CN206161893U - Automatic equipment of optic fibre middle section coat strips - Google Patents
Automatic equipment of optic fibre middle section coat strips Download PDFInfo
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- CN206161893U CN206161893U CN201621071742.4U CN201621071742U CN206161893U CN 206161893 U CN206161893 U CN 206161893U CN 201621071742 U CN201621071742 U CN 201621071742U CN 206161893 U CN206161893 U CN 206161893U
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- displacement mechanism
- optic fibre
- slide rail
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Abstract
The utility model relates to an automatic equipment of optic fibre middle section coat strips, including left end optic fibre clamps, rotary mechanism, vertical bit telephone -moving construct, cutting mechanism, base, fiber groove, right -hand member optic fibre clamps, lateral displacement mechanism, operation platform, open the settlement that stops, strips length, the settlement of the speed of stripping through what operation platform realized stripping, the coat of appointed length can strip at the stroke within range, can set for the number of revolution that the completion stripped, settlement tool motion speed. Optic fibre is placed in fiber groove, and optic fibre presss from both sides tight back cutter to be constructed the realization feed and move back the sword through the vertical bit telephone -moving. The cutter advances and the rewind down through the lateral displacement realization skiver of mechanism. Strip cut after the completion mechanism can be soon to the base side, conveniently take out optic fibre. The utility model discloses reliably stripping of optic fibre middle section coat is realized to the efficient, strips efficiently, and optic fibre is difficult for impairedly, and it is good to strip back optic fibre unity, has improved optical fiber coating layer after using greatly and stripped efficiency and strip optic fibre quality afterwards with the coat.
Description
Technical field
The utility model is related to a kind of equipment of automatic peeling optical fibre stage casing coat, is that optical fiber painting is carried out in laser industry
A kind of new equipment that coating is divested.
Background technology
The characteristics of optical fiber laser has high transformation efficiency, good stability, the focus that this year is always studied.In order to carry
High optical fiber laser beam quality, the high-order mode composition comprising flashlight produced when needing in a fiber to transmit pump light and
Unabsorbed pump light is peeled off away from optical fiber, that is, need Cladding Power Stripper.Make the one of Cladding Power Stripper
Item key technology is peeling optical fibre stage casing part coat, forms the window for leaking out cladding light.Optical fiber stage casing coat
The quality that divests determine the effect that final cladding light is divested, directly affect final beam quality.Current optical fiber stage casing coat
Divest and mostly manually divested manually by blade, divest that efficiency is low, quality is unstable and easily damages optical fiber.Divested using optical fiber
Device is only suitable for divesting tail end optical fiber, carries out coat when optical fiber stage casing coat is divested and be piled up in divest end, divest it is of poor quality,
Optical fiber is easily broken in strip.
The content of the invention
The purpose of this utility model is to overcome the deficiencies in the prior art and defect, there is provided in a kind of reliable and effective optical fiber
Section coat divests equipment.The utility model realizes motion and the optical fiber of cutter by straight-line displacement mechanism and turbine and worm mechanism
Rotation, by operating platform control these motion start and stop and speed.
The technical solution of the utility model is:
A kind of equipment of automatic peeling optical fibre stage casing coat, including left end fibre clip, rotating mechanism, vertical displacement machine
Structure, cutting mechanism, pedestal, optical fiber duct, right-hand member fibre clip, lateral displacement mechanism, operating platform, it is characterised in that:Left end optical fiber
Folder is connected with the turbine of rotating mechanism, and right-hand member fibre clip is fixed on pedestal;Optical fiber duct is fixed on the turbine and worm of rotating mechanism
In fixed seat;The turbine and worm fixed seat of rotating mechanism, the transverse ball lead screw slide rail of lateral displacement mechanism are connected and fixed on base
On seat, the vertical ball screw slide rail of vertical displacement mechanism is connected and fixed on the transverse slider of lateral displacement mechanism;Cutter
The bearing of structure is connected and fixed on the vertical slipper of vertical displacement mechanism;Operating platform is connected with pedestal, and operating platform passes through line
The vertical control of road and vertical displacement mechanism, the Lateral Controller of lateral displacement mechanism and the controller of rotating mechanism are connected,
Realize the control to whole equipment.Operating platform includes human-computer interaction interface, external shell, is easy to operating personnel to operate.Left end
Fibre clip is connected fiber gripper and with rotating mechanism, drives fiber spinning;Right-hand member fibre clip by optical fiber it is spacing with clip slot in, protect
The straight of optical fiber is demonstrate,proved, optical fiber is freely rotatable in right-hand member clip slot.
The rotating mechanism is made up of turbine, worm screw, turbine and worm fixed seat, controller, motor, and turbine and worm is solid
Reservation is fixed on pedestal, and turbine, motor are arranged in turbine and worm fixed seat, and worm screw one end is connected with motor,
And worm screw can drive turbine;Controller controls motor.Gear on worm structure is driven to realize the rotation of optical fiber by motor
Turn, each anglec of rotation and number of revolutions can be controlled by operating platform.
The lateral displacement mechanism is by transverse ball lead screw slide rail, transverse slider, horizontal drive motor, Lateral Controller group
Into transverse ball lead screw slide rail is fixed on pedestal, and transverse slider is enclosed within ball screw slide rail and slidably can laterally drive
The output shaft of dynamic motor is connected with transverse ball lead screw slide rail, Lateral Controller control horizontal drive motor.
The vertical displacement mechanism is by vertical ball screw slide rail, vertical slipper, vertical driving motor, vertical control group
Into;Vertical ball screw slide rail is fixed on the transverse slider of lateral displacement mechanism, the output shaft of vertical driving motor with it is vertical
Ball screw slide rail is connected, and vertical slipper is enclosed within vertical ball screw slide rail and can slidably, and vertical control control is hung down
Straight motor.
The cutting mechanism is made up of blade, cutting blade clip, steering base, bearing;Bearing is fixed on hanging down for vertical displacement mechanism
On straight slide block, steering base is fixed on bearing, and cutting blade clip is fixed on steering base, and blade is fixed on cutting blade clip.The cutting
Mechanism can be threaded to pedestal side, facilitate picking and placeing for optical fiber, cutter to be finely adjusted in the position of cutting mechanism, and satisfaction is divested not
With the demand of size fibers coat.
The optical fiber duct can easily carry out installing/dismounting, use various sizes of optical fiber duct instead and be capable of achieving to different chis
The positioning of very little optical fiber.
The operating platform is completed to vertical displacement mechanism, lateral displacement mechanism and rotating mechanism by PLC or single-chip microcomputer
Control, it is possible to achieve to these three mechanism's start-stop positions, the amount of feeding, feed speed control.
The utility model is related to be realized the start and stop for divesting, is divested the setting of length, divests the setting of speed by operating platform,
The coat of designated length can be divested in the range of stroke, the number of revolutions for completing to divest can be set, cutter can be set
Movement velocity.Optical fiber is positioned in optical fiber duct, is clamped by left end fibre clip, and right-hand member fibre clip only plays position-limiting action to optical fiber,
Optical fiber can be rotated freely in right-hand member fibre clip.Cutter realizes feed and withdrawing by vertical displacement mechanism after fiber gripper.Knife
Tool realizes that skiver enters and rewind by lateral displacement mechanism.Cutting mechanism can be threaded to pedestal side after the completion of divesting, and conveniently will
Optical fiber takes out.
Compared with divesting technology with traditional optical fiber stage casing coat, the utility model has the following advantages:First, quality is divested
Good, it is unstable that traditional-handwork coat divests technical quality, and due to artificial operation easy damaged optical fiber, is carried out automatically by machine
Change is divested, and by program cutting output and cutting speed are precisely controlled, and optical fiber quality height, the uniformity for divesting coat is good;2nd, shell
Except efficiency high, traditional-handwork divests efficiency and is determined by operating personnel's proficiency, and needs take considerable time and carry out skilled coat stripping
Except process, in this device, only fiber gripper, subsequent start-up equipment, cutter need to quickly be moved realization and be divested, efficiency is more manual
Divest much higher;3rd, divest length precisely controllable, Traditional Man coat divests length and is difficult to precise control, often have several
Millimeter error, can divest length in operating platform setting in this device, realize that difference divests needs of length and precisely reliable.
Description of the drawings
Fig. 1 is rotating mechanism structure chart of the present utility model.
Fig. 2 is vertical displacement mechanism structure chart of the present utility model.
Fig. 3 is cutting mechanism structure chart of the present utility model.
Fig. 4 is lateral displacement mechanism structure figure of the present utility model.
Fig. 5 is carrying out top view when optical fiber stage casing coat is divested for the utility model.
Fig. 6 is carrying out front view when optical fiber stage casing coat is divested for the utility model.
Fig. 7 is not carrying out structural representation when optical fiber coating is divested for the utility model.
Specific embodiment
With reference to instantiation, the utility model is described in further detail.
As shown in Fig. 5, Fig. 6, Fig. 7, the utility model includes left end fibre clip 102, rotating mechanism 103, vertical displacement machine
Structure 104, cutting mechanism 105, pedestal 106, optical fiber duct 107, right-hand member fibre clip 108, lateral displacement mechanism 109, operating platform
110, left end fibre clip 102 is connected by screw thread and pin with the turbine 201 of rotating mechanism 103, and right-hand member fibre clip 108 is fixed on base
On seat 106;Optical fiber duct 107 is fixed in the turbine and worm fixed seat 203 of rotating mechanism 103 by screw thread and pin;Rotating mechanism
103 turbine and worm fixed seat 203, the transverse ball lead screw slide rail 503 of lateral displacement mechanism 109 are threaded connection and are fixed on
On pedestal 106, the vertical ball screw slide rail 303 of vertical displacement mechanism 104 is threaded connection and is fixed on lateral displacement mechanism
On 109 transverse slider 504;The bearing 404 of cutting mechanism 105 is threaded connection and is fixed on hanging down for vertical displacement mechanism 104
On straight slide block 302;Operating platform 110 is connected by screw thread with pedestal 106, and operating platform 110 is by circuit and vertical displacement machine
The controller 204 of the vertical control 304 of structure 104, the Lateral Controller 502 of lateral displacement mechanism 109 and rotating mechanism 103 connects
Connect, realize the control to whole equipment.Operating platform 110 includes human-computer interaction interface, external shell, is easy to operating personnel to grasp
Make.
As shown in figure 1, the rotating mechanism 103 is by turbine 201, worm screw 202, turbine and worm fixed seat 203, controller
204th, motor 205 is constituted, and turbine and worm fixed seat 203 is fixed on pedestal 106, and turbine 201, motor 205 are installed
In turbine and worm fixed seat 203, the one end of worm screw 202 is connected with motor 205, and worm screw 202 can drive turbine 201;Control
Device processed 204 controls motor 205.
As shown in figure 4, the lateral displacement mechanism 109 is by transverse ball lead screw slide rail 503, laterally transverse slider 504, drive
Dynamic motor 501, Lateral Controller 502 are constituted, and transverse ball lead screw slide rail 503 is fixed on pedestal 106,504 sets of transverse slider
On ball screw slide rail 503 and can slidably, the output shaft of horizontal drive motor 501 and transverse ball lead screw slide rail 503
It is connected, the control horizontal drive motor 501 of Lateral Controller 502.
As shown in Fig. 2 the vertical displacement mechanism 104 is by vertical ball screw slide rail 303, vertical slipper 302, vertical drive
Dynamic motor 301, vertical control 304 are constituted;Vertical ball screw slide rail 303 is fixed on the horizontal cunning of lateral displacement mechanism 109
On block 504, the output shaft of vertical driving motor 301 is connected with vertical ball screw slide rail 303, and vertical slipper 302 is enclosed within vertically
On ball screw slide rail 303 and can slidably, Lateral Controller 304 control vertical driving motor 301.
As shown in figure 3, the cutting mechanism 105 is made up of blade 402, cutting blade clip 401, steering base 403, bearing 404;
Seat 404 is fixed on the vertical slipper 302 of vertical displacement mechanism 104, and steering base 403 is fixed on bearing 404, cutting blade clip 401
It is fixed on steering base 403, blade 402 is fixed on cutting blade clip 401.
Embodiment one
When using, the part for divesting coat is needed to be positioned in optical fiber duct 107 optical fiber 101, by left end fibre clip
102, right-hand member fibre clip 108 is by fiber gripper.Cutting mechanism 105 is never coated position when layer is divested and is threaded to and will be carried out
The position that coat is divested, blade 402 is in 30 degree with the face of optical fiber duct 107.Cutting speed is set by operating platform 110 (not setting
Surely by default speed), cutting number of times (do not set by default number of times 6 times), length of cut (not setting by default-length 80mm), press
Under start working angles after " beginning " key.Below coat strip is illustrated by default value.
Working angles are carried out automatically.First cutting mechanism 105 completes feed by vertical displacement mechanism 104 to lower feeding,
Then pass through lateral displacement mechanism 109 and move right and complete skiver and enter, peeling optical fibre coat, after traverse feed to 80mm,
Withdrawing is realized by vertical displacement mechanism 104, while rotating mechanism 103 drives left end fibre clip 102 to rotate 60 °, cutting mechanism
105 are run to the left by lateral displacement mechanism 109 and complete rewind and return initial cutting position.Said process repeats 6 times and completes light
Fine 101 stage casing coats are divested.
Embodiment two
This example is identical with the process of example one.Difference is first to remove optical fiber duct 107 from pedestal 106, is changed the outfit
Another size fibers groove, is subsequently filled into various sizes of optical fiber, realizes divesting the coat of different size optical fiber.
Claims (5)
1. a kind of equipment of automatic peeling optical fibre stage casing coat, including left end fibre clip, rotating mechanism, vertical displacement mechanism,
Cutting mechanism, pedestal, optical fiber duct, right-hand member fibre clip, lateral displacement mechanism, operating platform, it is characterised in that:Left end fibre clip with
The turbine connection of rotating mechanism, right-hand member fibre clip is fixed on pedestal;Optical fiber duct is fixed on the turbine and worm of rotating mechanism to be fixed
On seat;The turbine and worm fixed seat of rotating mechanism, the transverse ball lead screw slide rail of lateral displacement mechanism are connected and fixed on pedestal,
The vertical ball screw slide rail of vertical displacement mechanism is connected and fixed on the transverse slider of lateral displacement mechanism;Cutting mechanism
Seat is connected and fixed on the vertical slipper of vertical displacement mechanism;Operating platform is connected with pedestal, and operating platform passes through circuit and hangs down
The controller connection of the vertical control, the Lateral Controller of lateral displacement mechanism and rotating mechanism of straight displacement mechanism, it is right to realize
The control of whole equipment.
2. the equipment of automatic peeling optical fibre stage casing coat according to claim 1, it is characterised in that:The rotating mechanism
It is made up of turbine, worm screw, turbine and worm fixed seat, controller, motor, turbine and worm fixed seat is fixed on pedestal, whirlpool
Wheel, motor are arranged in turbine and worm fixed seat, and worm screw one end is connected with motor, and worm screw can drive turbine;Control
Device processed controls motor.
3. the equipment of automatic peeling optical fibre stage casing coat according to claim 1, it is characterised in that:The lateral displacement
Mechanism is made up of transverse ball lead screw slide rail, transverse slider, horizontal drive motor, Lateral Controller, transverse ball lead screw slide rail
It is fixed on pedestal, transverse slider is enclosed within ball screw slide rail and can slidably, output shaft and the horizontal stroke of horizontal drive motor
It is connected to ball screw slide rail, Lateral Controller control horizontal drive motor.
4. the equipment of automatic peeling optical fibre stage casing coat according to claim 1, it is characterised in that:The vertical displacement
Mechanism is made up of vertical ball screw slide rail, vertical slipper, vertical driving motor, vertical control;Vertical ball screw slide rail
It is fixed on the transverse slider of lateral displacement mechanism, the output shaft of vertical driving motor is connected with vertical ball screw slide rail, hangs down
On vertical ball screw slide rail and can slidably, vertical control controls vertical driving motor to straight slide block set.
5. the equipment of automatic peeling optical fibre stage casing coat according to claim 1, it is characterised in that:The cutting mechanism
It is made up of blade, cutting blade clip, steering base, bearing;Bearing is fixed on the vertical slipper of vertical displacement mechanism, and steering base is fixed on
On bearing, cutting blade clip is fixed on steering base, and blade is fixed on cutting blade clip.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201621071742.4U CN206161893U (en) | 2016-09-22 | 2016-09-22 | Automatic equipment of optic fibre middle section coat strips |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201621071742.4U CN206161893U (en) | 2016-09-22 | 2016-09-22 | Automatic equipment of optic fibre middle section coat strips |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN206161893U true CN206161893U (en) | 2017-05-10 |
Family
ID=58651960
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201621071742.4U Active CN206161893U (en) | 2016-09-22 | 2016-09-22 | Automatic equipment of optic fibre middle section coat strips |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN206161893U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106291817A (en) * | 2016-09-22 | 2017-01-04 | 武汉锐科光纤激光技术股份有限公司 | A kind of equipment of automatic peeling optical fibre coat |
| CN108700710A (en) * | 2017-08-22 | 2018-10-23 | 四川灼识科技股份有限公司 | A kind of optical fiber cutting method |
| CN117950114A (en) * | 2024-03-27 | 2024-04-30 | 武汉驿路通科技股份有限公司 | Automatic fiber stripping equipment for FBG (fiber Bragg Grating) optical fibers |
-
2016
- 2016-09-22 CN CN201621071742.4U patent/CN206161893U/en active Active
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106291817A (en) * | 2016-09-22 | 2017-01-04 | 武汉锐科光纤激光技术股份有限公司 | A kind of equipment of automatic peeling optical fibre coat |
| CN108700710A (en) * | 2017-08-22 | 2018-10-23 | 四川灼识科技股份有限公司 | A kind of optical fiber cutting method |
| CN117950114A (en) * | 2024-03-27 | 2024-04-30 | 武汉驿路通科技股份有限公司 | Automatic fiber stripping equipment for FBG (fiber Bragg Grating) optical fibers |
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