CN203845946U - Optical fiber winding machine - Google Patents

Abstract

The utility model discloses an optical fiber winding machine which comprises an optical fiber release frame for accommodating an optical fiber wire wheel, a machine case, a transverse connection rod, a roller set, a wire feeding mechanism for driving optical fiber to downwards move, a soft optical fiber limitation piece of which the middle part is provided with an optical fiber limitation hole, a cutting mechanism for cutting optical fiber, a guide mechanism for downwards feeding cut tail fiber and a winding mechanism for winding an optical fiber ring; the transverse connection rod, the roller set, the wire feeding mechanism, the soft optical limitation piece, the cutting mechanism, the guide mechanism and the winding mechanism are sequentially arranged on the machine case from top to bottom; the optical fiber release frame comprises a frame body, a wire wheel shaft transversely arranged on the frame body, a fixed friction block connected to the wire wheel shaft and an adjustment friction block sheathed on the wire wheel shaft; a screw hole is formed in the adjustment friction block; a tightening screw is arranged in the screw hole; a wire passing roller is arrange at the starting end of the transverse connection rod corresponding to the optical fiber release frame; a wire passing roller is arranged at the tail end of the transverse connection rod corresponding to the roller set. By adopting the optical fiber winding machine, the work of winding the optical fiber ring can be automatically finished, the optical fiber winding machine can continuously and automatically produce, the production efficiency is high, the winding accuracy is high and the optical fiber is not damaged.

Description

Optical fiber coil winding machine

Technical field

The utility model is specifically related to a kind of optical fiber coil winding machine, for optical fiber is coiled into fiber turns.

Background technology

Optical fiber is fibre-optic writing a Chinese character in simplified form, and is a kind of for transmitting the light conduction instrument of information.The covering that the slightly low material of specific refractory power of the ratio fibre core of the fibre core that it is made by transparent material and fibre core coating around makes forms.In working process, inject the optical signal of fibre core through covering boundary reflection, optical signal is propagated forward in fibre core.

In the prior art, often need the manual optical fiber from the certain length of line wheel intercepting, then the optical fiber cutting down is coiled into fiber turns according to certain diameter.But that this manual optical fiber pitch of the laps process that coordinates simple tool to complete has is not easy to operate, efficiency is low, error is large, the shortcoming of easy damaged optical fiber.

In prior art, need a kind of optical fiber coil winding machine that can automatically complete around fiber turns work badly.

Summary of the invention

The purpose of this utility model is the deficiency existing in order to overcome prior art, and a kind of optical fiber coil winding machine that can automatically complete around fiber turns work is provided.

The utility model is achieved through the following technical solutions: a kind of optical fiber coil winding machine, comprise the optical fiber release frame for placing optical fiber cable wheel, cabinet and be set in turn in from top to bottom the horizontal union lever on cabinet, roller set, for the wire agency that drives optical fiber to move down, middle part is provided with the soft optical fiber locating part of optical fiber spacing hole, for cutting off the shut off mechanism of optical fiber, for sending the guide of the tail optical fiber after cut-out and the winding mechanism for winding optical fiber circle downwards, described optical fiber release frame comprises support body, be horizontally set at the wire wheel axis on support body, be fixedly connected on the fixed friction piece on wire wheel axis and be sheathed on the adjusting frictionshoe on wire wheel axis, on described adjusting frictionshoe, be provided with screw hole, in this screw hole, be provided with and tighten screw, the top of described horizontal union lever was provided with line roller corresponding to optical fiber release frame, the end of described horizontal union lever was provided with line roller corresponding to roller set.

Described roller set comprises three soft line roller and two gag lever posts excessively, wherein, cross line roller longitudinal arrangement for two, another crosses line roller and is positioned at the side of the centre of crossing line roller of these two longitudinal arrangements, two gag lever posts are arranged at respectively the side of crossing line roller of two longitudinal arrangements, and gag lever post and corresponding mistake between line roller form the spacing gap of optical fiber.

Described wire agency comprises link span and is arranged at line sending motor, cylinder and the slide rail on link span, the power output shaft of described line sending motor is connected with initiatively Wire Wheel, on described slide rail, be provided with slide block, slide block is connected with driven Wire Wheel in the side of described active Wire Wheel, the piston rod of described cylinder is connected with described slide block, on the periphery of described active Wire Wheel, be provided with soft recess, described driven Wire Wheel is provided with soft salient corresponding to recess.

Described shut off mechanism comprises cylinder, hinged seat, contiguous block, rotation axis, the Cutter apron of deltiod bulk and funnelform cutting knife, the piston rod of described cylinder is connected with described hinged seat, one end of described contiguous block is hinged by jointed shaft and described hinged seat, the other end of described contiguous block is connected with the top of described rotation axis, described Cutter apron is provided with the rotational axis hole extending to this Cutter apron middle part from the side of this Cutter apron, described Cutter apron be provided be communicated with described rotational axis hole and perpendicular to the optic fibre hole of rotational axis hole, described cutting knife is arranged in described optic fibre hole, described rotation the tip of the axis is connected with described cutting knife through described rotational axis hole.

On described Cutter apron, be connected with soft limited block, the middle part of this limited block is provided with spacing hole, and described spacing hole is just to described optic fibre hole, and the aperture of described spacing hole is less than the aperture of described optic fibre hole.

The side of described Cutter apron is provided with strongback, and the middle part of this strongback is provided with pilot hole, and this pilot hole is just to described rotational axis hole.

Described guide comprises Rodless cylinder, guide rail, slide block, web plate, connecting arm and seeker, described Rodless cylinder comprises cylinder guide rail and is arranged at the cylinder slide block on this cylinder guide rail, described cylinder guide rail and described guide rail are parallel to each other, described slide block is arranged on described guide rail, described web plate is fixedly connected with described cylinder slide block and described slide block, the latter half of described connecting arm is connected with described web plate, the front end of described connecting arm stretches out forward, described seeker is arranged at the leading section of described connecting arm, in this seeker, be provided with optic fibre hole, seeker is provided with two soft clamp wheels in a port of optic fibre hole, between these two clamp wheels, be provided with clamp gap corresponding to the diameter of optical fiber.

Described guide rail is provided with limited block in the slip initiating terminal of described slide block, the side of described web plate is connected with the measured piece that puts in place, this measured piece that puts in place forms by the mounting plate being connected with web plate and perpendicular to the Board Under Test of mounting plate, and the side of described guide rail is respectively arranged with first to level detecting apparatus and second to level detecting apparatus corresponding to zero position and the final position of described Board Under Test.

Described winding mechanism comprises coiling electric motor, motion-work wheel and the rotating disk setting gradually from front to back, shaft collar, driven wheel, sleeve and clamping cylinder, the middle part of described rotating disk is provided with tensioning centrum, the front end face of described rotating disk is evenly provided with three coiling cylinders and a clamp post in the surrounding of tensioning centrum, the side of described clamp post is provided with thread tension stud, between described clamp post and described thread tension stud, form clamp gap, the rear end of described tensioning centrum is connected with connecting cylinder, in described sleeve, be provided with spot contact bearing, described connecting cylinder passes the axis hole of shaft collar successively, the axis hole of driven wheel stretches in described sleeve, described connecting cylinder is sheathed on the outer ring of described spot contact bearing, the piston rod of described clamping cylinder stretches in the inner ring that is connected in described spot contact bearing in described sleeve, described motion-work wheel is connected with the power output shaft of described coiling electric motor, described driven wheel is connected with described motion-work wheel by belt, the front side of described driven wheel is connected with web member, this web member is connected with described rotating disk through the axis hole of described shaft collar forward.

The front end face edge of described rotating disk is provided with fan-shaped orienting lug in the side of described clamp post and each described coiling cylinder, and described clamp post and described coiling cylinder stretch out to the front of corresponding fan-shaped orienting lug.

The beneficial effects of the utility model are: the utility model is unwrapping wire, line sending, coiling and broken string automatically, each mechanism cooperatively interacts and can automatically complete the work around fiber turns, and it has advantages of rational in infrastructure, easy to use, working stability, can automatically produce continuously, production efficiency is high, coiling accuracy is high, do not damage optical fiber, applied widely.

Brief description of the drawings

Fig. 1 is one-piece construction schematic diagram of the present utility model;

Fig. 2 is the structural representation of wire agency;

Fig. 3 is the structural representation of shut off mechanism;

Fig. 4 is the structural representation of guide;

Fig. 5 is the structural representation of winding mechanism.

In the drawings:

100-optical fiber release frame; 101-support body; 102-wire wheel axis; 103-fixed friction piece; 104-regulates frictionshoe;

200-wire agency; 201-line sending motor; 202-is Wire Wheel initiatively; The driven Wire Wheel of 203-; 204-cylinder; 205-adjusting bolt; 206-link span;

300-shut off mechanism; 301-cylinder; 302-hinged seat; 303-contiguous block; 304-rotation axis; 305-strongback; 306-Cutter apron; 307-limited block.

400-guide; 401-guide rail; 402-slide block; 403-limited block; 404-Rodless cylinder; 405-cylinder slide block; Web member before 406-; 407-rear connectors; 408-web plate; 409-connecting arm; 410-seeker; 411-clamp wheel; The 412-measured piece that puts in place.

500-winding mechanism; 501-coiling electric motor; 502-motion-work wheel; 503-clamping cylinder; 504-sleeve; 505-driven wheel; 506-shaft collar; 507-rotating disk; The fan-shaped orienting lug of 508-; The 509-cylinder that winds the line; 510-clamp post; 511-thread tension stud; 512-tensioning centrum; 513-motor fixing frame; 514-cylinder anchor.

600-optical fiber locating part; 700-roller set; The horizontal union lever of 800-; 900-crosses line roller.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in detail.

As shown in Figure 1, a kind of optical fiber coil winding machine, comprise the optical fiber release frame 100 for placing optical fiber cable wheel, cabinet and be set in turn in from top to bottom the horizontal union lever 800 on cabinet, roller set 700, for the wire agency 200 that drives optical fiber to move down, middle part is provided with the soft optical fiber locating part 600 of optical fiber spacing hole, for cutting off the shut off mechanism 300 of optical fiber, for sending the guide 400 of the tail optical fiber after cut-out and the winding mechanism 500 for winding optical fiber circle downwards, optical fiber release frame 100 comprises support body 101, be horizontally set at the wire wheel axis 102 on support body 101, be fixedly connected on the fixed friction piece 103 on wire wheel axis 102 and be sheathed on the adjusting frictionshoe 104 on wire wheel axis 102, regulate on frictionshoe 104 and be provided with screw hole, in this screw hole, be provided with and tighten screw, laterally the top of union lever 800 was provided with line roller 900 corresponding to optical fiber release frame 100, laterally the end of union lever 800 was provided with line roller 900 corresponding to roller set 700.

When work, optical fiber cable wheel is positioned on the wire wheel axis 102 of optical fiber release frame 100, regulate the position of frictionshoe 104, make to regulate frictionshoe 104 and fixed friction piece 103 to apply certain pressure to optical fiber cable wheel, this pressure is taken turns in the process of rotating under the driving of wire agency 200 optical fiber cable and is born all the time frictional force, in the time that wire agency 200 shuts down, optical fiber cable wheel can stop operating at once under the effect of this frictional force, this can ensure non-off-line, makes the optical fiber state in being straightened all the time.

Referring to Fig. 1, roller set 700 comprises three soft line roller and two gag lever posts excessively, wherein, cross line roller longitudinal arrangement for two, another crosses line roller and is positioned at the side of the centre of crossing line roller of these two longitudinal arrangements, two gag lever posts are arranged at respectively the side of crossing line roller of two longitudinal arrangements, and gag lever post and corresponding mistake between line roller form the spacing gap of optical fiber.When work, optical fiber is longitudinally crossed between line roller and is passed from three, and with three cross line roller contact, gag lever post and the corresponding position for limit fibre after cut-out optical fiber, the spacing gap of optical fiber between line roller of crossing, make optical fiber be positioned at all the time the side of line roller.

As shown in Figure 2, wire agency wire agency comprises link span 206 and is arranged at line sending motor 201, cylinder 204 and the slide rail on link span 206, the power output shaft of line sending motor 201 is connected with initiatively Wire Wheel 202, on slide rail, be provided with slide block, slide block is connected with driven Wire Wheel 203 in the side of active Wire Wheel 202, the piston rod of cylinder 204 is connected with slide block, initiatively on the periphery of Wire Wheel 202, be provided with soft recess, driven Wire Wheel 203 is provided with soft salient corresponding to recess.

When work, cylinder 204 drives the side shifting of driven Wire Wheel 203 to active Wire Wheel 202, and optical fiber is sandwiched between active Wire Wheel 202 and driven Wire Wheel 203, and line sending motor 201 drives initiatively Wire Wheels 202 to rotate, line sending downwards.On cylinder 204, be provided with adjusting bolt 205, for finely tuning the distance between driven Wire Wheel 203 and active Wire Wheel 202, both better coordinated with optical fiber, complete line sending.

As shown in Figure 3, shut off mechanism 300 comprises cylinder 301, hinged seat 302, contiguous block 303, rotation axis 304, the Cutter apron 306 of deltiod bulk and funnelform cutting knife, the piston rod of cylinder 301 is connected with hinged seat 302, one end of contiguous block 303 is hinged by jointed shaft and hinged seat 302, the other end of contiguous block 303 is connected with the top of rotation axis 304, Cutter apron 306 is provided with the rotational axis hole extending to these Cutter apron 306 middle parts from the side of this Cutter apron 306, Cutter apron 306 be provided be communicated with rotational axis hole and perpendicular to the optic fibre hole of rotational axis hole, cutting knife is arranged in optic fibre hole, the end of rotation axis 304 is connected with cutting knife through rotational axis hole.

The utility model is applicable to the optical fiber of plurality of specifications, as round fiber and flat type optical fiber.In the time that needs cut off optical fiber, cylinder 301 moves, drive hinged seat 302, contiguous block 303 to drive rotation axis 304 and cutting knife to rotate, funnelform cutting knife has a larger port and a less port, less port periphery has blade, in the process that cutting knife rotates, blade is by fiber cut.Before pitch of the laps optical fiber, cylinder 301 passes cutting knife by optical fiber after driving cutting knife to reset again.Because cutting knife is funnel-form, optical fiber penetrates from the larger port of cutting knife, and the port less from cutting knife passes, and makes threading process comparatively easy.

In order further to protect and to stop the damage problem to optical fiber in production process; referring to Fig. 1; on Cutter apron 306, be connected with soft limited block 307; the middle part of this limited block 307 is provided with spacing hole; spacing hole is just to optic fibre hole, and the aperture of spacing hole is less than the aperture of optic fibre hole, in cutting-off process; optical fiber is spacing by soft spacing hole, avoids contacting with the Cutter apron 306 of hard.

As shown in Figure 3, the side of Cutter apron 306 is provided with strongback 305, and the middle part of this strongback 305 is provided with pilot hole, and this pilot hole is just to rotational axis hole.Strongback 305 can play the effect of positioning rotary shaft 304, makes the action of rotation axis 304 more accurate.

As shown in Figure 4, guide 400 comprises Rodless cylinder 404, guide rail 401, slide block 402, web plate 408, connecting arm 409 and seeker 410, Rodless cylinder 404 comprises cylinder guide rail 401 and is arranged at the cylinder slide block 405 on this cylinder guide rail 401, cylinder guide rail 401 is parallel to each other with guide rail 401, slide block 402 is arranged on guide rail 401, web plate 408 is fixedly connected with cylinder slide block 405 and slide block 402, the latter half of connecting arm 409 is connected with web plate 408, the front end of connecting arm 409 stretches out forward, seeker 410 is arranged at the leading section of connecting arm 409, in this seeker 410, be provided with optic fibre hole, seeker 410 is provided with two soft clamp wheels 411 in a port of optic fibre hole, between these two clamp wheels 411, be provided with clamp gap corresponding to the diameter of optical fiber.

Clamp wheel 411 adopts soft material to make, when work, optical fiber passes between optic fibre hole and two clamp wheels 411, gap between two clamp wheels 411 should guarantee fiber clamping, complete the action of sending tail optical fiber, can ensure that again, in the time that tail optical fiber is delivered to, reel rotates coiling, optical fiber can be extracted out smoothly between two clamps wheels 411.The utility model is applicable to the optical fiber of plurality of specifications, as round fiber and flat type optical fiber, can ensure that optical fiber is not damaged in process of production.

Referring to Fig. 4, guide rail 401 is provided with limited block 403 in the slip initiating terminal of slide block 402, the side of web plate 408 is connected with the measured piece 412 that puts in place, this measured piece 412 that puts in place is by the mounting plate being connected with web plate 408 and form perpendicular to the Board Under Test of mounting plate, the side of guide rail 401 is respectively arranged with first to level detecting apparatus and second to level detecting apparatus corresponding to zero position and the final position of Board Under Test, this structure makes to send the action of tail optical fiber and reset more accurate, effectively improves device precision.The leading section of Rodless cylinder 404 and rearward end are provided with respectively front web member 406 and rear connectors 407, are convenient to being connected of Rodless cylinder 404 and cabinet.

As shown in Figure 5, winding mechanism 500 comprises coiling electric motor 501, motion-work wheel 502 and the rotating disk 507 setting gradually from front to back, shaft collar 506, driven wheel 505, sleeve 504 and clamping cylinder 503, the middle part of rotating disk 507 is provided with tensioning centrum 512, the front end face of rotating disk 507 is evenly provided with three coiling cylinders 509 and a clamp post 510 in the surrounding of tensioning centrum 512, the side of clamp post 510 is provided with thread tension stud 511, between clamp post 510 and thread tension stud 511, form clamp gap, the rear end of tensioning centrum 512 is connected with connecting cylinder, in sleeve 504, be provided with spot contact bearing, connecting cylinder passes the axis hole of shaft collar 506 successively, the axis hole of driven wheel 505 stretches in sleeve 504, connecting cylinder is sheathed on the outer ring of spot contact bearing, the piston rod of clamping cylinder 503 stretches in the inner ring that is connected in spot contact bearing in sleeve 504, motion-work wheel 502 is connected with the power output shaft of coiling electric motor 501, driven wheel 505 is connected with motion-work wheel 502 by belt, the front side of driven wheel 505 is connected with web member, this web member is connected with rotating disk 507 through the axis hole of shaft collar 506 forward.

Shaft collar 506 is fixedly connected on cabinet, rotating disk 507 is positioned at cabinet outside, driven wheel 505, sleeve 504, clamping cylinder 503, coiling electric motor 501 and motion-work wheel 502 are arranged at cabinet inner side, coiling electric motor 501 is arranged on motor fixing frame 513, and clamping cylinder 503 is arranged on cylinder anchor 514.When work, optical fiber head is placed in the clamp gap between clamp post 510 and thread tension stud 511, the piston rod of clamping cylinder 503 moves forward, drive tensioning centrum 512 to stretch out forward by the bearing in sleeve 504 and connecting cylinder, because the diameter of the lower end of tensioning centrum 512 is larger, after tensioning centrum 512 stretches out, clamp post 510 and three coiling cylinders 509 of side are outwards supported in its side, clamp post 510 and three coiling cylinders 509 are outwards opened, clamp post 510 clamps optical fiber head with thread tension stud 511, can adopt resilient material to make clamp post 510 and coiling cylinder 509, also can be at clamp post 510, between coiling cylinder 509 and rotating disk 507, spring is set, they are outwards opened in the time being supported.Afterwards, coiling electric motor 501 drives rotating disk 507 to rotate by motion-work wheel 502, belt, driven wheel 505, web member, winds the line.After coiling completes, the piston rod of clamping cylinder 503 backward action drives tensioning centrum 512 resets backward, and clamp post 510 and three coiling cylinders 509 are replied standard state from outside open configuration, and operator can take down coil easily.

In order to make the compacter of fiber turns that equipment lays out, as shown in Figure 5, the front end face edge of rotating disk 507 is provided with fan-shaped orienting lug 508 in the side of clamp post 510 and each coiling cylinder 509, clamp post 510 and coiling cylinder 509 stretch out to the front of corresponding fan-shaped orienting lug 508, in coiling process, optical fiber is wound on clamp post 510 and three coiling cylinders 509 along fan-shaped orienting lug 508.The utility model can also be by adopting the mode of synchronous motion-work wheel, synchronous driven wheel and synchronous belt to improve the accuracy of winding turns.

Finally should be noted that; above content is only in order to illustrate the technical solution of the utility model; but not restriction to the utility model protection domain; the simple modification that those of ordinary skill in the art carries out the technical solution of the utility model or be equal to replacement, does not all depart from essence and the scope of technical solutions of the utility model.

Claims (10)

1. an optical fiber coil winding machine, it is characterized in that: described optical fiber coil winding machine comprises the optical fiber release frame for placing optical fiber cable wheel, cabinet and be set in turn in from top to bottom the horizontal union lever on cabinet, roller set, for the wire agency that drives optical fiber to move down, middle part is provided with the soft optical fiber locating part of optical fiber spacing hole, for cutting off the shut off mechanism of optical fiber, for sending the guide of the tail optical fiber after cut-out and the winding mechanism for winding optical fiber circle downwards, described optical fiber release frame comprises support body, be horizontally set at the wire wheel axis on support body, be fixedly connected on the fixed friction piece on wire wheel axis and be sheathed on the adjusting frictionshoe on wire wheel axis, on described adjusting frictionshoe, be provided with screw hole, in this screw hole, be provided with and tighten screw, the top of described horizontal union lever was provided with line roller corresponding to optical fiber release frame, the end of described horizontal union lever was provided with line roller corresponding to roller set.

2. optical fiber coil winding machine according to claim 1, it is characterized in that: described roller set comprises three soft line roller and two gag lever posts excessively, wherein, cross line roller longitudinal arrangement for two, another crosses line roller and is positioned at the side of the centre of crossing line roller of these two longitudinal arrangements, two gag lever posts are arranged at respectively the side of crossing line roller of two longitudinal arrangements, and gag lever post and corresponding mistake between line roller form the spacing gap of optical fiber.

3. optical fiber coil winding machine according to claim 1, it is characterized in that: described wire agency comprises link span and is arranged at line sending motor, cylinder and the slide rail on link span, the power output shaft of described line sending motor is connected with initiatively Wire Wheel, on described slide rail, be provided with slide block, slide block is connected with driven Wire Wheel in the side of described active Wire Wheel, the piston rod of described cylinder is connected with described slide block, on the periphery of described active Wire Wheel, be provided with soft recess, described driven Wire Wheel is provided with soft salient corresponding to recess.

4. optical fiber coil winding machine according to claim 1, it is characterized in that: described shut off mechanism comprises cylinder, hinged seat, contiguous block, rotation axis, the Cutter apron of deltiod bulk and funnelform cutting knife, the piston rod of described cylinder is connected with described hinged seat, one end of described contiguous block is hinged by jointed shaft and described hinged seat, the other end of described contiguous block is connected with the top of described rotation axis, described Cutter apron is provided with the rotational axis hole extending to this Cutter apron middle part from the side of this Cutter apron, described Cutter apron be provided be communicated with described rotational axis hole and perpendicular to the optic fibre hole of rotational axis hole, described cutting knife is arranged in described optic fibre hole, described rotation the tip of the axis is connected with described cutting knife through described rotational axis hole.

5. optical fiber coil winding machine according to claim 4, it is characterized in that: on described Cutter apron, be connected with soft limited block, the middle part of this limited block is provided with spacing hole, and described spacing hole is just to described optic fibre hole, and the aperture of described spacing hole is less than the aperture of described optic fibre hole.

6. according to the optical fiber coil winding machine described in claim 4 or 5, it is characterized in that: the side of described Cutter apron is provided with strongback, the middle part of this strongback is provided with pilot hole, and this pilot hole is just to described rotational axis hole.

7. optical fiber coil winding machine according to claim 1, it is characterized in that: described guide comprises Rodless cylinder, guide rail, slide block, web plate, connecting arm and seeker, described Rodless cylinder comprises cylinder guide rail and is arranged at the cylinder slide block on this cylinder guide rail, described cylinder guide rail and described guide rail are parallel to each other, described slide block is arranged on described guide rail, described web plate is fixedly connected with described cylinder slide block and described slide block, the latter half of described connecting arm is connected with described web plate, the front end of described connecting arm stretches out forward, described seeker is arranged at the leading section of described connecting arm, in this seeker, be provided with optic fibre hole, seeker is provided with two soft clamp wheels in a port of optic fibre hole, between these two clamp wheels, be provided with clamp gap corresponding to the diameter of optical fiber.

8. optical fiber coil winding machine according to claim 7, it is characterized in that: described guide rail is provided with limited block in the slip initiating terminal of described slide block, the side of described web plate is connected with the measured piece that puts in place, this measured piece that puts in place forms by the mounting plate being connected with web plate and perpendicular to the Board Under Test of mounting plate, and the side of described guide rail is respectively arranged with first to level detecting apparatus and second to level detecting apparatus corresponding to zero position and the final position of described Board Under Test.

9. optical fiber coil winding machine according to claim 1, it is characterized in that: described winding mechanism comprises coiling electric motor, motion-work wheel and the rotating disk setting gradually from front to back, shaft collar, driven wheel, sleeve and clamping cylinder, the middle part of described rotating disk is provided with tensioning centrum, the front end face of described rotating disk is evenly provided with three coiling cylinders and a clamp post in the surrounding of tensioning centrum, the side of described clamp post is provided with thread tension stud, between described clamp post and described thread tension stud, form clamp gap, the rear end of described tensioning centrum is connected with connecting cylinder, in described sleeve, be provided with spot contact bearing, described connecting cylinder passes the axis hole of shaft collar successively, the axis hole of driven wheel stretches in described sleeve, described connecting cylinder is sheathed on the outer ring of described spot contact bearing, the piston rod of described clamping cylinder stretches in the inner ring that is connected in described spot contact bearing in described sleeve, described motion-work wheel is connected with the power output shaft of described coiling electric motor, described driven wheel is connected with described motion-work wheel by belt, the front side of described driven wheel is connected with web member, this web member is connected with described rotating disk through the axis hole of described shaft collar forward.

10. optical fiber coil winding machine according to claim 9, it is characterized in that: the front end face edge of described rotating disk is provided with fan-shaped orienting lug in the side of described clamp post and each described coiling cylinder, described clamp post and described coiling cylinder stretch out to the front of corresponding fan-shaped orienting lug.