CN208999629U - Multi-line is same to route laying structure - Google Patents

Abstract

The utility model provides multi-line with routing laying structure, comprising: A route, B route, C route, D route, E route and ring network cabinet have 24 core fibres in above-mentioned five routes respectively；Setting at least two molten fine point, 1 jumping fiber points, five line outputs access ring network cabinet in ring network cabinet, and the optical fiber of five routes melts fine, jumping fiber in the ring network cabinet, needs pipeline pore few, greatly increases optical cable utilization rate, reduce optical cable quantity.

Description

Multi-line is same to route laying structure

Technical field

The utility model relates generally to line arrangement field more particularly to multi-line with laying structure is routed, and greatly increases Optical cable utilization rate reduces optical cable quantity.

Background technique

A plurality of route is routed by same, and every route respectively lays an optical cable, non-interference each other, but because More for number of, lines, more demanding for existing pipeline provided pipe hole number, optical cable utilization rate is low, and needs optical cable more.

A kind of existing communication line laying tool of CN201310186104.1, the communication line access group including the tool Part and the communication line cut-in method that component is accessed using the communication line.The tool is suitable for laying conduit and is wrapped in volume Communication line on disk, the conduit have openable seam portion along the longitudinal direction, and the tool includes: braced frame； Reel installation section is arranged in the braced frame, and the reel installation section is suitable for being rotatably mounted for winding logical Believe the reel of route；Packed part is arranged in the braced frame, and the packed part is suitable for for communication line being encapsulated into leading Guan Zhong；And catheter laying part, it is arranged in the braced frame, the catheter laying part is suitable for guidance and is packaged with communication The conduit of route will be simultaneously packaged on the catheter laying to mounting surface of communication line.In accordance with the invention it is possible in encapsulation conduit The laying of conduit is carried out simultaneously with communication line, therefore can quickly be laid.

Utility model content

The utility model provides multi-line with laying structure is routed, and greatly increases optical cable utilization rate, reduces optical cable quantity, is Realization above-mentioned purpose, using following technical scheme, present patent application includes: A route, B route, C route, D route, E route And ring network cabinet, there are 24 core fibres respectively in above-mentioned five routes；The molten fine point of setting at least two, at least two jump in ring network cabinet Fine, five line outputs access ring network cabinet, and the optical fiber of five routes melts fine, jumping fiber in the ring network cabinet.

Preferably, 24 core fibres in A route are same route segment, and 24 core fibres are equally divided into four tunnels, respectively 1-6 core, 7-12 core, 13-18 core, 19-24 core.

Preferably, B route, C route, D route, 24 core fibres in E route are divided into 1-6 core, 7-24 core.

Preferably, setting three molten fine points, two jumping fiber points in ring network cabinet.

Preferably, the molten fibre of the 1-6 core fibre in the 1-6 core fibre and E route of A route；The 7-12 core fibre and D of A route The molten fibre of the 1-6 core fibre of route；The 19-24 core fibre of A route and the molten fibre of the 1-6 core fibre of B route.

Preferably, the 1-4 core fibre jumping fiber in the 13-16 core fibre and C route of A route.

Preferably, 3,4 core fibre jumping fibers in 13,14 core fibres and C route of A route；15,16 core fibres of A route With 1,2 core fibre jumping fibers in C route.

The utility model has the beneficial effects that carrying out jumping fiber in ring network cabinet in present patent application to the optical fiber in same section, melting Fibre is then assigned to other routes, needs pipeline pore few, greatly increases optical cable utilization rate, reduces optical cable quantity.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of present patent application；

In figure, A, A route；B, B route；C, C route；D, D route；E, E route.

Specific embodiment

As shown in Figure 1 it is found that the utility model includes: A route, B route, C route, D route, E route and ring network cabinet, There are 24 core fibres respectively in above-mentioned five routes；Setting at least two molten fine point, 1 jumping fiber points, five lines in ring network cabinet Road output end accesses ring network cabinet, and the optical fiber of five routes melts fine, jumping fiber in the ring network cabinet.

Preferably, 24 core fibres in A route are same route segment, and 24 core fibres are equally divided into four tunnels, respectively 1-6 core, 7-12 core, 13-18 core, 19-24 core.

Preferably, B route, C route, D route, 24 core fibres in E route are divided into 1-6 core, 7-24 core.

Preferably, setting three molten fine points, two jumping fiber points in ring network cabinet.

Preferably, the molten fibre of the 1-6 core fibre in the 1-6 core fibre and E route of A route；The 7-12 core fibre and D of A route The molten fibre of the 1-6 core fibre of route；The 19-24 core fibre of A route and the molten fibre of the 1-6 core fibre of B route.

Preferably, the 1-4 core fibre jumping fiber in the 13-16 core fibre and C route of A route.

Preferably, 3,4 core fibre jumping fibers in 13,14 core fibres and C route of A route；15,16 core fibres of A route With 1,2 core fibre jumping fibers in C route.

Jumping fiber, molten fibre are carried out in ring network cabinet to the optical fiber (optical fiber of A route) in same section, are then assigned to B route, C Route, D route, E route, need pipeline pore few, greatly increase optical cable utilization rate, reduce optical cable quantity.

The principles and effects of present patent application are only illustrated in above-described embodiment, not for limitation this patent Shen Please.Any person skilled in the art can all carry out above-described embodiment under the spirit and scope without prejudice to present patent application Modifications and changes.Therefore, such as those of ordinary skill in the art without departing from the revealed essence of present patent application All equivalent modifications or change completed under mind and technical idea, the claim that should be asked by this patent are covered.

Claims (7)

1. multi-line is the same as routing laying structure, it is characterised in that: include: A route, B route, C route, D route, E route and Ring network cabinet has 24 core fibres in above-mentioned five routes respectively；Setting at least two molten fine point, at least two jumping fibers in ring network cabinet Point, five line outputs access ring network cabinet, and the optical fiber of five routes melts fine, jumping fiber in the ring network cabinet.

2. multi-line according to claim 1 is the same as routing laying structure, it is characterised in that: 24 core fibres in A route are Same route segment, 24 core fibres in A route are equally divided into four tunnels, respectively 1-6 core, 7-12 core, 13-18 core, 19-24 core.

3. multi-line according to claim 2 is same to route laying structure, it is characterised in that: B route, C route, D route, E 24 core fibres in route are divided into 1-6 core, 7-24 core.

4. multi-line according to claim 1 is same to route laying structure, it is characterised in that: setting three molten fibres in ring network cabinet Point, two jumping fiber points.

5. multi-line according to claim 3 is same to route laying structure, it is characterised in that: the 1-6 core fibre and E of A route The molten fibre of 1-6 core fibre in route；The 7-12 core fibre of A route and the molten fibre of the 1-6 core fibre of D route；The 19-24 core of A route The molten fibre of the 1-6 core fibre of optical fiber and B route.

6. multi-line according to claim 3 is the same as routing laying structure, it is characterised in that: the 13-16 core fibre of A route and 1-4 core fibre jumping fiber in C route.

7. multi-line according to claim 6 is the same as routing laying structure, it is characterised in that: 13,14 core fibres of A route and 3,4 core fibre jumping fibers in C route；1,2 core fibre jumping fibers in 15,16 core fibres and C route of A route.