CN107340578A - A kind of aerial distribution introduces optical fibre band optical cable - Google Patents

Abstract

The invention provides a kind of aerial distribution to introduce optical fibre band optical cable, including the first load-bearing, the second load-bearing and optical fiber, some optical fiber are arranged between the first load-bearing and the second load-bearing, and the first isolation part is additionally provided between optical fiber and the first load-bearing, and the second isolation part is additionally provided between optical fiber and the second load-bearing；First isolation part and the second isolation part separate with optical fiber contact, the first isolation part with the first load-bearing, and the second isolation part separates with the second load-bearing；Main protective layer is coated with the first load-bearing, the second load-bearing, optical fiber, the first isolation part and the second isolation part, paired first group of stripping positioning port and second group of stripping positioning port are respectively equipped with corresponding first isolation part and the second isolation part outside main protective layer；The invention enables the tensile strength lifting 40% that optical cable is overall, bulit on stilts effect is effectively played to optical cable, reduces the breakage of optical cable while also reduces optical cable installation cost；Described isolation part design more easily carries out the stripping of protective layer to optical cable.

Description

A kind of aerial distribution introduces optical fibre band optical cable

Technical field

The invention belongs to optical cable field, and optical fibre band optical cable is introduced more particularly, to a kind of aerial distribution.

Background technology

Optical cable is that have multifiber and the external protection to fiber optic protection to combine, in terms of the signal transmission on there is peace The high superior function of Quan Xinggao, reliability, optical cable is being installed and accessed for the aerial paving mode progress of preceding generally use, existing The optical cable of laying is maked somebody a mere figurehead in technology when peeling off protective layer, because workmen exerts oneself of different sizes and stripper self performance Reliability differs, and often can not quickly peel off protective layer, or even the optical fiber destroyed sometimes at stripping；Existing optical cable uses frame During empty formula laying, because optical cable lacks main support structure in itself, rely primarily on optical fiber and the finer wire close to optical fiber provides branch Support force, such optical cable lack certain structural strength, easily cause the overall damage of optical cable.

The content of the invention

In view of this, the present invention is directed to propose a kind of aerial distribution introduces optical fibre band optical cable, to solve to deposit in the prior art Fiber optic protection layer of optical cable peel off inconvenience, avoid producing optical fiber when peeling off protective layer and damage, while also provide a kind of self-supporting Formula optical cable, reduce the erection cost of laying optical cable, improve bulk strength during optical cable installation.

To reach above-mentioned purpose, the technical proposal of the invention is realized in this way：

A kind of aerial distribution introduces optical fibre band optical cable, including the first load-bearing, the second load-bearing and optical fiber, some optical fiber are arranged on Between first load-bearing and the second load-bearing, the first isolation part is additionally provided between optical fiber and the first load-bearing, in optical fiber and the second load-bearing Between be additionally provided with the second isolation part；First isolation part and the second isolation part are and optical fiber contact, the first isolation part and the first load-bearing Separation, the second isolation part separates with the second load-bearing；In the first load-bearing, the second load-bearing, optical fiber, the first isolation part and the second isolation part Main protective layer is coated with, paired first group is respectively equipped with corresponding first isolation part and the second isolation part outside main protective layer Peel off positioning port and second group of stripping positioning port；

Preferably, the first isolation part is c-type cavity structure；Opening the first load-bearing of direction of c-type cavity；Second isolation part is C-type cavity structure；Opening the second load-bearing of direction of c-type cavity；

Preferably, first group of stripping positioning port and second group of stripping positioning port end face are triangular structure, two groups of stripping Positioning port is set along optical cable strip；

Preferably, the first isolation part and the second isolator structure are same or similar, can use c-type cavity structure；C-type Cavity can also fill waterproof material as isolation part, do not merge mutually between waterproof material and optical fiber and protective layer, separate each other； C-type cavity is included at the top of isolation part, in the middle part of isolation part and isolation part bottom, and two at the top of isolation part for c-type cavity freely push up End position, isolation part bottom are the lowest point position of c-type cavity, refer to the region between free top end and the lowest point position in the middle part of isolation part Part；Line between relative two positioning ports of first group of stripping positioning port is passed through in the middle part of isolation part；Second group of stripping Line between relative two positioning port of positioning port is passed through in the middle part of the isolation part of the first isolation part；The isolation of second isolation part At the top of portion and isolation part bottom is located at the both sides of line between first group of stripping positioning port, the isolation part top of the first isolation part respectively Portion and isolation part bottom are located at the both sides of line between second group of stripping positioning port respectively；It ensure that the stripping from positioning port incision Pin can be inserted in isolation part, be easy to peel off protective layer；

Preferably, the 3rd load-bearing is additionally provided with outside main protective layer, the 3rd load-bearing is coated by secondary protective layer, secondary protective layer with Main protective layer is connected by connecting portion；

Preferably, main protective layer and secondary protective layer are made up of PE or LSZH materials；Optical fiber uses rollable optical fiber, Ke Yixuan Select G657A optical fiber；

Preferably, the second load-bearing is FRP or wire material, using common vulcanization/zinc-coated wire；Second load-bearing is a diameter of 0.45-0.5mm；Wherein, a diameter of 1.0-1.2mm of the 3rd load-bearing strengthens steel wire, and the tensile strength for strengthening steel wire is 190- 195Mpa；

Preferably, the width of c-type cavity is 0.05-0.15mm；Preferable width is 0.1mm；The central angle of c-type cavity is 180-210°；Optimal central angle is 200 °；

Preferably, the thickness of connecting portion is 0.2-0.5mm；Thickness preferred 0.3mm or 0.4mm；The height of connecting portion is 0.05-0.1mm；

Preferably, the thickness of secondary protective layer is 0.3-0.4mm；The triangular tip of positioning port is peeled off between c-type cavity Distance be 0.35-0.4mm；Wherein, the depth for peeling off positioning port is 0.1-0.2mm；

Preferably, the first load-bearing outer surface to the distance of c-type cavity inner surface be 0.15-0.2mm；；Second load-bearing appearance Face to the distance of c-type inner cavity surface be 0.15-0.2mm；

Preferably, the bottom of main protective layer to the upper top spacing of secondary protective layer 30 is 7-10mm；Preferable size is 8mm； By pilot production, the optimal parameter of the above is the minimum parameter of financial cost, and process after optical cable integral surface quality most It is excellent.

Relative to prior art, optical fibre band optical cable of the present invention has the advantage that：

The present invention is widely used in information transmission line, and the tension for make it that optical cable is overall is set up in the 3rd described load-bearing Strength enhancing 40%, bulit on stilts effect is effectively played to optical cable, reduce the breakage of optical cable while also reduce optical cable frame It is set as this；Described isolation part design more easily carries out the stripping of protective layer to optical cable, while it also avoid stripper pair The breakoff phenomenon of light band occurs；Optical cable charge stripping efficiency is improved, and accelerates optical cable integral erection, the process of installation.

Brief description of the drawings

The accompanying drawing for forming the part of the present invention is used for providing a further understanding of the present invention, schematic reality of the invention Apply example and its illustrate to be used to explain the present invention, do not form inappropriate limitation of the present invention.In the accompanying drawings：

Fig. 1 is the optical cable front view described in the embodiment of the present invention；

Fig. 2 is the optical cable front view of the second isolation part subdivision described in the embodiment of the present invention；

Fig. 3 is that the optical cable stripping needle described in the embodiment of the present invention inserts schematic diagram；

Fig. 4 is that the optical cable stripping needle described in the embodiment of the present invention leaves schematic diagram；

Fig. 5 is that the optical cable described in the embodiment of the present invention peels off after-explosion figure.

Description of reference numerals：

01- optical fiber；02- stripping needles；The load-bearing of 1- first；The load-bearing of 2- second；The load-bearing of 3- the 3rd；4- main protective layers；Left point of 5- From portion；The right separation units of 6-；The upper separation units of 7-；Separation unit under 8-；The isolation parts of 10- first；The isolation parts of 20- second；201- isolation parts Top；In the middle part of 202- isolation parts；203- isolation parts bottom；30- pair protective layers；First group of stripping positioning port of 41-；Second group of 42- Peel off positioning port；43- connecting portions；410- peels off otch.

Embodiment

It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the present invention can phase Mutually combination.

In the description of the invention, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " on ", " under ", The orientation or position relationship of the instruction such as "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer " are Based on orientation shown in the drawings or position relationship, it is for only for ease of the description present invention and simplifies description, rather than instruction or dark Show that the device of meaning or element there must be specific orientation, with specific azimuth configuration and operation, thus it is it is not intended that right The limitation of the present invention.In addition, term " first ", " second " etc. are only used for describing purpose, and it is not intended that instruction or hint phase To importance or the implicit quantity for indicating indicated technical characteristic.Thus, the feature for defining " first ", " second " etc. can To express or implicitly include one or more this feature.In the description of the invention, unless otherwise indicated, " multiple " It is meant that two or more.

In the description of the invention, it is necessary to illustrate, unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or be integrally connected；Can To be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected by intermediary, Ke Yishi The connection of two element internals.For the ordinary skill in the art, above-mentioned term can be understood by concrete condition Concrete meaning in the present invention.

Describe the present invention in detail below with reference to the accompanying drawings and in conjunction with the embodiments.

With reference to shown in Fig. 1, a kind of aerial distribution introduces optical fibre band optical cable, including the first load-bearing 1, the second load-bearing 2 and optical fiber 01, some optical fiber 01 are arranged between the first load-bearing 1 and the second load-bearing 2, and first is additionally provided between the load-bearing 1 of optical fiber 01 and first Isolation part 10, the second isolation part 20 is additionally provided between the load-bearing 2 of optical fiber 01 and second；First isolation part 10 and the second isolation part 20 Contacted with optical fiber 01, the first isolation part 10 separates with the first load-bearing 1, and the second isolation part 20 separates with the second load-bearing 2；First Load-bearing 1, the second load-bearing 2, optical fiber 01, the first isolation part 10 and the second isolation part 20 are coated with main protective layer 4, in main protective layer Outside 4 first group of paired stripping positioning port 41 and second group of stripping are respectively equipped with corresponding first isolation part 10 and the second isolation part 20 From positioning port 42；Wherein, the first isolation part 10 is c-type cavity structure；Opening the first load-bearing 1 of direction of c-type；Second isolation part 20 For c-type cavity structure；Opening the second load-bearing 2 of direction of c-type；

With reference to shown in Fig. 2, wherein, the first isolation part 10 and the structure of the second isolation part 20 are same or similar, can use C Type cavity structure；C-type cavity includes 201, isolation part middle part 202 and isolation part bottom 203 at the top of isolation part, with reference to shown in Fig. 2, Isolation part top 201 is two free top end positions of c-type cavity, and isolation part bottom 203 is the lowest point position of c-type cavity, every Refer to the region part between free top end and the lowest point position from the middle part of portion 202；Relative the two of first group of stripping positioning port 41 Line between individual positioning port is passed through 202 in the middle part of isolation part；Between relative two positioning port of second group of stripping positioning port 42 Line through the first isolation part 10 isolation part in the middle part of, ensure that from positioning port incision stripping needle can be inserted in isolation part It is interior, it is easy to peel off protective layer；

Wherein, first group of stripping positioning port 41 and second group of end face of stripping positioning port 42 are triangular structure, two groups of stripping Set from positioning port along optical cable strip；Wherein, the 3rd load-bearing 3 is additionally provided with outside main protective layer 4, the 3rd load-bearing 3 is protected by pair Sheath 30 is coated, and secondary protective layer 30 is connected with main protective layer 4 by connecting portion 43；

Wherein, the 3rd load-bearing 3 is that 1.0-1.2mm strengthens steel wire, and the tensile strength of steel wire is 190-195Mpa；Wherein, it is main Protective layer 4 and secondary protective layer 30 are made up of PE or LSZH materials；Optical fiber 01 uses rollable optical fiber；Wherein, the second load-bearing 2 is FRP or wire material, using common vulcanization/zinc-coated wire；The a diameter of 0.45-0.5mm of second load-bearing；Wherein, c-type cavity Width is 0.05-0.15mm；Preferable width is 0.1mm；The central angle of c-type cavity is 180-210 °；Optimal central angle is 200°；Wherein, the depth for peeling off positioning port is 0.1-0.2mm；Wherein, the thickness of connecting portion 43 is 0.2-0.5mm；Thickness is preferred 0.3mm or 0.4mm；The height of connecting portion 43 is 0.05-0.1mm；Wherein, the thickness of secondary protective layer 30 is 0.3-0.4mm；Peel off The triangular tip of positioning port to the distance between c-type cavity is 0.35-0.4mm；Wherein, the outer surface of the first load-bearing 1 is empty to c-type The distance of inner cavity surface is 0.15-0.2mm；；The outer surface of second load-bearing 2 to the distance of c-type inner cavity surface be 0.15-0.2mm；Its In, bottom to the upper top spacing of secondary protective layer 30 of main protective layer 4 is 7-10mm；Preferable size is 8mm；

With reference to shown in Fig. 3-4, stripping means of the invention：The clamping of stripping needle 02 of stripper is inserted in stripping positioning port It is interior, firmly stripping needle 02 is inserted and so that stripping needle 02 is penetrated into isolation part, stripping needle 02 forms after inserting and peels off otch 410, as shown in Figures 4 and 5, after stripping needle 02 penetrates into separation unit, optical cable can integrally be split five parts, be left separation unit respectively 5th, five parts such as right separation unit 6, upper separation unit 7, lower separation unit 8 and optical fiber 01, it is specific as shown in Figure 5；The present invention is particularly convenient Stripping to fiber optic protection layer of optical cable, it is avoided that the breakoff phenomenon of optical fiber occurs stripping needle；

The tensile strength lifting 40% for causing optical cable overall is set up in 3rd load-bearing of the present invention, effectively to optical cable Bulit on stilts effect is played, reduces the breakage of optical cable while also reduces optical cable installation cost；Described isolation part design is more Add the stripping that protective layer is easily carried out to optical cable, while it also avoid stripper and the breakoff phenomenon of light band is occurred；Improve Optical cable charge stripping efficiency, and accelerate optical cable integral erection, the process of installation.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention God any modification, equivalent substitution and improvements made etc., should be included in the scope of the protection with principle.

Claims (10)

1. a kind of aerial distribution introduces optical fibre band optical cable, it is characterised in that including the first load-bearing (1), the second load-bearing (2) and optical fiber (01), some optical fiber (01) are arranged between the first load-bearing (1) and the second load-bearing (2), optical fiber (01) and the first load-bearing (1) it Between be additionally provided with the first isolation part (10), the second isolation part (20) is additionally provided between optical fiber (01) and the second load-bearing (2)；First every Being contacted from portion (10) and the second isolation part (20) with optical fiber (01), the first isolation part (10) separate with the first load-bearing (1), and second Isolation part (20) separates with the second load-bearing (2)；In the first load-bearing (1), the second load-bearing (2), optical fiber (01), the first isolation part (10) Be coated with main protective layer (4) with the second isolation part (20), main protective layer (4) outside correspond to the first isolation part (10) and second every Paired first group of stripping positioning port (41) and second group of stripping positioning port (42) are respectively equipped with from portion (20) place.

2. aerial distribution according to claim 1 introduces optical fibre band optical cable, it is characterised in that the first isolation part (10) are C Type cavity structure；Opening the first load-bearing of direction (1) of c-type cavity；Second isolation part (20) is c-type cavity structure；C-type cavity Opening the second load-bearing of direction (2).

3. aerial distribution according to claim 2 introduces optical fibre band optical cable, it is characterised in that c-type cavity structure include every From (201), isolation part middle part (202) and isolation part bottom (203) at the top of portion；First group of stripping positioning port (41) it is relative Line between two positioning ports is passed through in the middle part of isolation part (202), (201) and isolation at the top of the isolation part of the second isolation part (20) Portion bottom (203) is located at the both sides of line between first group of stripping positioning port (41) respectively；Second group of stripping positioning port (42) Line between two relative positioning ports is passed through in the middle part of the isolation part of the first isolation part (10), the isolation of the first isolation part (10) At the top of portion and isolation part bottom is located at the both sides of line between second group of stripping positioning port (42) respectively.

4. aerial distribution according to claim 2 introduces optical fibre band optical cable, it is characterised in that first group of stripping positioning port (41) and second group of stripping positioning port (42) end face is triangular structure, and two groups of stripping positioning port is set along optical cable strip, Two depth for peeling off positioning port are 0.1-0.2mm；Triangular tip to the distance between the c-type cavity for peeling off positioning port is 0.35-0.4mm。

5. aerial distribution according to claim 4 introduces optical fibre band optical cable, it is characterised in that outside in main protective layer (4) The 3rd load-bearing (3) is additionally provided with, the 3rd load-bearing (3) is coated by secondary protective layer (30), and secondary protective layer (30) passes through with main protective layer (4) Connecting portion (43) connects.

6. aerial distribution according to claim 5 introduces optical fibre band optical cable, it is characterised in that main protective layer (4) and secondary guarantor Sheath (30) is made up of PE or LSZH materials；Optical fiber (01) uses rollable optical fiber；The thickness of secondary protective layer (30) is 0.3- 0.4mm。

7. aerial distribution according to claim 5 introduces optical fibre band optical cable, it is characterised in that the second load-bearing (2) be FRP or Wire material；Second load-bearing (2) a diameter of 0.45-0.5mm；Wherein, a diameter of 1.0-1.2mm of the 3rd load-bearing (3) strengthens steel wire, The tensile strength for strengthening steel wire is 190-195Mpa.

8. aerial distribution according to claim 2 introduces optical fibre band optical cable, it is characterised in that the width of c-type cavity is 0.05-0.15mm；The central angle of c-type cavity is 180-210 °.

9. aerial distribution according to claim 5 introduces optical fibre band optical cable, it is characterised in that the thickness of connecting portion (43) is 0.2-0.5mm；The height of connecting portion (43) is 0.05-0.1mm, bottom to the upper top of secondary protective layer (30) of main protective layer (4) Spacing is 7-10mm.

10. aerial distribution according to claim 2 introduces optical fibre band optical cable, it is characterised in that the first load-bearing (1) outer surface Distance to c-type cavity inner surface is 0.15-0.2mm；Second load-bearing (2) outer surface to the distance of c-type inner cavity surface be 0.15- 0.2mm。