CN214087088U

CN214087088U - Insulation structure for optical fiber recovery

Info

Publication number: CN214087088U
Application number: CN202022256758.5U
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Dalian Lianwei Network Communication Service Co.,Ltd.
Priority date: 2020-10-12
Filing date: 2020-10-12
Publication date: 2021-08-31
Anticipated expiration: 2030-10-12

Abstract

The utility model provides an insulation structure for recovering optical fiber, which relates to the technical field of optical fiber, wherein two edge discs are symmetrically arranged, an optical fiber cylinder is fixedly connected between the edge discs, a rotating shaft is fixedly connected at the center of the outer side of each edge disc, a groove is formed on the outer wall of the rotating shaft in a surrounding way, the optical fiber is prevented from being exposed outside and being scratched, a wood board consisting of camphor tree wood has good insulation effect, so that the weak current leakage in the optical fiber can be prevented, the wood boards are several and form a circle in a surrounding way, the wood boards surround the outer side of the edge discs, clamping boards integrated with the wood boards are symmetrically fixed on the left side and the right side of the inner wall of the wood board, the edge discs and the wood boards do not have rotatability, the transfer work of workers is convenient, the problem that after the optical fiber is completely recovered, a spool can still rotate is solved, the workers are inconvenient to transfer the spool, the optical fiber is exposed outside and can be easily scratched, and weak current also exists at the interface of the optical fiber, so that workers are inconvenient to insulate the optical fiber.

Description

Insulation structure for optical fiber recovery

Technical Field

The utility model relates to an optical fiber is retrieved and is used insulation system, especially relates to the optic fibre field.

Background

The most traditional spool that uses when retrieving of current optic fibre because traditional spool activity is stronger, retrieves at optic fibre and finishes the back, and the spool still can rotate, and the workman is not convenient for shift the spool to the spool is at the transfer in-process, and optic fibre exposes in the external world, is lacerated very easily, still has weak electric current in the kneck of optic fibre in addition, and the workman is not convenient for carry out insulation treatment to optic fibre.

SUMMERY OF THE UTILITY MODEL

In order to solve and accomplish the back at optic fibre recovery, the spool still can rotate, and the workman is not convenient for shift the spool, and optic fibre exposes in the external world, is lacerated very easily, still has weak electric current in the kneck of optic fibre in addition, and the workman is not convenient for carry out insulation processing's problem to optic fibre, the utility model aims at providing an insulation system is used in optic fibre recovery.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an insulation structure for optical fiber recycling, comprising:

the optical fiber cable comprises edge discs, wherein the number of the edge discs is two, the edge discs are symmetrically arranged, optical fiber cylinders are fixedly connected between the edge discs, rotating shafts are fixedly connected to the centers of the outer sides of the edge discs, grooves are formed in the outer walls of the rotating shafts in a surrounding mode, triangular clamping grooves are formed in the outer sides of the rotating shafts, supports are arranged at the bottom ends of the rotating shafts, openings are formed in the top ends of the inner sides of the supports, and clamping blocks are welded to the inner walls of the openings;

the wood board is characterized in that the wood boards are arranged in a plurality of numbers and form a circle in a surrounding mode, the wood boards are arranged on the outer side of the side disc in a surrounding mode, and clamping boards integrated with the wood boards are symmetrically fixed on the left side and the right side of the inner wall of each wood board.

Preferably, the outer wall of the side disc is provided with an embedding groove in a surrounding manner, the rotating shaft is positioned in the opening, the clamping block is clamped with the groove, and the clamping block is connected with the groove in a sliding manner.

Preferably, the wood boards are all arc-shaped and hinged through hinges, no hinge is arranged between the two wood boards, and a groove is formed between the two wood boards.

Preferably, the wood board surrounds all the edge discs simultaneously, the clamping plates are arranged in a circular mode in a surrounding mode, the clamping plates are clamped with the caulking grooves, and the length of the wood board is larger than the distance between the edge discs.

Preferably, the pivot outside all is provided with the link, and the link comprises five mutual welded stock, three hornblocks have all been welded to link center inboard, and three hornblocks and triangle draw-in groove joint.

Preferably, the terminal of the stock of link is located five blocks of plank outsides wherein, and these five the plank outside and the stock outside of link all opened the screw, and the screw in the plank corresponds with the screw in the stock, the link passes through screw and plank bolted connection.

Compared with the prior art, the utility model discloses the beneficial effect who realizes:

the wood boards are circular, the circular inner diameter formed by the wood boards is consistent with the outer diameter of the side disc, the side disc is surrounded by the wood boards, the optical fiber barrel and the optical fibers on the optical fiber barrel are also surrounded on the inner side of the wood boards, when workers transfer the optical fibers, the optical fibers are exposed outside and scratched, and the wood boards formed by the camphor trees have a good insulation effect, so that weak current leakage in the optical fibers can be prevented.

The long rod of the connecting frame is connected with the wood boards one by one through the bolts, the wood boards and the side plate are connected through the connecting frame, the long rod of the connecting frame just corresponds to two wood boards which are connected to the middle of the connecting frame and provided with grooves, so that the wood boards cannot deform, the grooves cannot be opened, the optical fibers are completely surrounded, the side plate and the wood boards at the moment do not have rotation performance, and the transfer work of workers is facilitated.

Drawings

The invention is described in further detail below with reference to the following figures and detailed description:

fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the side plate of the present invention;

FIG. 3 is a schematic view of the bracket structure of the present invention;

FIG. 4 is a schematic structural diagram of a wood board according to the present invention;

fig. 5 is a schematic view of the connection frame structure of the present invention.

The structure in the figure is as follows: the optical fiber connector comprises a side disc 1, a caulking groove 101, an optical fiber tube 102, a rotating shaft 2, a groove 201, a triangular clamping groove 202, a bracket 3, an opening 301, a clamping block 302, a wood plate 4, a groove 401, a clamping plate 402, a connecting frame 5, a screw hole 501 and a triangular block 502.

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

As shown in fig. 1 to 5, an insulation structure for recovering optical fibers includes:

the optical fiber recycling device comprises edge discs 1, wherein the number of the edge discs 1 is two, the edge discs are symmetrically arranged, optical fiber barrels 102 are fixedly connected between the edge discs 1, rotating shafts 2 are fixedly connected to the centers of the outer sides of the edge discs 1, grooves 201 are formed in the outer walls of the rotating shafts 2 in a surrounding mode, triangular clamping grooves 202 are formed in the outer sides of the rotating shafts 2, supports 3 are arranged at the bottom ends of the rotating shafts 2, openings 301 are formed in the top ends of the inner sides of the supports 3, clamping blocks 302 are welded to the inner walls of the openings 301, when workers recycle optical fibers, the edge discs 1 are taken out firstly, the edge discs 1 are lifted by the workers, the optical fiber barrels 102 are lifted at the same time, the heights of the rotating shafts 2 after the edge discs 1 are lifted are higher than the heights of the supports 3, after the edge discs 1 are lifted, other workers can move the supports 3 to the positions below the rotating shafts 2, the openings 301 of the two supports 3 correspond to each other, caulking grooves 101 are formed in the outer walls of the edge discs 1 in a surrounding mode, and the rotating shafts 2 are located in the openings 301, the fixture block 302 is clamped with the groove 201, the fixture block 302 is connected with the groove 201 in a sliding mode, the edge disc 1 is placed down, the rotating shaft 2 can enter the opening 301, meanwhile, the fixture block 302 is clamped with the groove 201 in the rotating shaft 2, the edge disc 1 is supported and separated from the bottom surface through the support 3, the optical fiber barrel 102 is also lifted, the edge disc 1 can be stabilized after the fixture block 302 is clamped with the groove 201, then a worker can wind the optical fiber into the optical fiber barrel 102, the edge disc 1 is rotated simultaneously, the embedding groove 101 can rotate on the fixture block 302, the edge disc 1 is prevented from falling off the support 3, the edge disc 1 is well supported, the optical fiber is wound by the rotating optical fiber barrel 102, and the optical fiber barrel 102 has mobility;

plank 4, plank 4's quantity is a plurality of and encircles and form circularly, and encircles in the limit set 1 outside between plank 4, plank 4 inner wall left and right sides all symmetry is fixed with cardboard 402 as an organic whole rather than the symmetry, and optic fibre is twined the back, and the workman takes out support 3, puts limit set 1 temporarily subaerial, takes out plank 4, plank 4 all is the arc, and articulates through the hinge between plank 4, wherein two there is not the hinge between plank 4, and open slot 401 between these two planks 4, because wherein do not connect between two planks 4, so plank 4 accessible slot 401 expandes, and the workman expandes plank 4 and paves plank 1 rear end at limit set 1, rolls limit set 1 again, lets limit set 1 roll on plank 4, cardboard 402 corresponds with caulking groove 101, when limit set 1 rolls on plank 4, cardboard 402 enters into caulking groove 101, the worker can pull up the wood boards 4, the wood boards 4 are surrounded outside the side plates 1, the clamping plates 402 are clamped with the caulking grooves 101, the wood boards 4 are simultaneously surrounded on all the side plates 1, the clamping plates 402 are surrounded to form a circle, the clamping plates 402 are clamped with the caulking grooves 101, the length of each wood board 4 is larger than the distance between every two adjacent side plates 1, the wood boards 4 are formed into a circle, the inner diameter of the circle formed by the wood boards 4 is consistent with the outer diameter of the side plates 1, the wood boards 4 surround the side plates 1, the optical fiber barrels 102 and the optical fibers on the optical fiber barrels 102 are also surrounded on the inner sides of the wood boards 4, when the worker transfers the optical fibers, the optical fibers are prevented from being exposed outside and being scratched, and the wood boards 4 formed by camphor trees have a good insulation effect, so that weak current leakage existing in the optical fibers can be prevented;

the outer side of the rotating shaft 2 is provided with a connecting frame 5, the connecting frame 5 is composed of five long rods welded with each other, the inner side of the center of the connecting frame 5 is welded with a triangular block 502, the triangular block 502 is connected with a triangular clamping groove 202 in a clamped mode, in order to enable the wood plate 4 to keep a connection state with the side plate 1, a worker can take the connecting frame 5 up, no object is arranged on the outer side of the triangular clamping groove 202 at the moment, the worker adjusts the triangular block 502 to be clamped into the triangular clamping groove 202 to enable the connecting frame 5 and the side plate 1 to be preliminarily fixed, the side plate 1 is prevented from rotating in the wood plate 4, after the connecting frame 5 is connected with the triangular clamping groove 202, the tail end of the long rod of the connecting frame 5 is positioned on the outer side of five wood plates 4, the screw holes 501 are formed in the outer side of the five wood plates 4 and the outer side of the long rod of the connecting frame 5, the screw holes 501 in the wood plate 4 correspond to the screw holes 501 in the long rod, the connecting frame 5 is connected with the wood plates 4 through the screw holes 501, the stock end of link 5 can correspond five blocks of plank 4 of opening screw 501, and screw 501 in the plank 4 is corresponding with the screw 501 in the stock, the workman twists the bolt into in the screw 501, the stock of link 5 is connected with plank 4 one by one through the bolt, connect plank 4 and side dish 1 simultaneously through link 5, and link 5's stock just corresponds to and opens between being connected to and have two blocks of plank 4 of fluting 401, so plank 4 can't take place deformation, fluting 401 can't be opened, completely to the encirclement of optic fibre, wherein a plank 4 is provided with the sprue outward, can prevent to form rolling between the plank 4 after the circular, side dish 1 and plank 4 this moment do not have the rotatability, be convenient for workman's transfer work.

The working principle is as follows: when a worker recovers the optical fiber, the side plate 1 is taken out firstly, the side plate 1 is supported and separated from the bottom surface through the support 3, the optical fiber cylinder 102 is also lifted, the side plate 1 can be stabilized after the clamping block 302 is clamped with the groove 201, then the worker can wind the optical fiber into the optical fiber cylinder 102, the optical fiber cylinder 102 rotates to wind the optical fiber, the optical fiber cylinder 102 has mobility at the moment, after the optical fiber is wound, the worker takes out the support 3, puts the side plate 1 on the ground temporarily, the worker spreads the wood plate 4 at the rear end of the side plate 1, then rolls the side plate 1, rolls the side plate 1 onto the wood plate 4, the clamping plate 402 enters the embedding groove 101, the worker can pull up the wood plates 4, the wood plates 4 surround the side plate 1, the wood plates 4 form a circle at the moment, the inner diameter of the circle formed by the wood plates 4 is consistent with the outer diameter of the side plate 1, the side plate 1 is surrounded by the wood plates 4, and the optical fiber cylinder 102 and the optical fiber on the optical fiber cylinder 102 are also surrounded on the inner side of the wood plate 4, in order to make plank 4 keep with the connection status of limit dish 1, the workman can take up link 5, there is not the object in the triangle draw-in groove 202 outside this moment, workman's adjustment triangle piece 502 card is gone into in triangle draw-in groove 202, the stock end of link 5 can correspond five planks 4 of opening screw 501, the workman twists the bolt into in the screw 501, be connected the stock of link 5 with plank 4 one by one through the bolt, connect plank 4 and limit dish 1 simultaneously through link 5, and the stock of link 5 corresponds just to be connected to between two planks 4 of opening fluting 401, so plank 4 can't take place deformation, be convenient for workman's transfer work.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims

1. An insulation structure for recovering an optical fiber, comprising:

the optical fiber cable comprises edge discs (1), wherein the number of the edge discs (1) is two, the edge discs are symmetrically arranged, optical fiber tubes (102) are fixedly connected between the edge discs (1), rotating shafts (2) are fixedly connected to the centers of the outer sides of the edge discs (1), grooves (201) are formed in the outer walls of the rotating shafts (2) in a surrounding mode, triangular clamping grooves (202) are formed in the outer sides of the rotating shafts (2), supports (3) are arranged at the bottom ends of the rotating shafts (2), openings (301) are formed in the top ends of the inner sides of the supports (3), and clamping blocks (302) are welded to the inner walls of the openings (301);

plank (4), the quantity of plank (4) is a plurality of and encircles and form circularly, and encircles in the limit dish (1) outside between plank (4), plank (4) inner wall left and right sides all symmetry is fixed with rather than cardboard (402) as an organic whole.

2. The insulation structure for recovering optical fiber according to claim 1, wherein: the outer wall of the side disc (1) is provided with an embedding groove (101) in a surrounding mode, the rotating shaft (2) is located in the opening (301), the clamping block (302) is connected with the groove (201) in a clamping mode, and the clamping block (302) is connected with the groove (201) in a sliding mode.

3. The insulation structure for recovering optical fiber according to claim 1, wherein: the wooden boards (4) are all arc-shaped, the wooden boards (4) are hinged through hinges, no hinge exists between the two wooden boards (4), and a groove (401) is formed between the two wooden boards (4).

4. The insulation structure for recovering optical fiber according to claim 2, wherein: plank (4) surround in all limit dishes (1) simultaneously, and encircle between cardboard (402) and form circularly, cardboard (402) all with caulking groove (101) joint, and the length of plank (4) is greater than the distance that separates between limit dish (1).

5. The insulation structure for recovering optical fiber according to claim 1, wherein: pivot (2) outside all is provided with link (5), and link (5) comprise five mutual welded stock, link (5) center inboard all welds has three hornblocks (502), and three hornblocks (502) and triangle draw-in groove (202) joint.

6. The insulation structure for recovering optical fibers according to claim 5, wherein: the stock end of link (5) is located wherein five plank (4) outsides, and this five the stock outside of plank (4) outside and link (5) all opened screw (501), and screw (501) in plank (4) and the stock are corresponding, link (5) are through screw (501) and plank (4) bolted connection.