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Buried corrosion-resistant communication optical cable

A corrosion-resistant, buried technology, used in the field of communication optical cables, can solve the problems of easy corrosion of communication optical cables

Inactive Publication Date: 2022-08-02
刘可鹏
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The invention can mainly solve the problem that the communication optical cable is easily corroded after being buried in the ground for a long time

Method used

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  • Buried corrosion-resistant communication optical cable
  • Buried corrosion-resistant communication optical cable
  • Buried corrosion-resistant communication optical cable

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0041] Embodiment 1: a buried corrosion-resistant communication optical cable, including a joint 1, one end of the joint 1 is connected with a sleeve 101, the outer side of the sleeve 101 is surrounded by a protective component, and the protective component includes a protective frame 2 and a through-pipe 303 , the through-pipe 303 runs through the inner side of the protective frame 2, and the through-pipe 303 communicates with the interior of the protective frame 2;

[0042]Among them: the sleeve 101, the sleeve 101 is located on the outer side of the optical cable, the sleeve 101 forms protection for the optical fiber inside the optical cable, the sleeves 101 are connected through the joint 1, and the side of the sleeve 101 close to the protective frame 2 is inclined at 15-45° set up;

[0043] The side of the casing 101 close to the protective frame 2 is set at an inclination of 15-45°, which can facilitate the inclined flow of sewage to the interior of the protective frame ...

Embodiment 2

[0046] Example 2: Reference Manual Attached Figure 1-7 It can be seen that the difference between Embodiment 2 and Embodiment 1 is that the transmission mechanism includes a water absorption layer 201, a water collecting frame 202, a first blade 203, a rotating shaft 204, a second blade 205, a water inlet pipe 3, a water storage frame 301, an outlet The water pipe 302, the sealing frame 304, the glass tube 4, the snap ring 401, the rotating ball 402 and the swing ring 403, the water absorbing layer 201 surrounds the inner side of the protective frame 2, the water collecting frame 202 is installed under the inner part of the protective frame 2, and the rotating shaft 204 swings Inside the water collecting frame 202, the first blade 203 and the second blade 205 swing on both sides of the rotating shaft 204 respectively, the water inlet pipe 3 runs through the side of the water collecting frame 202, the water storage frame 301 penetrates one end of the water inlet pipe 3, The wa...

Embodiment 3

[0066] Example 3: Reference Manual Attached figure 2 and 8 It can be known that the difference between Embodiment 3 and Embodiments 1 and 2 is that the transmission mechanism includes a deformation layer 5, a lining plate 501, a slide rail 502 and a push rod 503, and the deformation layer 5 is embedded in the upper end of the protective frame 2. The lining plate 501 Passing through the upper end of the protective frame 2, the slide rail 502 is arranged on the upper end of the interior of the protective frame 2, and the push rod 503 slides through the outer side of the slide rail 502;

[0067] Among them: the deformation layer 5 and the lining plate 501, the deformation layer 5 is a deformable material, the deformable material is a rubber material, the lining plate 501 and the deformation layer 5 are respectively slidingly attached to the two ends of the push rod 503, and the lining plate 501 is protected Between the racks 2, the side of the lining plate 501 is arranged in a ...

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Abstract

The invention provides a buried corrosion-resistant communication optical cable, a transmission mechanism comprises a water absorption layer, a water collection frame, a first blade, a rotating shaft, a second blade, a water inlet pipe, a water storage frame, a water outlet pipe, a sealing frame, a glass pipe, a clamping ring, a rotating sphere and a swinging ring, the water absorption layer surrounds the inner side of a protection frame, and the water collection frame is installed at the lower part in the protection frame; when a water inlet pipe penetrates through the side face of the water collecting frame, a water storage frame penetrates through one end of the water inlet pipe and a swing ring is located in a water outlet pipe, and when clear water in a penetrating pipe flows back to the interior of the water outlet pipe, the clear water also flows to the longer end of the swing ring; the swing rings swing at an angle through the rotating ball body, at the moment, the swing rings are sealed, and then the swing rings can prevent clear water in the penetrating pipe from flowing back into the water outlet pipe, and the penetrating pipe penetrates through the interior of the protection frame.

Description

technical field [0001] The invention relates to the technical field of communication optical cables, in particular to a buried corrosion-resistant communication optical cable. Background technique [0002] The communication optical cable is composed of a cable core and an outer sheath composed of several optical fibers. The communication optical cable is usually installed in the ground, and the optical cables are fitted and connected through the optical cable joints. For transmission, technical enlightenment for communication optical cable; [0003] Research on communication cables has found the following problems: [0004] When the communication cable is underground, the underground soil accumulates on the outside of the communication cable, and the underground soil contains moisture. Since the skin of the communication cable is usually made of plastic material, the surface of the communication cable is easily corroded after moisture adheres to the surface for a long time....

Claims

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Application Information

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IPC IPC(8): G02B6/44
CPCG02B6/443G02B6/4429
Inventor 刘可鹏
Owner 刘可鹏