CN114226111A - Optical fiber color ring coloring machine - Google Patents

Abstract

The invention provides an optical fiber color ring coloring machine, which comprises: the device comprises a conveying device, a coloring system, a color ring printing system and a controller, wherein the conveying device is used for conveying an optical fiber so that the optical fiber sequentially passes through the coloring system and the color ring printing system, and the controller is used for controlling the working states of the coloring system and the color ring printing system; the color ring printing system comprises a first spraying device, a color ring detection device, a second spraying device and a color ring curing device which are sequentially arranged at intervals along the conveying direction of the optical fiber, wherein the first spraying device is used for coating a color ring on a preset part of the optical fiber, and the color ring curing device is used for fixing the color ring coated on the optical fiber; the controller is also used for controlling the second spraying device to coat the color ring when the color ring detection device detects that the color ring coated on the preset part of the optical fiber is abnormal. The invention can solve the problem of color ring printing missing and improve the quality of optical fiber color ring printing.

Description

Optical fiber color ring coloring machine

Technical Field

The invention relates to the technical field of optical fiber production, in particular to an optical fiber color ring coloring machine.

Background

The optical fibers are widely applied, a plurality of optical fibers are often arranged in one optical cable, the colors of the optical fibers are limited, the optical fibers need to be colored or printed with color rings in order to facilitate the identification of the optical fibers, the coloring is to attach the optical fibers with colors according to standards or use requirements, so that the optical fibers in one optical cable respectively have corresponding colors, and the color rings are printed by spraying the color rings with different colors, lengths and intervals on the surfaces of the optical fibers, so that the number and the identification degree of the optical fibers in the same sleeve can be increased, and the purpose of distinguishing the optical fibers is achieved.

At present, in the process of printing the color ring on the optical fiber, the phenomena of missing printing of the color ring and difficult identification of the light color of the color ring often occur, equipment cannot automatically find that the color ring is abnormal, the effect of printing of the color ring is influenced, and once the optical fiber with the abnormal printing of the color ring flows out, huge loss can be caused.

Therefore, it is urgently needed to develop an optical fiber color ring coloring machine to improve the quality of optical fiber color ring printing.

Disclosure of Invention

The invention provides an optical fiber color ring coloring machine, which solves the problem of color ring printing missing and improves the quality of optical fiber color ring printing.

In order to achieve the above object, the present invention provides an optical fiber color ring coloring machine, comprising: the device comprises a conveying device, a coloring system, a color ring printing system and a controller, wherein the conveying device is used for conveying optical fibers so that the optical fibers sequentially pass through the coloring system and the color ring printing system or the optical fibers sequentially pass through the color ring printing system and the coloring system, the controller is electrically connected with the coloring system and the color ring printing system, and the controller is used for controlling the working states of the coloring system and the color ring printing system;

the color ring printing system comprises a first spraying device, a color ring detection device, a second spraying device and a color ring curing device which are sequentially arranged at intervals along the conveying direction of the optical fiber, wherein the first spraying device is used for coating a color ring on a preset part of the optical fiber, and the color ring curing device is used for fixing the color ring coated on the optical fiber;

the controller is also used for controlling the second spraying device to coat the color ring when the color ring detection device detects that the color ring coated on the preset part of the optical fiber is abnormal.

The optical fiber color ring coloring machine organically integrates the coloring system and the color ring printing system, and controls the coloring system and the color ring printing system to selectively work or stop through the controller, so that the optical fiber color ring coloring machine provided by the invention can produce colored optical fibers, color ring optical fibers and optical fibers with coloring and color rings existing at the same time. In addition, the color wheel printing system comprises the first spraying device, the color wheel detection device and the second spraying device which are sequentially arranged along the conveying direction of the optical fiber at intervals, the first spraying device firstly carries out primary color wheel spraying, when the first spraying device generates a color wheel abnormal phenomenon, the second spraying device is controlled by the controller to carry out secondary spraying at a position where the optical fiber is abnormally printed at one time after the first spraying device detects the color wheel abnormal phenomenon, and the color wheel abnormal remediation operation is carried out in time in the uninterrupted transmission process of the optical fiber, so that the quality problems such as color wheel missing are avoided.

In a possible embodiment, the coloring system includes a first coloring device, a coloring detection device, a second coloring device and a coloring and curing device, which are sequentially arranged at intervals along the conveying direction of the optical fiber, the first coloring device is used for coloring a predetermined portion of the optical fiber, the coloring and curing device is used for fixing the optical fiber in a coloring manner, the controller is electrically connected with the coloring detection device and the second coloring device, and the controller is used for controlling the second coloring device to perform a coloring operation when the coloring detection device detects that the predetermined portion of the optical fiber is discolored.

In a possible implementation manner, the coloring system further comprises a first storage device and a second storage device, the first storage device is communicated with the first coloring device, the second storage device is communicated with the second coloring device, and the optical fiber sequentially passes through the first coloring device and the second coloring device.

In a possible implementation manner, the first spraying device includes a first inkjet printer and a first spray head connected to the first inkjet printer, the second spraying device includes a second inkjet printer and a second spray head connected to the second inkjet printer, and the optical fiber sequentially passes through a spraying side of the first spray head and a spraying side of the second spray head.

In a possible implementation manner, the color wheel printing system further includes a sealed box and a recycling device, the first spraying device, the color wheel detecting device, the second spraying device, and the color wheel curing device are all located in the sealed box, and the recycling device is configured to recycle free printing raw materials in the sealed box.

In a possible implementation manner, the optical fiber measuring device further comprises a measuring device, the measuring device is electrically connected with the controller, and the controller is further used for controlling the measuring device to detect the size of the optical fiber.

In a possible embodiment, the coloring system, the measuring device and the color wheel printing system are arranged in sequence along the conveying direction of the optical fiber; or

The coloring system, the color ring printing system and the measuring device are sequentially arranged along the conveying direction of the optical fiber; or

The color ring printing system, the coloring system and the measuring device are arranged in sequence along the conveying direction of the optical fiber.

In one possible implementation, the conveying device comprises a pay-off assembly, a traction assembly and a take-up assembly, wherein the pay-off assembly is used for releasing and regulating the speed of the optical fiber, the take-up assembly is used for taking up and regulating the speed of the optical fiber, the traction assembly is positioned between the pay-off assembly and the take-up assembly, and the traction assembly is used for providing power for conveying the optical fiber from the pay-off assembly to the take-up assembly;

the coloring system, the measuring device and the color wheel printing system are all positioned between the pay-off assembly and the drawing assembly in the conveying direction of the optical fiber.

In a possible implementation manner, the pay-off assembly comprises a pay-off support, a pay-off disc, at least one pay-off driving wheel and at least one pay-off fixed wheel, wherein the pay-off disc, the pay-off driving wheel and the pay-off fixed wheel are arranged on the pay-off support in a rotating mode, the pay-off driving wheel is configured to move towards the direction far away from or close to the pay-off fixed wheel, and the optical fibers released by the pay-off disc are conveyed to the coloring system through the pay-off driving wheel and the pay-off fixed wheel.

In a possible embodiment, the take-up assembly includes a take-up support, a take-up reel, at least one take-up driving wheel and at least one take-up fixed wheel, the take-up reel the take-up driving wheel with the take-up fixed wheel all rotates to be set up on the take-up support, just the take-up driving wheel is configured to move to keeping away from or being close to the direction of taking-up fixed wheel, the traction assembly conveys the optical fiber passes through the take-up driving wheel with the take-up fixed wheel is wound on the take-up reel.

In a possible embodiment, the traction assembly comprises a driving traction wheel and at least one driven traction wheel, the driving traction wheel and the driven traction wheel rotate relatively, the optical fiber passes between the driving traction wheel and the driven traction wheel, and the optical fiber is against both the driving traction wheel and the driven traction wheel.

In a possible implementation mode, the traction assembly comprises a driving traction wheel, a plurality of driven traction wheels and a transmission band, the transmission band is sleeved on the periphery of the driven traction wheels and rotates on the outer sides of the driven traction wheels, the driving traction wheel is located on the outer sides of the transmission band, the optical fiber passes through the driving traction wheel and the transmission band, and the optical fiber and the driving traction wheel and the transmission band all offset.

In one possible embodiment, the measuring device comprises a wire diameter gauge.

In one possible embodiment, the coloring and curing device comprises a thermal curing oven; and/or

The coloration detection device includes a detection camera.

In one possible implementation, the color wheel detection apparatus includes a detection camera; and/or

The color ring curing device comprises a UV ultraviolet curing furnace.

According to the optical fiber color ring coloring machine, the coloring system and the color ring printing system are organically unified, two production processes are efficiently fused together, three products of colored optical fibers, color ring optical fibers and colored color ring optical fibers are produced by one set of equipment, only one releasing and winding action of the optical fibers is needed, the production efficiency is improved, and the optical fiber appearance damage caused by multiple releasing and winding actions of the optical fibers is avoided.

According to the optical fiber color ring coloring machine provided by the invention, through reasonable layout of the coloring system and the color ring printing system, the quality hidden danger caused by decoloration and ring leakage can be reduced, the detection of the size of the optical fiber is realized through the measuring device, and the controller is electrically connected with the measuring device so as to realize quality tracing.

According to the coloring system in the optical fiber color ring coloring machine, after the optical fiber is colored for one time by the first coloring device, the coloring effect of one time is detected by the coloring detection device; if the coloring is detected to be abnormal, the second coloring device performs secondary coloring operation at the position of the optical fiber where the primary coloring is abnormal; if it is detected that there is no coloring abnormality, the second coloring device does not need to perform the secondary coloring operation again. Through the double coloring of the first coloring device and the second coloring device, the phenomenon that coloring is not successful or is leaked can be well improved, the phenomenon that coloring on the optical fiber is not interrupted is ensured, and coloring abnormity is found by matching with automatic detection of a coloring detection device, so that quality hidden danger is eliminated.

In addition to the technical problems solved by the embodiments of the present invention, the technical features constituting the technical solutions, and the advantages brought by the technical features of the technical solutions, other technical problems solved by the embodiments of the present invention, other technical features included in the technical solutions, and advantages brought by the technical features will be further described in detail in the detailed description.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an optical fiber color ring coloring machine according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an optical fiber color ring coloring machine according to a second embodiment of the present invention.

Description of reference numerals:

10-a conveying device;

11-a pay-off assembly;

111-a pay-off reel;

112-a line-releasing driving wheel;

113-a paying-off fixed wheel;

114-a wire-releasing support;

12-a traction assembly;

121-active traction wheels;

122-a driven traction wheel;

123-conveying belt;

13-a wire take-up assembly;

131-a take-up reel;

132-take-up pulley;

133-a take-up fixed wheel;

134-a wire-rewinding bracket;

14-a steering wheel;

20-a coloring system;

21-a first colouring device;

22-a coloration detection device;

23-a second coloring device;

24-a tinting curing means;

25-a first storage device;

26-a second storage device;

30-an optical fiber;

40-color ring printing system;

41-a first spraying device;

411-a first ink jet printer;

412-a first showerhead;

42-color circle detection means;

43-a second spray device;

431-a second ink jet printer;

432-a second showerhead;

44-a color wheel curing device;

45-sealing the box;

46-a recovery unit;

50-a controller;

60-measuring device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Most present colouring equipment and color ring printing apparatus of optic fibre are independent design, in the production of optic fibre, need smear the coating outward at optic fibre, promptly to the optic fibre colouring to increase the identifiability of optic fibre, improve the efficiency of construction in laying or the maintenance process, when the optic fibre core number to in an optical cable exceedes 12 cores usually, generally need use the printing color ring, promptly at the different colours of optic fibre surface spraying, length and spaced color ring, in order to do benefit to the quantity and the degree of discernment of optic fibre in the same optical cable sleeve pipe of increase.

In the production of optical fibers, the phenomenon of missing color circle printing often occurs, and the phenomenon is difficult to find and remedy immediately. And secondary remediation is carried out after production is finished, so that the workload is increased undoubtedly, and the production efficiency is influenced.

In view of the above background, the optical fiber color ring tinting machine provided by the invention organically unifies a tinting system and a color ring printing system, wherein the color ring printing system comprises a first spraying device, a color ring detection device and a second spraying device which are sequentially arranged along the conveying direction of an optical fiber at intervals, the first spraying device is used for spraying a color ring once, when the color ring abnormality occurs in the first spraying device, the second spraying device is controlled by a controller to perform secondary spraying at the position where the optical fiber is printed abnormally once after the color ring abnormality occurs in the detection of the color ring detection device, and the color ring abnormality is timely repaired in the uninterrupted transmission process of the optical fiber, so that the quality problems such as color ring loss are avoided, and the use is convenient.

The optical fiber color ring coloring machine provided by the embodiment of the invention is described below with reference to the attached drawings.

Example one

Referring to fig. 1, the present invention provides an optical fiber color ring tinting machine, including: the device comprises a conveying device 10, a coloring system 20, a color ring printing system 40 and a controller 50, wherein the conveying device 10 is used for conveying the optical fiber 30 to enable the optical fiber 30 to sequentially pass through the coloring system 20 and the color ring printing system 40, the controller 50 is electrically connected with the coloring system 20 and the color ring printing system 40, and the controller 50 is used for controlling the working states of the coloring system 20 and the color ring printing system 40.

The color wheel printing system 40 comprises a first spraying device 41, a color wheel detecting device 42, a second spraying device 43 and a color wheel curing device 44 which are sequentially arranged at intervals along the conveying direction of the optical fiber 30, wherein the first spraying device 41 is used for coating a color wheel on a preset part of the optical fiber 30, and the color wheel curing device 44 is used for fixing the color wheel coated on the optical fiber 30; the controller 50 is also configured to control the second spraying device 43 to apply the color wheel when the color wheel detection device 42 detects that the color wheel applied to the predetermined portion of the optical fiber 30 is abnormal.

The optical fiber color ring coloring machine organically integrates the coloring system 20 and the color ring printing system 40, and controls the coloring system 20 and the color ring printing system 40 to selectively work or stop through the controller 50, so that the optical fiber color ring coloring machine provided by the invention can produce colored optical fibers, color ring optical fibers and optical fibers 30 with colored and color rings existing simultaneously; in addition, because the color wheel printing system 40 includes the first spraying device 41, the color wheel detecting device 42 and the second spraying device 43 which are sequentially arranged along the conveying direction of the optical fiber 30 at intervals, when the first spraying device 41 firstly performs primary color wheel spraying, and when the color wheel abnormality occurs in the first spraying device 41, the second spraying device 43 is controlled by the controller 50 to perform secondary spraying at the position where the optical fiber 30 performs primary printing abnormality after being detected by the color wheel detecting device 42, the color wheel abnormality is timely remedied in the uninterrupted conveying process of the optical fiber 30, and thus quality problems such as color wheel missing are avoided.

It is easy to understand that the color circle is used to distinguish different optical fibers 30, and different circles and spaces represent unique identifiers, so as to use different identifiers to distinguish the optical fibers 30. Color circle anomalies include, but are not limited to, missing color circles, too light a color circle, incomplete color circles, and the like.

The controller 50 is used to control the operating status of the tinting system 20 and the color ring printing system 40, and includes: the controller 50 controls the coloring system 20 to operate and controls the color wheel printing system 40 to stop operating for producing the colored optical fiber 30; the controller 50 controls the coloring system 20 to stop working and controls the color ring printing system 40 to work for producing the color ring optical fiber 30; the controller 50 controls the coloring system 20 and the color ring printing system 40 to operate simultaneously to produce the colored color ring optical fiber 30; and the controller 50 controls the coloring system 20 and the color wheel printing system 40 to stop operating simultaneously.

The color wheel printing system 40 comprises a first spraying device 41, a color wheel detection device 42, a second spraying device 43 and a color wheel curing device 44 which are sequentially arranged along the conveying direction of the optical fiber 30 at intervals, wherein the first spraying device 41 and the second spraying device 43 are used for coating color wheels on the preset parts of the optical fiber 30, and finally the optical fiber 30 is conveyed to the color wheel curing device 44 for color wheel curing, the first spraying device 41 and the second spraying device 43 arranged in the embodiment work independently, only a primary color wheel curing program is needed, when the color wheel detection device 42 detects that the color wheels coated on the preset parts of the optical fiber 30 are abnormal, the controller 50 is used for controlling the second spraying device 43 to coat the color wheels for the second time, and in the process of conveying the optical fiber 30 forwards, the steps of color wheel coating, color wheel detection, secondary coating when the primary color wheel coating is abnormal and color wheel fixing are completed, so that the production flow is optimized, thereby improving the production efficiency.

In a possible embodiment, the coloring system 20 includes a first coloring device 21, a coloring detection device 22, a second coloring device 23, and a coloring and curing device 24 sequentially disposed at intervals along the conveying direction of the optical fiber 30, the first coloring device 21 is used for coloring a predetermined portion of the optical fiber 30, the coloring and curing device 24 is used for fixing the optical fiber 30 in a coloring manner, the controller 50 is electrically connected to the coloring detection device 22 and the second coloring device 23, and the controller 50 is used for controlling the second coloring device 23 to perform a coloring operation when the coloring detection device 22 detects that the predetermined portion of the optical fiber 30 is discolored.

In this embodiment, the optical fiber 30 passes through the first coloring device 21, the coloring detection device 22, the second coloring device 23 and the coloring curing device 24 in sequence, and after being colored once by the first coloring device 21, the coloring effect of the first coloring is detected by the coloring detection device 22; if the abnormal coloring is detected, the second coloring device 23 performs a secondary coloring operation at the position of the optical fiber 30 where the primary coloring is abnormal; if it is detected that there is no coloring abnormality, the second coloring device 23 does not need to perform the secondary coloring operation again. Through the double coloring of the first coloring device 21 and the second coloring device 23, the phenomenon that the coloring is not successful or the coloring is missed at one time is improved, the coloring on the optical fiber 30 is ensured not to generate an intermittent phenomenon, and the coloring detection device 22 is matched for automatically detecting and finding abnormal coloring, so that the quality hidden trouble is eliminated.

The coloring abnormality includes, but is not limited to, the color difference of the optical fiber 30 exceeding the specification, the lack of color, the white point, etc., and the coloring detecting device 22 may be configured to automatically detect the optical fiber 30 after being colored by the first coloring device 21, detect whether there is an abnormality in the color difference, and detect whether there is a white point in the optical fiber 30.

In a possible embodiment, the tinting system 20 further comprises a first magazine 25 and a second magazine 26, the first magazine 25 being in communication with the first tinting device 21, the second magazine 26 being in communication with the second tinting device 23, and the optical fibre 30 passing in sequence through the first tinting device 21 and the second tinting device 23.

In one possible implementation, the first magazine 25 and the second magazine 26 may be magazines. The first magazine 25 is adapted to supply the first painting device 21 with a paint to be painted, the first magazine 25 may be in communication with the first painting device 21 via a feed line, the second magazine 26 is adapted to supply the second painting device 23 with a paint to be painted, and the second magazine 26 may be in communication with the second painting device 23 via a feed line.

In a possible embodiment, the first spraying device 41 comprises a first inkjet printer 411 and a first spray head 412 connected with the first inkjet printer 411, the second spraying device 43 comprises a second inkjet printer 431 and a second spray head 432 connected with the second inkjet printer 431, and the optical fiber 30 passes through the spraying side of the first spray head 412 and the spraying side of the second spray head 432 in sequence, so that the first spray head 412 and the second spray head 432 can work conveniently.

In a possible implementation manner, the color wheel printing system 40 further includes a sealed box 45 and a recycling device 46, the first spraying device 41, the color wheel detecting device 42, the second spraying device 43, and the color wheel curing device 44 are all located in the sealed box 45, and the recycling device 46 is used for recycling free printing raw materials in the sealed box 45, so that pollution of color wheel printing to air is reduced, and waste of printing raw materials can also be reduced.

In one possible embodiment, the recovery device 46 is an adsorptive device, such as a vacuum cleaner. The free printing material may be free ink.

In a possible implementation manner, the optical fiber color ring coloring machine provided by the embodiment further includes a measuring device 60, the measuring device 60 is electrically connected to the controller 50, and the controller 50 is further configured to control the measuring device 60 to detect the size of the optical fiber 30 and record the position of the optical fiber 30 with the size exceeding the standard specification.

In one possible implementation, the measuring device 60 comprises a fiber diameter gauge for measuring the diameter of the optical fiber 30. When the diameter of the optical fiber 30 exceeds the standard range, the controller 50 records the corresponding position and marks the position on the final disc for winding the optical fiber 30, so that the final quality tracing is facilitated.

For optical fibers 30 that require coloring and color ring printing, the step of detecting the coloring of the coloring system 20 can be performed before or after the color ring printing.

In one possible implementation, the coloring system 20, the measuring device 60 and the color wheel printing system 40 are arranged in sequence in the direction of transport along the optical fiber 30. Therefore, after coloring is finished, measurement is carried out first, and then color ring printing is carried out.

In another possible embodiment, the coloring system 20, the color wheel printing system 40, and the measuring device 60 are arranged in sequence in the direction of conveyance along the optical fiber 30. This realizes that after the coloring is finished, the color ring is printed and then the measurement is carried out.

In a possible implementation, the conveying device 10 includes a pay-off assembly 11, a traction assembly 12 and a take-up assembly 13, the pay-off assembly 11 is used for releasing and regulating the speed of the optical fiber 30, the take-up assembly 13 is used for taking up and regulating the speed of the optical fiber 30, the traction assembly 12 is located between the pay-off assembly 11 and the take-up assembly 13, and the traction assembly 12 is used for providing power for conveying the optical fiber 30 from the pay-off assembly 11 to the take-up assembly 13;

in the direction of transport along the optical fiber 30, the coloring system 20, the measuring device 60 and the color circle printing system 40 are all located between the pay-off assembly 11 and the drawing assembly 12. The optical fiber 30 released from the pay-off assembly 11 is finally wound up by the take-up assembly 13 under the pulling action of the pulling assembly 12.

In a possible embodiment, the pay-off assembly 11 includes a pay-off bracket 114, a pay-off reel 111, at least one pay-off wheel 112 and at least one pay-off fixed wheel 113, the pay-off reel 111, the pay-off wheel 112 and the pay-off fixed wheel 113 are rotatably disposed on the pay-off bracket 114, the pay-off wheel 112 is configured to move away from or close to the pay-off fixed wheel 113, and the optical fiber 30 released by the pay-off reel 111 is conveyed to the coloring system 20 through the pay-off wheel 112 and the pay-off fixed wheel 113.

The pay-off bracket 114 may be a shaft for hanging the pay-off reel 111, the pay-off reel 111 rotates on the pay-off bracket 114 for releasing the optical fiber 30 wound on the pay-off reel 111, and in order to match the releasing speed of the optical fiber 30 with the speed of the optical fiber 30 required to pass through by the coloring system 20 and the color ring printing system 40, the pay-off pulley 112 and the pay-off fixed pulley 113 are provided for adjusting the releasing speed of the optical fiber 30, and the pay-off pulley 112 is pulled to move away from or close to the pay-off fixed pulley 113 under the pulling action of the optical fiber 30, considering that the length of the optical fiber 30 released by one rotation of the pay-off reel 111 gradually decreases with the gradual release of one roll of the optical fiber 30.

It is easily understood that when the speed of releasing the optical fiber 30 by the pay-off reel 111 is less than the speed of the optical fiber 30 required to pass through the coloring system 20 and the color ring printing system 40, the pay-off wheel 112 moves to a direction close to the pay-off fixed wheel 113, so that the length of the optical fiber 30 between the pay-off wheel 112 and the pay-off fixed wheel 113 is shortened, thereby relieving the drawing of the optical fiber 30 by the coloring system 20 and the color ring printing system 40, and enabling the release speed of the optical fiber 30 to match the speed of the optical fiber 30 required to pass through the coloring system 20 and the color ring printing system 40; conversely, when the speed of releasing the optical fiber 30 from the pay-off reel 111 is greater than the speed of the optical fiber 30 required to pass through the coloring system 20 and the color circle printing system 40, the pay-off pulley 112 moves away from the pay-off stator 113, so that the length of the optical fiber 30 between the pay-off pulley 112 and the pay-off stator 113 is increased, and the release speed of the optical fiber 30 is matched with the speed of the optical fiber 30 required to pass through the coloring system 20 and the color circle printing system 40.

The paying-off driving wheel 112 is configured to move in a direction away from or close to the paying-off fixed wheel 113, and may move in a direction away from or close to the paying-off fixed wheel 113 in the axial direction of the mounting paying-off driving wheel 112, so as to drive the paying-off driving wheel 112 to move in a direction away from or close to the paying-off fixed wheel 113.

In one possible embodiment, the payout assembly 11 includes a payout bracket 114, a payout reel 111, a plurality of payout pulleys 112, and a plurality of payout pulleys 113, and the optical fiber 30 paid off by the payout reel 111 is alternately conveyed to the coloring system 20 by the plurality of payout pulleys 112 and the plurality of payout pulleys 113. The number of the yarn feeding wheel 112 and the yarn feeding fixed wheel 113 is not particularly limited.

In a possible embodiment, the take-up assembly 13 includes a take-up bracket 134, a take-up reel 131, at least one take-up driving wheel 132 and at least one take-up fixed wheel 133, the take-up reel 131, the take-up driving wheel 132 and the take-up fixed wheel 133 are rotatably disposed on the take-up bracket 134, the take-up driving wheel 132 is configured to move away from or close to the take-up fixed wheel 133, and the optical fiber 30 delivered by the traction assembly 12 is wound on the take-up reel 131 through the take-up driving wheel 132 and the take-up fixed wheel 133.

The take-up assembly 13 may be a shaft configured to suspend the take-up reel 131, and the take-up reel 131 rotates on the take-up bracket 134 to wind the optical fiber 30 on the take-up reel 131. In order to match the winding speed of the optical fiber 30 with the speed of the optical fiber 30 passing through the coloring system 20 and the color wheel printing system 40, the take-up pulley 132 and the take-up fixed pulley 133 are provided for adjusting the winding speed of the optical fiber 30, and the take-up pulley 132 moves away from or close to the take-up fixed pulley 133 under the traction of the optical fiber 30.

It will be readily appreciated that when the speed of the optical fiber 30 passing through the coloring system 20 and the color wheel printing system 40 is greater than the speed of the optical fiber 30 wound on the take-up reel 131, the take-up pulley 132 moves away from the take-up pulley 133; when the speed of the optical fiber 30 passing through the coloring system 20 and the color ring printing system 40 is lower than the speed of the optical fiber 30 wound on the take-up reel 131, the take-up pulley 132 moves towards the direction close to the take-up fixed pulley 133, so that the winding speed of the optical fiber 30 is matched with the speed of the optical fiber 30 passing through the coloring system 20 and the color ring printing system 40 by changing the length of the optical fiber 30 between the take-up pulley 132 and the take-up fixed pulley 133.

The wire take-up wheel 132 is configured to move in a direction away from or close to the wire take-up fixed wheel 133, and can move in a direction away from or close to the wire take-up fixed wheel 133 through an axial direction of the wire take-up wheel 132, so as to drive the wire take-up wheel 132 to move in a direction away from or close to the wire take-up fixed wheel 133, for example, a waist-shaped hole and a circular hole may be formed in the wire take-up bracket 134, a shaft of the wire take-up fixed wheel 133 is installed in the circular hole, a shaft of the wire take-up wheel 132 is movably installed in the waist-shaped hole, and a spring is arranged between an inner wall of one side of the waist-shaped hole close to the wire take-up fixed wheel 133 and the shaft of the wire take-up wheel 132, so as to drive the wire take-up wheel 132 to move in a direction away from or close to the wire take-up fixed wheel 133.

The take-up assembly 13 includes a take-up bracket 134, a take-up reel 131, a plurality of take-up driving wheels 132 and a plurality of take-up fixed wheels 133, and the optical fiber 30 delivered by the traction assembly 12 is alternately wound on the take-up reel 131 through the plurality of take-up driving wheels 132 and the plurality of take-up fixed wheels 133. The number of the take-up pulley 132 and the take-up fixed pulley 133 is not particularly limited.

In a possible embodiment, the traction assembly 12 comprises a driving traction wheel 121 and at least one driven traction wheel 122, the driving traction wheel 121 and the driven traction wheel 122 rotate relatively, the optical fiber 30 passes between the driving traction wheel 121 and the driven traction wheel 122, and the optical fiber 30 abuts against both the driving traction wheel 121 and the driven traction wheel 122. When the driving pulley 121 and the driven pulley 122 rotate relatively, the optical fiber 30 is driven to be conveyed by the friction force between the driving pulley 121 and the driven pulley 122 and the optical fiber 30.

In one possible embodiment, the traction assembly 12 includes a driving traction wheel 121, a plurality of driven traction wheels 122, and a transmission belt 123, the transmission belt 123 is disposed on the outer periphery of the plurality of driven traction wheels 122 and rotates outside the plurality of driven traction wheels 122, the driving traction wheel 121 is located outside the transmission belt 123, the optical fiber 30 passes between the driving traction wheel 121 and the transmission belt 123, and the optical fiber 30 abuts against both the driving traction wheel 121 and the transmission belt 123. The optical fiber 30 is driven by the friction force of the driving pulley 121 and the transmission belt 123 to the optical fiber 30.

In one possible implementation, the driven traction wheel 122 may be a pulley and the transmission belt 123 may be a belt. The number of the driven traction wheels 122 may be 2, 3, 4, etc., and is not particularly limited herein.

In a possible implementation manner, the optical fiber color ring coloring machine provided by the embodiment further comprises a turning wheel 14, the optical fiber 30 is transmitted through the turning wheel 14, and the turning wheel 14 is used for changing the transmission direction of the optical fiber 30.

In one possible embodiment, the diverting wheel 14 may be located between the coloring system 20 and the measuring device 60 in the direction of transport of the optical fiber 30; and/or the steering wheel 14 may be located between the measuring device 60 and the color wheel printing system 40; and/or the steering wheel 14 may be located between the color wheel printing system 40 and the tractor assembly 12, the steering wheel 14 being flexibly configurable as required by the application.

In one possible embodiment, the color curing device 24 includes a thermal curing oven that is operative to cure the color of the optical fiber 30 so that the color is reliably bonded to the optical fiber 30.

In a possible embodiment, the coloring detection device 22 includes a detection camera, the coloring detection device 22 captures the coloring condition of the optical fiber 30 and transmits the captured image to the controller 50, the controller 50 compares the captured image with the pre-stored standard coloring of the optical fiber 30 with different colors and different types, so as to detect the coloring of the optical fiber 30, and the controller 50 automatically marks the position of the coloring abnormality according to the conveying length of the optical fiber 30. Compared with manual detection, the detection efficiency is improved, and the accuracy of the detection result is improved.

In one possible implementation, the color wheel detection device 42 includes a detection camera.

The color circle detection device 42 shoots the color circle picture of the optical fiber 30, transmits the shot picture to the controller 50, and compares the picture with the pre-stored standard color circles of the optical fibers 30 with different types and colors through the controller 50, so as to detect the color circle coated on the optical fiber 30, and then the controller 50 automatically marks the abnormal position of the color circle by combining the conveying length of the optical fiber 30. Compared with manual detection, the detection efficiency is improved, and the accuracy of the detection result is improved.

In one possible embodiment, the color wheel curing device 44 comprises a UV curing oven.

Example two

Referring to fig. 2, the second embodiment is different from the first embodiment in that the feeding device 10 is used for feeding the optical fiber 30, so that the optical fiber 30 passes through the color ring printing system 40 and the coloring system 20 in sequence, and the color ring printing system 40, the coloring system 20 and the measuring device 60 are arranged in sequence along the feeding direction of the optical fiber 30.

The difference between the optical fiber color ring tinting machine provided by this embodiment, which can be used for producing a tinted optical fiber, a color ring optical fiber, and an optical fiber 30 with both tinting and color ring, is that the optical fiber 30 with both tinting and color ring is produced by first producing the color ring and then tinting, and after the tinting operation is completed, the diameter of the optical fiber 30 is measured by the measuring device 60, so as to achieve the effect of detecting the uniformity of the tinting system 20.

The optical fiber color ring coloring machine organically integrates the coloring system 20 and the color ring printing system 40, so that the optical fiber color ring coloring machine provided by the invention can only need one releasing and winding action of the optical fiber 30 for producing the optical fiber 30 with coloring and color rings, thereby improving the production efficiency and avoiding the appearance damage of the optical fiber 30 caused by the releasing and winding actions of the optical fiber 30 for many times.

According to the optical fiber color ring coloring machine, a coloring system and a color ring printing system are organically unified, two production processes are efficiently fused together, three products of a coloring optical fiber 30, a color ring optical fiber 30 and a coloring color ring optical fiber 30 are produced by one set of equipment, and the production efficiency of the coloring color ring optical fiber 30 is improved by about 50%.

According to the optical fiber color ring coloring machine provided by the invention, through the reasonable layout of the coloring system 20 and the color ring printing system 40, on one hand, the hidden quality trouble caused by the phenomena of decolorization and ring leakage can be reduced, and on the other hand, the consumption of coloring paint and color ring ink is reduced as much as possible. And the final measuring device 60 can realize the quality tracing of the finished product.

When the optical fiber 30 is in work, the optical fiber 30 is continuously conveyed, and the coloring operation and the color ring printing operation of the optical fiber 30 are automatically completed, wherein the coloring effect detection is carried out, the secondary coloring is automatically carried out when the primary coloring is abnormal, the secondary color ring printing operation is automatically carried out when the primary color ring printing is abnormal, the conveying of the optical fiber 30 is not required to be stopped when the abnormality occurs, and the production efficiency is improved.

It should be noted that the numerical values and numerical ranges referred to in this application are approximate values, and there may be some error due to the manufacturing process, and the error may be considered to be negligible by those skilled in the art.

In the description of the present invention, it is to be understood that the terms "center", "length", "width", "thickness", "top", "bottom", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", "axial", "circumferential", and the like, are used to indicate an orientation or positional relationship based on that shown in the drawings, merely to facilitate the description of the invention and to simplify the description, and do not indicate or imply that the position or element referred to must have a particular orientation, be of particular construction and operation, and thus, are not to be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integral; may be mechanically coupled, may be electrically coupled or may be in communication with each other; either directly or indirectly through intervening media, such as through internal communication or through an interaction between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (15)

1. An optical fiber color ring tinting machine, comprising: a conveying device (10), a coloring system (20), a color ring printing system (40), and a controller (50), wherein the conveying device (10) is used for conveying an optical fiber (30) so that the optical fiber (30) sequentially passes through the coloring system (20) and the color ring printing system (40) or the optical fiber (30) sequentially passes through the color ring printing system (40) and the coloring system (20), the controller (50) is electrically connected with the coloring system (20) and the color ring printing system (40), and the controller (50) is used for controlling the working states of the coloring system (20) and the color ring printing system (40);

the color ring printing system (40) comprises a first spraying device (41), a color ring detection device (42), a second spraying device (43) and a color ring curing device (44) which are sequentially arranged at intervals along the conveying direction of the optical fiber (30), wherein the first spraying device (41) is used for coating a color ring on a preset part of the optical fiber (30), and the color ring curing device (44) is used for fixing the color ring coated on the optical fiber (30);

the controller (50) is also used for controlling the second spraying device (43) to coat the color ring when the color ring detection device (42) detects that the color ring coated on the preset part of the optical fiber (30) is abnormal.

2. The optical fiber color ring tinting machine of claim 1, wherein the tinting system (20) comprises a first tinting device (21), a tinting detection device (22), a second tinting device (23) and a tinting curing device (24) which are arranged at intervals in the conveying direction of the optical fiber (30), the first tinting device (21) is used for tinting the predetermined part of the optical fiber (30), the tinting curing device (24) is used for tinting and fixing the optical fiber (30), the controller (50) is electrically connected with the tinting detection device (22) and the second tinting device (23), and the controller (50) is used for controlling the second tinting device (23) to perform the tinting operation when the tinting detection device (22) detects that the predetermined part of the optical fiber (30) is discolored.

3. A machine according to claim 2, wherein said colouring system (20) further comprises a first magazine (25) and a second magazine (26), said first magazine (25) communicating with said first colouring device (21), said second magazine (26) communicating with said second colouring device (23), said optical fibre (30) passing in sequence through said first colouring device (21) and said second colouring device (23).

4. The optical fiber color ring coloring machine according to claim 1, wherein the first spraying device (41) comprises a first code spraying machine (411) and a first spray head (412) connected with the first code spraying machine (411), the second spraying device (43) comprises a second code spraying machine (431) and a second spray head (432) connected with the second code spraying machine (431), and the optical fiber (30) sequentially passes through the spray side of the first spray head (412) and the spray side of the second spray head (432).

5. An optical fiber color ring coater according to any one of claims 1 to 4, wherein said color ring printing system (40) further comprises a sealing box (45) and a recycling device (46), said first spraying device (41), said color ring detecting device (42), said second spraying device (43) and said color ring curing device (44) are located in said sealing box (45), and said recycling device (46) is used for recycling free printing material in said sealing box (45).

6. An optical fiber color ring tinting machine according to any one of claims 1 to 4, further comprising a measuring device (60), the measuring device (60) being electrically connected to the controller (50), the controller (50) being further adapted to control the measuring device (60) to sense the size of the optical fiber (30).

7. An optical fiber color ring tinting machine according to claim 6, characterized in that the tinting system (20), the measuring device (60) and the color ring printing system (40) are arranged in succession in the direction of transport of the optical fiber (30); or

The coloring system (20), the color circle printing system (40) and the measuring device (60) are arranged in sequence in the conveying direction along the optical fiber (30); or

The color wheel printing system (40), the coloring system (20) and the measuring device (60) are arranged in sequence in the conveying direction of the optical fiber (30).

8. An optical fiber color ring tinting machine according to claim 7, wherein the delivery device (10) comprises a pay-off assembly (11), a pulling assembly (12) and a take-up assembly (13), the pay-off assembly (11) being adapted to release and speed the optical fiber (30), the take-up assembly (13) being adapted to take-up and speed the optical fiber (30), the pulling assembly (12) being located between the pay-off assembly (11) and the take-up assembly (13), the pulling assembly (12) being adapted to power the delivery of the optical fiber (30) from the pay-off assembly (11) to the take-up assembly (13);

the coloring system (20), the measuring device (60) and the color circle printing system (40) are all located between the pay-off assembly (11) and the drawing assembly (12) in the conveying direction along the optical fiber (30).

9. The machine according to claim 8, wherein the pay-off assembly (11) comprises a pay-off support (114), a pay-off reel (111), at least one pay-off wheel (112) and at least one pay-off fixed wheel (113), the pay-off reel (111), the pay-off wheel (112) and the pay-off fixed wheel (113) are rotatably disposed on the pay-off support (114), and the pay-off wheel (112) is configured to move in a direction away from or close to the pay-off fixed wheel (113), the optical fiber (30) released by the pay-off reel (111) is conveyed to the coloring system (20) through the pay-off wheel (112) and the pay-off fixed wheel (113).

10. The optical fiber color ring coloring machine according to claim 8, wherein the take-up assembly (13) comprises a take-up bracket (134), a take-up reel (131), at least one take-up driving wheel (132) and at least one take-up fixed wheel (133), the take-up reel (131), the take-up driving wheel (132) and the take-up fixed wheel (133) are rotatably disposed on the take-up bracket (134), the take-up driving wheel (132) is configured to move towards a direction far away from or close to the take-up fixed wheel (133), and the optical fiber (30) conveyed by the traction assembly (12) is wound on the take-up reel (131) through the take-up driving wheel (132) and the take-up fixed wheel (133).

11. The machine according to claim 8, characterized in that said traction assembly (12) comprises a driving traction wheel (121) and at least one driven traction wheel (122), said driving traction wheel (121) and said driven traction wheel (122) being relatively rotatable, said optical fiber (30) passing between said driving traction wheel (121) and said driven traction wheel (122), and said optical fiber (30) being opposite to both said driving traction wheel (121) and said driven traction wheel (122).

12. The machine according to claim 8, wherein the traction assembly (12) comprises a driving traction wheel (121), a plurality of driven traction wheels (122), and a transmission belt (123), the transmission belt (123) is disposed around the plurality of driven traction wheels (122) and rotates outside the plurality of driven traction wheels (122), the driving traction wheel (121) is disposed outside the transmission belt (123), the optical fiber (30) passes between the driving traction wheel (121) and the transmission belt (123), and the optical fiber (30) abuts against both the driving traction wheel (121) and the transmission belt (123).

13. An optical fiber color ring tinting machine according to claim 6, characterized in that the measuring device (60) comprises a wire diameter gauge.

14. The machine according to any one of claims 2 to 3, wherein said coloration and curing device (24) comprises a heat curing oven; and/or

The coloration detection device (22) comprises a detection camera.

15. An optical fiber color ring tinting machine according to any one of claims 1 to 4 in which the color ring sensing means (42) comprises a sensing camera; and/or

The color wheel curing device (44) comprises a UV ultraviolet curing oven.

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