CN101644803A - Distribution method of optical cable chromatography - Google Patents

Abstract

The invention relates to the technical field of cables, in particular to a distribution method of optical cable chromatography, comprising the following steps: A. inputting information which comprisesan optical cable structure, a chromatography distribution method, and the like; B. coding the information; C. calling an identification module; D. calling an intelligent distribution module to execute the following steps according to identified information: automatically calling a working procedure document, drawing a chromatography distribution table, a section sketch map, a detection report table, and the like, and distributing to the each working procedure machine; and E. outputting a result. The method has the following advantages of: (1) reducing the master degree requirement for information recorders on optical cable professional knowledge, and saving training time; (2) simplifying the training of the structure knowledge to staffs and reducing error rate; (3) saving paper cost, printing cost and labor cost; (4) accelerating the complete time of a detection report and alleviating the workload of detecting staffs, so that the detecting staffs have more time to detect products.

Description

Distribution method of optical cable chromatography

Technical field

The present invention relates to technical field of cables, especially distribution method of optical cable chromatography.

Background technology

In the prior art, optical cable is divided into layer-twisted type, central beam tube type and skeleton.

The cable core of layer-stranding cable is formed around central reinforce member is stranded by sleeve pipe and presumable gasket for packing, in the common layer-stranding cable, generally comprises no more than 12 light transmitting fiber in the every sleeve pipe again; And in the layer-twisted type optical fibre band optical cable, comprising some mutual differentiable optical fiber ribbons in the every sleeve pipe, every optical fiber ribbon is made up of some light transmitting fibers again.In order to reach the mutual differentiation between the every light transmitting fiber, usually the mode that adopts the chromatogram layout to distribute for sleeve pipe, optical fiber ribbon, light transmitting fiber is carried out, but because restriction of the simplification of production equipment and memory for convenience, in the industry for fibre-optic color assignment 13 kinds, they are respectively: blue, orange, green, brown, grey, white, red, black, yellow, purple, pink, dark green, true qualities; Color for sleeve pipe is divided into 12 kinds: blue, orange, green, brown, grey, white, red, black, yellow, purple, pink, dark green; Adopt the method for surface seal identifier word to carry out for optical fiber ribbon in the industry, the light transmitting fiber in the optical fiber ribbon is arranged in order by the order of the preceding 12 kinds of colors of above-mentioned light transmitting fiber, and during more than 12, repetitive sequence is chosen.Therefore, as the common layer strand optical cable of 144 cores, wanting 12 sleeve pipes usually, is 12 light transmitting fibers in the every sleeve pipe; For another example: the common layer strand optical cable of 42 cores, want 4 sleeve pipes usually, be 12 light transmitting fibers in the 1st blue sleeve pipe, all be 10 light transmitting fibers in other orange, green, the brown pipe; And for example: the layer-twisted optical fiber ribbon cable of 240 cores, if adopt 12 fine banding patterns, want 4 sleeve pipes usually, all be 6 optical fiber ribbons in the 1st blueness and the 2nd orange sleeve pipe, all be 4 optical fiber ribbons in the 3rd green, the 4th brown sleeve pipe.Yet, in order to save the convenience of cost and processing, the identification chromatogram of having stipulated sleeve pipe in the fiber optic cable communications industry standard again can adopt the chromatogram of piloting, usually adopt red, the green chromatogram of piloting, it can be divided into cable core chromatogram and the sleeve pipe chromatogram of piloting of piloting again, the cable core chromatogram of piloting is meant that gasket for packing preferentially adopts true qualities, the cable core chromatogram of piloting is meant that sleeve pipe preferentially adopts true qualities, because cable core is formed around central reinforce member is stranded by sleeve pipe and presumable gasket for packing, present approximate circle-shaped distribution, therefore by pilot chromatogram with and put in order, be enough to distinguish every light transmitting fiber in the optical cable.In fact, stipulated also in the fiber optic cable communications industry standard that optical fiber ribbon can adopt the method for the chromatogram of piloting, or the like, various situations are numerous.And for the central beam tube type optical cable, it has used a sleeve pipe of layer-stranding cable; For slotted core cable, it is actually and has adopted skeleton grooves to replace sleeve pipe.Therefore, for each root optical cable, the chromatogram that will know wherein sleeve pipe, light transmitting fiber, optical fiber ribbon is exactly distributed and is suitable difficulty, need special long-time training, need good memory, usually can cause the mistake of production, company is caused unnecessary loss owing to memory makes mistakes; In addition, because the factory and enterprise flow of personnel is more frequent, therefore, divide polarity to be not easy to grasp for chromatogram; Have again,, work out survey report in view of the above and also will spend a large amount of time and energy, usually can therefore postpone delivery for the reviewer.

Summary of the invention

In order to address the above problem, the invention provides a kind of distribution method of optical cable chromatography, it is characterized in that: it comprises following steps:

A, input information, contents such as the structure that the input optical cable is relevant, chromatogram allocative decision, length, customer information, the input of information is to import one by one according to the needs of order/contract by the related personnel, and certainly all or part of options in conjunction with program is chosen, to accelerate input speed;

B, with message codeization; The information of above-mentioned input is translated into code, computing machine can be discerned;

C, call identification module; After the encode of the input of finishing above-mentioned information and information, call identification module, optical cable information is changed into machine recognizable optical cable describe in detail;

D, call the smart allocation module; Call the smart allocation module according to the information that above-mentioned identification module identifies, at length isolate all information in the optical cable, thereby: 1. call automatically and produce the required a whole set of operation file of this optical cable, and by net distribution to each production process board; 2. draw out the allocation table that comprises fibre ribbon, optical fiber in all sleeve pipes in the optical cable, the every sleeve pipe automatically; And the cross-sectional structure synoptic diagram of optical cable; And the various semi-manufacture, the product inspection report form that do not contain check data; And by net distribution to each production or inspection process board;

E, output result; The above-mentioned result who produces after the smart allocation module that calls is shown on each correlation computer screen, also can pass through printer or other plotting equipment, required form and report output.

Beneficial effect of the present invention: 1. reduced grasp degree, do not needed the training of specialty, even under the frequent situation of flow of personnel, newly advance personnel and also can cross the threshold quickly and easily for optical cable professional knowledge for information typing personnel; Greatly reduce the time of staff training; 2. simplified the method for employee greatly, made its study at any time at work, reduced the employee effectively and do not caused the generation of producing wrong situation because of remembering structure for the cable configuration knowledge training; 3. save the cost of paper, do not needed to open production instruction order and printing/hand picking procedure technology card, do not needed to print the form that in the past needed hand-kept in production, the checkout procedure; 4. quickened the time that survey report is finished, do not needed artificial design table (schedule), the reviewer only needs to get final product with the field of test data typing form or by the automatic typing form of the data of taking on the capture card; Therefore, not only reduced the time that the reviewer imports data, printed report, and, make the reviewer can extract more time product is tested.

Description of drawings

Fig. 1 is a schematic flow sheet of the present invention.

Embodiment

Below in conjunction with accompanying drawing, describe the embodiment of this invention in detail.

Embodiment one:

See also Fig. 1, be distribution method of optical cable chromatography of the present invention, it is characterized in that: it comprises following steps:

100, input information;

200, with message codeization;

300, call identification module;

400, call the smart allocation module;

500, output result.

In 100 steps, mainly import following information:

Cable configuration: as Unit 4, Unit 5, Unit 6 etc.;

Optical fiber total quantity in the optical cable: 12 cores, 24 cores, 36 cores, 48 cores etc.;

Maximum fiber quantity in every pipe: 4,6,8,10,12 etc.;

Every Guan Zhongci maximum fiber quantity: 2,4,6,8,10 etc.;

Optical cable model: GYTA, GYTS, GYTA53, GYTY53, GYFTY, GYDTA, GYDTS, GYDTY53, GYDTA53, GYXTS, GYXTA, GYXTY, GYTZA, GYFTA, GYFTS, GYXTW, GYDXTW, GYDXTZW, GYTZS, GYFTZA, GYFTZY, GYTZS, GYTZA53, GYTZY53, GYDTZA, GYFDTY, GYXTZA, GYXTZS, GYXTZY, GYTY, GYTZY, GYTA33, GYTA333, GYTY53+33, GYTY53+333, GYTA53+33, GYTA53+333, GJEJV, GJFJVV, GJPFJZY, GJPFJV etc.;

Fibre ribbon type: 0 fine band, 2 fine bands, 4 fine bands, 6 fine bands, 8 fine bands, 10 fine bands, 12 fine bands, 18 fine bands, 24 fine bands etc.;

Optical fiber chromatogram information: GB whole chromatogram, whole chromatogram 1, whole chromatogram 2, whole chromatogram 3 etc.;

Pine sleeve pipe chromatogram information: GB whole chromatogram, the chromatogram etc. of piloting;

Fiber type: B1, B1.3, B2, A1a, A1b etc.;

Fibre ribbon chromatogram information: GB whole chromatogram, FT pilot chromatogram, T chromatogram etc.;

Jacket thickness information: GB nominal, enterprise's nominal, customer requirement etc.;

Order/contract information: as A20081203001, B20081205123 etc.;

Customer information: as A city B company, C city D company etc.;

Quantity on order: as 2.1 kilometers, 120 kilometers;

Divide dish quantity: as 1 dish, 30 dishes etc.;

Single-deck length: as 2 kilometers/dish, 3 kilometers/dish etc.;

The input of above-mentioned information is to import one by one according to the needs of order/contract by the related personnel, and certainly all or part of options in conjunction with program is chosen, and can also sell on the website by client's input, to accelerate input speed.

200 steps with message codeization in, be achieved in that

The partial information encode of importing in above-mentioned 100 steps is handled, such as: the GYTA optical cable, this cable configuration is Unit 5, and optical fiber adds up to 24 cores, and every pipe maximum core number is 6, every pipe time maximum core number is 4, the fibre ribbon type is 0 fine band, and the optical fiber chromatogram is the GB whole chromatogram, and loose sleeve pipe chromatogram is the GB whole chromatogram, optical fiber is the B1 type, and jacket thickness is the GB nominal; Code changes into: X00241002505000, and this code computing machine can be discerned, and human eye also can be debated.

Call in the identification module in 300 steps, after the encode of the input of finishing above-mentioned information and information, call identification module, optical cable information is changed into machine recognizable optical cable describe in detail.

Call in the smart allocation module in 400 steps, call the smart allocation module according to the information that above-mentioned identification module identifies, at length isolate all information in the optical cable, thereby: 1. call automatically and produce the required a whole set of operation file of this optical cable, and by net distribution to each production process board; 2. draw out the allocation table that comprises fibre ribbon, optical fiber in all sleeve pipes in the optical cable, the every sleeve pipe automatically; And the cross-sectional structure synoptic diagram of optical cable; And the various semi-manufacture, the product inspection report form that do not contain check data; And by net distribution to each production or inspection process board.

In 500 steps output result, the above-mentioned result who produces after the smart allocation module that calls is shown on each correlation computer screen, also can pass through printer or other plotting equipment, with required form and report output.

So far, finished purpose of the present invention.

Embodiment two:

Substantially with examples Example one, difference is:

200 steps with message codeization in, be achieved in that

The partial information encode of importing in above-mentioned 100 steps is handled, such as: the GYTA53 optical cable, this cable configuration is a unit 8, and optical fiber adds up to 92 cores, and every pipe maximum core number is 12, every pipe time maximum core number is 10, the fibre ribbon type is 0 fine band, and the optical fiber chromatogram is the GB whole chromatogram, and loose sleeve pipe chromatogram is the GB whole chromatogram, optical fiber is the B1.3 type, and jacket thickness is the GB nominal value; Code changes into: X20922002608000.

Embodiment three:

Substantially with examples Example one, difference is:

200 steps with message codeization in, be achieved in that

The partial information encode of importing in above-mentioned 100 steps is handled, such as: GYDTA optical cable, this cable configuration are Unit 5, and optical fiber adds up to 288 cores, every pipe maximum core number is 72, every pipe time maximum core number is 48, and the fibre ribbon type is 12 fine bands, and the optical fiber chromatogram is the GB whole chromatogram, pine sleeve pipe chromatogram is the GB whole chromatogram, the fibre ribbon chromatogram is the GB whole chromatogram, and optical fiber is the B1 type, and jacket thickness is the GB nominal value; Code changes into: D02881006505000.

Beneficial effect of the present invention: 1. reduced grasp degree, do not needed the training of specialty, even under the frequent situation of flow of personnel, newly advance personnel and also can cross the threshold quickly and easily for optical cable professional knowledge for information typing personnel; Greatly reduce the time of staff training; 2. simplified the method for employee greatly, made its study at any time at work, reduced the employee effectively and do not caused the generation of producing wrong situation because of remembering structure for the cable configuration knowledge training; 3. save the cost of paper, do not needed to open production instruction order and printing/hand picking procedure technology card, do not needed to print the form that in the past needed hand-kept in production, the checkout procedure; 4. quickened the time that survey report is finished, do not needed artificial design table (schedule), the reviewer only needs to get final product with the field of test data typing form or by the automatic typing form of the data of taking on the capture card; Therefore, not only reduced the time that the reviewer imports data, printed report, and, make the reviewer can extract more time product is tested.

The above only is the present invention typical case specific embodiment; everyly be familiar with this skill personage and make various modifications or change very easily in view of the above; therefore; all all equivalence replacements that claim spirit of the present invention is done that do not break away from; all should be included in this patent protection domain; this method can also be applied in the cable industry, and especially the chromatogram of telecommunication cable is distributed.

Claims (6)

1, distribution method of optical cable chromatography is characterized in that: it comprises following steps:

A, input information;

B, with message codeization;

C, call identification module;

D, call the smart allocation module;

E, output result.

2, distribution method of optical cable chromatography according to claim 1 is characterized in that: the information of importing in the described steps A comprises at least: maximum fiber quantity, every Guan Zhongci maximum fiber quantity, optical cable model, fibre ribbon type, optical fiber chromatogram, sleeve pipe chromatogram, fibre ribbon chromatogram, jacket thickness in optical fiber total quantity, the every pipe in cable configuration, the optical cable.

3, distribution method of optical cable chromatography according to claim 1 is characterized in that: described step B is that the information of importing in the described steps A is translated into the discernible code of computing machine with message codeization.

4, distribution method of optical cable chromatography according to claim 1 is characterized in that: described step C calls in the identification module, the code that converts among the step B is changed into machine recognizable optical cable describe information in detail.

5, distribution method of optical cable chromatography according to claim 1, it is characterized in that: among the described step D, at length isolate all information in the optical cable, thereby: 1. call automatically and produce the required a whole set of operation file of this optical cable, and by net distribution to each production process board; 2. draw out automatically and comprise optical fiber ribbon, fibre-optic allocation table in all sleeve pipes in the optical cable, the every sleeve pipe; And the cross-sectional structure synoptic diagram of optical cable; And the semi-manufacture, the product inspection report form that do not contain check data; And by net distribution to each production or inspection process board.

6, distribution method of optical cable chromatography according to claim 1 is characterized in that: in the described step e, the result with above-mentioned steps D produces shows on computer screen, or by printer or other plotting equipment, with required form and report output.

Images