CN106892556A - A kind of on-line control system of drawing optical fibers chuck - Google Patents

Abstract

The present invention discloses a kind of on-line control system of drawing optical fibers chuck, including the chuck, fiber drawing furnace and the coating die that from top to bottom set gradually, prefabricated rods top is lifted on chuck, the barred body of prefabricated rods is placed in fiber drawing furnace and optical fiber is drawn into after high temperature melting, optical fiber is coated processing through coating die, chuck is driven by the orthogonal first straight line drive mechanism in transverse direction and second straight line drive mechanism and carries out position adjustments in the horizontal, and concentricity testing device is provided between described fiber drawing furnace and coating die.Present invention system simple structure, strong applicability, can conveniently, the position of flexible on-line tuning optical fiber so that optical fiber keep it is concentric with the center of coating die, raising coat uniformity consistency, ensure coating quality, the undesirable conditions such as disconnected fibre are avoided the occurrence of, production qualification rate is greatly improved, the quality of production is ensured, production loss is reduced, production economy benefit is improved.

Description

A kind of on-line control system of drawing optical fibers chuck

Technical field

The present invention relates to drawing optical fibers equipment technical field, more particularly to a kind of on-line control system of drawing optical fibers chuck System.

Background technology

Prefabricated rods are vertically sent into fiber drawing furnace by feed cartridge, and prefabricated rods are drawn into filament after high temperature melting, Lower rapid contraction of drawing tensile force effect attenuates as bare fibre, and the high temperature bare fibre from stove out is dropped into cooling system After temperature cooling, when the micro-crack on bare fibre surface not yet is influenceed to expand by moisture in air etc., it is necessary to rapidly carry out Optical fiber surface is protected in coating, in application system optical fiber surface coated with resins coating, subsequently into cure system, it is cured into Type strengthens bare fibre stretch-proof, crooking ability, finally collects optical fiber by Winding device.

In drawing process, it is necessary to assure wire drawing optical fiber can otherwise cause light in coating die, cooling helium tube center Fine coating concentricity is unqualified, intensity difference, causes serious quality problems.In traditional drawing process, because preform is straight The reasons such as footpath is uneven, feed cartridge displacement error, easily cause wire drawing optical fiber skew axle center line position, influence coating quality, The position adjustments of the chuck of existing drawing optical fibers equipment hoisting prefabricated rods are difficult, cause to be difficult to the position of on-line amending wire drawing optical fiber Put to ensure that wire drawing optical fiber, all the time in cooling helium tube, coating die center, have impact on optical fiber coating quality, cause concentricity The poor problem of unqualified, fiber strength, production qualification rate is low, and production loss is big.

The content of the invention

The technical problems to be solved by the invention and the technical assignment for proposing are that prior art is improved, there is provided a kind of The on-line control system of drawing optical fibers chuck, the position adjustments of traditional drawing optical fibers chuck are difficult in the current technology of solution, Cause to be difficult to the position of on-line amending wire drawing optical fiber, have impact on the problem of optical fiber coating quality.

To solve above technical problem, the technical scheme is that：

A kind of on-line control system of drawing optical fibers chuck, including chuck, fiber drawing furnace and the painting for from top to bottom setting gradually Mould is covered, prefabricated rods top is lifted on chuck, and the barred body of prefabricated rods is placed in fiber drawing furnace and optical fiber is drawn into after high temperature melting, Optical fiber is coated processing through coating die, it is characterised in that described chuck is by orthogonal in transverse direction One straight line driving mechanism and second straight line drive mechanism drive and carry out position adjustments, described fiber drawing furnace and coating die in the horizontal Concentricity testing device is provided between tool.The on-line control system of drawing optical fibers chuck of the present invention is examined using concentricity The position situation of device on-line checking optical fiber is surveyed, the center with coating die is contrasted, if position has skew, led to Cross first straight line drive mechanism and second straight line drive mechanism drives chuck to be adjusted in the horizontal, it is final to cause what is drawn out Optical fiber keeps concentric with the center of coating die, improves coating uniformity consistency, ensures coating quality so that optical fiber can be obtained To good protection, it is to avoid the undesirable conditions such as disconnected fibre occur, improve the quality of production, reduce production loss, increase economic efficiency.

Further, described first straight line drive mechanism and second straight line drive mechanism is connected with controller, concentricity Detection means returns to real-time detector data to controller, controller control first straight line drive mechanism and second straight line drive mechanism Drive chuck carries out position adjustments in the horizontal, by controller and concentricity testing device, first straight line drive mechanism and the Two straight line driving mechanisms cooperate and realize automation regulation, reduce artificial operation labour intensity, and degree of regulation is high, also avoids people Work operational error causes production abnormal.

Further, described controller uses PLC, and control freedom degree is high, reliability is high, anti-interference Ability is strong, it is easy to extend, strong applicability.

Further, described first straight line drive mechanism includes the first motor and the first slide rail, second straight line driving machine Structure includes the second motor and the second slide rail, and the first described slide rail is mutually perpendicular to the second slide rail, and the first electric machine is first On slide rail along it slidably, the second electric machine the second slide rail along it slidably, device on the output shaft of the first motor First screw mandrel, the first screw mandrel is perpendicular to the first slide rail and penetrates in the silk hole opened up on chuck, on the output shaft of the second motor The screw mandrel of device second, the second screw mandrel is perpendicular to the second slide rail and penetrates in the silk hole opened up on chuck.

Further, the first described motor, the second motor use the servomotor, servomotor can effectively to control speed, Voltage signal is converted into torque and rotating speed with drive control object, positional precision is very accurate.

Further, described first straight line drive mechanism includes first straight line guide rail and along first straight line slide First sliding block, second straight line drive mechanism includes second straight line guide rail and the second sliding block along second straight line slide, first Line slideway is mutually perpendicular to second straight line guide rail, and the first sliding block is provided perpendicular to the first slide bar of first straight line guide rail, the One slide bar penetrates in the through hole that is opened up on chuck and freely slidable, and the second sliding block is provided perpendicular to the of second straight line guide rail Two slide bars, the second slide bar penetrates in the through hole opened up on chuck and freely slidable.

Further, described first straight line drive mechanism includes the first rail arms and slided along the first rail arms first Sliding seat, second straight line drive mechanism includes the second rail arms and the second sliding seat slided along the second rail arms, the second guide rail Arm assembly is on the first sliding seat and the second rail arms are perpendicular to the first rail arms, and chuck is fixedly connected on the second sliding seat On.

Further, described concentricity testing device includes two light sources, and the exit direction of two light sources is mutual Vertically, the positive offside in the beam projecting direction of light source is provided with receiver, by preform into optical fiber from two light sources Light intersection pass through.The light part that light source sends stopped by optical fiber, dark space is formed on the receiver, by dark space size Data calculate and can obtain the shaft core position of optical fiber, then will actually measure the optical fiber shaft core position and coating die for obtaining Compare heart position, you can obtain offset direction and the distance of optical fiber, first straight line drive mechanism and second are then passed through again Straight line driving mechanism drives chuck adjustment position, you can adjusts optical fiber to concentric with the center of coating die, ensures light Fine coating quality.

Further, described light source sends directional light, improves the counting accuracy of optical fiber shaft core position, and also can have Effect measures the diameter of optical fiber.

Further, described concentricity testing device uses Laser Bi-direction Rod Gauge, the reliability of on-line measurement and steady Qualitative height.

Compared with prior art, the invention has the advantages that：

The on-line control system architecture of drawing optical fibers chuck of the present invention is simple, strong applicability, can conveniently, flexibly The position of on-line tuning optical fiber so that the optical fiber for drawing out keeps concentric with the center of coating die, improves coating uniform Uniformity, ensures coating quality so that optical fiber can obtain good protection, it is to avoid the undesirable conditions such as disconnected fibre occurs, greatly carries Production qualification rate high, ensures the quality of production, reduces production loss, improves production economy benefit.

Brief description of the drawings

Fig. 1 is structural representation of the invention；

Fig. 2 is the structural representation of the embodiment one of first straight line drive mechanism and second straight line drive mechanism；

Fig. 3 is the structural representation of the embodiment two of first straight line drive mechanism and second straight line drive mechanism；

Fig. 4 is the structural representation of the embodiment three of first straight line drive mechanism and second straight line drive mechanism；

Fig. 5 is the structural representation of concentricity testing device.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.It is based on Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made Embodiment, belongs to the scope of protection of the invention.

A kind of on-line control system of drawing optical fibers chuck, can in real time adjust clip position disclosed in the embodiment of the present invention To adjust the position of prefabricated rods, it is ensured that the optical fiber gone out from preform is always positioned at cooling helium tube, the centre bit of coating die Put, it is ensured that optical fiber coating uniformity, ensure coating quality, flexible adjustment, high precision ensure optical fiber production quality, reduce life Yield and quality loses, and improves production economy benefit.

As shown in Figures 1 to 5, a kind of on-line control system of drawing optical fibers chuck, including from top to bottom set gradually Chuck 1, fiber drawing furnace 2 and coating die 3, the top of prefabricated rods 4 are lifted on chuck 1, and the barred body of prefabricated rods 4 is placed in fiber drawing furnace 2 Optical fiber is drawn into after high temperature melting, optical fiber is coated processing through coating die 3, and described chuck 1 is by transverse direction Orthogonal first straight line drive mechanism 5 and second straight line drive mechanism 6 drive and carry out position adjustments in the horizontal, it is described Fiber drawing furnace 2 and coating die 3 between be provided with concentricity testing device 7, first straight line drive mechanism 5 and second straight line drive Mechanism 6 is connected with controller 8, and concentricity testing device 7 returns to real-time detector data to controller 8, and the control first of controller 8 is straight Line drive mechanism 5 and the drive chuck 1 of second straight line drive mechanism 6 carry out position adjustments in the horizontal, and controller 8 can using PLC Programmable controller.

The real-time detection of concentricity testing device 7 and returning real-time data, controller 8 is by calculating the real-time position of optical fiber Put, this position data is contrasted with the center of coating die 3, if in the presence of skew, controller 8 drives first straight line The position of drive mechanism 5 and the work adjustment chuck 1 of second straight line drive mechanism 6 is so as to adjust the position of optical fiber, it is ensured that optical fiber is applied Cover uniform, guarantee optical fiber production quality.

As shown in Fig. 2 the first implementation method of first straight line drive mechanism 5 and second straight line drive mechanism 6 is, first Straight line driving mechanism 5 includes the first motor 51 and the first slide rail 52, and second straight line drive mechanism 6 includes the second motor 61 and second Slide rail 62, the first described slide rail 52 is mutually perpendicular to the second slide rail 62, and the device of the first motor 51 is on the first slide rail 52 along it Slidably, the device of the second motor 61 the second slide rail 62 along it slidably, device first on the output shaft of the first motor 51 Screw mandrel 53, the first screw mandrel 53 is perpendicular to the first slide rail 52 and penetrates in the silk hole opened up on chuck 1, the output of the second motor 61 The second screw mandrel of device 63 on axle, the second screw mandrel 63 is perpendicular to the second slide rail 62 and penetrates in the silk hole opened up on chuck 1, first Motor 51, the second motor 61 use servomotor.

As shown in figure 3, second implementation method of first straight line drive mechanism 5 and second straight line drive mechanism 6 is, first Straight line driving mechanism 5 includes first straight line guide rail 54 and the first sliding block 55 slided along first straight line guide rail 54, and second straight line is driven Motivation structure 6 include second straight line guide rail 64 and along second straight line guide rail 64 slide the second sliding block 65, first straight line guide rail 54 with Second straight line guide rail 64 is mutually perpendicular to, and the first sliding block 55 is provided perpendicular to the first slide bar 56 of first straight line guide rail 54, first Slide bar 56 penetrates in the through hole that is opened up on chuck 1 and freely slidable, and the second sliding block 65 is provided perpendicular to second straight line guide rail 64 the second slide bar 66, the second slide bar 66 penetrates in the through hole opened up on chuck 1 and freely slidable.

As shown in figure 4, second implementation method of first straight line drive mechanism 5 and second straight line drive mechanism 6 is, first Straight line driving mechanism 5 includes the first rail arms 57 and the first sliding seat 58 slided along the first rail arms 57, and second straight line drives Mechanism 6 includes the second rail arms 67 and the second sliding seat 68 slided along the second rail arms 67, and the device of the second rail arms 67 is the On one sliding seat 58 and the second rail arms 67 are perpendicular to the first rail arms 57, chuck 1 is fixedly connected on the second sliding seat 68.

As shown in figure 5, concentricity testing device 7 includes two light sources 71, light source 71 sends directional light, and two light sources 71 exit direction is mutually perpendicular to, and the positive offside in the beam projecting direction of light source 71 is provided with receiver 72, is drawn by prefabricated rods The optical fiber being made passes through from the light intersection of two light sources 71, and the light part that light source sends is stopped by optical fiber, on the receiver Dark space is formed, the shaft core position that can obtain optical fiber is calculated by the data to dark space size, then will actually measure the light for obtaining Fine shaft core position is compared with the center of coating die, you can obtain offset direction and the distance of optical fiber.

In the present embodiment, concentricity testing device 7 can use Laser Bi-direction Rod Gauge, the laser that generating laser sends Beam is processed by one group of lens and becomes directional light, and optical fiber blocks light beam, just has signal to produce on the receiver, by photoelectric sensing Device passes on controller this signal, and the end positions data to receiver top shadow region while calibrating are calculated i.e. The shaft core position of optical fiber is can obtain, first straight line drive mechanism 5 and second straight line are driven according to the optical fiber shaft core position surveyed The action of drive mechanism 6 is finely adjusted, it is ensured that the shaft core position of optical fiber can keep concentric with the center of coating die 3.

The above is only the preferred embodiment of the present invention, it is noted that it is right that above-mentioned preferred embodiment is not construed as Limitation of the invention, protection scope of the present invention should be defined by claim limited range.For the art For those of ordinary skill, without departing from the spirit and scope of the present invention, some improvements and modifications can also be made, these change Enter and retouch and also should be regarded as protection scope of the present invention.

Claims (10)

1. a kind of on-line control system of drawing optical fibers chuck, including chuck (1), the fiber drawing furnace (2) for from top to bottom setting gradually With coating die (3), it is lifted on chuck (1) at the top of prefabricated rods (4), the barred body of prefabricated rods (4) is placed in fiber drawing furnace (2) through height Temperature fusing after be drawn into optical fiber, optical fiber is coated processing through coating die (3), it is characterised in that described chuck (1) by Orthogonal first straight line drive mechanism (5) and second straight line drive mechanism (6) in transverse direction drive to enter in the horizontal Row position adjustments, are provided with concentricity testing device (7) between described fiber drawing furnace (2) and coating die (3).

2. the on-line control system of drawing optical fibers chuck according to claim 1, it is characterised in that described first straight line Drive mechanism (5) and second straight line drive mechanism (6) are connected with controller (8), and concentricity testing device (7) returns to real-time detection Data control first straight line drive mechanism (5) and second straight line drive mechanism (6) to drive chuck to controller (8), controller (8) (1) position adjustments are carried out in the horizontal.

3. the on-line control system of drawing optical fibers chuck according to claim 2, it is characterised in that described controller (8) PLC is used.

4. the on-line control system of drawing optical fibers chuck according to claim 1, it is characterised in that described first straight line Drive mechanism (5) includes the first motor (51) and the first slide rail (52), and second straight line drive mechanism (6) includes the second motor (61) With the second slide rail (62), described the first slide rail (52) is mutually perpendicular to the second slide rail (62), and the first motor (51) device is On one slide rail (52) along it slidably, the second motor (61) device the second slide rail (62) along it slidably, the first motor (51) screw mandrel of device first (53) on output shaft, the first screw mandrel (53) is perpendicular to the first slide rail (52) and penetrates chuck (1) On in the silk hole that opens up, the screw mandrel of device second (63) on the output shaft of the second motor (61), the second screw mandrel (63) is perpendicular to second Slide rail (62) and penetrate in the silk hole opened up on chuck (1).

5. the on-line control system of drawing optical fibers chuck according to claim 4, it is characterised in that the first described motor (51), the second motor (61) uses servomotor.

6. the on-line control system of drawing optical fibers chuck according to claim 1, it is characterised in that described first straight line The first sliding block (55) that drive mechanism (5) is slided including first straight line guide rail (54) and along first straight line guide rail (54), second is straight The second sliding block (65) that line drive mechanism (6) is slided including second straight line guide rail (64) and along second straight line guide rail (64), first Line slideway (54) is mutually perpendicular to second straight line guide rail (64), and the first sliding block (55) is provided perpendicular to first straight line guide rail (54) the first slide bar (56), the first slide bar (56) is penetrated in the through hole opened up on chuck (1) and freely slidable, the second sliding block (65) second slide bar (66) of second straight line guide rail (64) is provided perpendicular to, the second slide bar (66) is penetrated and opened up on chuck (1) Through hole in and it is freely slidable.

7. the on-line control system of drawing optical fibers chuck according to claim 1, it is characterised in that described first straight line The first sliding seat (58) that drive mechanism (5) is slided including the first rail arms (57) and along the first rail arms (57), second straight line The second sliding seat (68) that drive mechanism (6) is slided including the second rail arms (67) and along the second rail arms (67), the second guide rail Arm (67) device is on the first sliding seat (58) and the second rail arms (67) are perpendicular to the first rail arms (57), and chuck (1) is solid Surely it is connected on the second sliding seat (68).

8. the on-line control system of drawing optical fibers chuck according to claim 1, it is characterised in that described concentricity inspection Survey device (7) to be mutually perpendicular to including two light sources (71), and the exit direction of two light sources (71), in the light of light source (71) The positive offside of exit direction is provided with receiver (72), by preform into optical fiber crossed from the light of two light sources (71) Place passes through.

9. the on-line control system of drawing optical fibers chuck according to claim 8, it is characterised in that described light source (71) Send directional light.

10. the on-line control system of drawing optical fibers chuck according to claim 8, it is characterised in that described concentricity Detection means (7) uses Laser Bi-direction Rod Gauge.