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Drawing method of layer-stranded optical cable core structure diagram based on codes

A schematic diagram and layer-twisted technology, applied in the direction of fiber mechanical structure, electrical digital data processing, special data processing applications, etc., can solve the problems of complex distribution of optical fibers and casings, difficult unification of pictures, and a lot of time spent, to achieve Drawing time saving, map specification consistency, and cost saving effects

Inactive Publication Date: 2012-08-08
NANTONG BEICHENG SCI & TECH ENTREPRENEURIAL MANAGEMENT
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

As a product, an optical cable needs to be provided with an instruction manual when it leaves the factory. However, because customers have different requirements for the model and specification of the optical cable, even the same customer usually requires a variety of types of optical cables. For stranded optical cables, because the distribution of optical fibers and sleeves in optical cables is relatively complicated, it requires very professional knowledge and a lot of time for personnel in production, inspection, production of factory reports or manuals, etc. Carry out relevant knowledge training; in addition, since the distribution map of the optical fiber and loose tube in the optical cable needs to be provided in the instruction manual, drawing such pictures is quite time-consuming, and it is difficult to unify the benchmarks of the drawn pictures; and a solid foundation of drawing personnel is required
[0003] On the other hand, in various companies in modern society, the flow of personnel is quite frequent. Therefore, employees who do not have solid knowledge often cause a large number of defective products in the production process.

Method used

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  • Drawing method of layer-stranded optical cable core structure diagram based on codes
  • Drawing method of layer-stranded optical cable core structure diagram based on codes
  • Drawing method of layer-stranded optical cable core structure diagram based on codes

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] see figure 1 , figure 2 and image 3 , according to the drawing method of the schematic diagram of the layer-twisted optical cable core structure of the code, it is characterized in that it includes the following steps:

[0027] 10. Define the code of the optical cable: pre-code the definition of the optical cable, so that each type of optical cable has a unique code;

[0028] 20. Enter the cable code;

[0029] 30. Code analysis: for the optical cable code input in step 20, the code is analyzed into a computer-recognizable language by the analysis unit;

[0030] 40. Call the drawing module;

[0031] 50. Output the required structure diagram.

[0032] The code described in step 10 above is a serial code combining numbers and letters, please refer to figure 2 , the code consists of 12 digits, which are specified as follows:

[0033] A: The first digit indicates the type of optical cable, S indicates the GYTA type twisted optical cable, W indicates the GYTA53 type...

Embodiment 2

[0042] see figure 1 , figure 2 and Figure 4 , according to the drawing method of the schematic diagram of the layer-twisted optical cable core structure of the code, it is basically the same as the implementation example 1, the difference is that the code input in step 20 is S02410020060, and the code is parsed into: GYTA-type layer-twisted by the analysis unit computer Type 24-core optical cable, loose tube diameter is 2.00mm, 6-unit structure, national standard full spectrum of optical fiber, national standard full spectrum of loose tube, single-mode optical fiber, four 6-core loose tubes, blue tube, orange tube, Green and brown tubes, 2 filling ropes. Then the computer draws in EXCEL according to the drawing module originally written by VB. Figure 4 The schematic diagram of the cable core structure is shown. Implementation example 3

Embodiment 3

[0043] see figure 1 , figure 2 and Figure 5 , according to the drawing method of the schematic diagram of the layer-twisted optical cable core structure of the code, it is basically the same as the implementation example 1, the difference is that the code input in step 20 is S03210020060, and the code is parsed by the analysis unit computer into: GYTA-type layer-twisted Type 32-core optical cable, loose tube diameter is 2.00mm, 6-unit structure, national standard full color spectrum of optical fiber, national standard full color spectrum of loose tube, single-mode optical fiber, five 6-core loose tubes, blue tube, orange tube, Green tube, brown tube and gray tube, there is a 2-core white loose tube. Then the computer draws in EXCEL according to the drawing module originally written by VB. Figure 5 The schematic diagram of the cable core structure is shown. Implementation example 4

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Abstract

The invention relates to the crossing technical field of optical cables and computer aided design, in particular to a drawing method of layer-stranded optical cable core structure diagrams based on codes, which is characterized by comprising the following steps: (10) defining an optical cable code; (20) inputting the optical cable code; (30) analyzing the code; (40) calling a drawing module; and (50) outputting a needed structural diagram. The invention solves the problems that the training cost is high, personnel with steady skills are needed in drawing, and drawn map specifications are consistent at the condition of frequent turnover. The invention has the following beneficial effects that drawing is simpler, more drawing time is saved, drawn map is more standard and consistent, and professional foundation for the drawing personnel is not needed.

Description

technical field [0001] The invention relates to the intersecting technical field of optical cable and computer-aided design, in particular to a method for drawing the structural schematic diagram of layer-stranded optical cable core based on codes. Background technique [0002] With the rapid development of the communication industry, the use of optical cables is increasing day by day. Therefore, optical cables are widely used in all walks of life. As a product, an optical cable needs to be provided with an instruction manual when it leaves the factory. However, because customers have different requirements for the model and specification of the optical cable, even the same customer usually requires a variety of types of optical cables. For stranded optical cables, because the distribution of optical fibers and sleeves in optical cables is relatively complicated, it requires very professional knowledge and a lot of time for personnel in production, inspection, production of ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F17/50G02B6/44
Inventor 蒋菊生魏梦姣李晓举
Owner NANTONG BEICHENG SCI & TECH ENTREPRENEURIAL MANAGEMENT