CN114162661A

CN114162661A - Multi-disc optical fiber unwinding equipment

Info

Publication number: CN114162661A
Application number: CN202111532767.5A
Authority: CN
Inventors: 韩泽五; 周忠凯; 陈进; 沈文华; 李丹阳; 沈燕斌; 刘华恩; 孙茂林; 汤跃良; 张高照; 凌晨; 郝军杰; 姚晓峰; 薄佳晨; 王中凯
Original assignee: Hengtong Optic Electric Co Ltd; Jiangsu Hengtong Photoconductive New Materials Co Ltd; Jiangsu Alpha Optic Electric Technology Co Ltd
Current assignee: Hengtong Optic Electric Co Ltd; Jiangsu Hengtong Photoconductive New Materials Co Ltd; Jiangsu Alpha Optic Electric Technology Co Ltd
Priority date: 2021-12-15
Filing date: 2021-12-15
Publication date: 2022-03-11

Abstract

The invention discloses multi-disc optical fiber unwinding equipment which comprises a pay-off rack, at least 12 discs of optical fiber discs to be unwound, pay-off guide wheels, take-up guide wheels, a traction device, a crushing device and a dust suction device, wherein the pay-off guide wheels, the take-up guide wheels, the traction device and the crushing device are sequentially arranged along the incoming line direction of optical fibers, optical fibers on the optical fiber discs to be unwound are wound onto the corresponding pay-off guide wheels and then enter the crushing device through the take-up guide wheels and the traction device, and the optical fibers are crushed by the crushing device and then are drawn away by the dust suction device. The invention can simultaneously install 12 or more optical fiber reels with different specifications, realize the simultaneous unwinding of a plurality of optical fibers, realize the adjustable take-up tension of the optical fibers, realize the 0-tension unwinding, ensure that the optical fiber reels are not interfered with each other, and can not influence the unwinding of other optical fiber reels even if the optical fibers are broken or wound, greatly improve the working efficiency of the optical fiber unwinding, meet the production requirement, automatically crush and draw the unwound optical fibers, reduce the workload and keep the on-site environment cleaner.

Description

Multi-disc optical fiber unwinding equipment

Technical Field

The invention belongs to the technical field of optical fiber equipment, and particularly relates to multi-disc optical fiber unwinding equipment.

Background

At present, optical fiber trays used by optical fiber manufacturers are generally recycled, the tray cost is reduced, when unqualified optical fiber trays are encountered, the unqualified optical fibers on the trays are generally unwound by using an optical fiber rewinding machine or a screening machine, the equipment has higher manufacturing cost, only one tray can be unwound at a time, and the working efficiency is lower.

Disclosure of Invention

To solve the technical problems in the prior art, the present invention aims to provide a multi-reel optical fiber unwinding apparatus.

In order to achieve the purpose and achieve the technical effect, the invention adopts the technical scheme that:

a multi-reel optical fiber unwind apparatus comprising:

the paying-off rack is used for mounting equipment for unwinding and is stably placed on the ground;

at least 12 optical fiber reels to be unwound are arranged on the pay-off rack, all the optical fiber reels to be unwound are wound with optical fibers to be unwound, the optical fiber reels to be unwound are not interfered with each other and work independently;

the optical fiber unwinding device comprises unwinding guide wheels, unwinding mechanisms and unwinding mechanisms, wherein the unwinding guide wheels are arranged on an unwinding rack, and the number and the positions of the unwinding guide wheels correspond to those of optical fiber reels to be unwound one by one;

a wire take-up guide wheel;

a traction device;

a crushing device;

the dust suction device is communicated with the inside of the crushing device;

the optical fiber unwinding device comprises a unwinding guide wheel, a winding guide wheel, a traction device and a crushing device, wherein the winding guide wheel, the traction device and the crushing device are sequentially arranged along the optical fiber incoming direction, all optical fibers to be unwound on an optical fiber disc tool are wound onto the corresponding unwinding guide wheel and then sequentially pass through the winding guide wheel and the traction device and then enter the crushing device, so that multiple optical fibers are unwound simultaneously, and the optical fibers are crushed by the crushing device and then are drawn away by a dust suction device.

Furthermore, every dish treat that to unwind the optical fiber dish utensil both ends set up a tension controller and a dabber locker respectively, the tension controller sets up in the unwrapping wire frame, and the optical fiber dish utensil of treating to unwind can coaxial setting with corresponding tension controller and dabber locker, treats that to unwind the optical fiber dish utensil and passes through the dabber locker and lock in the unwrapping wire frame, and under the tension control of tension controller, the receipts line tension of optic fibre is adjustable, can realize 0 tension backing-off.

Further, still be provided with a plurality of pin in the unwrapping wire frame, the quantity and the position of pin with treat backing off optical fiber disc utensil looks adaptation, treat that the optic fibre on the backing off optical fiber disc utensil passes behind the pin that corresponds and winds to go up rethread receipts line guide pulley and draw gear and go into the reducing mechanism inside on the corresponding unwrapping wire guide pulley, can wind optic fibre to the unwrapping wire guide pulley on better through setting up the pin, the concentration is high.

Further, set gradually tension measuring apparatu and receive line gag lever post along optic fibre inlet wire direction between unwrapping wire guide pulley and the receipts line guide pulley, tension measuring apparatu is close to the unwrapping wire guide pulley setting, receive the line gag lever post and be close to the receipts line guide pulley setting, optic fibre on the unwrapping wire guide pulley passes earlier and receives the line gag lever post and then winds to receiving on the line guide pulley, through the undulant condition of tension measuring apparatu real-time supervision unwrapping wire in-process.

Furthermore, the optical fiber discs to be unwound are uniformly distributed on the pay-off rack along the circumferential direction.

Further, it all sets up one set to receive line guide pulley, draw gear, reducing mechanism and dust extraction, be linked together through the connecting tube between reducing mechanism and the dust extraction.

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

the invention discloses a multi-disk optical fiber unwinding device, which comprises: a pay-off rack; at least 12 optical fiber reels to be unwound, wherein all the optical fiber reels to be unwound are arranged on the pay-off rack, and the optical fibers to be unwound are wound on the optical fiber reels to be unwound; the number and the positions of the pay-off guide wheels correspond to those of the optical fiber discs to be unwound one by one; a wire take-up guide wheel; a traction device; a crushing device; the dust suction device is communicated with the inside of the crushing device; the unwinding device comprises a unwinding guide wheel, a winding guide wheel, a traction device and a crushing device, wherein the unwinding guide wheel, the winding guide wheel, the traction device and the crushing device are sequentially arranged along the fiber incoming direction, all fibers to be unwound on the fiber reel are wound on the corresponding unwinding guide wheel, and then sequentially pass through the winding guide wheel and the traction device and enter the crushing device, so that multiple disks of fibers are unwound simultaneously, and the fibers are crushed by the crushing device and then are drawn away by the dust suction device. The multi-disc optical fiber unwinding equipment provided by the invention can be used for simultaneously installing 12 discs and more optical fiber discs with different specifications, realizing the simultaneous unwinding of the multi-disc optical fibers, realizing the unwinding of the optical fibers with adjustable take-up tension and 0 tension, and crushing the optical fibers to be unwound by entering the crushing device through the pay-off guide wheel, the take-up guide wheel and the traction device, wherein the optical fiber discs are not interfered with one another, the unwinding of other optical fiber discs cannot be influenced even if the optical fibers are broken or wound up, the working efficiency of unwinding the optical fibers can be greatly improved, the production requirement is met, the unwound optical fibers are automatically crushed and drawn away, the workload is reduced, and the on-site environment can be kept cleaner.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the installation of the optical fiber reel to be unwound according to the present invention.

Detailed Description

The present invention is described in detail below with reference to the attached drawings so that the advantages and features of the present invention can be more easily understood by those skilled in the art, thereby clearly defining the protection scope of the present invention.

The following presents a simplified summary of one or more aspects in order to provide a basic understanding of such aspects. This summary is not an extensive overview of all contemplated aspects, and is intended to neither identify key or critical elements of all aspects nor delineate the scope of any or all aspects. Its sole purpose is to present some concepts of one or more aspects in a simplified form as a prelude to the more detailed description that is presented later.

As shown in fig. 1-2, a multi-reel optical fiber unwinding apparatus comprises:

a pay-off rack 7;

at least 12 optical fiber reels 1 to be unwound, wherein all the optical fiber reels 1 to be unwound are arranged on a pay-off rack 7, and optical fibers 8 to be unwound are wound on the optical fiber reels 1 to be unwound; more preferably, all the optical fiber discs 1 to be unwound are uniformly distributed on the pay-off rack 7 along the circumferential direction, two ends of each optical fiber disc 1 to be unwound are respectively provided with a tension controller 2 and a mandrel locker 3, the tension controller 2 is arranged on the pay-off rack 7, each optical fiber disc 1 to be unwound is locked on the pay-off rack 7 through the corresponding mandrel locker 3, and the take-up tension of the optical fiber 8 is adjustable under the tension control of the tension controller 2, so that 0-tension unwinding can be realized;

the unwinding device comprises unwinding guide wheels 5, wherein the unwinding guide wheels 5 are arranged on an unwinding rack 7, and the number and the positions of the unwinding guide wheels 5 correspond to those of the optical fiber discs 1 to be unwound one by one;

a wire take-up guide wheel 10;

a traction device 11;

a crushing device 12;

the dust suction device 14, the dust suction device 14 communicates with the inside of the reducing mechanism 12;

the unwinding guide wheel 5, the winding guide wheel 10, the traction device 11 and the crushing device 12 are sequentially arranged along the wire feeding direction of the optical fibers 8, all the optical fibers 8 on the optical fiber disk tool 1 to be unwound are wound onto the corresponding unwinding guide wheel 5, then sequentially pass through the winding guide wheel 10 and the traction device 11 and then enter the crushing device 12, the simultaneous unwinding of multiple disks of optical fibers is realized, and the optical fibers 8 are crushed by the crushing device 12 and then are drawn away by the dust suction device 14.

As a specific implementation manner, a to-be-unwound optical fiber reel 1 is correspondingly matched with a tension controller 2, a mandrel locker 3, a pair of stop rods 4, a pay-off guide wheel 5 and a tension measuring instrument 6, the stop rods 4 and the pay-off guide wheel 5 are respectively installed on a pay-off rack 7, an optical fiber 8 on the to-be-unwound optical fiber reel 1 firstly passes through the stop rods 4 and then winds onto the pay-off guide wheel 5, the tension measuring instrument 6 and a take-up limit rod 9 are sequentially arranged between the pay-off guide wheel 5 and the take-up guide wheel 10 along the incoming line direction of the optical fiber 8, the tension measuring instrument 6 is arranged close to the pay-off guide wheel 5, the take-up limit rod 9 is arranged close to the take-up guide wheel 10, the take-up limit rod 9, the take-up guide wheel 10, the traction device 11 and the crushing device 12 are all arranged in one set, the optical fiber 8 on each to-be-unwound optical fiber reel 1 firstly passes through the stop rod 4 at the corresponding position and then winds onto the pay-off guide wheel 5, then passes through the same set of take-up limit rod 9 and winds onto the take-up guide wheel 10, and then the optical fiber enters the crushing equipment 12 through the traction device 11, so that the optical fibers can be unwound simultaneously, the working efficiency is high, in the unwinding process, the tension fluctuation condition in the unwinding process is monitored in real time through the tension measuring instrument 6 and controlled within an allowable range, the optical fibers are prevented from being broken, the unwound optical fibers 8 are crushed by the crushing equipment 12 and then are drawn away by the dust collection equipment 14 (which can be installed outdoors) through the connecting pipeline 13, and the tidiness and cleanness of the field environment are kept.

The traction device 11 can adopt existing products such as traction wheels, tractors and the like.

A pair of crushing wheels 15 is arranged in the crushing device 12, the optical fiber 8 pulled by the traction device 11 enters between the pair of crushing wheels 15 and is crushed by the crushing wheels 15, and the scraps fall into the crushing device 12 and are pumped away by the dust removal device 14 along the connecting pipeline 13.

The multi-disk optical fiber unwinding equipment has the functions of tension control and tension measurement, and a meter counter can be arranged near the traction device 11, so that the length of the unwound optical fiber can be accurately measured in the unwinding process, and the waste is reduced.

Example 1

As shown in fig. 1-2, a multi-reel optical fiber unwinding apparatus comprises:

a pay-off rack 7;

12 discs of optical fiber discs 1 to be unwound, wherein all the optical fiber discs 1 to be unwound are uniformly distributed on a pay-off rack 7 along the circumferential direction, optical fibers 8 to be unwound are wound on the optical fiber discs 1 to be unwound, two ends of each disc of optical fiber discs 1 to be unwound are respectively provided with a tension controller 2 and a mandrel locker 3, the tension controllers 2 are arranged on the pay-off rack 7, each disc of optical fiber discs 1 to be unwound is locked on the pay-off rack 7 through the corresponding mandrel locker 3, and the take-up tension of the optical fibers 8 is adjustable under the tension control of the tension controllers 2, so that 0-tension unwinding can be realized;

the optical fiber unwinding device comprises unwinding guide wheels 5, wherein the unwinding guide wheels 5 are arranged on an unwinding rack 7, the number and the positions of the unwinding guide wheels 5 correspond to those of the optical fiber discs 1 to be unwound one by one, and the number of the unwinding guide wheels 5 is 12;

a wire take-up guide wheel 10;

a traction device 11;

a crushing device 12;

the optical fiber unwinding device comprises a paying-off guide wheel 5, a taking-up guide wheel 10, a traction device 11 and a crushing device 12 which are sequentially arranged along the wire incoming direction of optical fibers 8, optical fiber discs 1 to be unwound, a tension controller 2, a mandrel locker 3, the paying-off guide wheel 5, a paying-off rack 7, the taking-up guide wheel 10, the traction device 11 and the crushing device 12 are installed indoors, a dust removal device 14 is installed outdoors, all the optical fibers 8 on the optical fiber discs 1 to be unwound are wound onto the corresponding paying-off guide wheels 5 firstly, then sequentially pass through the taking-up guide wheel 10 and the traction device 11 and enter the crushing device 12, simultaneous unwinding of multiple optical fibers is achieved, and the optical fibers 8 are crushed by the crushing device 12 and then are drawn away by the dust removal device 14.

A disc of optical fiber discs to be unwound 1 is correspondingly matched with a tension controller 2, a mandrel locker 3, a pair of stop rods 4, a pay-off guide wheel 5 and a tension measuring instrument 6, the stop rods 4 and the pay-off guide wheel 5 are respectively installed on a pay-off rack 7, the tension measuring instrument 6 and a take-up limiting rod 9 are sequentially arranged between the pay-off guide wheel 5 and the take-up guide wheel 10 along the incoming line direction of an optical fiber 8, the tension measuring instrument 6 is arranged close to the pay-off guide wheel 5, the take-up limiting rod 9 is arranged close to the take-up guide wheel 10, the take-up limiting rod 9, the take-up guide wheel 10, a traction device 11 and a crushing device 12 are all arranged in a set, the optical fiber 8 on each disc of the optical fiber discs to be unwound 1 firstly passes through the stop rod 4 at the corresponding position and then is wound onto the corresponding pay-off guide wheel 5, then passes through the same set of take-up limiting rod 9 and then is wound onto the take-up guide wheel 10, and then enters the crushing device 12 through the traction device 11, can realize that many dishes of optic fibre unwind simultaneously, work efficiency is high, and at the unwrapping wire in-process, through the fluctuating condition of tension measuring apparatu 6 real-time supervision unwrapping wire in-process and control at the within range that allows, prevent disconnected fine, the optic fibre 8 that unwinds is taken away by the dust collecting equipment 14 of installing in the open air through connecting tube 13 after being smashed by crushing apparatus 12, keeps clean and tidy, clean of site environment.

The traction device 11 can adopt the existing products such as a traction wheel, a traction machine and the like, and the dust removal device 14 can adopt the existing products such as a dust removal fan and the like.

The parts or structures which are not described in detail can be obtained by adopting the prior art or the existing products, and can be directly purchased in the market, and the details are not described herein.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A multi-reel optical fiber unwinding apparatus, comprising:

a pay-off rack;

at least 12 optical fiber reels to be unwound, wherein all the optical fiber reels to be unwound are arranged on the pay-off rack, and the optical fibers to be unwound are wound on the optical fiber reels to be unwound;

a wire take-up guide wheel;

a traction device;

a crushing device;

the dust suction device is communicated with the inside of the crushing device;

the optical fiber unwinding device comprises a unwinding guide wheel, a winding guide wheel, a traction device and a crushing device, wherein the winding guide wheel, the traction device and the crushing device are sequentially arranged along the optical fiber incoming direction, all optical fibers to be unwound on an optical fiber disc tool are wound onto the corresponding unwinding guide wheel, then sequentially pass through the winding guide wheel and the traction device and then enter the crushing device, the simultaneous unwinding of multiple discs of optical fibers is realized, and the optical fibers are crushed by the crushing device and then are drawn away by a dust suction device.

2. The apparatus of claim 1, wherein a tension controller and a mandrel locker are respectively disposed at two ends of each optical fiber reel to be unwound, the tension controller is disposed on the unwinding frame, the take-up tension of the optical fiber is adjustable under the tension control of the tension controller, so that 0-tension unwinding can be achieved, and the optical fiber reel to be unwound is locked to the unwinding frame by the mandrel locker.

3. The multi-disc optical fiber unwinding equipment as claimed in claim 1, wherein the unwinding rack is further provided with a plurality of stop bars, the number and the positions of the stop bars are matched with those of the optical fiber discs to be unwound, and the optical fibers on the optical fiber discs to be unwound pass through the corresponding stop bars, then are wound onto the corresponding unwinding guide wheels, then pass through the take-up guide wheels and the traction device, and then enter the crushing device.

4. The unwinding equipment for the multi-disc optical fibers as claimed in claim 1, wherein a tension measuring instrument and a winding limiting rod are sequentially arranged between the unwinding guide wheel and the winding guide wheel along the fiber feeding direction, the tension measuring instrument is arranged close to the unwinding guide wheel, the winding limiting rod is arranged close to the winding guide wheel, the optical fibers on the unwinding guide wheel firstly pass through the winding limiting rod and then wind onto the winding guide wheel, and the tension fluctuation condition in the unwinding process is monitored in real time through the tension measuring instrument.

5. The apparatus of claim 1, wherein the optical fiber reels to be unwound are circumferentially distributed on the pay-off rack.

6. The multi-disc optical fiber unwinding equipment as claimed in claim 1, wherein the take-up guide wheel, the traction device, the crushing device and the dust suction device are provided in one set, and the crushing device and the dust suction device are communicated through a connecting pipe.