CN103569617B - A kind of optical fiber processing fitting line adopting double-speed chain - Google Patents

A kind of optical fiber processing fitting line adopting double-speed chain Download PDF

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Publication number
CN103569617B
CN103569617B CN201310474478.3A CN201310474478A CN103569617B CN 103569617 B CN103569617 B CN 103569617B CN 201310474478 A CN201310474478 A CN 201310474478A CN 103569617 B CN103569617 B CN 103569617B
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China
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plate
double
roller
optical fiber
speed chain
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CN201310474478.3A
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Chinese (zh)
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CN103569617A (en
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钱国兵
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太仓顺天自动化设备有限公司
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Publication of CN103569617A publication Critical patent/CN103569617A/en
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Abstract

The invention discloses a kind of optical fiber processing fitting line adopting double-speed chain, it comprises the double-speed chain chain of two arranged parallel, the driving device driving double-speed chain chain operation and the working plate be placed on two double-speed chains, is provided with jacking transferring device and jacking rotating transfer device between described two double-speed chain chains.The optical fiber processing fitting line of employing double-speed chain of the present invention is rational in infrastructure, stable and can improve the work efficiency of optical fiber.

Description

A kind of optical fiber processing fitting line adopting double-speed chain

Technical field

The present invention relates to a kind of fitting line, particularly, relate to a kind of optical fiber processing fitting line adopting double-speed chain.

Background technology

Along with the progress of science and technology, the utilization of optical fiber in information signal transmittal is also more and more wider, but the conveyor line of also assembling automatically in the production and processing of current optical fiber, when process operation, need constantly manually to move parts, half-blank and finished product, also need constantly to move to detect, make inefficiency, labour intensity is large.

Summary of the invention

The object of the invention is to for above-mentioned the deficiencies in the prior art, provide a kind of optical fiber processing fitting line that can improve the employing double-speed chain of optical fiber processing efficiency.

For achieving the above object, present invention employs following technical scheme:

The invention provides a kind of optical fiber processing fitting line adopting double-speed chain, comprise the double-speed chain chain of two arranged parallel, the driving device driving double-speed chain chain operation and the working plate be placed on two double-speed chains, jacking transferring device and jacking rotating transfer device is provided with between described two double-speed chain chains, described jacking transferring device is used for working plate jack-up and transfer, and described jacking rotating transfer device is used for working plate jack-up, rotation and transfer.

Further, described optical fiber processing fitting line is provided with multiple station, and each station place is provided with for stopping that working plate moves the blocking mechanism with positioning board along with double-speed chain.

Further, described double-speed chain chain is arranged by section aluminum guide rail.

Further, described jacking transferring device comprises jacking cylinder, adapter plate, raising plate and roller set, described jacking cylinder is arranged on described adapter plate, and the piston rod of described jacking cylinder connects described raising plate, described raising plate is provided with roller set by fixed mount, described adapter plate is provided with linear bearing, described raising plate is provided with guide pillar, described guide pillar is positioned at described linear bearing and can moves up and down along linear bearing, described roller set comprises motorized pulleys and multiple nothing moves roller, described motorized pulleys drive without dynamic roller rotating Vortex.

Further, described jacking rotating transfer device comprises jacking cylinder, adapter plate, raising plate, swivel mount and roller set, described jacking cylinder is arranged on described adapter plate, and the piston rod of described jacking cylinder connects described raising plate, described swivel mount is rotatable to be arranged on raising plate, described roller set is fixed on described swivel mount by fixed mount, described adapter plate is provided with linear bearing, described raising plate is provided with guide pillar, described guide pillar is positioned at described linear bearing and can moves up and down along linear bearing, described raising plate upper surface is provided with center shaft, described swivel mount lower surface is provided with band gear, bearing is provided with in the middle of described band gear, described center shaft cooperation is arranged in bearing, described band gear is meshed with motor gear, described roller set comprises motorized pulleys and multiple nothing moves roller, described motorized pulleys drive without dynamic roller rotating Vortex, also support wheel is provided with between described swivel mount and raising plate, described swivel mount is also provided with guide wheel, described guide wheel is positioned at the both sides of roller set, and with the roller side by side arrangement in roller set.

Further, described working plate comprises tool base plate, be arranged on the bobbin frame for placing coil in described tool base plate, what be arranged in described tool base plate is few for hanging the number of turn, the flex holder of the cable that diameter is large or the end of a thread for the cable of fixed placement on described bobbin frame, described bobbin frame and described flex holder are equipped with, described bobbin frame comprises side shield, separator of battery plates, strut bar for support coils and the fixed leg for fixed coil, described side shield has two, be separately positioned on the both sides of the separator of battery plates of multiple equidistant arrangement in parallel, and described side shield is parallel with described separator of battery plates, multiple separator of battery plates is passed by a strut bar and two fixed legs, the two ends of described strut bar and fixed leg are connected to two side shields respectively, the lower end of described two side shields is separately fixed on the upper surface of described tool base plate, described flex holder comprises vertical rod, cross bar and pipe link, described cross bar by clamping regulator in transverse direction, longitudinal direction is fixed on movably in described vertical rod, described cross bar two ends upwards turn up 90 degree, form two hanging wire ends, described pipe link one end is connected to described vertical rod, pipe link and vertical rod is made to form T-shaped structure, the other end is connected to the strut bar of described bobbin frame, the lower end of described vertical rod is fixed on the upper surface of described tool base plate, the lower surface of described tool base plate is provided with bus, the upper surface of described tool base plate is provided with socket, the lower surface of described bus and tool base plate insulate, described socket and described bus are electrically connected, described bus is two, be set in parallel in the lower surface of described tool base plate, corresponding to the conductive casters of the collector rail on cable processing conveyor line, the both sides of described tool base plate are provided with recess, described recess is provided with damping rubber block.

Further, described multiple station is 21, and the distance between each described station is the length of working plate.

Further, described 21 stations are followed successively by: remove crust, do branch, wear loose mail, wire stripping, crimping, reserve, enter stove solidification, cut fibre, grinding 1, grinding 2, end face inspection, 3D inspection, ODC assembling, ODC assembling, ODC heat-shrink tube, test, test are for subsequent use, passage/LC end face inspection, the inspection of ODC end face, label, exterior check and packaging.

Adopt technique scheme; beneficial effect of the present invention is: the optical fiber processing fitting line using employing double-speed chain provided by the invention; while can improving optical fiber production, work efficiency; also show the advantage that it is rational in infrastructure, stable, this is also for the standardization of optical fiber processing, scale provide guarantee.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the optical fiber processing fitting line of employing double-speed chain of the present invention;

Fig. 2 is the cutaway view of chain group 1 or 2;

Fig. 3 is the front section view of jacking rotating transfer device;

Fig. 4 is the side sectional view of jacking rotating transfer device;

Fig. 5 is the birds-eye view of jacking rotating transfer device;

Fig. 6 is the front section view of jacking transferring device;

Fig. 7 is the side sectional view of jacking transferring device;

Fig. 8 is the birds-eye view of jacking transferring device;

Fig. 9 is the block diagram of working plate;

Figure 10 is the front elevation of working plate;

Figure 11 is the birds-eye view of working plate;

Figure 12 is the upward view of working plate;

Figure 13 is the cutaway view of working plate chain group 1 when being in stove curing area;

Figure 14 is the schematic diagram of ground station.

Reference numeral:

1 double-speed chain chain; 2 working plates; 3 jacking transferring devices; 4 jacking rotating transfer devices; 6 blocking mechanisms; 8 enter stove curing area; 9 collector rails; 11 section aluminum guide rails; The object of 100 assemblings; 71 jacking cylinders; 72 adapter plates; 73 raising plates; 74 roller set; 75 fixed mounts; 76 swivel mounts; 77 support wheels; 78 stepping motors; 721 linear bearings; 731 guide pillars; 732 center shafts; 741 motorized pulleys; 742 without dynamic roller; 761 band gears; 762 bearings; 763 motor gears; 764 guide wheels; 21 tool base plate; 22 bobbin frames; 23 flex holders; 24 sockets; 25 buss; 26 damping rubber blocks; 221 side shields; 222 separator of battery platess; 223 strut bars; 224 fixed legs; 231 vertical rods; 232 cross bars; 233 pipe links; 234 clamping regulators; 2321 first hanging wire ends; 2322 second hanging wire ends; 91 conductive casterses.

Detailed description of the invention

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Fig. 1 is an embodiment of the present invention structural representation.As shown in Figure 1, a kind of optical fiber processing fitting line adopting double-speed chain, comprise the double-speed chain chain 1 (chain group 1, chain group 2) of two pairs of arranged parallel, drive the driving device (not shown) that double-speed chain chain 1 operates and the working plate 2 be placed on double-speed chain chain 1, jacking transferring device 3 and jacking rotating transfer device 4 is provided with between chain group 1 and chain group 2, jacking transferring device 3 is for by working plate 2 jack-up and transfer, and jacking rotating transfer device 4 is for by working plate 2 jack-up, rotation and transfer.Adopt the optical fiber processing fitting line of double-speed chain to be provided with multiple station, each station place is provided with for stopping that working plate 2 moves the blocking mechanism 6 with positioning board 2 along with double-speed chain chain 1, and blocking mechanism 6 is preferably cylinder.The product of required assembling is placed on working plate 2, by double-speed chain chain 1, working plate 2 and the product be placed on working plate 2 are transported to each station, when working plate 2 arrives each station, by the blocking mechanism 6 that each station is arranged, working plate 2 is positioned on this station, after the operation on this station completes, close blocking mechanism 6, working plate 2 is let pass, and makes working plate 2 be transported to next station.The opening and closing of the blocking mechanism 6 on each station can, by operative employee's M/C as the case may be, also can adopt control mechanism timing to carry out opening and closing control.

As shown in Figure 2, in process of production, working plate 2 is placed on two double-speed chain chains 1, and every bar double-speed chain chain 1 drives continuous cycle operation on section aluminum guide rail 11 by driving device, and the object 100 of assembling is placed on working plate 2.

As in Figure 3-5, jacking rotating transfer device 4 comprises jacking cylinder 71, adapter plate 72, raising plate 73, swivel mount 76 and roller set 74, jacking cylinder 71 is arranged on adapter plate 72, and the piston rod of jacking cylinder 71 connects raising plate 73, swivel mount 76 is rotatable to be arranged on raising plate 73, and roller set 74 is fixed on swivel mount 76 by fixed mount 75.Adapter plate 72 is provided with linear bearing 721, raising plate 73 is provided with guide pillar 731, guide pillar 731 is positioned at linear bearing 721 and can moves up and down along linear bearing 721, and it is more steadily reliable that guide pillar 731 and linear bearing 721 can make jacking cylinder 71 promote when raising plate 73 moves up and down.Raising plate 73 upper surface is provided with center shaft 732, and swivel mount 76 lower surface is provided with band gear 761, is provided with bearing 762 in the middle of band gear 761, and center shaft 732 cooperation is arranged in bearing 762, and band gear 761 is meshed with motor gear 763.Roller set 74 comprises motorized pulleys 741 and multiple nothing moves roller 742, and motorized pulleys 741 are driven without dynamic roller 742 rotating Vortex by polywedge bet (not shown).Double-speed chain chain 1 is arranged by section aluminum guide rail 11.Support wheel 77 is also provided with between swivel mount 76 and raising plate 73.Swivel mount 76 is also provided with guide wheel 764, and guide wheel 764 is positioned at the both sides of roller set 74, and with the roller side by side arrangement in roller set 74.

As shown in figs 6-8, jacking transferring device 3 comprises jacking cylinder 71, adapter plate 72, raising plate 73 and roller set 74, jacking cylinder 71 is arranged on adapter plate 72, and the piston rod of jacking cylinder 71 connects raising plate 73, and raising plate 73 is provided with roller set 74 by fixed mount 75.Adapter plate 72 is provided with linear bearing 721, raising plate 73 is provided with guide pillar 731, guide pillar 731 is positioned at linear bearing 721 and can moves up and down along linear bearing 721.Roller set 74 comprises motorized pulleys 741 and multiple nothing moves roller 742, and motorized pulleys 741 are driven without dynamic roller 742 rotating Vortex by polywedge bet (not shown).

When above working plate 2 is positioned at jacking rotating transfer device 4, jacking rotating transfer device 4 and jacking transferring device 3 upwards jack-up, working plate 2 is made to depart from double-speed chain chain 1, the swivel mount 76 of jacking rotating transfer device 4, in the drive backspin turnback of stepping motor 78, makes working plate 2 realize 180 degree of rotations; The roller set 74 of jacking rotary mobile device 4 and jacking transferring device 3 is rotated, realize working plate 2 from jacking rotating transfer device 4 to the transfer of jacking transferring device 3, jacking rotating transfer device 4 and jacking transferring device 3 fall reset, working plate 2 is fallen, again contact with double-speed chain chain 1, along with the transmission of double-speed chain chain 1, realize the tune of working plate 2, thus realize the crank motion of working plate 2.

As a preferred embodiment of the present invention, the distance between each station is the length of working plate 2.When the operation of this station not yet completes, but when the operation of a upper station completes, completed working plate 2 just has position to keep in, and is conducive to raising the efficiency.

As Fig. 9-12, working plate 2 comprises tool base plate 21, be arranged in described tool base plate 21 for placing the bobbin frame 22 of coil, being arranged on the flex holder 23 of the cable that the number of turn is few for hanging, diameter is large in described tool base plate 21 or the end of a thread for the cable of fixed placement on described bobbin frame 22, described bobbin frame 22 and described flex holder 23 are equipped with.

Particularly, as shown in Fig. 9,11, described bobbin frame 22 comprises side shield 221, separator of battery plates 222, strut bar 223 and fixed leg 224, described side shield 221 has two, be separately positioned on the both sides of the separator of battery plates 222 of multiple equidistant arrangement in parallel, and described side shield 221 is parallel with described separator of battery plates 222, thus multiple coil can be placed between multiple separator of battery plates 222 for processing.In addition, multiple separator of battery plates 222 is passed by a strut bar 223 and two fixed legs 224, the two ends of described strut bar 223 and fixed leg 224 are connected to two side shields 221 respectively, and the lower end of described two side shields 221 is separately fixed on the upper surface of described tool base plate 21.Described strut bar 223 is for support coils, and described fixed leg 224 is for fixed coil.Preferably, on position on the lower, the centre that described strut bar 223 is arranged on two fixed legs 224, to realize the more stable supporting of coil and fixing.Described separator of battery plates 222 is preferably octagon, and described side shield 221 top is identical with the shape of described separator of battery plates 222, and bottom is rectangle.Described side shield 221 and separator of battery plates 222 can also be any suitable shape, are not restricted to this embodiment.

As shown in Fig. 9,10, described flex holder 23 comprises vertical rod 231, cross bar 232 and pipe link 233, and described cross bar 232 is fixed on movably in described vertical rod 231 by clamping regulator 234 on transverse direction, longitudinal direction.Specifically, described clamping regulator 234 is provided with lateral adjustments bolt and longitudinal adjusting bolt, can be fixed in vertical rod 231 by cross bar 232 according to the shape of the flex holder processed needed for cable with required horizontal, lengthwise position.Described cross bar 232 two ends upwards turn up 90 degree, form two hanging wire ends, i.e. the first hanging wire end 2321 and the second hanging wire end 2322.Described pipe link 233 one end is connected to described vertical rod 231, and make pipe link 233 and vertical rod 231 form T-shaped structure, the other end is connected to the strut bar 223 of described bobbin frame 22, to be fixed together with described bobbin frame 22 by described flex holder 23.The lower end of described vertical rod 231 is fixed on the upper surface of described tool base plate 21.

As shown in figure 12, the lower surface of described tool base plate 21 is provided with bus 25, the upper surface of described tool base plate 21 is provided with socket 24 (see Fig. 9), and described bus 25 insulate with the lower surface of tool base plate 21, and described socket 24 is electrically connected with described bus 25.Preferably, described bus 25 is two, is set in parallel in the lower surface of described tool base plate 21, and corresponding to the conductive casters 81 of the collector rail 8 on conveyor line, collector rail 8 is preferably arranged between two double-speed chain chains 1 (see Figure 13).Specifically, when bus 25 contacts with the conductive casters 81 of the collector rail 8 on fitting line, socket 24 also by charged, thus can add electricity consumption operation power needed for man-hour for cable by means of bus 25, and does not need extra power supply.

As shown in figure 12, the both sides of described tool base plate 21 are provided with recess, and described recess is provided with damping rubber block 26, effectively can reduce the impact to working plate and vibrations when it contacts with blocking mechanism 6.

Described tool base plate 21 is preferably rectangle.The side that bobbin frame 22 is not connected with flex holder 23 can also be provided preferably with brace panel (not marking), with the Joint strenght between the side shield 221 of further line feeder coil 22 and separator of battery plates 222, between side shield 221 and tool base plate 21.

The method using the optical fiber processing fitting line of employing double-speed chain of the present invention to process optical fiber comprises the following steps:

Step one: the optical fiber processing fitting line that the employing double-speed chain for processing optical fiber of the invention described above is provided.

Step 2: at the initiating terminal of chain group 1, the optical fiber of required processing is placed on the bobbin frame 22 of described working plate 2, the end of a thread of optical fiber is fixed on described flex holder 23, with handled easily human users.

Step 3: described working plate 2 along with the forward transmission of chain group 1 move to the 6th station-remove crust (cutting fibrous glass) from first station successively, do branch, wear loose mail, wire stripping, crimping and reserved, to operate accordingly optical fiber on each station respectively.

Step 4: described working plate 2 moves to the 7th station-enter stove solidification, to operate accordingly optical fiber on this station along with the forward transmission of chain group 1.

Described enter stove solidification station be provided with into stove curing area 8, its length is the length of eight working plates.Optical fiber enters stove solidification and needs chargedly to carry out, so the conveyor line entering stove curing area is provided with collector rail 9 entering stove curing area 8.As shown in figure 13, when optical fiber carries out solidifying into stove, conductive casters 91 on collector rail 9 contacts with the bus 25 on working plate 2 and makes it charged, makes the socket of working plate 2 when entering stove curing area 8 and moving on the upside of it charged all the time, thus gives curing operation uninterrupted power supply.Entering above the conveyor line of stove curing area 8 to be provided with protective case (not shown).

Step 5: described working plate 2 moves to the 8th station-cut fibre, to operate accordingly optical fiber on this station along with the forward transmission of chain group 1.

Step 6: described working plate 2 moves to the 9th station-grinding, to operate accordingly optical fiber on this station along with the forward transmission of chain group 1.

As shown in figure 14, because grinding required time is longer, is about the twice of all the other station manipulation times, therefore is provided with and shifts out station.This process of lapping is provided with the station (grinding 1 and grinding 2) of two same operation.Shift out station to realize mainly through installing jacking transferring device (No. 1 jacking transferring device, No. 2 jacking transferring devices) on conveyor line, and be provided with staging area in front end, and be provided with buffer zone between two stations.No. 1 blocking mechanism, No. 2 blocking mechanisms, No. 3 blocking mechanisms, No. 4 blocking mechanisms are provided with successively in this ground station.

When detect opto-electronic pickup detect grinding 1 or grinding 2 to shift out on station without working plate (namely lack expect) time, blocking mechanism 1 can decline clearance, to grinding 1 or grinding 2 feedings, when grinding 1 and grinding 2 shift out station all there is no product time, preferentially give grinding 1 feeding.

After feed system puts in place to grinding 1 feeding (namely working plate 2 is positioned at directly over No. 1 jacking transferring device), time the operating personal of grinding 1 presses loading and unloading button, system can be shift out station position or above No. 1 jacking transferring device in grinding 1 by detecting working plate 2 (product), if now working plate 2 is above No. 1 jacking transferring device, then start material loading operation, No. 1 jacking transferring device incites somebody to action upwards jack-up, working plate 2 is departed from double-speed chain chain 1, then No. 1 jacking transferring device and the roller shifted out on station rotate forward, make working plate 2 transfer to shifting out on station, then No. 1 jacking transferring device decline resets.

After the operation of grinding 1 completes, time the operating personal of grinding 1 presses loading and unloading button, system can be shift out station position or above No. 1 jacking transferring device in grinding 1 by detecting working plate 2 (product), if now working plate shifts out station position at grinding 1 station, then start blanking operation, No. 1 jacking transferring device incites somebody to action upwards jack-up, No. 1 jacking transferring device and the roller contrarotation of shifting out on station, make working plate transfer on No. 1 jacking transferring device, No. 1 jacking transferring device declines and resets, working plate is fallen, again contact with double-speed chain chain 1, by double-speed chain chain 1 transmission, No. 2 blocking mechanisms are let pass, complete blanking operation.If shift out when to have working plate 2 (product) above station and No. 1 jacking transferring device because fault or artificial origin grind 1, now press the button system and can point out warning.

When grinding 1 completes blanking, when working plate enters buffer zone, if now grind 2 just operation (namely grind shifting out on station of 2 stations and working plate 2 detected), then No. 3 and No. 4 blocking mechanisms directly can be let pass to the working plate 2 from grinding 1 blanking.If now grind 2 carry out loading and unloading, then No. 3 blocking mechanisms can stop, working plate 2 is waited in buffer zone, until grinding 2 loading and unloading complete, No. 3 blocking mechanisms are let pass to the working plate 2 fulfiled assignment in grinding 1.Because without working plate 2 on the workplatform of now grinding 2, be in scarce material state, so No. 4 cylinders can stop the working plate 2 fulfiled assignment in grinding 1, and make it rest on above No. 2 jacking transferring devices, working plate 2 rests on after above No. 2 jacking transferring devices, and this grinds 2 operators and presses No. 4 blocking mechanism clearance buttons clearances.When grinding 2 is in scarce material state, if when now operation of feeding and discharging is being carried out in grinding 1, then No. 1 blocking mechanism is still in blocked state; If now grind 1 just operation (namely shifting out on station of grinding 1 has detected working plate 2), No. 1 and No. 2 and No. 3 blocking mechanisms are directly let pass, No. 4 cylinders can stop it, it is made to be parked in above No. 2 jacking transferring devices, material loading operation is carried out in preparation, and the loading and unloading of grinding 2 are similar with the operation of feeding and discharging of grinding 1.

Step 7: at the tail end of chain group 1, described working plate 2 is reversed end for end and transfer, make it transfer load in chain group 2.

Tune and transfer complete mainly through jacking rotating transfer device 4 and jacking transferring device 3.When above working plate 2 is positioned at the jacking rotating transfer device 4 of chain group 1 afterbody, jacking rotating transfer device 4 and jacking transferring device 3 upwards jack-up, working plate 2 is made to depart from chain group 1, the swivel mount 76 of jacking rotating transfer device 4 is in the drive backspin turnback of stepping motor 78, working plate 2 is made to realize the rotation of 180 degree, the roller of jacking rotating transfer device 4 and jacking transferring device 3 rotates, realize working plate 2 from jacking rotating transfer device 4 to the transfer of jacking transferring device 3, jacking rotating transfer device 4 and jacking transferring device 3 fall reset, working plate 2 is fallen, chain group 2 contacts, along with the transmission of double-speed chain chain 1, realize tune and the transfer of working plate 2.

Step 8: described working plate 2 along with the reverse drive of chain group 2 move to that the 21 station-end face inspection, 3D inspection, ODC assembling, ODC assembling, ODC heat-shrink tube, test, test are for subsequent use from the tenth station successively, passage/LC end face inspection, the inspection of ODC end face, label, exterior check and packaging, to operate accordingly optical fiber on each station respectively, and finally obtain the optical fiber after processing.

In order to process more optical fiber, working plate 2 (sky) will be reversed end for end and transfer again, and the tune that its process is carried out at the tail end of chain group 1 with above-mentioned working plate 2 is identical with transfer.

The above embodiment only have expressed embodiments of the present invention, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (8)

1. adopt an optical fiber processing fitting line for double-speed chain, it is characterized in that, comprise the double-speed chain chain of two arranged parallel, the driving device driving double-speed chain chain operation and the working plate be placed on two double-speed chains,
Be provided with jacking transferring device and jacking rotating transfer device between described two double-speed chain chains, described jacking transferring device is used for working plate jack-up and transfer, and described jacking rotating transfer device is used for working plate jack-up, rotation and transfer,
Described working plate comprises tool base plate, be arranged in described tool base plate for placing the bobbin frame of coil, being arranged on the flex holder of the cable that the number of turn is few for hanging, diameter is large in described tool base plate or the end of a thread for the cable of fixed placement on described bobbin frame, described bobbin frame and described flex holder are equipped with.
2. the optical fiber processing fitting line of employing double-speed chain according to claim 1, it is characterized in that, described optical fiber processing fitting line is provided with multiple station, and each station place is provided with for stopping that working plate moves the blocking mechanism with positioning board along with double-speed chain.
3. the optical fiber processing fitting line of employing double-speed chain according to claim 1 and 2, is characterized in that, described double-speed chain chain is arranged by section aluminum guide rail.
4. the optical fiber processing fitting line of employing double-speed chain according to claim 1, it is characterized in that, described jacking transferring device comprises jacking cylinder, adapter plate, raising plate and roller set, described jacking cylinder is arranged on described adapter plate, and the piston rod of described jacking cylinder connects described raising plate, described raising plate is provided with roller set by fixed mount
Described adapter plate is provided with linear bearing, described raising plate is provided with guide pillar, described guide pillar is positioned at described linear bearing and can moves up and down along linear bearing,
Described roller set comprises motorized pulleys and multiple nothing moves roller, and described motorized pulleys drive without dynamic roller rotating Vortex.
5. the optical fiber processing fitting line of employing double-speed chain according to claim 1, it is characterized in that, described jacking rotating transfer device comprises jacking cylinder, adapter plate, raising plate, swivel mount and roller set, described jacking cylinder is arranged on described adapter plate, and the piston rod of described jacking cylinder connects described raising plate, described swivel mount is rotatable to be arranged on raising plate, and described roller set is fixed on described swivel mount by fixed mount
Described adapter plate is provided with linear bearing, described raising plate is provided with guide pillar, described guide pillar is positioned at described linear bearing and can moves up and down along linear bearing,
Described raising plate upper surface is provided with center shaft, and described swivel mount lower surface is provided with band gear, is provided with bearing in the middle of described band gear, and described center shaft cooperation is arranged in bearing, and described band gear is meshed with motor gear,
Described roller set comprises motorized pulleys and multiple nothing moves roller, and described motorized pulleys drive without dynamic roller rotating Vortex,
Also support wheel is provided with between described swivel mount and raising plate,
Described swivel mount is also provided with guide wheel, and described guide wheel is positioned at the both sides of roller set, and with the roller side by side arrangement in roller set.
6. the optical fiber processing fitting line of employing double-speed chain according to claim 1, is characterized in that,
Described bobbin frame comprises side shield, separator of battery plates, the strut bar for support coils and the fixed leg for fixed coil, described side shield has two, be separately positioned on the both sides of the separator of battery plates of multiple equidistant arrangement in parallel, and described side shield is parallel with described separator of battery plates, multiple separator of battery plates is passed by a strut bar and two fixed legs, the two ends of described strut bar and fixed leg are connected to two side shields respectively, and the lower end of described two side shields is separately fixed on the upper surface of described tool base plate
Described flex holder comprises vertical rod, cross bar and pipe link, described cross bar is fixed on movably in described vertical rod by clamping regulator on transverse direction, longitudinal direction, described cross bar two ends upwards turn up 90 degree, form two hanging wire ends, described pipe link one end is connected to described vertical rod, and make pipe link and vertical rod form T-shaped structure, the other end is connected to the strut bar of described bobbin frame, the lower end of described vertical rod is fixed on the upper surface of described tool base plate
The lower surface of described tool base plate is provided with bus, and the upper surface of described tool base plate is provided with socket, and the lower surface of described bus and tool base plate insulate, and described socket and described bus are electrically connected,
Described bus is two, is set in parallel in the lower surface of described tool base plate, corresponding to the conductive casters of the collector rail on cable processing conveyor line,
The both sides of described tool base plate are provided with recess, and described recess is provided with damping rubber block.
7. the optical fiber processing fitting line of employing double-speed chain according to claim 2, is characterized in that, described multiple station is 21, and the distance between each described station is the length of working plate.
8. the optical fiber processing fitting line of employing double-speed chain according to claim 7, it is characterized in that, described 21 stations are followed successively by: remove crust, do branch, wear loose mail, wire stripping, crimping, reserve, enter stove solidification, cut fibre, grinding, end face inspection, 3D inspection, ODC assembling, ODC assembling, ODC heat-shrink tube, test, test are for subsequent use, passage/LC end face inspection, the inspection of ODC end face, label, exterior check and packaging.
CN201310474478.3A 2013-10-12 2013-10-12 A kind of optical fiber processing fitting line adopting double-speed chain CN103569617B (en)

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CN104261072A (en) * 2014-09-23 2015-01-07 苏州互强工业设备有限公司 Automatic production line with collector rails
CN104386440A (en) * 2014-10-08 2015-03-04 苏州艾斯特工业设备有限公司 Worktable production line with two independent sides
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