CN110989083A

CN110989083A - Optical fiber cable coating layer processing device

Info

Publication number: CN110989083A
Application number: CN201911385674.7A
Authority: CN
Inventors: 朱昀
Original assignee: 朱昀
Current assignee: Nantong Guangyi communication equipment Co., Ltd
Priority date: 2019-12-29
Filing date: 2019-12-29
Publication date: 2020-04-10
Anticipated expiration: 2039-12-29
Also published as: CN110989083B

Abstract

The invention discloses an optical fiber cable coating layer processing device, which relates to the technical field of optical fiber processing and comprises a base, a guide assembly, a conveying assembly, a rotary clamping assembly and a cutting recovery mechanism, wherein the base is arranged on the ground, the guide assembly, the conveying assembly, the rotary clamping assembly and the cutting recovery mechanism are sequentially arranged above the base, and the guide assembly, the conveying assembly, the rotary clamping assembly and the cutting recovery mechanism are fixedly connected with the base. According to the invention, the operation of automatically cutting and recovering the coating layers at the two ends of the optical fiber cable can be realized through the matching work of all the components, and the practicability is higher.

Description

Optical fiber cable coating layer processing device

Technical Field

The invention relates to the technical field of optical fiber processing, in particular to a processing device for a coating layer of an optical fiber cable.

Background

With the advancement of technology, the speed of information transmission is becoming more and more demanding, and it has become more and more convenient to produce optical cables that are manufactured to meet optical, mechanical or environmental performance specifications, and that utilize one or more optical fibers disposed in a covering jacket as the transmission medium and that can be used individually or in groups as telecommunication cable assemblies; the broadband Chinese strategy is vigorously developed in China, along with the development of fiber to the home and 4G networks, the requirements for the performance of optical cables are gradually improved, the optical fiber cables are key materials for information society communication technology, coating layers at two ends of the optical fiber cables to be welded need to be stripped for one section in the welding process of the optical fiber cables, subsequent welding operation is convenient to perform, the traditional coating layer stripping is manually operated by using cold stripping pliers and hot stripping devices, the stripping time is greatly prolonged, and a large amount of waste materials are generated in the stripping process and are inconvenient to clean.

Disclosure of Invention

The invention aims to provide a device for processing a coating layer of an optical fiber cable, which aims to solve the problems that the traditional coating layer stripping is manually operated by using cold stripping pliers and a hot stripping device, the stripping time is greatly prolonged, and a large amount of waste materials are generated in the stripping process and are inconvenient to clean.

The invention provides an optical fiber cable coating layer processing device which comprises a base, a guide assembly, a conveying assembly, a rotary clamping assembly and a cutting recovery mechanism, wherein the base is arranged on the ground, the guide assembly, the conveying assembly, the rotary clamping assembly and the cutting recovery mechanism are sequentially arranged above the base, and the guide assembly, the conveying assembly, the rotary clamping assembly and the cutting recovery mechanism are fixedly connected with the base.

Further, the direction subassembly includes base, guide holder, direction circle cover, regulation inserted block and regulation arc board, the base sets up on the base, the base with fixed connection between the base, the guide holder is vertical setting on the base, the bottom of guide holder with fixed connection between the base, the direction circle cover is fixed to be set up the top of guide holder, adjust the inserted block with adjust the arc board and all be equipped with two, two adjust the both sides that the inserted block symmetry set up on the direction circle cover, two adjust the inserted block all with the cooperation of pegging graft between the direction circle cover, two the one end of adjusting the inserted block all runs through the direction circle cover and extend to in the direction circle cover, two it is fixed respectively to set up one to adjust the arc board adjust the inserted block and be located one of direction circle cover inside is served.

Further, the conveying assembly comprises a bottom plate, two conveying seats, a conveying motor, a conveying belt, two conveying shafts and conveying rollers, wherein the bottom plate is fixedly arranged above the base, the two conveying seats are identical in structure and symmetrically and fixedly arranged on two sides of the bottom plate, the conveying shafts are rotatably arranged on the two conveying seats, the conveying rollers are fixedly arranged on the middle section of the conveying shafts, the conveying motor is fixedly arranged on one side of the bottom plate, and the conveying belt is sleeved on an output shaft of the conveying motor and one end of the conveying shaft.

Further, the rotary clamping assembly comprises a supporting plate, a rotating part and a clamping part, the supporting plate is fixedly arranged on the base, the rotating part is fixedly arranged on the supporting plate, the clamping part is fixedly arranged on the rotating part, the rotating part can drive the clamping part to rotate and adjust, the rotating part comprises a mounting plate, a rotating motor, a rotating gear, a rotating shaft, a linkage gear and a rotating plate, the mounting plate is vertically and fixedly arranged on one side of the supporting plate, the rotating motor is fixedly arranged on the supporting plate and is positioned on the rear side of the mounting plate, the rotating gear is fixedly arranged on an output shaft of the rotating motor, the rotating shaft is of a hollow structure, the rotating shaft is rotatably arranged on the mounting plate, the linkage gear is clamped on one end of the rotating shaft positioned on the rear side of the mounting plate, the rotating gear is meshed with the linkage gear, the rotating plate is sleeved at one end of the rotating shaft, which is positioned at the front side of the mounting plate, and the rotating plate is fixedly connected with the rotating shaft.

Furthermore, the clamping components are two groups, the two groups of clamping components are identical in structure, the two groups of clamping components are symmetrically arranged on two sides of the rotating plate, each group of clamping components comprises a clamping cylinder, an auxiliary push rod and a clamping plate, the clamping cylinder is fixedly arranged on the rotating plate, the auxiliary push rods are two groups, the two groups of auxiliary push rods are fixedly arranged on the rotating plate, the two groups of auxiliary push rods are respectively located on two sides of the clamping cylinder, the clamping plates are fixedly arranged at the output end of the clamping cylinder and the output ends of the two groups of auxiliary push rods, and rubber pads are attached to the clamping plates.

Further, the excision is retrieved the mechanism and is included movable slide rail, removal rack, excision subassembly and recovery subassembly, movable slide rail is fixed to be set up on the base, the fixed setting of movable rack is on the base and be located movable slide rail's side, the excision subassembly sets up on movable slide rail, the excision subassembly with sliding fit between the movable slide rail, retrieve the subassembly and set up on movable slide rail, it is located to retrieve the subassembly the front side of excision subassembly, retrieve the subassembly with sliding fit between the movable slide rail.

Further, the cutting assembly comprises a first movable sliding table, a first movable motor, a first movable gear, a mounting frame, a downward pressing push rod, a downward pressing plate and a cutting machine, the first movable sliding table is arranged on the movable sliding rail and is in sliding fit with the movable sliding rail, the first moving motor is fixedly arranged on the first moving sliding table, the first moving gear is fixedly arranged on an output shaft of the first moving motor, the first movable gear is meshed with the movable rack, the mounting rack is arranged in an L shape, the bottom of the mounting rack is fixedly connected with the first movable sliding table, the downward-pressing push rod is fixedly arranged at the top of the mounting frame, the output end of the downward-pressing push rod penetrates through the top of the mounting frame, the lower pressing plate is fixedly arranged at the output end of the lower pressing push rod, and the cutting machine is fixedly arranged on the lower pressing plate.

Further, the recycling assembly comprises a second movable sliding table, a second movable motor, a second movable gear, a lifting push rod, a lifting plate, a clamping cylinder, a fixed table and a recycling box, the second movable sliding table is arranged on the movable slide rail, the second movable sliding table is in sliding fit with the movable slide rail, the second movable motor is fixedly arranged on the second movable sliding table, the second movable gear is fixedly arranged on an output shaft of the second movable motor, the second movable gear is meshed with the movable rack, the lifting push rod is fixedly arranged on the second movable sliding table, an output end of the lifting push rod is arranged upwards, the lifting plate is fixedly arranged on an output end of the lifting push rod, the clamping cylinder is fixedly arranged on the lifting plate, the fixed table is arranged on the second movable sliding table, and a slot is formed in the fixed table, the recycling bin is inserted into the fixed table through a slot.

Compared with the prior art, the invention has the beneficial effects that:

firstly, when the coating of the optical fiber cable needs to be stripped, the optical fiber cable firstly passes through the guide assembly on the base manually, the guide assembly is used for guiding the optical fiber cable to prevent the position of the optical fiber cable from deviating in the stripping process, the optical fiber cable is placed into the conveying assembly for conveying operation after passing through the guide assembly, the conveying assembly stops working after conveying the optical fiber cable to the rotary clamping assembly, at the moment, the rotary clamping assembly works to clamp and fix the optical fiber cable and then drive the optical fiber cable to rotate and adjust, at the moment, the cutting and recovering mechanism works to automatically cut off the optical cable coating on one end of the optical fiber cable, and the cut-off optical fiber cable coating is recovered after the cutting off is finished, the invention can realize the automatic cutting and recovering operation of the coatings on the two ends of the optical fiber cable through the matching operation of each assembly, the practicability is higher.

The optical fiber cable is guided by the guide assembly, so that the optical fiber cable is prevented from being shifted in position in the stripping process, when the guiding operation is needed, the optical fiber cable firstly penetrates through the guide circular sleeve on the guide seat, after the optical fiber cable penetrates through the guide circular sleeve, the two adjusting insertion blocks on the guide circular sleeve are adjusted, the two adjusting insertion blocks drive the two adjusting arc plates to be adjusted inwards, the optical fiber cable is fixed between the two adjusting arc plates, and the optical fiber cable coating layer is prevented from being shifted in the stripping process.

Thirdly, the invention is used for carrying out rotation adjustment after the optical fiber cable is fixed through the arrangement of the rotary clamping component, so as to facilitate the operation of cutting and recovery of the cutting and recovery mechanism, firstly, the optical fiber cable passes through the rotary shaft and then the optical fiber cable is clamped by the work of the clamping component, then the rotary component drives the clamping component to rotate, the clamping component drives the optical fiber cable to rotate, when the rotary component works, the rotary motor on the supporting plate works to drive the rotary gear to rotate, the rotary gear drives the linkage gear meshed with the rotary gear to rotate synchronously, the linkage gear drives the rotary shaft to carry out rotation adjustment on the mounting plate, and simultaneously drives the rotary plate to carry out rotation adjustment, the rotary plate drives the clamping component to carry out rotation adjustment, when the clamping component works, two clamping cylinders in the two groups of clamping components work respectively to drive the two clamping plates to carry, two clamp plates then carry out spacing fixed with fiber optic cable, and auxiliary push rod's setting is used for playing the supplementary tight effect of clamp, and the setting of rubber pad is used for preventing the wearing and tearing of the fiber optic cable that causes at the tight in-process of clamp.

The invention automatically cuts off the optical cable coating layer on one end of the optical fiber cable through the cutting and recovering mechanism, and recovers the cut off optical fiber cable coating layer after cutting off, the movable slide rail and the movable rack are used for matching with the cutting component and the recovering component to perform movement regulation, the cutting component is used for cutting off the optical fiber cable coating layer, the recovering component is arranged for recovering the optical fiber cable coating layer, when the cutting component works, the first movable motor works to drive the first movable gear to rotate, the first movable gear moves on the movable rack meshed with the first movable gear and drives the first movable sliding table to move, after the first movable sliding table drives the mounting frame to move above the optical fiber cable, the lower push rod on the mounting frame works to drive the lower press plate to regulate downwards, and the lower press plate drives the cutting machine to regulate downwards onto the optical fiber cable, excise the coating of optical fiber cable, when retrieving subassembly during operation, second mobile motor work drives the second and removes the gear and rotate, the second removes the gear and removes on the removal rack rather than the meshing and drive the second simultaneously and remove the slip table and remove, the second removes the slip table and drives the collection box and remove to optical fiber cable below back, lift push rod work drives the lifter plate and upwards adjusts, the lifter plate moves the clamp and gets cylinder rebound to optical fiber cable department, press from both sides and get the cylinder and get the operation of retrieving after pressing from both sides the optical fiber cable coating that finishes with the excision and place in the collection box.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a perspective view of the guide assembly of the present invention;

FIG. 4 is a perspective view of the delivery assembly of the present invention;

FIG. 5 is a schematic view of a first angular perspective of the rotating clamp assembly of the present invention;

FIG. 6 is a second perspective view of the rotating clamping assembly of the present invention;

FIG. 7 is a schematic view of a first angled perspective of the resection recovery mechanism of the present invention;

FIG. 8 is a second perspective view of the excision recycling mechanism of the present invention.

Reference numerals:

the cutting machine comprises a base 1, a guide assembly 2, a base 21, a guide seat 22, a guide circular sleeve 23, an adjusting insert block 24, an adjusting arc plate 25, a conveying assembly 3, a bottom plate 31, a conveying seat 32, a conveying motor 33, a conveying belt 34, a conveying shaft 35, a conveying roller 36, a rotary clamping assembly 4, a supporting plate 41, a rotating component 42, a mounting plate 421, a rotating motor 422, a rotating gear 423, a rotating shaft 424, a linkage gear 425, a rotating plate 426, a clamping component 43, a clamping cylinder 431, an auxiliary push rod 432, a clamping plate 433, a rubber pad 434, a cutting recovery mechanism 5, a movable sliding rail 51, a movable rack 52, a cutting assembly 53, a first movable sliding table 531, a first movable motor 532, a first movable gear 533, a mounting frame 534, a pressing push rod 535, a pressing plate 536, a cutting machine 537, a recovery assembly 54, a second movable sliding table 541, a second movable motor 542, a second movable gear 543, a, the lifting plate 545, the gripping cylinder 546, the fixing table 547, and the recovery box 548.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 8, an embodiment of the present invention provides an optical fiber cable coating layer processing apparatus, including a base 1, a guiding assembly 2, a conveying assembly 3, a rotating clamping assembly 4, and a cutting recovery mechanism 5, where the base 1 is disposed on the ground, the guiding assembly 2, the conveying assembly 3, the rotating clamping assembly 4, and the cutting recovery mechanism 5 are sequentially disposed above the base 1, and the guiding assembly 2, the conveying assembly 3, the rotating clamping assembly 4, and the cutting recovery mechanism 5 are all fixedly connected to the base 1. When the coating of the optical fiber cable needs to be stripped, the optical fiber cable firstly passes through the guide assembly 2 on the base 1 manually, the guide assembly 2 is used for guiding the optical fiber cable to prevent the optical fiber cable from deviating in the stripping process, the optical fiber cable is placed into the conveying assembly 3 for conveying operation after passing through the guide assembly 2, the conveying assembly 3 stops working after conveying the optical fiber cable to the rotary clamping assembly 4, at the moment, the rotary clamping assembly 4 works to clamp and fix the optical fiber cable and then drive the optical fiber cable to rotate and adjust, the cutting and recovering mechanism 5 works to automatically cut off the optical cable coating on one end of the optical fiber cable, and the cut-off optical fiber cable coating is recovered after cutting off, the invention can realize the automatic cutting and recovering operation of the coatings on two ends of the optical fiber cable through the matching work of each assembly, the practicability is higher.

The guide assembly 2 comprises a base 21, a guide seat 22, a guide circular sleeve 23, adjusting insertion blocks 24 and adjusting arc plates 25, wherein the base 21 is arranged on the base 1, the base 21 is fixedly connected with the base 1, the guide seat 22 is vertically arranged on the base 21, the bottom of the guide seat 22 is fixedly connected with the base 21, the guide circular sleeve 23 is fixedly arranged at the top of the guide seat 22, the adjusting insertion blocks 24 and the adjusting arc plates 25 are respectively provided with two, the two adjusting insertion blocks 24 are symmetrically arranged at two sides of the guide circular sleeve 23, the two adjusting insertion blocks 24 are respectively matched with the guide circular sleeve 23 in an inserting manner, one end of each adjusting insertion block 24 penetrates through the guide circular sleeve 23 and extends into the guide circular sleeve 23, the two adjusting arc plates 25 are respectively fixedly arranged at one end of each adjusting insertion block 24, which is positioned at the inner part of the guide circular sleeve 23, the setting through direction subassembly 2 is used for leading the optical fiber cable, prevent that the optical fiber cable from taking place the skew in stripping in-process position, when the operation is led to needs, pass the direction circle cover 23 on the guide holder 22 with the optical fiber cable earlier, after the optical fiber cable passed direction circle cover 23, adjust two on the direction circle cover 23 and adjust inserted block 24, two are adjusted inserted block 24 and are driven two and adjust arc plate 25 and inwards adjust, fix the optical fiber cable between the two, prevent that the optical fiber coating can take place the skew in stripping.

The conveying assembly 3 comprises a bottom plate 31, two conveying seats 32, a conveying motor 33, a conveying belt 34, a conveying shaft 35 and conveying rollers 36, wherein the bottom plate 31 is fixedly arranged above the base 1, the two conveying seats 32 are of the same structure, the two conveying seats 32 are symmetrically and fixedly arranged on two sides of the bottom plate 31, the conveying shaft 35 is rotatably arranged on the two conveying seats 32, the conveying rollers 36 are fixedly arranged on the middle section of the conveying shaft 35, the conveying motor 33 is fixedly arranged on one side of the bottom plate 31, the conveying belt 34 is sleeved on an output shaft of the conveying motor 33 and one end of the conveying shaft 35, the conveying assembly 3 is used for carrying out automatic conveying operation on optical fiber cables, and when the conveying assembly 3 works, the conveying motor 33 on the bottom plate 31 works to drive the conveying belt 34 to rotate, the conveying belt 34 drives the conveying shaft 35 to rotate synchronously, the conveying shaft 35 rotates on the two conveying seats 32 to drive the conveying roller 36 fixedly connected with the conveying shaft to rotate, and the conveying roller 36 drives the optical fiber cable to perform conveying operation.

The rotating clamping assembly 4 comprises a supporting plate 41, a rotating component 42 and a clamping component 43, wherein the supporting plate 41 is fixedly arranged on the base 21, the rotating component 42 is fixedly arranged on the supporting plate 41, the clamping component 43 is fixedly arranged on the rotating component 42, the rotating component 42 can drive the clamping component 43 to rotate and adjust, the rotating component 42 comprises a mounting plate 421, a rotating motor 422, a rotating gear 423, a rotating shaft 424, a linkage gear 425 and a rotating plate 426, the mounting plate 421 is vertically and fixedly arranged on one side of the supporting plate 41, the rotating motor 422 is fixedly arranged on the supporting plate 41 and is positioned on the rear side of the mounting plate 421, the rotating gear 423 is fixedly arranged on an output shaft of the rotating motor 422, the rotating shaft 424 is of a hollow structure, the rotating shaft 424 is rotatably arranged on the mounting plate 421, the linkage gear 425 is arranged on one end of the rotating shaft 424, which is positioned on the rear side of the mounting plate, the rotating gear 423 is engaged with the linkage gear 425, the rotating plate 426 is sleeved on one end of the rotating shaft 424, which is located on the front side of the mounting plate 421, the rotating plate 426 is fixedly connected with the rotating shaft 424, the rotating clamping component 4 is arranged to rotate and adjust the optical fiber cable after the optical fiber cable is fixed, so that the cutting and recycling mechanism 5 can conveniently perform cutting and recycling operations, firstly, the optical fiber cable passes through the rear clamping component 43 from the rotating shaft 424 to work to clamp the optical fiber cable, then, the rotating component 42 drives the clamping component 43 to rotate, the clamping component 43 drives the optical fiber cable to rotate, when the rotating component 42 works, the rotating motor 422 on the support plate 41 works to drive the rotating gear 423 to rotate, the rotating gear 423 drives the linkage gear 425 engaged with the rotating gear 423 to rotate synchronously, and the linkage gear 425 drives the rotating shaft 424 to rotate and adjust on the mounting, at the same time, the rotating plate 426 is driven to rotate, and the rotating plate 426 drives the clamping member 43 to rotate.

The clamping members 43 are provided with two groups, the two groups of clamping members 43 have the same structure, the two groups of clamping members 43 are symmetrically arranged on two sides of the rotating plate 426, each group of clamping members 43 comprises a clamping cylinder 431, an auxiliary push rod 432 and a clamping plate 433, the clamping cylinder 431 is fixedly arranged on the rotating plate 426, the auxiliary push rod 432 is provided with two groups, the two groups of auxiliary push rods 432 are fixedly arranged on the rotating plate 426, the two groups of auxiliary push rods 432 are respectively positioned on two sides of the clamping cylinder 431, the clamping plate 433 is fixedly arranged on the output end of the clamping cylinder 431 and the output end of the two groups of auxiliary push rods 432, a rubber pad 434 is attached to the clamping plate 433, when the clamping members 43 work, the two clamping cylinders 431 in the two groups of clamping members 43 respectively work to drive the two clamping plates 433 to adjust inwards, and the two clamping plates 433 limit and fix the optical fiber cable, the auxiliary push rod 432 is provided to assist clamping, and the rubber pad 434 is provided to prevent abrasion of the optical fiber cable caused during clamping.

The cutting and recovering mechanism 5 comprises a movable sliding rail 51, a movable rack 52, a cutting component 53 and a recovering component 54, the movable sliding rail 51 is fixedly arranged on the base 1, the movable rack 52 is fixedly arranged on the base 1 and located beside the movable sliding rail 51, the cutting component 53 is arranged on the movable sliding rail 51, the cutting component 53 is in sliding fit with the movable sliding rail 51, the recovering component 54 is arranged on the movable sliding rail 51, the recovering component 54 is located at the front side of the cutting component 53, the recovering component 54 is in sliding fit with the movable sliding rail 51, the cutting and recovering mechanism 5 is arranged to automatically cut off the optical cable coating layer on one end of the optical fiber cable, the cut optical cable coating layer is recovered after cutting, and the movable sliding rail 51 and the movable rack 52 are used for matching the cutting component 53 and the recovering component 54 to move and adjust, the cutting assembly 53 is used for cutting the coating layer of the optical fiber cable, and the recovery assembly 54 is provided for recovering the coating layer of the optical fiber cable.

The cutting-off assembly 53 comprises a first movable sliding table 531, a first movable motor 532, a first movable gear 533, a mounting frame 534, a downward pressing push rod 535, a downward pressing plate 536 and a cutting machine 537, wherein the first movable sliding table 531 is arranged on the movable slide rail 51, the first movable sliding table 531 is in sliding fit with the movable slide rail 51, the first movable motor 532 is fixedly arranged on the first movable sliding table 531, the first movable gear 533 is fixedly arranged on an output shaft of the first movable motor 532, the first movable gear 533 is meshed with the movable rack 52, the mounting frame 534 is arranged in an L shape, the bottom of the mounting frame 534 is fixedly connected with the first movable sliding table 531, the downward pressing push rod 535 is fixedly arranged at the top of the mounting frame 534, an output end of the downward pressing push rod 535 penetrates through the top of the mounting frame 534, the downward pressing plate 536 is fixedly arranged at an output end of the downward pressing push rod 535, cutting machine 537 is fixed to be set up on holding down plate 536, when excision subassembly 53 during operation, the work of first mobile motor 532 drives first mobile gear 533 and rotates, first mobile gear 533 moves on the removal rack 52 rather than the meshing and drives first removal slip table 531 and move simultaneously, after first removal slip table 531 drove mounting bracket 534 and moves to the fiber optic cable top, push rod 535 work of pushing down on the mounting bracket 534 drove holding down plate 536 and adjusts downwards, holding down plate 536 drove cutting machine 537 and adjusts downwards to the fiber optic cable, excise the coating of fiber optic cable.

The recovery assembly 54 comprises a second moving sliding table 541, a second moving motor 542, a second moving gear 543, a lifting push rod 544, a lifting plate 545, a clamping cylinder 546, a fixing table 547 and a recovery box 548, wherein the second moving sliding table 541 is arranged on the moving sliding rail 51, the second moving sliding table 541 is in sliding fit with the moving sliding rail 51, the second moving motor 542 is fixedly arranged on the second moving sliding table 541, the second moving gear 543 is fixedly arranged on an output shaft of the second moving motor 542, the second moving gear 543 is engaged with the moving rack 52, the lifting push rod 544 is fixedly arranged on the second moving sliding table 541, an output end of the lifting push rod 544 faces upward, the lifting plate 545 is fixedly arranged on an output end of the lifting push rod 544, the clamping cylinder 546 is fixedly arranged on the lifting plate 545, the fixing table 547 is arranged on the second moving sliding table 541, the slot has been seted up on the fixed station 547, collection box 548 is in through the slot grafting on the fixed station 547, when retrieving subassembly 54 during operation, second removal motor 542 work drives second mobile gear 543 and rotates, second mobile gear 543 moves on the removal rack 52 rather than the meshing and drives second mobile sliding table 541 and removes simultaneously, second mobile sliding table 541 drives collection box 548 and removes to the optical fiber cable below after, lift push rod 544 work drives lifter plate 545 upwards to adjust, lifter plate 545 drives to press from both sides and gets cylinder 546 and upwards move to optical fiber cable department, press from both sides and get cylinder 546 and place in collection box 548 after pressing from both sides the optical fiber cable clamp that finishes the optical fiber cable clamp and get the coating and carry out the recovery operation.

Claims

1. The utility model provides an optical fiber cable coating processingequipment which characterized in that: including base (1), direction subassembly (2), conveying component (3), rotary clamping component (4) and excision recovery mechanism (5), base (1) sets up subaerial, direction subassembly (2), conveying component (3), rotary clamping component (4) and excision recovery mechanism (5) set gradually in base (1) top according to the order, direction subassembly (2), conveying component (3), rotary clamping component (4) and excision recovery mechanism (5) all with fixed connection between base (1).

2. The apparatus for processing a coating layer of an optical fiber cable according to claim 1, wherein: the guide assembly (2) comprises a base (21), a guide seat (22), a guide circular sleeve (23), an adjusting insert block (24) and an adjusting arc plate (25), the base (21) is arranged on the base (1), the base (21) is fixedly connected with the base (1), the guide seat (22) is vertically arranged on the base (21), the bottom of the guide seat (22) is fixedly connected with the base (21), the guide circular sleeve (23) is fixedly arranged at the top of the guide seat (22), the adjusting insert block (24) and the adjusting arc plate (25) are respectively provided with two adjusting insert blocks (24) which are symmetrically arranged at two sides of the guide circular sleeve (23) and two adjusting insert blocks (24) which are respectively matched with the guide circular sleeve (23) in an inserting manner, one ends of the adjusting insert blocks (24) are respectively penetrated through the guide circular sleeve (23) and extend into the guide circular sleeve (23), the two adjusting arc plates (25) are respectively and fixedly arranged at one end of one adjusting insertion block (24) positioned in the guide circular sleeve (23).

3. The apparatus for processing a coating layer of an optical fiber cable according to claim 1, wherein: conveying assembly (3) include bottom plate (31), carry seat (32), conveying motor (33), conveyor belt (34), carry axle (35) and conveying roller (36), bottom plate (31) are fixed to be set up in base (1) top, carry seat (32) to be equipped with two, two carry seat (32) structure the same, two carry the fixed both sides that set up on bottom plate (31) of seat (32) symmetry, carry axle (35) to rotate and install two carry on seat (32), conveying roller (36) are fixed to be set up on the middle section position of carrying axle (35), one side on bottom plate (31) is fixed to conveyor motor (33) the output shaft of conveyor motor (33) with carry one of axle (35) to serve.

4. The apparatus for processing a coating layer of an optical fiber cable according to claim 1, wherein: the rotary clamping assembly (4) comprises a supporting plate (41), a rotating component (42) and a clamping component (43), the supporting plate (41) is fixedly arranged on a base (21), the rotating component (42) is fixedly arranged on the supporting plate (41), the clamping component (43) is fixedly arranged on the rotating component (42), the rotating component (42) can drive the clamping component (43) to rotate and adjust, the rotating component (42) comprises a mounting plate (421), a rotating motor (422), a rotating gear (423), a rotating shaft (424), a linkage gear (425) and a rotating plate (426), the mounting plate (421) is vertically and fixedly arranged on one side of the supporting plate (41), the rotating motor (422) is fixedly arranged on the supporting plate (41) and is positioned on the rear side of the mounting plate (421), the rotating gear (423) is fixedly arranged on an output shaft of the rotating motor (422), the rotating shaft (424) is of a hollow structure, the rotating shaft (424) is rotatably installed on the installation plate (421), the linkage gear (425) is clamped and arranged at one end, located on the rear side of the installation plate (421), of the rotating shaft (424), the rotating gear (423) is meshed with the linkage gear (425), the rotating plate (426) is sleeved at one end, located on the front side of the installation plate (421), of the rotating shaft (424), and the rotating plate (426) is fixedly connected with the rotating shaft (424).

5. The apparatus for processing a coating layer of an optical fiber cable according to claim 4, wherein: the clamping device comprises two groups of clamping components (43), wherein the two groups of clamping components (43) are identical in structure, the two groups of clamping components (43) are symmetrically arranged on two sides of a rotating plate (426), each group of clamping components (43) comprises a clamping cylinder (431), an auxiliary push rod (432) and a clamping plate (433), the clamping cylinders (431) are fixedly arranged on the rotating plate (426), the auxiliary push rods (432) are arranged in two groups, the two groups of auxiliary push rods (432) are fixedly arranged on the rotating plate (426), the two groups of auxiliary push rods (432) are respectively arranged on two sides of the clamping cylinders (431), the clamping plates (433) are fixedly arranged at the output ends of the clamping cylinders (431) and the output ends of the two groups of auxiliary push rods (432), and rubber pads (434) are attached to the clamping plates (433).

6. The apparatus for processing a coating layer of an optical fiber cable according to claim 1, wherein: mechanism (5) is retrieved in excision includes moving slide rail (51), removal rack (52), excision subassembly (53) and retrieves subassembly (54), moving slide rail (51) is fixed to be set up on base (1), moving rack (52) are fixed to be set up on base (1) and to be located the side of moving slide rail (51), excision subassembly (53) set up on moving slide rail (51), excision subassembly (53) with sliding fit between moving slide rail (51), retrieve subassembly (54) and set up on moving slide rail (51), retrieve subassembly (54) and be located the front side of excision subassembly (53), retrieve subassembly (54) with sliding fit between moving slide rail (51).

7. The apparatus for processing a coating layer of an optical fiber cable according to claim 1, wherein: the cutting assembly (53) comprises a first movable sliding table (531), a first movable motor (532), a first movable gear (533), a mounting frame (534), a pressing push rod (535), a pressing plate (536) and a cutting machine (537), wherein the first movable sliding table (531) is arranged on the movable sliding rail (51), the first movable sliding table (531) is in sliding fit with the movable sliding rail (51), the first movable motor (532) is fixedly arranged on the first movable sliding table (531), the first movable gear (533) is fixedly arranged on an output shaft of the first movable motor (532), the first movable gear (533) is meshed with the movable rack (52), the mounting frame (534) is in an L-shaped arrangement, the bottom of the mounting frame (534) is fixedly connected with the first movable sliding table (531), the pressing push rod (535) is fixedly arranged at the top of the mounting frame (534), the output end of the downward pressing push rod (535) penetrates through the top of the mounting frame (534), the downward pressing plate (536) is fixedly arranged on the output end of the downward pressing push rod (535), and the cutting machine (537) is fixedly arranged on the downward pressing plate (536).

8. The apparatus for processing a coating layer of an optical fiber cable according to claim 7, wherein: the recovery assembly (54) comprises a second movable sliding table (541), a second movable motor (542), a second movable gear (543), a lifting push rod (544), a lifting plate (545), a clamping cylinder (546), a fixed table (547) and a recovery box (548), wherein the second movable sliding table (541) is arranged on the movable sliding rail (51), the second movable sliding table (541) is in sliding fit with the movable sliding rail (51), the second movable motor (542) is fixedly arranged on the second movable sliding table (541), the second movable gear (543) is fixedly arranged on an output shaft of the second movable motor (542), the second movable gear (543) is meshed with the movable rack (52), the lifting push rod (544) is fixedly arranged on the second movable sliding table (541), and an output end of the lifting push rod (544) is arranged upwards, the lifting plate (545) is fixedly arranged at the output end of the lifting push rod (544), the clamping cylinder (546) is fixedly arranged on the lifting plate (545), the fixing table (547) is arranged on the second movable sliding table (541), slots are formed in the fixing table (547), and the recovery box (548) is inserted into the fixing table (547) through the slots.