CN208562165U - Novel optical fiber colours production line - Google Patents

Abstract

The application belongs to fiber optic cable manufacture field, in particular to a kind of novel optical fiber for optical fiber coloring colours production line, including the optical fiber paying off system being sequentially distributed, optic fibre coating system, optical fiber curing system and optical fiber winding system, multifiber passes through optical fiber paying off system simultaneously and enters optic fibre coating system, optic fibre coating system carries out ink coating to multifiber, optical fiber after coating enters optical fiber curing system, the optical fiber curing system makes single light source form multiple groups reflector focus, curing process is carried out simultaneously to the optical fiber after more coatings, colored optical fiber after solidification is after optical fiber trailer system, it is received on optical fiber winding system.The application breaks through existing fiber and colours production line, one production line is only capable of completing a cured function of optical fiber coloring, by using novel optical fiber staining and curing furnace, and the optic fibre coating system of brand-new design configured therewith, realize the functions of 12 optical fiber of primary at most coloring.

Description

Novel optical fiber colours production line

Technical field

The application belongs to fiber optic cable manufacture field, in particular to a kind of novel optical fiber for optical fiber coloring colours production line.

Background technique

Optical fiber coloring production line is by colourless, transparent optical fiber by the upper color of standard (or demand), in order to which optical fiber exists The identification of production process and use process.

Optical fiber coloring production line is made of six parts, comprising: optical fiber paying off system, optic fibre coating system, optical fiber are solid Change system, optical fiber trailer system, optical fiber winding system and electric control system composition.Existing optical fiber coloring production line, Gu Changing furnace is working principle: solidification furnace internal-lining uses elliptical arc surface reflection cover structure, and it is anti-that light source and optical fiber are respectively placed in elliptical arc surface It penetrates in two focuses of cover, to realize the solidification to colored optical fiber.Since elliptical arc surface reflector is only there are two focus, Present one curing oven of technology can only solidify an optical fiber.

Existing patent is such as: number of patent application CN201420790236.5, entitled " a kind of optical fiber coloring solidification equipment " Utility model patent, technical solution are as follows: the utility model relates to optical fiber production technical fields, more particularly, to a kind of optical fiber Staining and curing device includes controller and curing oven, and setting is provided with the fluorescent tube of suitable light wave, issues to fluorescent tube in curing oven Light reflection reflector and the quartz glass tube walked for optical fiber, be full of protective gas N2 in quartz glass tube, two are anti- Tabula rasa forms an ellipse, and fluorescent tube center and quartz glass tube hub are respectively in elliptical two focuses, in curing oven also Optical detector, detection equipped with detection power of lamp tube situation solidify the hygrosensor of in-furnace temperature and prevent solidification in-furnace temperature Excessively high cooling exhaust fan, optical detector, hygrosensor and cooling exhaust fan are all connect with controller signals.

There is no solve the problems, such as a curing oven while can only solidify an optical fiber above-mentioned patent.

Summary of the invention

In view of the above-mentioned problems existing in the prior art, currently proposed a kind of novel optical fiber that can solidify multifiber simultaneously Color production line.

In order to realize the above technical effect, the application use the specific scheme is that

A kind of novel optical fiber coloring production line, it is characterised in that: including optical fiber paying off system, the optical fiber coating being sequentially distributed System, optical fiber curing system and optical fiber winding system, multifiber pass through optical fiber paying off system simultaneously and enter optical fiber coating system System, optic fibre coating system carry out ink coating to multifiber, and the optical fiber after coating enters optical fiber curing system, and the optical fiber is solid Change system makes single light source form multiple groups reflector focus, curing process is carried out simultaneously to the optical fiber after more coatings, after solidification Colored optical fiber is received on optical fiber winding system after optical fiber trailer system.

The optical fiber paying off system releases 12 optical fiber simultaneously, and different colours ink is coated to by the optic fibre coating system Each optical fiber surface, the optical fiber curing system simultaneously solidify 12 colored optical fibers, and the optical fiber winding system simultaneously will 12 optical fiber receive on 12 fiber reels.

The optical fiber curing system includes curing oven, and the curing oven includes furnace body, plane-reflector and light source is adjusted, The light source and adjustable plane-reflector are located in furnace body, and multiple adjustable plane-reflectors mutually surround, described adjustable The plane-reflector that plane-reflector includes shaft and is connected with shaft, and can rotate around the axis.

Multiple adjustable plane-reflectors surround annular in shape, rectangular box shape or irregular shape.

Multiple adjustable plane-reflectors are installed on inner wall along furnace body radial direction along furnace.

Multiple adjustable plane-reflectors form higher order reflection path, by a light by the adjusting of angle in furnace body The energy in source is reflected into the surface of multifiber, multiple groups focus is formed in curing oven body, so that the ink of every optical fiber be consolidated Change.

Plane-reflector is connected by bracket with shaft, and the bracket can rotate around the axis, the shaft and inboard wall of furnace body It is connected.Plane-reflector and bracket realize the adjusting to light source reflection angle by the rotation around shaft.

Side is provided with light source in the furnace body, and the other side has multifiber to pass through side by side in furnace body.

The light source is LED light, and multifiber is equidistantly transversely arranged, and the furnace is filled with nitrogen, the two of the furnace body End be provided with for optical fiber into and out of dodge gate.

The optical fiber curing system further include be separately positioned on the mold base passed through for optical fiber outside furnace body both ends and Support the guide wheel group of optical fiber and centering mold base.

When true qualities optical fiber passes through mold base, optical fiber surface painting is covered with corresponding color, while mold base is to entrance furnace body Optical fiber plays the role of positioning.Adjustable door opening passes through convenient for optical fiber, when solidifying progress, for the energy for ensuring light source It does not lose, dodge gate is closed.Solidify complete optical fiber go out furnace body after, into guide wheel group, guide wheel group plays two is first Centering is kept with the mold base of furnace body entrance, another effect is played a supporting role to optical fiber.

The working principle of the application are as follows:

12 coiled optical fibers are once placed into optical fiber paying off system by novel optical fiber coloring production line, and optical fiber passes through optical fiber coating system System, the optic fibre coating system carry out ink coating to 12 optical fiber simultaneously, the optical fiber after coating printing ink, into optical fiber curing system System, the optical fiber curing system use novel optical fiber staining and curing furnace, and it is anti-that novel optical fiber staining and curing furnace breaks through conventional ellipse Cover is penetrated, using the plane-reflector that can arbitrarily adjust angle, multiple groups reflector focus is established in curing oven, to realize to more Colored optical fiber is solidified.Optical fiber is received the light of optical fiber winding system by optical fiber trailer system by the colored optical fiber after solidification On fine disk.

The working principle of optical fiber curing system are as follows:

Multifiber is by mold base positioning and coating printing ink is to optical fiber surface, and the optical fiber after coating printing ink enters solidification Furnace, light source are located at furnace body side, and coated fiber is equidistantly arranged in the furnace body other side, by adjusting the angle of plane-reflector, come Reflection relates to the energy of light source to coated fiber surface, to achieve the purpose that solidify colorant, the optical fiber after solidification goes out curing oven Afterwards, it is positioned by fire door guide wheel side by side.

The advantages of the application, is:

1, the application breaks through existing fiber coloring production line, and a production line is only capable of completing the cured function of optical fiber coloring Can, by using novel optical fiber staining and curing furnace, and the optic fibre coating system of brand-new design configured therewith, it realizes primary most Colour the function of 12 optical fiber.

2, using the plane-reflector of adjustable-angle in the curing oven of the application, by the angle for adjusting plane-reflector Degree, can form multiple groups focus in curing oven body, thus can solidify multifiber simultaneously.Realize a furnace body, a light Source can simultaneously solidify multifiber, under the premise of guarantee solidification effect, improve production efficiency and saved production Cost.

Detailed description of the invention

Fig. 1 is coloring production line overall structure diagram.

Fig. 2 is the schematic diagram of the section structure of curing oven.

Fig. 3 is the structural schematic diagram of optical fiber curing system.

In attached drawing:

100- optical fiber paying off system, 200- optic fibre coating system, 300- optical fiber curing system, 400- optical fiber trailer system, 500- optical fiber winding system.

1- furnace body, 2- light source, 3- are adjusted plane-reflector, 4- optical fiber, 5- shaft, 6- mold base, 7- guide wheel group, and 8- is flat Face reflecting plate, 9- bracket.

Specific embodiment

Embodiment 1

A kind of novel optical fiber coloring production line include the optical fiber paying off system 100 being sequentially distributed, optic fibre coating system 200, Optical fiber curing system 300 and optical fiber winding system 400, multifiber 4 enter optical fiber painting by optical fiber paying off system 100 simultaneously System 200 is covered, optic fibre coating system 200 carries out ink coating to multifiber 4, and the optical fiber 4 after coating enters optical fiber curing system System 300, the optical fiber curing system 300 make single light source 2 form multiple groups reflector focus, simultaneously to the optical fiber 4 after more coatings Curing process is carried out, the colored optical fiber 4 after solidification is received on optical fiber winding system 400 after optical fiber trailer system 400.

In the present embodiment, single light source 2, which forms this effect of multiple groups reflector focus, can use the anti-of adjustable-angle Plate realization is penetrated, the reflecting plate of multiple fixations can also be preset, the angle of reflecting plate is predisposed to can be anti-by single light source 2 The scheme for penetrating into multiple focuses is realized.

Embodiment 2

A kind of novel optical fiber coloring production line, it is characterised in that: including optical fiber paying off system 100, the optical fiber being sequentially distributed Application system 200, optical fiber curing system 300 and optical fiber winding system 400, multifiber 4 pass through optical fiber paying off system 100 simultaneously Enter optic fibre coating system 200, optic fibre coating system 200 carries out ink coating to multifiber 4, the optical fiber 4 after coating into Enter optical fiber curing system 300, the optical fiber curing system 300 makes single light source 2 form multiple groups reflector focus, after more coatings Optical fiber 4 simultaneously carry out curing process, the colored optical fiber 4 after solidification is received into optical fiber take-up after optical fiber trailer system 400 In system 400.

Multifiber 4 can be 4,6,8 and 12 etc., and quantity is unlimited, be explained by taking 12 optical fiber 4 as an example below It states, the optical fiber paying off system 100 releases 12 optical fiber 4 simultaneously, and the optic fibre coating system 200 coats different colours ink To each 4 surface of optical fiber, the optical fiber curing system 300 simultaneously solidifies 12 colored optical fibers 4, the optical fiber winding system 400 simultaneously receive 12 optical fiber 4 on 12 4 disks of optical fiber.

The optical fiber curing system 300 includes curing oven, and the curing oven includes furnace body 1, adjustable 3 and of plane-reflector Light source 2, the light source 2 and adjustable plane-reflector 3 are located in furnace body 1, and multiple adjustable plane-reflectors 3 mutually surround, The adjustable plane-reflector 3 include shaft 5 and be connected with shaft 5, and can 5 rotations around the shaft plane-reflector 8.

Multiple adjustable plane-reflectors 3 surround annular in shape, rectangular box shape or irregular shape.

Multiple adjustable plane-reflectors 3 are installed on inner wall along 1 radial direction of furnace body along furnace.

Multiple adjustable plane-reflectors 3 form higher order reflection path, by one by the adjusting of angle in furnace body 1 The energy of light source 2 is reflected into the surface of multifiber 4, forms multiple groups focus in solidification furnace body 1, thus by every optical fiber 4 Ink solidification.

Plane-reflector 8 is connected by bracket with shaft 5, and the bracket can 5 rotation around the shaft, the shaft 5 and furnace body 1 Inner wall is connected.Plane-reflector 8 and bracket realize the adjusting to 2 reflection angle of light source by the rotation around shaft 5.

Side is provided with light source 2 in the furnace body 1, and the other side has multifiber 4 to pass through side by side in furnace body 1.

The light source 2 is LED light, and multifiber 4 is equidistant transversely arranged, filled with nitrogen, the furnace body 1 in the furnace body 1 Both ends be provided with for optical fiber 4 into and out of dodge gate.

The optical fiber curing system 300 further includes the mold passed through for optical fiber 4 being separately positioned on outside 1 both ends of furnace body Seat 6 and the guide wheel group 7 for supporting optical fiber 4 and centering mold base 6.

When true qualities optical fiber 4 passes through mold base 6,4 surface of optical fiber, which applies, is covered with corresponding color, while 6 pairs of mold base enter furnace The optical fiber 4 of body 1 plays the role of positioning.Adjustable door is opened to be passed through convenient for optical fiber 4, when solidifying progress, to ensure light The energy in source 2 does not lose, and dodge gate is closed.Solidify complete optical fiber 4 go out furnace body 1 after, into guide wheel group 7, guide wheel group 7 plays two A effect is to keep centering with the mold base 6 of 1 entrance of furnace body first, another effect is played a supporting role to optical fiber 4.

12 coiled optical fibers 4 are once placed into optical fiber paying off system 100 by novel optical fiber coloring production line, and optical fiber 4 passes through optical fiber Application system 200, the optic fibre coating system 200 carry out ink coating to 12 optical fiber 4 simultaneously, the optical fiber 4 after coating printing ink, into Enter optical fiber curing system 300, which uses 4 staining and curing furnace of novel optical fiber, 4 staining and curing of novel optical fiber Furnace breaks through conventional oval reflector and it is anti-to establish multiple groups in curing oven using the plane-reflector 8 that can arbitrarily adjust angle Focus is penetrated, more colored optical fibers 4 are solidified to realize.Colored optical fiber 4 after solidification, by optical fiber trailer system 400, Optical fiber 4 is received on 4 disk of optical fiber of optical fiber winding system 400.

Multifiber 4 is by the positioning of mold base 6 and coating printing ink arrives 4 surface of optical fiber, and the optical fiber 4 after coating printing ink enters admittedly Change furnace, light source 2 is located at 1 side of furnace body, and coated fiber 4 is equidistantly arranged in 1 other side of furnace body, by adjusting plane-reflector 8 Angle, to reflect the energy for relating to light source 2 to 4 surface of coated fiber, to achieve the purpose that solidify colorant, the optical fiber after solidification After 4 go out curing oven, positioned by the guide wheel of fire door side by side.

The application breaks through existing fiber 4 and colours production line, and a production line is only capable of completing the function of 4 staining and curing of optical fiber Can, by using 4 staining and curing furnace of novel optical fiber, and the optic fibre coating system 200 of brand-new design configured therewith, it realizes primary The at most function of 12 optical fiber 4 of coloring.

Using the plane-reflector 8 of adjustable-angle in the curing oven of the application, by the angle for adjusting plane-reflector 8 Degree can form multiple groups focus in solidification furnace body 1, thus can solidify multifiber 4 simultaneously.Realize a furnace body 1, one Light source 2 can simultaneously solidify multifiber 4, under the premise of guaranteeing solidification effect, improve production efficiency and save Production cost.

Optical fiber paying off system 100, optic fibre coating system 200, optical fiber trailer system 400 and optical fiber take-up system in the application The specific structure and function of system 400 belong to the prior art.

Claims (9)

1. a kind of novel optical fiber colours production line, it is characterised in that: including optical fiber paying off system (100), the optical fiber being sequentially distributed Application system (200), optical fiber curing system (300) and optical fiber winding system (400), multifiber (4) are put by optical fiber simultaneously Linear system system (100) enters optic fibre coating system (200), and optic fibre coating system (200) carries out ink painting to multifiber (4) It covers, the optical fiber (4) after coating enters optical fiber curing system (300), and the optical fiber curing system (300) makes single light source (2) shape At multiple groups reflector focus, curing process is carried out simultaneously to the optical fiber (4) after more coatings, the colored optical fiber (4) after solidification passes through After optical fiber (4) trailer system, it is received on optical fiber winding system (400).

2. novel optical fiber according to claim 1 colours production line, it is characterised in that: the optical fiber paying off system (100) 12 optical fiber (4) are released simultaneously, and different colours ink is coated to each optical fiber (4) surface, institute by the optic fibre coating system (200) It states optical fiber curing system (300) while 12 colored optical fibers (4) is solidified, the optical fiber winding system (400) simultaneously will 12 optical fiber (4) receive on 12 optical fiber (4) disks.

3. novel optical fiber according to claim 1 or 2 colours production line, it is characterised in that: the optical fiber curing system It (300) include curing oven, the curing oven includes furnace body (1), adjustable plane-reflector (3) and light source (2), the light source (2) be located in furnace body (1) with adjustable plane-reflector (3), multiple adjustable plane-reflectors (3) mutually surround, it is described can Adjust plane-reflector (3) include shaft (5) and be connected with shaft (5), and can around the shaft (5) rotation plane-reflector (8).

4. novel optical fiber according to claim 3 colours production line, it is characterised in that: multiple adjustable plane-reflectors (3) annular in shape, rectangular box shape or irregular shape are surrounded.

5. novel optical fiber according to claim 3 colours production line, it is characterised in that: multiple adjustable plane-reflectors (3) it is installed on inner wall along furnace body (1) radial direction along furnace.

6. novel optical fiber according to claim 3 colours production line, it is characterised in that: plane-reflector (8) passes through bracket It is connected with shaft (5), the bracket (5) can rotate around the shaft, and the shaft (5) is connected with furnace body (1) inner wall.

7. novel optical fiber according to claim 3 colours production line, it is characterised in that: the interior side setting of furnace body (1) Have light source (2), furnace body (1) interior other side has multifiber (4) to pass through side by side.

8. novel optical fiber according to claim 7 colours production line, it is characterised in that: the light source (2) is LED light, more Root optical fiber (4) is equidistant transversely arranged, and filled with nitrogen in the furnace body (1), the both ends of the furnace body (1) are provided with for optical fiber (4) into and out of dodge gate.

9. novel optical fiber according to claim 3 colours production line, it is characterised in that: the optical fiber curing system (300) Further include the mold base (6) passed through for optical fiber (4) being separately positioned on outside furnace body (1) both ends and support optical fiber (4) with it is right The guide wheel group (7) of middle mold base (6).