CN106324414A - Accurate and simple electric cable aligning method - Google Patents
Accurate and simple electric cable aligning method Download PDFInfo
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- CN106324414A CN106324414A CN201610646701.1A CN201610646701A CN106324414A CN 106324414 A CN106324414 A CN 106324414A CN 201610646701 A CN201610646701 A CN 201610646701A CN 106324414 A CN106324414 A CN 106324414A
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- Prior art keywords
- heart yearn
- cable
- benchmark
- line
- circling
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R31/00—Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
- G01R31/50—Testing of electric apparatus, lines, cables or components for short-circuits, continuity, leakage current or incorrect line connections
- G01R31/58—Testing of lines, cables or conductors
- G01R31/60—Identification of wires in a multicore cable
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- General Physics & Mathematics (AREA)
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Abstract
The invention discloses an accurate and simple electric cable aligning method. According to the method, after a reference core wire of the same layer core wire is determined at a near end and a far end of the same electric cable, wire aligning operation is conducted via clockwise (or anticlockwise) detouring around the near end of the electric cable according to a wire connection table while the reference core wire is used a starting point, wire aligning operation is also conducted via clockwise (or anticlockwise) detouring around the far end of the electric cable, and the method does not require any wire aligning device and any measuring tool, cost can be lowered; problems of large labor, material and time input required by a conventional wire aligning method can be solved; problems of performance instability, complex operation and the like of a self-made simple wire aligning device can be solved.
Description
Technical field
The present invention relates to cable construction mounting technique, be specifically related to a kind of electrical equipment and control cable proofreader method.
Background technology
The control cable used in electrical equipment control belongs to circular multilayer cable more, and the cable not only number of plies is many, heart yearn
Quantity is the most, and it is smudgy or do not have label much to control the label on cable core, thus gives and controls cable
Proximally and distally tape is carried out very big inconvenience.
Traditional is that traditional method needs two to during line with trying voltage, transmitter receiver or manual delivery voice to line method
The above persons, workload is big, and elapsed time is many, easily makes mistakes.
Time and effort consuming when making the work of simple Line Connectivity Test Tool by oneself, efficiency is the lowest.And the cable alignment apparatus device price height sold on market,
Operation is also inconvenient.
Summary of the invention
The technical problem to be solved is to provide a kind of to line method, simple to operate, be easily mastered, accuracy rate
High, it is not necessary to by any measuring instrument, can one man operation, it is possible to two people or many people operation, many people are in hgher efficiency when operating, it is possible to
It is greatly improved work efficiency and manpower and materials and time are greatly decreased.
In long-term cable construction, find that circular multilayer controls the manufacturing process formation same cable near-end of cable core
With far-end heart yearn have stationary distribution rule, utilize what this rule can be accurate, easy to carry out cable proofreader.Therefore, this
The following technical scheme of bright offer:
A kind of accurate, easy cable proofreader method, it comprises the steps:
Step 1 determines the benchmark heart yearn of same cable outermost layer heart yearn, can arbitrarily select a heart yearn as benchmark heart yearn;
Step 2 determines the direction of circling of same cable near-end outermost layer heart yearn.Direction of circling can be clockwise can also
Being counterclockwise, technician makes by oneself;
Step 3 according to connection table, with the benchmark heart yearn of outermost layer heart yearn as starting point, gives same layer along the direction of circling determined
Heart yearn is carried out one by one to line, numbering, until complete line is returned to benchmark heart yearn, i.e. complete outermost layer heart yearn to line.
Step 4 is using the benchmark heart yearn of the near-end outermost layer heart yearn at same cable as the benchmark core of far-end outermost layer heart yearn
Line;
Step 5 determines the direction of circling of same cable far-end outermost layer heart yearn.If the side of detouring of near-end outermost layer heart yearn
To being clockwise, then the direction of circling of the outermost layer heart yearn of far-end must be counterclockwise.Direction of circling phase the most proximally and distally
Instead;
Step 6 according to connection table, with the benchmark heart yearn of outermost layer heart yearn as starting point, gives same layer along the direction of circling determined
Heart yearn is carried out one by one to line, numbering, until complete line is returned to benchmark heart yearn, i.e. complete outermost layer heart yearn to line.
After complete outermost layer cable core, according to above-mentioned steps the most successively to cable innermost layer core Line To Line, until completing
Innermost layer heart yearn to line.
Beneficial effects of the present invention:
The present invention is after near-end (far-end) the outermost layer heart yearn of same cable determines a benchmark heart yearn, then determines outermost layer
The direction of circling to line of heart yearn (when near-end uses clockwise, far-end then must use counterclockwise), finally according to
Connection table, with benchmark heart yearn as starting point, carries out one by one line, numbering same layer heart yearn along the direction of circling determined, completes outermost
The most inwards to line after layer cable core wire aligning.Whole process only needs a technician to get final product completing of efficiently and accurately, it is not necessary to
By any line connector and survey tool, can be cost-effective, traditional manpower and materials to line mode and time can be solved again
A large amount of problems put into, also solve the problems such as the self-control unstable properties of Simple line finder, complex operation.
When benchmark heart yearn and the direction of circling of cable each layer heart yearn is determined in advance, it is right that several technicians can be carried out simultaneously
Line, work efficiency will be higher.
Accompanying drawing explanation
Fig. 1 is the regularity of distribution schematic diagram of the proximally and distally heart yearn of the same cable in the present invention.In figure, 10 is many for circle
Layer controls cable, and 11 be the near-end cross-section of cable, and 12 is clockwise about line direction, and 13 is the far-end cross-section of cable, 14 be counterclockwise around
Line direction.
Fig. 2 is the near-end cable core wire aligning schematic diagram in the present invention.In figure, 21 is the near-end cross-section of cable, and 22 is the 3rd layer
Benchmark heart yearn, 23 is the benchmark heart yearn of the 2nd layer, and 24 is the benchmark heart yearn of the 1st layer (outermost layer), and 25 is that near-end cable proofreader is suitable
Hour hands direction of circling.
Fig. 3 is the far-end cable core wire aligning schematic diagram in the present invention.In figure, 31 is the far-end cross-section of cable, and 32 is the 3rd layer
Benchmark heart yearn, 33 is the benchmark heart yearn of the 2nd layer, and 34 is the benchmark heart yearn of the 1st layer (outermost layer), and 35 is that far-end cable proofreader is inverse
Hour hands direction of circling.
Fig. 4 is the regularity of distribution schematic diagram of the proximally and distally heart yearn of the same cable in the present invention.In figure, 40 is many for circle
Layer controls cable, and 41 be the far-end cross-section of cable, and 42 is clockwise about line direction, and 43 is the near-end cross-section of cable, 44 be counterclockwise around
Line direction.
Fig. 5 is the far-end cable core wire aligning schematic diagram in the present invention.In figure, 51 is the far-end cross-section of cable, and 52 is the 3rd layer
Benchmark heart yearn, 53 is the benchmark heart yearn of the 2nd layer, and 54 is the benchmark heart yearn of the 1st layer (outermost layer), and 55 is that far-end cable proofreader is suitable
Hour hands direction of circling.
Fig. 6 is the near-end cable core wire aligning schematic diagram in the present invention.In figure, 61 is the near-end cross-section of cable, and 62 is the 3rd layer
Benchmark heart yearn, 63 is the benchmark heart yearn of the 2nd layer, and 64 is the benchmark heart yearn of the 1st layer (outermost layer), and 65 is that near-end cable proofreader is inverse
Hour hands direction of circling.
Detailed description of the invention
Below in conjunction with detailed description of the invention, the present invention is described in further detail.
Embodiment one
Seeing Fig. 1, Fig. 2 and Fig. 3,10 control cable for circular multilayer, and 11 is the near-end cross-section of cable, and 12 for detour clockwise
Direction, 13 is the far-end cross-section of cable, and 14 is direction of circling counterclockwise, and 21 is the near-end cross-section of cable, and 31 is the far-end cross-section of cable.Electricity
Line method is comprised the following steps by cable:
It is 24 that step 1 selectes the benchmark heart yearn of same cable near-end outermost layer heart yearn;
It is clockwise 25 that step 2 selectes the direction of circling of same cable near-end outermost layer heart yearn;
Step 3 according to connection table, with the benchmark heart yearn 24 of outermost layer heart yearn as starting point, gives same layer along clockwise about line direction
Heart yearn be numbered one by one (1,2,3 ..., 16), until complete line is returned to benchmark heart yearn, i.e. complete near-end outermost layer heart yearn
To line.
Step 4, using the benchmark heart yearn 24 of near-end outermost layer heart yearn as the benchmark heart yearn of far-end outermost layer heart yearn, is defined as
34;
Step 5 determines that the direction of circling of same cable far-end outermost layer heart yearn is counterclockwise 35;
Step 6 according to connection table, with the benchmark heart yearn 34 of outermost layer heart yearn as starting point, gives same layer along direction of circling counterclockwise
Heart yearn be numbered one by one (1,2,3 ..., 16), until complete line is returned to benchmark heart yearn, i.e. complete far-end outermost layer heart yearn
To line;
After complete outermost layer cable core, according to above-mentioned steps the most successively to cable innermost layer core Line To Line, until completing
Innermost layer heart yearn to line, i.e. whole piece cable proofreader is complete.
Due to selected same heart yearn two ends as benchmark heart yearn two ends (22,23 and 24 in Fig. 2 respectively with Fig. 3
In 32,33 and 34 be the two ends of same heart yearn), therefore according to above-mentioned to line method, can quickly obtain two ends in heart yearn
If duplicate numbers end, then it is same heart yearn two ends.
Embodiment two
Seeing Fig. 4, Fig. 5 and Fig. 6,40 control cable for circular multilayer, and 41 is the far-end cross-section of cable, and 42 for detour clockwise
Direction, 43 is the near-end cross-section of cable, and 44 is direction of circling counterclockwise, and 51 is the far-end cross-section of cable, and 61 is the near-end cross-section of cable.Electricity
Line method is comprised the following steps by cable:
It is 64 that step 1 selectes the benchmark heart yearn of same cable near-end outermost layer heart yearn;
It is counterclockwise 65 that step 2 selectes the direction of circling of same cable near-end outermost layer heart yearn;
Step 3 according to connection table, with the benchmark heart yearn 64 of outermost layer heart yearn as starting point, gives same layer along direction of circling counterclockwise
Heart yearn be numbered one by one (1,2,3 ..., 16), until complete line is returned to benchmark heart yearn, i.e. complete near-end outermost layer heart yearn
To line.
Step 4, using the benchmark heart yearn 64 of near-end outermost layer heart yearn as the benchmark heart yearn of far-end outermost layer heart yearn, is defined as
54;
Step 5 determines that the direction of circling of same cable far-end outermost layer heart yearn is clockwise 55;
Step 6 according to connection table, with the benchmark heart yearn 54 of outermost layer heart yearn as starting point, gives same layer along clockwise about line direction
Heart yearn be numbered one by one (1,2,3 ..., 16), until complete line is returned to benchmark heart yearn, i.e. complete far-end outermost layer heart yearn
To line;
After complete outermost layer cable core, according to above-mentioned steps the most successively to cable innermost layer core Line To Line, until completing
Innermost layer heart yearn to line, i.e. whole piece cable proofreader is complete.
Due to selected same heart yearn two ends as benchmark heart yearn two ends (52,53 and 54 in Fig. 5 respectively with Fig. 6
In 62,63 and 64 be the two ends of same heart yearn), therefore according to above-mentioned to line method, can quickly obtain two ends in heart yearn
If duplicate numbers end, then it is same heart yearn two ends.
Above content is to combine concrete/the most made for the present invention further description, it is impossible to
Assert the present invention be embodied as be confined to these explanations.General technical staff of the technical field of the invention is come
Saying, without departing from the inventive concept of the premise, these embodiments having described that can also be made some replacements or modification by it,
And these substitute or variant all should be considered as belonging to protection scope of the present invention.
Claims (4)
1. a cable proofreader method, it is characterised in that comprise the following steps:
Step 1, determine the benchmark heart yearn A of same cable near-end outermost layer heart yearn;
Step 2, determine the direction of circling of same cable near-end outermost layer heart yearn;
Step 3, according to connection table, with benchmark heart yearn A described in step 1 as starting point, give with layer heart yearn along the direction of circling that determines
Carry out line, numbering one by one, until complete line to be returned to benchmark heart yearn A described in step 1;
Step 4, as the benchmark heart yearn of same cable far-end outermost layer heart yearn, it is defined as benchmark using benchmark heart yearn A described in step 1
Heart yearn B;
Step 5, determine the direction of circling of same cable far-end outermost layer heart yearn;
Step 6, according to connection table, with benchmark heart yearn B described in step 4 as starting point, give with layer heart yearn along the direction of circling that determines
Carry out line, numbering one by one, until complete line to be returned to benchmark heart yearn B described in step 4;
Step 7, according to described step 1 to described step 6 the most successively to cable innermost layer core Line To Line, until completing innermost layer core
Line to line.
Cable proofreader method the most according to claim 1, it is characterised in that described step 1 chooses same cable near-end
A piece heart yearn of outer layer heart yearn is as benchmark heart yearn.
Cable proofreader method the most according to claim 1, it is characterised in that same cable near-end outermost in described step 2
The direction of circling of layer heart yearn includes clockwise or counterclockwise.
Cable proofreader method the most according to claim 1, it is characterised in that same cable far-end outermost in described step 5
The direction of circling of layer heart yearn is contrary with the direction of circling of same cable near-end outermost layer heart yearn in described step 2.
Priority Applications (1)
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CN201610646701.1A CN106324414A (en) | 2016-08-09 | 2016-08-09 | Accurate and simple electric cable aligning method |
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CN201610646701.1A CN106324414A (en) | 2016-08-09 | 2016-08-09 | Accurate and simple electric cable aligning method |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115795767A (en) * | 2023-02-07 | 2023-03-14 | 西安军捷新创电子科技有限公司 | Method for designing wiring meter of satellite land detection cable network |
-
2016
- 2016-08-09 CN CN201610646701.1A patent/CN106324414A/en active Pending
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403399348: "综合扭绞信号电缆编号", 《百度文库》 * |
GUANFENG: "电缆芯线查询表二", 《百度文库》 * |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN115795767A (en) * | 2023-02-07 | 2023-03-14 | 西安军捷新创电子科技有限公司 | Method for designing wiring meter of satellite land detection cable network |
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Application publication date: 20170111 |