A Wiring Method for Big Data Modular Networks

A wiring method and big data technology, applied in the direction of cable laying equipment, etc., can solve problems affecting network stability, power line heat accumulation, power line can not be found, etc., to improve pre-fixed speed, prolong service life, and avoid collapse blade effect

Inactive Publication Date: 2021-10-01
李明奎
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Since the big data modular network needs to complete data analysis links such as fast calculation and efficient storage of data, the number of components is large, and there are many connected power lines, and the wiring will be very chaotic. On the one hand, if the power line is damaged, it must be found during maintenance There are no power lines that need to be repaired. On the other hand, under high load conditions, the heat accumulation of the power lines and the messy arrangement are likely to affect the stability of the network, and even cause a fire in severe cases.

Method used

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  • A Wiring Method for Big Data Modular Networks
  • A Wiring Method for Big Data Modular Networks
  • A Wiring Method for Big Data Modular Networks

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] see Figure 1-4 , a wiring method for a big data modular network, comprising the steps of:

[0037] S1. Sleeve adhesive tapes of different colors on the rotating wheel 15;

[0038] S2. Select any one of the tapes in step S1 and pull out the end of the tape so that it is fixedly connected with the winding wheel 17, and ensure that the adhesive face of the tape is downward;

[0039] S3. Connect one end of the power cord to be wired, and place the power cord along the wiring path;

[0040] S4, clamp the fixed notch 12 on the part where the power cord needs to be fixed, and stretch the power cord to be in a straight state;

[0041] S5. Press the horizontal pressing plate 6 to cut off the adhesive tape and adhere it to the outside of the power cord.

[0042] After the step S5, there is a step S6, taking down the device, and pressing the adhesive tape with hands to ensure stability.

[0043] The adhesive tape contains at least five colors of red, yellow, white, black and ...

Embodiment 2

[0053] see Figure 1-4 , a wiring method for a big data modular network, comprising the steps of:

[0054] S1. Sleeve adhesive tapes of different colors on the rotating wheel 15;

[0055] S2. Select any one of the tapes in step S1 and pull out the end of the tape so that it is fixedly connected with the winding wheel 17, and ensure that the adhesive face of the tape is downward;

[0056] S3. Connect one end of the power cord to be wired, and place the power cord along the wiring path;

[0057] S4, clamp the fixed notch 12 on the part where the power cord needs to be fixed, and stretch the power cord to be in a straight state;

[0058] S5. Press the horizontal pressing plate 6 to cut off the adhesive tape and adhere it to the outside of the power cord.

[0059] After the step S5, there is a step S6, taking down the device, and pressing the adhesive tape with hands to ensure stability.

[0060] The adhesive tape contains at least five colors of red, yellow, white, black and ...

Embodiment 3

[0071] see Figure 1-4 , a wiring method for a big data modular network, comprising the steps of:

[0072] S1. Sleeve adhesive tapes of different colors on the rotating wheel 15;

[0073] S2. Select any one of the tapes in step S1 and pull out the end of the tape so that it is fixedly connected with the winding wheel 17, and ensure that the adhesive face of the tape is downward;

[0074] S3. Connect one end of the power cord to be wired, and place the power cord along the wiring path;

[0075] S4, clamp the fixed notch 12 on the part where the power cord needs to be fixed, and stretch the power cord to be in a straight state;

[0076] S5. Press the horizontal pressing plate 6 to cut off the adhesive tape and adhere it to the outside of the power cord.

[0077] After the step S5, there is a step S6, taking down the device, and pressing the adhesive tape with hands to ensure stability.

[0078] The adhesive tape contains at least five colors of red, yellow, white, black and ...

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PUM

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Abstract

The invention discloses a wiring method for a large data modular network, and relates to a wiring method, comprising the following steps: S1, attaching adhesive tapes of different colors to the rotating wheel; S2, selecting any one in the step S1 Tape and pull out the end of the tape to make it fixedly connected with the rewinding wheel, and ensure that the adhesive side of the tape is facing downward; S3, connect one end of the power cord to be wired, and place the power cord along the wiring path; S4, Clamp the fixing notch on the part where the power cord needs to be fixed, and stretch the power cord to be in a straight state; S5. Press the horizontal pressing plate, cut off the tape and stick it on the outside of the power cord. The invention is simple in structure and easy to use. When in use, the electric wire is only clamped through the fixed gap, and then the horizontal pressing plate is pressed down to realize the cutting of the tape, and the power cord is fixed, and the connecting rod and the connecting plate of the first rotating shaft are rotated. With one-way rotation connection, it is convenient and quick to switch the tape.

Description

technical field [0001] The invention relates to a wiring method, in particular to a wiring method for a large data modular network. Background technique [0002] With the development of information technology, big data technology has become an important research direction and application hotspot in society. As we all know, big data is to find meaningful associations and mining changes in things from massive multi-dimensional ordinary data, and accurately predict things. Trends in technology. [0003] Since the big data modular network needs to complete data analysis links such as fast calculation and efficient storage of data, the number of components is large, and there are many connected power lines, and the wiring will be very chaotic. On the one hand, if the power line is damaged, it must be found during maintenance There are no power lines that need to be repaired. On the other hand, under high load conditions, heat accumulation of power lines and disorderly arrangemen...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02G1/06
CPCH02G1/06
Inventor 李明奎其他发明人请求不公开姓名
Owner 李明奎
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