CN114605088B

CN114605088B - Carbon coating protection equipment based on optical fiber protection

Info

Publication number: CN114605088B
Application number: CN202210090595.9A
Authority: CN
Inventors: 胡元兵
Original assignee: Wuxi Guangchuang Photoelectric Technology Co ltd
Current assignee: Wuxi Guangchuang Photoelectric Technology Co ltd
Priority date: 2022-01-26
Filing date: 2022-01-26
Publication date: 2024-03-15
Anticipated expiration: 2042-01-26
Also published as: CN114605088A

Abstract

The invention relates to carbon coating protection equipment, in particular to carbon coating protection equipment based on optical fiber protection. The technical problems of the invention are that: the carbon coating protection device based on the optical fiber protection can enable carbon materials to be sprayed on the surface of the optical fiber without omission and save labor. The technical scheme is as follows: the utility model provides a protection equipment is scribbled to carbon based on optic fibre protection, including base, shell, first backup pad, second backup pad, first dead lever and place the board, the base top is equipped with the shell, base top one side is equipped with first backup pad, first backup pad top one side is equipped with the second backup pad, second backup pad one side symmetry is equipped with first dead lever, first dead lever one side all slidingtype is equipped with places the board. After the optical fiber and the spray tank are placed, the motor is started to work, so that the optical fiber can automatically rotate and the spray tank can move up and down, and a worker only needs to press the extrusion rod of the spray tank to move downwards, so that manual operation steps can be reduced.

Description

Carbon coating protection equipment based on optical fiber protection

Technical Field

The invention relates to carbon coating protection equipment, in particular to carbon coating protection equipment based on optical fiber protection.

Background

The optical fiber is used as an information transmission tool which can be used for long distances and is often used in the fields of submarine optical cables and the like, in the use process of the optical fiber, in order to avoid greatly shortening the service life of the optical fiber in the severe environment, a carbon film is often smeared on the surface of the optical fiber, when the carbon film is smeared, a worker dips a carbon material by using a small brush and brushes the surface layer of the optical fiber, so that the surface layer of the optical fiber forms a carbon film, the optical fiber is usually cylindrical, when the brush is smeared, the surface of the optical fiber is difficult to smear carbon material, two people are required to do so at the same time, one person straightens the optical fiber, and one person smears, so that the folded corner is prevented from being smeared, and the labor is consumed.

Therefore, it is necessary to design a carbon coating protection device based on optical fiber protection, which can spray carbon material on the surface of the optical fiber without omission and save manpower.

Disclosure of Invention

In order to overcome the defects that the optical fiber is cylindrical, the carbon material is difficult to manually smear, and two people are required to work simultaneously to avoid the situation that the folded angle is not smeared, the invention solves the technical problems that: the carbon coating protection device based on the optical fiber protection can enable carbon materials to be sprayed on the surface of the optical fiber without omission and save labor.

The technical scheme is as follows: the utility model provides a carbon coating protection equipment based on optic fibre protection, including the base, a housing, first backup pad, the second backup pad, first dead lever, place the board, spout jar, place mechanism and clamping mechanism, the base top is equipped with the shell, base top one side is equipped with first backup pad, first backup pad top one side is equipped with the second backup pad, second backup pad one side symmetry is equipped with first dead lever, first dead lever one side all slidingtype is equipped with places the board, place the board and kept away from one side of second backup pad and all placed and spout jar, one side that the second backup pad was kept away from at the base top is equipped with the mechanism of placing that can place optic fibre, be equipped with the clamping mechanism that can press from both sides optic fibre tight on the mechanism of placing, all slidingtype is equipped with the extrusion rod on spouting jar, all be connected with the elastic component between extrusion rod and the adjacent jar.

Optionally, place the mechanism including third backup pad, fixed block and place the frame, one side of base top second backup pad is equipped with the third backup pad, and third backup pad both sides all symmetry are equipped with the fixed block, and the fixed block inboard all rotates to be equipped with places the frame.

Optionally, clamping mechanism is including movable rod, first splint and first spring, and the both sides of placing the frame all slide type and be equipped with the movable rod, and the movable rod inner all is equipped with first splint, all is connected with first spring between movable rod and the adjacent frame of placing, and first spring all overlaps on the movable rod that corresponds.

Optionally, the automatic feeding device further comprises a rotating mechanism, the rotating mechanism comprises a fourth supporting plate, a motor, a bevel gear, a screw rod, all gears and a flat belt, the fourth supporting plate is arranged on one side of the second supporting plate, the motor is arranged on one side of the top of the fourth supporting plate, the screw rod is symmetrically and rotatably arranged in the middle of the first supporting plate, the placing plate is correspondingly in threaded connection with the screw rod, all gears are arranged on one side of the screw rod, all gears are meshed with each other, bevel gears are arranged on one side of the screw rod and one side of an output shaft of the motor, the bevel gears are meshed with each other, and the flat belt is sleeved between two sides of the screw rod and a placing frame on the same side through the belt pulley.

Optionally, still including pressing mechanism, pressing mechanism is including first rotating plate, the support, first fly leaf, the second spring, first slide rail, the second fly leaf, first fixed plate and third spring, one side that the lead screw is close to all-gear all is equipped with first rotating plate, one side that first backup pad top is close to the second backup pad is equipped with the support, support one side slidingtype is equipped with first fly leaf, be connected with the second spring between first fly leaf and the support, the second spring winds on first fly leaf, all be equipped with first slide rail in the middle of the board top is placed, first slide rail one side all slidingtype is equipped with the second fly leaf, be connected with first fixed plate between second fly leaf one side, all be connected with the third spring between second fly leaf and the adjacent first slide rail.

Optionally, still including fixed establishment, fixed establishment is including second fixed plate, second slide rail, second splint and fourth spring, places board one side and all is equipped with the second fixed plate, places the board and keeps away from the second fixed plate one side and all is equipped with the second slide rail, all slidingtype on the second slide rail is equipped with the second splint, all is connected with the fourth spring between second splint and the adjacent second slide rail.

Optionally, still including protection machanism, protection machanism is including the second dead lever, the guard plate, first torsional spring, the third dead lever, second change board and second torsional spring, the shell is kept away from the one side symmetry of lead screw and is equipped with the second dead lever, all rotate on the second dead lever and be equipped with the guard plate, all be connected with first torsional spring between guard plate and the shell, first torsional spring all winds on corresponding second dead lever, move side guard plate one side and be equipped with the third dead lever, opposite side guard plate one side also is equipped with the third dead lever, all rotate on the third dead lever and be equipped with the second change board, all be connected with the second torsional spring between second change board and the adjacent third dead lever, the second torsional spring all winds on corresponding third dead lever.

Optionally, transparent glass plates are arranged on the protection plates.

The beneficial effects of the invention are as follows: 1. the optical fiber can be clamped under the action of the first clamping plate, and then the placing frame is rotated to enable the optical fiber to rotate, so that the work of spraying carbon on the optical fiber can be conveniently performed.

2. After the optical fiber and the spray tank are placed, the motor is started to work, so that the optical fiber can automatically rotate and the spray tank can move up and down, and a worker only needs to press the extrusion rod of the spray tank to move downwards, so that manual operation steps can be reduced.

3. The lead screw rotates and drives the first rotating plate to rotate, so that the first movable plate intermittently moves leftwards under the cooperation of the second spring, and then the second movable plate intermittently moves leftwards to press the extrusion rod of the spraying tank, so that after the optical fiber and the spraying tank are placed by a worker, the optical fiber spraying carbon can be automatically carried out by the motor, and the labor is further saved.

4. The second fixed plate and the second clamping plate are matched to clamp the spray tank, so that the spray tank can be prevented from being separated from the placing plate in the process of moving up and down, and the spraying work can be normally carried out.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first part of the present invention.

Fig. 3 is a schematic perspective view of a second part of the present invention.

Fig. 4 is a schematic perspective view of a first part of the placement mechanism of the present invention.

Fig. 5 is a schematic perspective view of a second part of the placement mechanism of the present invention.

Fig. 6 is a schematic perspective view of a first portion of the clamping mechanism of the present invention.

Fig. 7 is a schematic view of a second partial perspective of the clamping mechanism of the present invention.

Fig. 8 is a schematic perspective view of a first part of the rotary mechanism of the present invention.

Fig. 9 is a schematic perspective view of a second part of the rotary mechanism of the present invention.

Fig. 10 is a schematic perspective view of a first part of the pressing mechanism of the present invention.

Fig. 11 is a schematic perspective view of a second part of the pressing mechanism of the present invention.

Fig. 12 is a schematic perspective view of a third part of the pressing mechanism of the present invention.

Fig. 13 is a schematic perspective view of a fourth part of the pressing mechanism of the present invention.

Fig. 14 is a schematic perspective view of the fixing mechanism of the present invention.

Fig. 15 is a schematic perspective view of a first part of the protection mechanism of the present invention.

Fig. 16 is a schematic perspective view of a second part of the guard mechanism of the present invention.

Meaning of reference numerals in the drawings: 1: base, 2: a shell, 3: first backup pad, 4: second backup pad, 5: first dead lever, 6: placing a plate, 7: spray tank, 8: placement mechanism, 81: third support plate, 82: fixed block, 83: placing a frame, 9: clamping mechanism, 91: movable bar, 92: first clamping plate, 93: first spring, 10: rotation mechanism, 101: fourth support plate, 102: motor, 103: bevel gear, 104: screw, 105: all gear, 106: flat belt, 11: pressing mechanism, 111: first swivel plate, 112: bracket, 113: first fly leaf, 114: second spring, 115: first slide rail, 116: second movable plate, 117: first fixed plate, 118: third spring, 12: fixing mechanism, 121: second fixing plate, 122: second slide rail, 123: second clamping plate, 124: fourth spring, 13: protection mechanism, 131: second dead lever, 132: guard plate, 133: first torsion spring, 134: third fixing lever, 135: second swivel plate, 136: and a second torsion spring.

Detailed Description

The following description is of the preferred embodiments of the invention, and is not intended to limit the scope of the invention.

Example 1

The utility model provides a carbon coating protection equipment based on optic fibre protection, as shown in fig. 1-16, including base 1, shell 2, first backup pad 3, second backup pad 4, first dead lever 5, place board 6, spout jar 7, place mechanism 8 and clamping mechanism 9, the base 1 top is equipped with shell 2, base 1 top right side is equipped with first backup pad 3, first backup pad 3 top right side is equipped with second backup pad 4, symmetry is equipped with first dead lever 5 around second backup pad 4 left side, first dead lever 5 downside all slidingtype is equipped with places board 6, place board 6 left side all has been placed and has spouted jar 7, base 1 top left side is equipped with and places mechanism 8, be equipped with clamping mechanism 9 on the mechanism 8, all slidingtype is equipped with the squeeze lever on spouting jar 7, all be connected with the elastic component between squeeze lever and the adjacent jar 7 that spouts.

The placement mechanism 8 comprises a third support plate 81, a fixing block 82 and a placement frame 83, wherein the third support plate 81 is arranged on the left side of the top of the base 1, the fixing block 82 is symmetrically arranged on the upper side and the lower side of the third support plate 81, and the placement frame 83 is rotatably arranged on the inner side of the fixing block 82.

The clamping mechanism 9 comprises a movable rod 91, a first clamping plate 92 and a first spring 93, wherein the movable rod 91 is arranged on the left side and the right side of the placement frame 83 in a sliding mode, the first clamping plate 92 is arranged at the inner end of the movable rod 91, the first spring 93 is connected between the movable rod 91 and the adjacent placement frame 83, and the first spring 93 is sleeved on the corresponding movable rod 91.

The equipment can be used when a carbon film is smeared on the surface layer of an optical fiber, a worker can put the spray tank 7 on the placing plate 6, then the movable rod 91 is pulled to drive the first clamping plate 92 to move outwards, the first spring 93 is stretched, the optical fiber can be put between the upper placing frame 83 and the lower placing frame 83 on the same side, the movable rod 91 is loosened, the movable rod 91 and the first clamping plate 92 move inwards under the action of the first spring 93, the optical fiber can be clamped through the first clamping plate 92, then the worker can rotate the placing frame 83, the placing frame 83 rotates to drive the movable rod 91, the first clamping plate 92 and the first spring 93 to rotate, so that the optical fiber can be driven to rotate, and meanwhile, the other worker can drive the placing plate 6 to move upwards and then downwards, so that the pressing rod of the spray tank 7 is intermittently pressed downwards in the process of moving the spray tank 7, the elastic piece is compressed, the pressing rod is loosened, the pressing rod is upwards moved to move the resetting rod downwards, the carbon material in the spray tank 7 can be sprayed out through the first clamping plate 92, the carbon film can be well formed on the rotating upper surface of the rotating optical fiber, the carbon film can be driven to move the first clamping plate 92, and the carbon film can be driven to move downwards after the first clamping plate 92 is moved downwards, the carbon film is driven to move the first clamping plate 92 is repeatedly, and the carbon film is moved downwards, the carbon film is driven to move the carbon film is sprayed to move upwards by the pressing plate 92 is driven to move the pressing rod 92, and then the carbon film is intermittently moves upwards to move upwards and then is moved upwards to move upwards and is moved.

The rotary mechanism 10 comprises a fourth supporting plate 101, a motor 102, a bevel gear 103, a screw rod 104, a full gear 105 and a flat belt 106, wherein the rear part of the right upper side of the second supporting plate 4 is provided with the fourth supporting plate 101, the front side of the top of the fourth supporting plate 101 is provided with the motor 102, the screw rod 104 is rotationally arranged in front and back of the middle part of the first supporting plate 3, the placing plate 6 is correspondingly connected with the screw rod 104 in a threaded manner, the lower side of the screw rod 104 is provided with the full gear 105, the full gear 105 is meshed with each other, the bevel gear 103 is arranged on the upper side of the front screw rod 104 and the left side of an output shaft of the motor 102, the bevel gear 103 is meshed with each other, and the flat belt 106 is sleeved between the upper side, the lower side and the placing frame 83 of the same side of the screw rod 104 through a belt pulley.

When spraying carbon onto the optical fiber, a worker can start the motor 102 to work, the output shaft of the motor 102 rotates to drive the front screw rod 104 to rotate through the bevel gear 103, so that the rear screw rod 104 can rotate through the all-gear 105, the screw rod 104 rotates to drive the placing frame 83 to rotate through the flat belt 106, the placing frame 83 rotates to enable the optical fiber to rotate, so that the placing frame 83 does not need to be manually rotated, the screw rod 104 rotates to drive the placing plate 6 to move up and down, the placing plate 6 moves up and down to drive the spraying tank 7 to move up and down, the worker only needs to press the extrusion rod of the spraying tank 7, manual operation can be reduced, and when the carbon film is sprayed onto the optical fiber, the motor 102 stops working, and the optical fiber with the sprayed carbon film can be taken down.

The pressing mechanism 11 comprises a first rotating plate 111, a support 112, a first movable plate 113, a second spring 114, a first sliding rail 115, a second movable plate 116, a first fixed plate 117 and a third spring 118, wherein the first rotating plate 111 is arranged on the lower side of the screw rod 104, the support 112 is arranged on the right side of the top of the first support plate 3, the support 112 is arranged on the left side of the second support plate 4, the first movable plate 113 is arranged on the upper side of the support 112 in a sliding manner, a second spring 114 is connected between the first movable plate 113 and the support 112, the second spring 114 is wound on the first movable plate 113, the first sliding rail 115 is arranged in the middle of the top of the placing plate 6, the second movable plate 116 is arranged on the right side of the first sliding rail 115 in a sliding manner, the first fixed plate 117 is connected between the upper sides of the second movable plate 116, and the third spring 118 is connected between the second movable plate 116 and the adjacent first sliding rail 115.

The first rotating plate 111 is driven to rotate by the rotation of the screw rod 104, the first rotating plate 111 is propped against the first movable plate 113, so that the first movable plate 113 moves rightwards, the second spring 114 is continuously compressed, after the first rotating plate 111 rotates and is not propped against the first movable plate 113, the first movable plate 113 moves leftwards under the action of the second spring 114 to reset, so that the first rotating plate 111 continuously rotates, the first movable plate 113 can intermittently move leftwards under the cooperation of the second spring 114, the first movable plate 113 moves leftwards to drive the first fixed plate 117 to move leftwards, the first fixed plate 117 moves leftwards to drive the second movable plate 116 to move leftwards, the third spring 118 is compressed, the second movable plate 116 moves leftwards to press the extrusion rod of the spraying tank 7 to move downwards, and when the first movable plate 113 moves rightwards, the first fixed plate 117 and the extrusion rod of the second movable plate 116 move rightwards under the action of the third spring 118 to reset, so that the extrusion rod of the spraying tank 7 can automatically move downwards, further the optical fiber can be controlled by a motor, and the optical fiber can be further saved after the optical fiber 102 is released by a worker.

Still including fixed establishment 12, fixed establishment 12 is including second fixed plate 121, second slide rail 122, second splint 123 and fourth spring 124, and place board 6 left portion inboard and all be equipped with second fixed plate 121, place board 6 left portion outside and all be equipped with second slide rail 122, all slide on the second slide rail 122 and be equipped with second splint 123, all be connected with fourth spring 124 between second splint 123 and the adjacent second slide rail 122.

When the spray can 7 is required to be placed on the placing plate 6, a worker can pull the second clamping plate 123 to move outwards, the fourth spring 124 is compressed, then the spray can 7 can be placed on the placing plate 6, the second clamping plate 123 is loosened, the second clamping plate 123 moves inwards to reset under the action of the fourth spring 124, the second clamping plate 123 moves inwards to be matched with the second fixing plate 121 to clamp the spray can 7, and therefore the spray can 7 can be prevented from being separated from the placing plate 6 in the up-and-down moving process, and the spray work can be normally carried out.

The protection mechanism 13 comprises a second fixing rod 131, a protection plate 132, a first torsion spring 133, a third fixing rod 134, a second rotating plate 135 and a second torsion spring 136, wherein the second fixing rod 131 is symmetrically arranged on the lower portion of the left side of the shell 2, the protection plate 132 is rotatably arranged on the second fixing rod 131, the first torsion spring 133 is connected between the protection plate 132 and the shell 2, the first torsion spring 133 is wound on the corresponding second fixing rod 131, the third fixing rod 134 is arranged on the lower portion of the left rear side of the front side protection plate 132, the third fixing rod 134 is also arranged on the front portion of the left upper side of the rear side protection plate 132, the second rotating plate 135 is rotatably arranged on the third fixing rod 134, the second torsion spring 136 is connected between the second rotating plate 135 and the adjacent third fixing rod 134, and the second torsion spring 136 is wound on the corresponding third fixing rod 134.

When the optical fibers are required to be placed between the upper placing frame 83 and the lower placing frame 83 on the same side, a worker can rotate the second rotating plate 135, the second torsion spring 136 deforms, the second rotating plate 135 is prevented from propping against the other protecting plate 132, the protecting plate 132 can be pulled to rotate outwards to prevent the left side of the shell 2 from being covered, the first torsion spring 133 deforms, then the optical fibers can be placed well, the protecting plate 132 is loosened, the protecting plate 132 rotates to reset under the action of the first torsion spring 133, the second rotating plate 135 is loosened, the second rotating plate 135 rotates to reset under the action of the second torsion spring 136, then the work of spraying carbon to the optical fibers is performed, the protecting plate 132 can cover the left side of the shell 2, so that the situation that the carbon materials are splashed out of the shell 2 can be difficult to clean everywhere can be prevented, the middle of the protecting plate 132 is provided with a transparent glass plate, the worker can see the progress of spraying work through the transparent glass plate, after the spraying is finished, the motor 102 stops working, the protecting plate 132 is rotated outwards again, and then the optical fibers are taken out to rotate the protecting plate 132 back.

The above embodiments are provided to illustrate the technical concept and features of the present invention and are intended to enable those skilled in the art to understand the content of the present invention and implement the same, and are not intended to limit the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims

1. Carbon coating protection equipment based on optical fiber protection, its characterized in that: including base (1), shell (2), first backup pad (3), second backup pad (4), first dead lever (5), place board (6), spout jar (7), place mechanism (8) and clamping mechanism (9), base (1) top is equipped with shell (2), base (1) top one side is equipped with first backup pad (3), first backup pad (3) top one side is equipped with second backup pad (4), second backup pad (4) one side symmetry is equipped with first dead lever (5), first dead lever (5) one side all slidingtype is equipped with places board (6), place board (6) one side of keeping away from second backup pad (4) all has been placed and has been spouted jar (7), one side that second backup pad (4) can be kept away from at base (1) top is equipped with can be to the optical fiber placing mechanism (8), be equipped with on placing mechanism (8) can be with optical fiber clamping's clamping mechanism (9), all slidingtype be equipped with the squeeze lever on spouting jar (7), all be connected with the elastic component between squeeze lever and the adjacent jar (7).

2. A carbon-coated optical fiber protection device according to claim 1, wherein: placing mechanism (8) including third backup pad (81), fixed block (82) and place frame (83), one side of base (1) top second backup pad (4) is equipped with third backup pad (81), and third backup pad (81) both sides all symmetry are equipped with fixed block (82), and fixed block (82) inboard all rotates and is equipped with places frame (83).

3. A carbon-coated optical fiber protection device according to claim 2, wherein: the clamping mechanism (9) comprises a movable rod (91), a first clamping plate (92) and a first spring (93), wherein the movable rod (91) is arranged on two sides of the placing frame (83) in a sliding mode, the first clamping plate (92) is arranged at the inner end of the movable rod (91), the first spring (93) is connected between the movable rod (91) and the adjacent placing frame (83), and the first spring (93) is sleeved on the corresponding movable rod (91).

4. A carbon-coated optical fiber protection device according to claim 3, wherein: still including rotary mechanism (10), rotary mechanism (10) are including fourth backup pad (101), motor (102), bevel gear (103), lead screw (104), all-gear (105) and flat belt (106), second backup pad (4) one side is equipped with fourth backup pad (101), fourth backup pad (101) top one side is equipped with motor (102), first backup pad (3) middle part symmetry rotation is equipped with lead screw (104), place board (6) and lead screw (104) and correspond threaded connection, lead screw (104) one side all is equipped with all-gear (105), all-gear (105) intermesh, one side lead screw (104) one side all is equipped with bevel gear (103) with motor (102) output shaft one side, bevel gear (103) intermesh, all have flat belt (106) through the belt pulley cover between the frame (83) of placing of both sides and homonymy of lead screw (104).

5. A carbon-coated optical fiber protection device according to claim 4, wherein: still including pressing mechanism (11), pressing mechanism (11) are including first rotating plate (111), support (112), first fly leaf (113), second spring (114), first slide rail (115), second fly leaf (116), first fixed plate (117) and third spring (118), one side that lead screw (104) are close to all gear (105) all is equipped with first rotating plate (111), one side that first backup pad (3) top is close to second backup pad (4) is equipped with support (112), support (112) one side slidingtype is equipped with first fly leaf (113), be connected with second spring (114) between first fly leaf (113) and the support (112), second spring (114) are around on first fly leaf (113), all be equipped with first slide rail (115) in the middle of placing board (6) top, first slide rail (115) one side all is slideable is equipped with second fly leaf (116), be connected with first fixed plate (117) between second fly leaf (116) and adjacent first slide rail (115) one side, all be connected with third spring (118).

6. A carbon-coated optical fiber protection device according to claim 5, wherein: still including fixed establishment (12), fixed establishment (12) are including second fixed plate (121), second slide rail (122), second splint (123) and fourth spring (124), place board (6) one side and all be equipped with second fixed plate (121), place board (6) and keep away from one side of second fixed plate (121) and all be equipped with second slide rail (122), all slidingtype be equipped with second splint (123) on second slide rail (122), all be connected with fourth spring (124) between second splint (123) and the adjacent second slide rail (122).

7. A carbon-coated optical fiber protection device according to claim 6, wherein: the novel anti-theft protection device is characterized by further comprising a protection mechanism (13), wherein the protection mechanism (13) comprises a second fixing rod (131), a protection plate (132), a first torsion spring (133), a third fixing rod (134), a second rotating plate (135) and a second torsion spring (136), the second fixing rod (131) is symmetrically arranged on one side, far away from the screw rod (104), of the housing (2), the protection plate (132) is rotatably arranged on the second fixing rod (131), a first torsion spring (133) is connected between the protection plate (132) and the housing (2), the first torsion spring (133) is wound on the corresponding second fixing rod (131), a third fixing rod (134) is arranged on one side of the side-moving protection plate (132), a third fixing rod (134) is also arranged on one side of the other side-moving protection plate (132), the second rotating plate (135) is rotatably arranged on the third fixing rod (134), the second torsion spring (136) is rotatably arranged between the second rotating plate (135) and the adjacent third fixing rod (134), and the second torsion spring (136) is wound on the corresponding third fixing rod (134).

8. A carbon-coated optical fiber protection device according to claim 7, wherein: transparent glass plates are arranged on the protection plates (132).