CN208530994U - A kind of optical fiber automatic winding device - Google Patents

Abstract

This application discloses a kind of optical fiber automatic winding device, which includes: pedestal and the optical fiber disc carrier being successively set on pedestal, photoelectric sensing component, around fine component and control assembly；It is placed on optical fiber disc carrier to winding optical fiber, control assembly is separately connected photoelectric sensing component and around fine component, wherein be wound around on fine component to winding optical fiber along photoelectric sensing component；Coiling is used for from optical fiber disc carrier to winding optical fiber around fine component；Photoelectric sensing component is for detecting to which whether the coiling length of winding optical fiber reaches preset length；Control assembly is used to arrive to control when whether the coiling length of winding optical fiber reaches preset length in photoelectric sensing component detection and stop working around fine component.By the above-mentioned means, the application can be realized full-automatic winding optical fiber, optical fiber coiling efficiency is improved.

Description

A kind of optical fiber automatic winding device

Technical field

This application involves automatic winding technical fields, more particularly to a kind of optical fiber automatic winding device.

Background technique

In optical communication industry, need often by optical fiber from raw material of optical fibre disk under the premise of guaranteeing certain length, according to Fixed diameter is coiled into circle, the production for device later.Currently existing scheme is shaken with hands and is turned by the way of artificial Disk allows in optical fiber coiling to fiber optic loop, and for optical fiber during coiling, will drive mechanical code table rotation changes reading, behaviour It needs observed reading when reading reaches target as member, stops operating, then will remove packaging around the fiber optic loop made.

Present inventor has found that the speed of optical fiber coiling in the prior art fully relies in long-term R&D process Manually rotated, efficiency is very low, and the qualification rate of product depend on operator patient degree, not can guarantee optical fiber around It is dynamic uniform.Meanwhile reading is mechanical code table, precision is not high, causes rejection rate higher, and the production after seriously affecting is caused into This rising.

Utility model content

The application can be realized full-automatic coiling mainly solving the technical problems that provide a kind of optical fiber automatic winding device Optical fiber improves optical fiber coiling efficiency.

In order to solve the above technical problems, the technical solution that the application uses is: providing a kind of optical fiber automatic winding dress Set, optical fiber automatic winding device include: pedestal and the optical fiber disc carrier being successively set on pedestal, photoelectric sensing component, around Fine component and control assembly；Be placed on optical fiber disc carrier to winding optical fiber, control assembly be separately connected photoelectric sensing component and Around fine component, wherein be wound around on fine component to winding optical fiber along photoelectric sensing component；Light is come from for coiling around fine component Fine disc carrier to winding optical fiber；Photoelectric sensing component is for detecting to which whether the coiling length of winding optical fiber reaches default length Degree；Control assembly is used to control to when the coiling length of winding optical fiber reaches preset length around fibre in photoelectric sensing component detection Component stops working.

Wherein, photoelectric sensing component includes at least the first disk and photoelectric encoder, includes at least the second circle around fine component Disk and driving motor, photoelectric encoder are connect with the shaft of the first disk, wherein are wound around along the first disk to winding optical fiber On two disks；Driving motor is for driving the second disk rotational, so as to be wound on the second disk to winding optical fiber, wherein the The rotation of two disks to winding optical fiber by driving the first disk and photoelectric encoder to rotate；Photoelectric encoder is used in rotation one A pulse signal is generated when predetermined angle, and by pulse signal transmission to control assembly.

Wherein, control assembly includes: shell and is arranged in the intracorporal controller of shell, photoelectric encoder signal feedback interface And motor control module, controller are separately connected photoelectric encoder signal feedback interface and motor control module；Photoelectric coding Device signal feedback interface is used to receive the pulse signal of photoelectric encoder transmission, and the number of counting pulse signal is to obtain digital letter Number, and by digital data transmission to controller；Controller is used to export control instruction according to digital signal；Motor control module is used In the control instruction exported according to controller, the operation of driving motor is controlled.

Wherein, control assembly includes: to touch display control screen, touches display control screen and connect with controller；It touches Display control screen for setting coiling parameter, coiling parameter include coiling the number of turns, pulse signal number, coiling length and/or Coiling speed；Controller is used to export control instruction according to coiling parameter, to control the operation of driving motor according to coiling parameter Operation.

Wherein, controller is PLC controller.

Wherein, controller is single-chip microcontroller.

Wherein, driving motor includes direct current generator or stepper motor.

Wherein, optical fiber disc carrier is center disk with holes.

Wherein, control assembly includes: power module, and inside housings, power module is used for as photoelectric encoder, drives for setting Dynamic motor, controller, photoelectric encoder signal feedback interface, motor control module and touch display control screen provide electricity Source.

Wherein, control assembly further include: the power switch and indicator light of housing exterior walls, power switch and power supply mould are set Block electrical connection；Indicator light is for showing the energization situation of power module and the function situation of optical fiber automatic winding device.

The beneficial effect of the application is: being in contrast to the prior art, the application provides a kind of optical fiber automatic winding dress It sets, the application does not need the winding optical fiber by the way of artificial, can be improved work effect by carrying out optical fiber coiling around fine component Rate.The application is accurately detected by photoelectric sensing component to which whether the coiling length of winding optical fiber reaches preset length, and in light Fax sense component detection to when the coiling length of winding optical fiber reaches preset length control stop working around fine component, Neng Goushi Now full-automatic winding optical fiber improves optical fiber coiling efficiency.Meanwhile photoelectric sensing component be capable of accurate detection fiber coiling it is long Degree can be improved coiling precision no longer by mechanical code table reading.

Detailed description of the invention

In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment Attached drawing is briefly described, it should be apparent that, the drawings in the following description are only some examples of the present application, for For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other Attached drawing.Wherein:

Fig. 1 is the structural schematic diagram of artificial optical fiber coiling device in the prior art；

Fig. 2 is the structural schematic diagram of one embodiment of the application optical fiber automatic winding device；

Fig. 3 is a partial structural diagram of optical fiber automatic winding device in Fig. 2；

Fig. 4 is another partial structural diagram of optical fiber automatic winding device in Fig. 2；

Fig. 5 is the structural schematic diagram of another embodiment of the application optical fiber automatic winding device；

Fig. 6 is the another partial structural diagram of optical fiber automatic winding device in Fig. 2.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of embodiments of the present application, rather than whole embodiments.Based on this Embodiment in application, those of ordinary skill in the art are obtained every other under the premise of not making creative labor Embodiment shall fall in the protection scope of this application.

In optical communication industry, need often by optical fiber from raw material of optical fibre disk under the premise of guaranteeing certain length, according to Fixed diameter is coiled into circle, the production for device later.Need optical fiber annulus that there cannot be breakage in winding process, and Need the length of final optical fiber in certain accuracy rating.Because dimension precision requirement is relatively high, the coiling of optical fiber always with Being a troublesome problem.If speed is too fast, some internal injuries can be broken or be generated to optical fiber.If speed is too slow, meeting Influence production efficiency.On the other hand, the length accuracy needs of final optical fiber are guaranteed, otherwise because power caused by optical fiber becomes Change very big on the influence of the quality of final products.

Referring to Fig. 1, Fig. 1 is the structural schematic diagram of artificial optical fiber coiling device in the prior art.The artificial optical fiber coiling Device 100 includes the first fiber reel 101, manual rocker 102, the second fiber reel 103, machine carousel 104 and code table 105.It is existing Technology is to shake with hands manual rocker 102 by the way of artificial, allows optical fiber from 101 coiling of the first fiber reel to the second light On fine disk 103, optical fiber by machine carousel 104 and can drive the rotation of machine carousel 104 to make code table 105 during coiling In reading change.Operator needs to observe code table 105, and when the reading of code table 105 reaches target, stop operating manual rocker 102, then packaging will be removed around the fiber optic bundle made.

Present inventor has found that the speed of optical fiber coiling in the prior art fully relies in long-term R&D process Manually rotated, efficiency is very low, and the qualification rate of product depend on operator patient degree, not can guarantee optical fiber around It is dynamic uniform.Meanwhile being read by code table 105, precision is not high, causes rejection rate higher, and the production after seriously affecting is caused into This rising.

The drawbacks of for the above-mentioned prior art, this application provides a kind of optical fiber automatic winding devices 200.Please refer to figure 2, Fig. 2 be the structural schematic diagram of one embodiment of the application optical fiber automatic winding device.Optical fiber automatic winding device 200 includes: Pedestal 210 and the optical fiber disc carrier 220 being successively set on pedestal 210, photoelectric sensing component 230, around fine 240 and of component Control assembly 250.

It is placed on optical fiber disc carrier 220 to winding optical fiber, control assembly 250 is separately connected 230 He of photoelectric sensing component Around fine component 240, wherein be wound around on fine component 240 to winding optical fiber along photoelectric sensing component 230.Around fine component 240 For coiling from optical fiber disc carrier 220 to winding optical fiber, photoelectric sensing component 230 is used to detect the coiling to winding optical fiber Whether length reaches preset length, and control assembly 250 is used to detect that the coiling to winding optical fiber is long in photoelectric sensing component 230 Control stops working around fine component 240 when degree reaches preset length.

Specifically, optical fiber disc carrier 220, photoelectric sensing component 230 are successively passed through to winding optical fiber and around fine component 240. Around fine component 240 to provide to winding optical fiber around brake force, can should be controlled by control assembly 250 around brake force size.It opens When dynamic, and no-load voltage ratio ascending around brake force, constant around brake force when the coiling speed of winding optical fiber reaches maximum speed, It was not in be broken to winding optical fiber and internal injury at this time to winding optical fiber tension uniform so as to travel at the uniform speed to winding optical fiber The case where.Come out from optical fiber disc carrier 220 successively pass through photoelectric sensing component 230 to winding optical fiber and around fine component 240, Coiling obtains becoming marshalling, the consistent fiber optic bundle of even tension on the disk of fine component 240.

Wherein, disk 220 with holes centered on optical fiber disc carrier 220.Specifically, the centre of gyration of optical fiber disc carrier 220 is opened Equipped with centre bore, central fixed shaft can be set in hole, optical fiber disc carrier 220 is rotated around central fixed shaft.Center circle with holes The side of disk 220 is provided with accommodating chamber, for being placed with to winding optical fiber.

Photoelectric sensing component 230 may include photoelectric sensor and the autocoder that is connected with photoelectric sensor, pass through Autocoder calculates coiling the number of turns to winding optical fiber automatically, to realize the coiling length detected to winding optical fiber.In light Electric sensory package 230 detects that when the coiling length of winding optical fiber reaches preset length, control assembly 250 is controlled around fine component 240 are automatically stopped work.In other embodiments, can also photoelectric sensing component 230 detect to winding optical fiber around When the number of turns processed reaches default the number of turns, the control of control assembly 250 is automatically stopped work around fine component 240.Wherein, preset length and pre- If the number of turns is set according to user demand, it is not limited here.

By the above-mentioned means, present embodiment is not needed by carrying out optical fiber coiling around fine component 240 using artificial side Formula winding optical fiber, can be improved working efficiency.The application passes through accurately coiling of the detection to winding optical fiber of photoelectric sensing component 230 Whether length reaches preset length, and detects that the coiling length to winding optical fiber reaches default length in photoelectric sensing component 230 Control stops working around fine component 240 when spending, and can be realized full-automatic winding optical fiber, improves optical fiber coiling efficiency.Meanwhile photoelectricity Sensory package 230 can accurately detect the coiling length to winding optical fiber, no longer by mechanical code table reading, can be improved coiling Precision.

It is a partial structural diagram of optical fiber automatic winding device in Fig. 2 refering to Fig. 2 and Fig. 3, Fig. 3.Photoelectric sensing group Part 230 includes at least the first disk 231 and photoelectric encoder 232, includes at least the second disk 241 and driving around fine component 240 Motor 242.

Photoelectric encoder 232 is connect with the shaft of the first disk 231, wherein to winding optical fiber along 231 winding of the first disk On the second disk 241；Driving motor 242 is for driving the rotation of the second disk 241, so as to be wound on second to winding optical fiber On disk 241.

Wherein, the rotation of the second disk 241 is by driving the first disk 231 and 232 turns of photoelectric encoder to winding optical fiber It is dynamic；Photoelectric encoder 232 gives pulse signal transmission to control group for generating a pulse signal when rotating a predetermined angle Part 250.

Specifically, what is come out from center band hole disk 220 successively passes through the first disk 231 and the second circle to winding optical fiber Disk 241, coiling obtains becoming marshalling, the consistent fiber optic bundle of even tension on the second disk 241.Driving motor 242 is It provides to winding optical fiber around brake force, should be positively correlated around brake force and the coiling speed of the second disk 241.It should be big around brake force It is small to be controlled by control assembly 250.When starting, around the ascending no-load voltage ratio of brake force, the coiling speed of the second disk 241 by It is slow to change to fast, it is constant around brake force when the coiling speed of the second disk 241 reaches maximum speed, so that the second disk 241 It travels at the uniform speed, so that at the uniform velocity coiling obtains fiber optic bundle on the second disk 241 to winding optical fiber.At this time to winding optical fiber pulling force It uniformly, was not in be broken to winding optical fiber and the case where internal injury.

Photoelectric encoder 232 be it is a kind of by photoelectric conversion convert the mechanical geometric displacement on the output shaft to pulse or The effect of the sensor of digital quantity, photoelectric encoder 232 of the photoelectric encoder 232 in this optical fiber automatic winding device 200 is It is digital quantity by Parameter Switch such as the position of the first disk 231 and angles.When winding optical fiber starts coiling, to winding optical fiber When by the first disk 231, the rotation of the first disk 231 will drive, photoelectric encoder 232 can rotate with the first disk 231 and be turned It is dynamic.When the shaft in photoelectric encoder 232 turns over a predetermined angle, photoelectric encoder 232 issues a pulse signal, can With the digital signal for obtaining to be read by control assembly 250 by timer count, the i.e. position of the first disk 231 and angle Etc. parameters.In other embodiments, multiple equally distributed through-holes can be set on the first disk 231, in the first disk 231 side is fixedly installed photoelectric sensor, and when the rotation of the first disk 231, photoelectric sensor, which is detected and recorded, to be passed through Through-hole number, then divided by the number of openings on the first disk 231, the ginseng such as position and angle of the first disk 231 can be obtained Number.

Wherein, the precision of photoelectric encoder 232 has 100-5000p/r etc., that is, rotates a circle and export 100-5000 arteries and veins Punching, because the corresponding scale that rotates a circle is 1 unit, therefore often detects that a pulse indicates to be moved forward or rearward 0.01-0.0002 unit, that is to say, that at 3.6-0.18 ° of 232 every rotation of photoelectric encoder, export a pulse.

When selecting precision is the photoelectric encoder 232 of 1000p/r, rotate a circle 1000 pulses of output, measurement essence Degree is 0.001 unit, that is to say, that when precision is 0.36 ° of the every rotation of the photoelectric encoder 232 of 1000p/r, exports an arteries and veins Punching.

It is another partial structural diagram of optical fiber automatic winding device in Fig. 2 refering to Fig. 2-4, Fig. 4.Control assembly 250 It include: shell 251 and the controller being arranged in shell 251 252, photoelectric encoder signal feedback interface 253 and motor Control module 254.

Controller 252 is separately connected photoelectric encoder signal feedback interface 253 and motor control module 254, photoelectric coding Device signal feedback interface 253 is used to receive the pulse signal of the transmission of photoelectric encoder 232, and the number of counting pulse signal is to obtain Digital signal, and by digital data transmission to controller 252.Controller 252 is used to export control instruction according to digital signal.Electricity Machine control module 254 is used for the control instruction exported according to controller 252, controls the operation of driving motor 242.

Wherein, controller 252 can be PLC controller 252.In other embodiments, controller 252 can be monolithic Machine 252.

Wherein, driving motor 242 may include direct current generator 242 or stepper motor 242.

Specifically, photoelectric encoder signal feedback interface 253, photoelectric encoder signal feedback are equipped in control assembly 250 Interface 253 detect and record the transmission of photoelectric encoder 232 pulse signal number to obtain digital signal, and digital signal is passed It is defeated by controller 252, wherein digital signal can be a for the direction of rotation of photoelectric encoder 232, rotation angle, pulse signal Coiling the number of turns of number, the coiling length of optical fiber or optical fiber.

In other embodiments, photoelectric sensing component 230 may include photoelectrical coupler, after photoelectrical coupler amplifies Photoelectric encoder signal feedback interface 253 of the output of pulse signal to controller 252, photoelectric encoder signal feedback interface 253 count the number of received pulse signal to obtain digital signal,

Wherein, control assembly 250 further include: touch display control screen 255, touch display control screen 255 and control Device 252 connects.Display control screen 255 is touched for setting and showing that coiling parameter, coiling parameter include coiling the number of turns, pulse Signal number, coiling length and/or coiling speed.Controller 252 exports control instruction, motor control module according to coiling parameter The operation of the 254 control instruction control driving motors 242 exported according to controller 252 is run according to coiling parameter.

Each button touched in display control screen 255 indicates name tag, meets human engineering requirement.Operator can be with Selection and the modification etc. that coiling parameter is completed by touching display control screen 255 operate, for example, inputting preset coiling circle Number, pulse signal number, coiling length and/or coiling speed.It is aobvious that above-mentioned digital signal can be sent to touch by controller 252 Show that control screen 255 is shown.The outside that optical fiber automatic winding device 200 is arranged in display control screen 255 is touched, with Coiling parameter is shown to operator, and coiling parameter may include coiling the number of turns, pulse signal number, coiling length and/or coiling Speed.In other embodiments, operator can touch according to the digital signal shown on display control screen 255 is touched Coiling parameter is accurately controlled on display control screen 255.Controller 252 exports control instruction according to coiling parameter, with The operation for controlling driving motor 242 is run according to coiling parameter.What motor control module 254 was used to be exported according to controller 252 Control instruction controls the operation of driving motor 242, thus the coiling state of the optical fiber on the second disk 241 of control.

Above embodiment is illustrated with an implement scene below.

It is the structural schematic diagram of one embodiment of the application optical fiber automatic winding device refering to Fig. 2-5, Fig. 5.In use, from What center disk 220 with holes came out successively passes through the first disk 231 and the second disk 241 to winding optical fiber, and is wound around second On disk 241.Operator presets coiling parameter on touching display control screen 255.PLC controller 252 according to it is preset around Parameter processed exports control instruction, is run with controlling the operation of driving motor 242 according to coiling parameter.Pass through motor control module 254 control instructions exported according to controller 252 open driving motor 242 and carry out optical fiber around manufacturing, at this point, when to coiling light When fibre starts coiling, when winding optical fiber passes through the first disk 231, the rotation of the first disk 231, photoelectric encoder 232 will drive It can rotate and rotate with the first disk 231.The photoelectric coding when the shaft in photoelectric encoder 232 turns over a predetermined angle Device 232 issues a pulse signal.Photoelectric encoder signal feedback interface 253 detects and records the transmission of photoelectric encoder 232 Pulse signal number is to obtain digital signal (for example, coiling length or coiling the number of turns to winding optical fiber), and by digital signal It is transferred to PLC controller 252.When to winding optical fiber coiling length or coiling the number of turns reach default coiling length or coiling the number of turns When, driving motor 242 is automatically closed in motor control module 254, obtains around the fiber optic bundle made.

With continued reference to Fig. 4, control assembly 250 further comprises: power module 256, is arranged inside shell 251, power supply Module 256 is used for as photoelectric encoder 232, driving motor 242, controller 252, photoelectric encoder signal feedback interface 253, electricity Machine control module 254 and touch display control screen 255 provide power supply.Wherein, power module 256 can be AC voltage-stabilizing electricity Source, D.C. regulated power supply, such as rechargeable lithium battary, and charging port has can be set in power module 256.

It is the another partial structural diagram of optical fiber automatic winding device in Fig. 2 refering to Fig. 4 and Fig. 6, Fig. 6.Control assembly 250 Further include: the power switch 257 and indicator light 258 of 251 outer wall of shell are set, and power switch 257 is electrically connected with power module 256 It connects；Indicator light 258 for showing the energization situation of power module 256 and the function situation of optical fiber automatic winding device 200, so as to Whether the energized state and optical fiber automatic winding device 200 that operator can intuitively see display power module 256 are just in work Make.

The foregoing is merely presently filed embodiments, are not intended to limit the scope of the patents of the application, all to utilize this Equivalent structure or equivalent flow shift made by application specification and accompanying drawing content, it is relevant to be applied directly or indirectly in other Technical field similarly includes in the scope of patent protection of the application.

Claims (10)

1. a kind of optical fiber automatic winding device, which is characterized in that the optical fiber automatic winding device includes: pedestal and successively sets Set optical fiber disc carrier on the base, photoelectric sensing component, around fine component and control assembly；

It is placed on the optical fiber disc carrier to winding optical fiber, the control assembly is separately connected the photoelectric sensing component and institute State around fine component, wherein it is described be wound around to winding optical fiber along the photoelectric sensing component it is described on fine component；

It is described around fine component for coiling from described in the optical fiber disc carrier to winding optical fiber；

The photoelectric sensing component is used to detect whether the coiling length to winding optical fiber to reach preset length；

The control assembly is used to reach default to the coiling length to winding optical fiber in the photoelectric sensing component detection It stops working described in being controlled when length around fine component.

2. optical fiber automatic winding device according to claim 1, which is characterized in that the photoelectric sensing component includes at least First disk and photoelectric encoder, it is described around fine component include at least the second disk and driving motor, the photoelectric encoder with The shaft of first disk connects, wherein described to be wound around on second disk to winding optical fiber along first disk；

The driving motor is for driving second disk rotational, so that described be wound on second disk to winding optical fiber On, wherein the rotation of second disk drives first disk and the photoelectric encoder to winding optical fiber by described Rotation；

The photoelectric encoder gives the pulse signal transmission for generating a pulse signal when rotating a predetermined angle The control assembly.

3. optical fiber automatic winding device according to claim 2, which is characterized in that the control assembly include: shell with And it is arranged in the intracorporal controller of the shell, photoelectric encoder signal feedback interface and motor control module, the controller It is separately connected the photoelectric encoder signal feedback interface and the motor control module；

The photoelectric encoder signal feedback interface is used to receive the pulse signal of the photoelectric encoder transmission, counts institute The number of pulse signal is stated to obtain digital signal, and give the digital data transmission to the controller；

The controller for exporting control instruction according to the digital signal；

The motor control module is used for the control instruction exported according to the controller, controls the operation of the driving motor.

4. optical fiber automatic winding device according to claim 3, which is characterized in that the control assembly includes: to touch to show Show that control screen, the touch display control screen are connect with the controller；

The touch display control screen includes coiling the number of turns, pulse signal for setting coiling parameter, the coiling parameter Number, coiling length and/or coiling speed；

The controller is used to export control instruction according to the coiling parameter, to control the operation of the driving motor according to institute State the operation of coiling parameter.

5. optical fiber automatic winding device according to claim 3, which is characterized in that the controller is PLC controller.

6. optical fiber automatic winding device according to claim 3, which is characterized in that the controller is single-chip microcontroller.

7. optical fiber automatic winding device according to claim 3, which is characterized in that the driving motor includes direct current generator Or stepper motor.

8. optical fiber automatic winding device according to claim 3, which is characterized in that the optical fiber disc carrier is a center band Hole disk.

9. optical fiber automatic winding device according to claim 4, which is characterized in that the control assembly includes: power supply mould Block, in the enclosure interior, the power module is used to be the photoelectric encoder, the driving motor, the control for setting Device, the photoelectric encoder signal feedback interface, the motor control module and the touch display control screen provide electricity Source.

10. optical fiber automatic winding device according to claim 9, which is characterized in that the control assembly further include: setting In the power switch and indicator light of the housing exterior walls, the power switch is electrically connected with the power module；The indicator light For showing the energization situation of the power module and the function situation of the optical fiber automatic winding device.