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5G communication base station composite optical cable and processing method and processing system thereof

A technology of composite optical cable and communication base station, which is applied in the field of 5G communication base station composite optical cable and its processing method and processing system, can solve the problems of incapable of covering and embossing of composite optical cable, and achieve the effect of large friction force

Active Publication Date: 2020-08-28
江苏科信光电科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, this patent cannot emboss the composite optical cable in different directions

Method used

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  • 5G communication base station composite optical cable and processing method and processing system thereof
  • 5G communication base station composite optical cable and processing method and processing system thereof
  • 5G communication base station composite optical cable and processing method and processing system thereof

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Experimental program
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Effect test

specific Embodiment approach 1

[0033] Combine below Figure 1-9 Describe this embodiment, the present invention relates to the field of 5G communication, more specifically, a 5G communication base station composite optical cable processing system, including a horizontal plate 1, a trapezoidal slide rail 101, a splint 2, a rectangular edge 201, a side shaft 205 and a sliding seat 303. The present invention can emboss the composite optical cable in different directions after sheathing, so that the composite optical cable has greater friction when laying, and prevents random sliding after laying.

[0034]The horizontal plate 1 is provided with a trapezoidal slide rail 101, one sliding seat 303 is arranged on the left and right sides, and two sliding seats 303 are respectively slidably connected to the left and right ends of the trapezoidal sliding rail 101, and the left and right sides of the splint 2 are respectively provided with one, two Side shafts 205 are fixedly connected to the outside of the splint 2 ,...

specific Embodiment approach 2

[0036] Combine below Figure 1-9 To illustrate this embodiment, the 5G communication base station composite optical cable processing system further includes a lever 206, and the outer ends of the two side shafts 205 are fixedly connected to the lever 206, and the two levers 206 are respectively located on the outside of the two sliding seats 303 , the two side shafts 205 are sleeved with a compression spring I, and the compression spring I is located between the corresponding splint 2 and the sliding seat 303. The two compression springs 1 respectively give the two splints 2 an inward force, and the side shaft 205 can slide left and right on the sliding seat 303, so that the two splints 2 can have a certain elastic displacement when pressed on the composite optical cable, avoiding the two splints. Excessive pressure on 2 damages the composite optical cable.

specific Embodiment approach 3

[0038] Combine below Figure 1-9 To illustrate this embodiment, the 5G communication base station composite optical cable processing system also includes a trapezoidal edge 202, an L-shaped slide plate 203 and a fixed sleeve 204, and the two splints 2 are fixedly connected with the fixed sleeve 204, and the two L-shaped slide plates 203 are vertically connected respectively. The two L-shaped slide plates 203 are fixedly connected with a plurality of vertical trapezoidal edges 202, and the L-shaped slide plates 203 and the fixed sets 204 are fixed by screw compression. The L-shaped slide plate 203 can slide vertically on the fixed sleeve 204, driving the multiple trapezoidal ribs 202 to slide vertically. When it is necessary to press a relatively fine imprint on the composite optical cable, the multiple trapezoidal ribs 202 are moved to the multiple rectangular ribs 201 Between them, a plurality of rectangular ribs 201 and a plurality of trapezoidal ribs 202 are embossed on the...

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PUM

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Abstract

The invention relates to the field of 5G communication, in particular to a 5G communication base station composite optical cable and a processing method and a processing system thereof. The method comprises the following steps of: S1, presetting a water-blocking wrapping tape on a winding drum, and enabling an optical cable, a central reinforcing core and an electric wire to simultaneously rotateto pass through a guide ring and a conical rubber drum; S2, after the optical cable, the central reinforcing core and the electric wire are gathered by the conical rubber cylinder, winding and wrapping the gathered optical cable, the central reinforcing core and the electric wire by a water-blocking wrapping tape, and then enabling the composite optical cable wrapped by the water-blocking wrappingtape to arrive between the two clamping plates; and S3, enabling the composite optical cable wrapped by the water-blocking wrapping tape to pass through the space between the two clamping plates, enabling the two clamping plates to be close to each other, enabling the plurality of rectangular edges to press out impressions on two sides of the composite optical cable, enabling the composite optical cable to continuously pass through the space between the two clamping plates, and continuously pressing out impressions on the composite optical cable.

Description

technical field [0001] The invention relates to the field of 5G communication, and more specifically relates to a 5G communication base station composite optical cable, a processing method and a processing system thereof. Background technique [0002] The application number is CN201811071155.9, which discloses an anti-loose winding mechanism for the processing and production of communication optical cables. The invention relates to the technical field of communication optical cables, and discloses an anti-loose winding mechanism for the processing and production of communication optical cables. , including a winding device, an anti-off ring device, and a cleaning device. The anti-off ring device is located on both sides of the winding device, and the cleaning device is located on the back of the winding device. The winding device includes a mounting plate, and the bottom of the mounting plate The middle position is connected with a rotating motor. This invention solves the ...

Claims

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Application Information

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IPC IPC(8): G02B6/44
CPCG02B6/4479
Inventor 王明程
Owner 江苏科信光电科技有限公司