon, flexible reinforcement envelope by unit sheath; Described unit sheath is made up of the material comprising following weight portion:

Corvic: 40 ~ 50 parts; Dioctyl phthalate: 11 ~ 16 parts; Diisooctyl phthalate: 3 ~ 4 parts; Epoxidized soybean oil: 3 ~ 4 parts; Calcium-zinc composite stabilizing agent: 3 ~ 4 parts; Paraffin: 6 ~ 8 parts; Stearic acid: 2 ~ 6 parts; Porcelain earth: 8 ~ 12 parts; Antioxidant 1010: 0.2 ~ 0.8 part; Irgasfos 168: 0.2 ~ 0.8 part; Calcium carbonate: 3 ~ 6 parts; Aluminium hydroxide: 4 ~ 8 parts; Polypropylene: 6 ~ 7 parts.

Optical communication element described above, is characterized in that described unit sheath is made up of the material comprising following weight portion: Corvic: 40 parts; Dioctyl phthalate: 11 parts; Diisooctyl phthalate: 3 parts; Epoxidized soybean oil: 3 parts; Calcium-zinc composite stabilizing agent: 3 parts; Paraffin: 6 parts; Stearic acid: 2 parts; Porcelain earth: 8 parts; Antioxidant 1010: 0.2 part; Irgasfos 168: 0.2 part; Calcium carbonate: 3 parts; Aluminium hydroxide: 4 parts; Polypropylene: 6 parts.

Optical communication element described above, is characterized in that described unit sheath is made up of the material comprising following weight portion: Corvic: 50 parts; Dioctyl phthalate: 16 parts; Diisooctyl phthalate: 4 parts; Epoxidized soybean oil: 4 parts; Calcium-zinc composite stabilizing agent: 4 parts; Paraffin: 8 parts; Stearic acid: 6 parts; Porcelain earth: 12 parts; Antioxidant 1010: 0.8 part; Irgasfos 168: 0.8 part; Calcium carbonate: 6 parts; Aluminium hydroxide: 8 parts; Polypropylene: 7 parts.

Optical communication element described above, is characterized in that described unit sheath is made up of the material comprising following weight portion: Corvic: 45 parts; Dioctyl phthalate: 14 parts; Diisooctyl phthalate: 3.5 parts; Epoxidized soybean oil: 3.5 parts; Calcium-zinc composite stabilizing agent: 3.5 parts; Paraffin: 7 parts; Stearic acid: 4 parts; Porcelain earth: 10 parts; Antioxidant 1010: 0.5 part; Irgasfos 168: 0.5 part; Calcium carbonate: 4.5 parts; Aluminium hydroxide: 6 parts; Polypropylene: 6.5 parts.

Optical communication element described in first and second embodiment of the present invention, is characterized in that described flexible reinforcement is positioned at the outside of fibre ribbon, namely fibre ribbon above and below.

Namely above fibre ribbon optical communication element described in 3rd embodiment of the present invention, is characterized in that described flexible reinforcement is positioned at the outside of fibre ribbon, the surrounding namely outside fibre ribbon, and, below, there is flexible reinforcement on the left side, the right side.

Optical communication element described above, is characterized in that described light transmitting fiber is 2 or 4 or 6 or 8 or 10 or 12 or 18 or 24.

Optical communication element described above, is characterized in that described light transmitting fiber is single-mode fiber or multimode optical fiber.

Optical communication element described above, is characterized in that described tack coat is heat reactive resin or ultraviolet-curing resin.

Optical communication element described above, is characterized in that the material of described flexible reinforcement is aramid yarn or glass fiber yarn or polyamide staple fibre spun yarn or Polyester Yarns.

In 4th embodiment of the present invention, disclose and adopt the optical cable of the optical communication element described in above-mentioned arbitrary embodiment, it is characterized in that it by be positioned at central authorities unit sleeve pipe 50, around the stranded many power transmission lines of unit sleeve pipe, be coated on insulation course 53 outside power transmission line, be coated on the restrictive coating 55 that protective seam 54 outside insulation course 53 and extrusion molding be coated on outside protective seam and form; Described optical communication element is positioned within unit sleeve pipe; Described power transmission line is made up of the conductor 51 and the insulating outer layer 52 be coated on outside conductor 51 being positioned at internal layer.

Optical cable described above, is characterized in that the material of described insulation course is polyester belt or waterstop or nonwoven fabrics or mica tape.

Optical cable described above, is characterized in that the material of described unit sleeve pipe is Polyvinylchloride or low-smoke non-halogen flame-retardant tygon or medium density polyethylene or high density polyethylene.

Optical cable described above, is characterized in that the material of described restrictive coating is Polyvinylchloride or low-smoke non-halogen flame-retardant tygon or medium density polyethylene or high density polyethylene.

Optical cable described above, is characterized in that the sectional area of described conductor is 0.5 square millimeter to 20 square millimeters.

In optical communication element in the present invention; because the outside, the light transmitting fiber that flexible reinforcement are arranged in fibre ribbon are positioned at fibre ribbon; therefore; stronger for fibre-optic resistance to compression protective capability; unit sheath is under the pressure condition standing 4500N/100mm, and the changing value of fibre-optic transmission performance is not more than 0.03dB/km.

In the present invention, the special formulation of the material of unit sheath, make it have excellent fire resistance, oxygen index reaches more than 38, and density is only at 1.2-1.35g/cm ³between, lower than the density of conventional low smoke and zero halogen material, flame-proof PVC material, therefore, material consumption amount is less, and cost is lower; In the present invention, there is antioxidant 1010 and irgasfos 168 synergy, make this unit sheath have longer shelf-life and more excellent oxidation proof properties; Dioctyl phthalate in the present invention, diisooctyl phthalate, epoxidized soybean oil, stearic acid make that the processing characteristics of product is more excellent, melting index is higher; Calcium carbonate, polypropylene make the material of unit sheath be provided with suitable hardness.

In optical cable of the present invention, due to unit sleeve pipe is placed on central authorities, unit sleeve pipe has neither part nor lot in stranded, and therefore, when producing abnormal after stripping cable core, the optical communication element in unit sleeve pipe and unit sleeve pipe still can normally use, and has greatly saved cost; Only placed at least one optical communication element in unit sleeve pipe, is dry construction, therefore, and constructability, and be applicable to working at relatively high temperatures.

Therefore, optical communication element of the present invention has following main beneficial effect: anti-side pressure function admirable, and product flexibility is good; Optical cable of the present invention has following main beneficial effect: optical communication element can reuse, and is suitable for hot environment.

Accompanying drawing explanation

fig. 1for the spatial structure of the embodiment 1 of optical communication element of the present invention is illustrated figure.

fig. 2for fig. 1cross-sectional structure signal figure.

fig. 3for the spatial structure of the embodiment 2 of optical communication element of the present invention is illustrated figure.

fig. 4for fig. 3cross-sectional structure signal figure.

fig. 5for the spatial structure of the embodiment 3 of optical communication element of the present invention is illustrated figure.

fig. 6for fig. 5cross-sectional structure signal figure.

fig. 7the cross-sectional structure signal of a kind of embodiment of the optical cable formed for the optical communication element of this use embodiment 5 figure.

Embodiment

Embodiment 1 to embodiment 3 is the embodiment of optical communication element of the present invention, and embodiment 4 is the embodiment of optical cable of the present invention.

embodiment 1

Ask for an interview fig. 1extremely fig. 2; Optical communication element, is characterized in that it is made up of fibre ribbon 1, flexible reinforcement 2, unit sheath 3; Fibre ribbon, by 12 light transmitting fibers 11 of placing and envelope fibre-optic tack coat 12 and form of being parallel to each other, is non-touching between adjacent light transmitting fiber; Flexible reinforcement is positioned at the outside of fibre ribbon, namely fibre ribbon above and below; Fibre ribbon, flexible reinforcement envelope by unit sheath; The upper surface of unit sheath and lower surface are plane, and described unit sheath is made up of the material comprising following weight portion: Corvic: 40 parts; Dioctyl phthalate: 11 parts; Diisooctyl phthalate: 3 parts; Epoxidized soybean oil: 3 parts; Calcium-zinc composite stabilizing agent: 3 parts; Paraffin: 6 parts; Stearic acid: 2 parts; Porcelain earth: 8 parts; Antioxidant 1010: 0.2 part; Irgasfos 168: 0.2 part; Calcium carbonate: 3 parts; Aluminium hydroxide: 4 parts; Polypropylene: 6 parts.

embodiment 2

Ask for an interview fig. 3with fig. 4, and reference fig. 1with fig. 2, optical communication element, is characterized in that it is made up of fibre ribbon 1, flexible reinforcement 2, unit sheath 3; Fibre ribbon, by 12 light transmitting fibers 11 of placing and envelope fibre-optic tack coat 12 and form of being parallel to each other, is non-touching between adjacent light transmitting fiber; Flexible reinforcement is positioned at the outside of fibre ribbon, namely fibre ribbon above and below; Fibre ribbon, flexible reinforcement envelope by unit sheath; The upper surface of unit sheath and lower surface define the groove 4 of direction towards fibre ribbon; Described unit sheath is made up of the material comprising following weight portion: Corvic: 50 parts; Dioctyl phthalate: 16 parts; Diisooctyl phthalate: 4 parts; Epoxidized soybean oil: 4 parts; Calcium-zinc composite stabilizing agent: 4 parts; Paraffin: 8 parts; Stearic acid: 6 parts; Porcelain earth: 12 parts; Antioxidant 1010: 0.8 part; Irgasfos 168: 0.8 part; Calcium carbonate: 6 parts; Aluminium hydroxide: 8 parts; Polypropylene: 7 parts; Groove 4 can improve the anti-side pressure of unit sheath widely.

embodiment 3

Ask for an interview fig. 5with fig. 6, and reference fig. 3with fig. 4, optical communication element, namely above fibre ribbon substantially with embodiment 2, difference is that described flexible reinforcement is positioned at the outside of fibre ribbon, the surrounding namely outside fibre ribbon, and, below, there is flexible reinforcement on the left side, the right side; Flexible reinforcement is by the flexible reinforcement 2 be positioned at above fibre ribbon, below and be positioned at the left side of fibre ribbon, the flexible reinforcement 21 on the right side is formed; Described unit sheath is made up of the material comprising following weight portion: Corvic: 45 parts; Dioctyl phthalate: 14 parts; Diisooctyl phthalate: 3.5 parts; Epoxidized soybean oil: 3.5 parts; Calcium-zinc composite stabilizing agent: 3.5 parts; Paraffin: 7 parts; Stearic acid: 4 parts; Porcelain earth: 10 parts; Antioxidant 1010: 0.5 part; Irgasfos 168: 0.5 part; Calcium carbonate: 4.5 parts; Aluminium hydroxide: 6 parts; Polypropylene: 6.5 parts.

Certainly, the optical communication element described in above-mentioned arbitrary embodiment, is characterized in that described flexible reinforcement is positioned at the outside of fibre ribbon; But above being not limited to, below, the left side, the right side.

Certainly, the optical communication element described in above-mentioned arbitrary embodiment, is characterized in that described light transmitting fiber is 2 or 4 or 6 or 8 or 10 or 12 or 18 or 24.

Certainly, the optical communication element described in above-mentioned arbitrary embodiment, is characterized in that described light transmitting fiber is single-mode fiber or multimode optical fiber.

Certainly, the optical communication element described in above-mentioned arbitrary embodiment, is characterized in that described tack coat is heat reactive resin or ultraviolet-curing resin.

Certainly, the optical communication element described in above-mentioned arbitrary embodiment, is characterized in that the material of described flexible reinforcement is aramid yarn or glass fiber yarn or polyamide staple fibre spun yarn or Polyester Yarns.

Certainly, the optical communication element described in above-mentioned arbitrary embodiment, is characterized in that described unit sheath is made up of the material comprising following weight portion: Corvic: 40 ~ 50 parts; Dioctyl phthalate: 11 ~ 16 parts; Diisooctyl phthalate: 3 ~ 4 parts; Epoxidized soybean oil: 3 ~ 4 parts; Calcium-zinc composite stabilizing agent: 3 ~ 4 parts; Paraffin: 6 ~ 8 parts; Stearic acid: 2 ~ 6 parts; Porcelain earth: 8 ~ 12 parts; Antioxidant 1010: 0.2 ~ 0.8 part; Irgasfos 168: 0.2 ~ 0.8 part; Calcium carbonate: 3 ~ 6 parts; Aluminium hydroxide: 4 ~ 8 parts; Polypropylene: 6 ~ 7 parts.

In the present invention, there are 12 fibre-optic optical communication elements, adopt the structure of embodiment 1, width is 4.5mm, be highly 1.8mm, make optical communication element at Width, namely the above-below direction of optical communication element stands the pressure of 4500N/100mm, duration is 1 hour, and the change maximal value of fibre-optic transmission performance is 0.02dB/km.

In the present invention, there are 2-10 root and 18,24 fibre-optic optical communication elements, adopt the structure of embodiment 1, make optical communication element at Width, namely the above-below direction of optical communication element stands the pressure of 4500N/100mm, duration is 1 hour, and the change maximal value of fibre-optic transmission performance is not more than 0.03dB/km.

In the present invention, there is the fibre-optic optical communication element of 2-24 root, adopt the structure of embodiment 2, make optical communication element at Width, namely the above-below direction of optical communication element stands the pressure of 6000N/100mm, duration is 1 hour, and the change maximal value of fibre-optic transmission performance is not more than 0.02dB/km.

In the present invention, there is the fibre-optic optical communication element of 2-24 root, adopt the structure of embodiment 3, make optical communication element at Width, namely the above-below direction of optical communication element stands the pressure of 6000N/100mm, duration is 1 hour, and the change maximal value of fibre-optic transmission performance is not more than 0.015dB/km.

In the present invention, just because of the special formulation of unit sheath, product is made to be provided with more excellent lateral pressure resistant performance, adopt conventional Polyvinylchloride, low-smoke non-halogen flame-retardant tygon, height degree tygon, medium density polyethylene, although under the pressure of 4500N/100mm, also the change maximal value reaching fibre-optic transmission performance is no more than the target of 0.03dB/km, but just 1 minute its duration; In addition, the special formulation of unit sheath, makes unit sheath have more excellent elasticity, makes optical communication element be provided with more excellent fire-resistant, fire resistance.

In optical communication element in the present invention, owing to flexible reinforcement to be positioned at the outside of fibre ribbon; Light transmitting fiber is arranged in fibre ribbon, and therefore, stronger for fibre-optic resistance to compression protective capability, unit sheath is under the pressure condition standing 4500N/100mm, and the changing value of fibre-optic transmission performance is not more than 0.03dB/km; Optical communication element of the present invention has anti-side pressure function admirable, the product flexibility main beneficial effect such as well.

embodiment 4

Ask for an interview fig. 7a kind of optical cable, it is characterized in that it by be positioned at central authorities unit sleeve pipe 50, around the stranded many power transmission lines of unit sleeve pipe, be coated on insulation course 53 outside power transmission line, be coated on the restrictive coating 55 that protective seam 54 outside insulation course 53 and extrusion molding be coated on outside protective seam and form; There is within described unit sleeve pipe the optical communication element 3 described in above-mentioned arbitrary embodiment; Described power transmission line is made up of the conductor 51 and the insulating outer layer 52 be coated on outside conductor 51 being positioned at internal layer.

fig. 7in, power transmission line is 8, certainly, also can be other many, as 2, and 3,5,6, etc.; Certainly, in order to the complete of structure and/or rounding, some power transmission lines wherein also can replace by solid or hollow gasket for packing, certainly, the material of gasket for packing can be polypropylene or tygon or expanded material or other suitable material; Described optical communication element 3 can be one, two or other many, when optical communication element has many, is placed in unit sleeve pipe 50 in stacked mode; Because unit sleeve pipe 50 does not have other liquid filler except optical communication element, therefore, be very suitable for indoor use.The diameter of unit sleeve pipe and wall thickness change along with fibre-optic quantity in the quantity of optical communication element, optical communication element, and guarantee can not flatten unit sleeve pipe in the coiling process of unit sleeve pipe, in general, the wall thickness of unit sleeve pipe should not be less than 0.6mm.

Optical cable described above, is characterized in that the sectional area of described conductor is 0.5 square millimeter to 20 square millimeters; It is 1.5 square millimeters, 2 square millimeters, 2.5 square millimeters, 4 square millimeters, 6 square millimeters, 8 square millimeters, 10 square millimeters, 12 square millimeters than more preferably cross-sectional area of conductor amasss.

In optical cable of the present invention, due to unit sleeve pipe is placed on central authorities, unit sleeve pipe has neither part nor lot in stranded, and therefore, when producing abnormal after stripping cable core, the optical communication element in unit sleeve pipe and unit sleeve pipe still can normally use, and has greatly saved cost; Only placed at least one optical communication element in unit sleeve pipe, is dry construction, therefore, and constructability, and be applicable to working at relatively high temperatures; Optical cable of the present invention has following main beneficial effect: optical communication element can reuse, and is suitable for hot environment.

The present invention is not limited to above-mentioned preferred forms, and should be appreciated that design of the present invention can be implemented to use by other various forms, they drop in protection scope of the present invention equally.

Claims

1. optical communication element, is characterized in that it is made up of a fibre ribbon (1), flexible reinforcement, unit sheath (3); Fibre ribbon, by the many light transmitting fibers (11) placed and envelope fibre-optic tack coat (12) and form of being parallel to each other, is non-touching between adjacent light transmitting fiber; Flexible reinforcement is positioned at the outside of fibre ribbon; Fibre ribbon, flexible reinforcement envelope by unit sheath; The upper surface of unit sheath and lower surface define the groove of direction towards fibre ribbon; Described unit sheath is made up of the material comprising following weight portion: Corvic: 40 parts; Dioctyl phthalate: 11 parts; Diisooctyl phthalate: 3 parts; Epoxidized soybean oil: 3 parts; Calcium-zinc composite stabilizing agent: 3 parts; Paraffin: 6 parts; Stearic acid: 2 parts; Porcelain earth: 8 parts; Antioxidant 1010: 0.2 part; Irgasfos 168: 0.2 part; Calcium carbonate: 3 parts; Aluminium hydroxide: 4 parts; Polypropylene: 6 parts; Described flexible reinforcement be positioned at fibre ribbon above and below; Or described flexible reinforcement is positioned at above outside fibre ribbon, below, the left side, the right side; Described light transmitting fiber is 2 or 4 or 6 or 8 or 10 or 12 or 18 or 24; Described light transmitting fiber is single-mode fiber or multimode optical fiber; Described tack coat is heat reactive resin or ultraviolet-curing resin; The material of described flexible reinforcement is aramid yarn or glass fiber yarn or polyamide staple fibre spun yarn or Polyester Yarns.

2. optical communication element according to claim 1, it is characterized in that it has 12 light transmitting fibers, width is 4.5mm, be highly 1.8mm, optical communication element stands the pressure of 4500N/100mm at Width, duration is 1 hour, and the change maximal value of fibre-optic transmission performance is 0.02dB/km.

3. optical communication element according to claim 1, it is characterized in that it has 2-10 root and 18,24 light transmitting fibers, optical communication element, at Width, stands the pressure of 4500N/100mm, duration is 1 hour, and the change maximal value of fibre-optic transmission performance is not more than 0.03dB/km.

4. optical cable, it is characterized in that it by be positioned at central authorities unit sleeve pipe (50), around the stranded many power transmission lines of unit sleeve pipe, be coated on insulation course (53) outside power transmission line, be coated on the restrictive coating (55) that protective seam (54) outside insulation course (53) and extrusion molding be coated on outside protective seam and form; There is within described unit sleeve pipe claim 1 or claim 2 or optical communication element according to claim 3; Described power transmission line is made up of the conductor (51) and the insulating outer layer (52) be coated on outside conductor (51) being positioned at internal layer.

5. optical cable according to claim 4, is characterized in that the material of described insulation course is polyester belt or waterstop or nonwoven fabrics or mica tape; The material of described unit sleeve pipe is Polyvinylchloride or low-smoke non-halogen flame-retardant tygon or medium density polyethylene or high density polyethylene; The material of described restrictive coating is Polyvinylchloride or low-smoke non-halogen flame-retardant tygon or medium density polyethylene or high density polyethylene; The sectional area of described conductor is 0.5 square millimeter to 20 square millimeters.

6. optical cable according to claim 4, it is characterized in that described cross-sectional area of conductor amasss is 1.5 square millimeters or 2 square millimeters or 2.5 square millimeters or 4 square millimeters or 6 square millimeters or 8 square millimeters or 10 square millimeters or 12 square millimeters.