CN203715762U - Vertical reel-in/out machine of full-automatic reel-to-reel vertical continuous electroplating line - Google Patents

Abstract

The utility model is applied to a vertical reel-in/out machine of a full-automatic reel-to-reel vertical continuous electroplating line. The reel-out machine comprises a chassis of the reel-out machine, a driving device, a reel-out shaft, a membrane folding shaft, a plurality of transitional wheels, an EPC (Edge Position Control) correcting device and an EPC correcting detection device. When the vertical reel-in/out machine is used, a to-be-electroplated substrate is wound on the reel-out shaft, the outer end of a protective membrane on the reel-out shaft is connected with the membrane folding shaft, the driving device drives the reel-out shaft and the membrane folding shaft to rotate reversely to peel the protective membrane on the substrate to be electroplated, and the substrate to be electroplated without the protective membrane is wounded on the transitional wheels and is tensioned and output from the reel-out machine in form of a broken line. The upper end face of the chassis of the reel-out machine is a horizontal installation platform where the reel-out shaft, the membrane holding shaft and the transitional wheels are vertically installed, the EPC detection device detects the upper or lower edge of the substrate and sends a signal, and the EPC correcting device controls the substrate to ascend or descend in position after receiving the signal sent by the EPC detection device.

Description

Full-automatic volume to volume vertical continuous plating lines be vertically involved in/roll out machine

Technical field

The utility model relates to field of electroplating, is specifically related to a kind of be applied on full-automatic volume to volume vertical continuous plating lines and is vertically involved in/rolls out machine for what put plate and receive plate.

Background technology

Existing PCB electroplating device is divided into two kinds, vertical line and sea line.Sea line adopts volume to volume level to put the mode of plate receipts plate, and vertical line adopts chip to put the mode of plate receipts plate.

Plate mode is put, received to chip on upright plating line, makes its retractable plate operation all need manually to complete, and can not realize full-automation completely, and hand labor intensity is large, and efficiency is low, and also having increased people is the possibility of making a mistake.

Horizontal volume to volume level is put plate receipts plate mode, really can realize the full-automation of retractable plate, but in electroplating process, be that level is transmitted with plated substrate, as shown in fig. 1, substrate needs through roller transmission between plate putting machine and unloader, required roller number is many on the one hand, in addition, and the friction between roller and substrate surface, also can affect the surface treatment of substrate, simultaneously also restricted to the thickness of the substrate transmitting.Generally, this sea line can not the substrate of electroplating thickness below 0.036mm.Because if substrate is too thin, be easy to produce the problem of fold and clamp.

For the ease of better understanding the utility model, first full-automatic volume to volume horizontal continuity plating line in prior art is done to simple an introduction.As shown in Figure 1, the left side of roller 2 ＇ is the machine that rolls out 1 ＇ for putting plate, and the right is to be involved in machine 3 ＇ for what receive plate.Substrate 4 ＇ of electroplated are rolled into volume on reel, and it is upper that reel is fixed on Juan Chu Shaft 11 ＇, by track pull-out substrate 4 ＇ shown in Fig. 1, and are fixed on the reel on Juan Ru Shaft 31 ＇ that are involved in machine 3 ＇.Like this, be involved in axle 31 ＇ and roll out axle 11 ＇ and rotate, just realized the transfer of substrate 4 ＇.In addition, on substrate 4 ＇ of electroplated, can cover layer protecting film 5 ＇, first it is connected with the reel on film-receiving axis 12 ＇ that roll out on machine 1 ＇, film-receiving axis 12 ＇ rotate, and protective membrane 5 ＇ are peeled off and be also wound around rolling from substrate 4 ＇.Be involved in machine 3 ＇ one end, first on paper feeding shaft 32 ＇ that are involved in machine 3 ＇, loading onto protective membrane volume, then it is being connected protective membrane 5 ＇ pull-outs with substrate 4 ＇ that electroplate, be involved in axle 31 ＇ and rotate, when receiving plate, rolling out protective membrane 5 ＇ on paper feeding shaft 32 ＇.In Fig. 1,13 ＇, 33 ＇ are respectively the machine of rolling out 1 ＇, are involved in the transition wheel on machine 3 ＇, thereby make substrate tensioning for broken-line type transferring substrates, and 14 ＇, 34 ＇ are respectively the machine of rolling out 1 ＇, are involved in reserved axle and the reserved axle that is involved in of rolling out on machine 3 ＇.Roll out, be involved on machine 1 ＇, 3 ＇ and be also respectively equipped with deviation correcting device.

Utility model content

A goal of the invention of the present utility model is to provide a kind of machine that vertically rolls out that is applicable to full-automatic volume to volume vertical continuous plating lines.

Another goal of the invention of the present utility model be to provide a kind of be applicable to full-automatic volume to volume vertical continuous plating lines be vertically involved in machine.

First goal of the invention of the present utility model is achieved through the following technical solutions: a kind of machine that vertically rolls out of full-automatic volume to volume vertical continuous plating lines, described in roll out machine comprise roll out machine underframe, drive unit, roll out axle, film-receiving axis, several transition wheels and EPC deviation correcting device and EPC correction proofing unit; When use, electroplated substrate is wrapped in and rolls out on axle, the outer end of the protective membrane on it is connected with film-receiving axis, drive unit rolls out axle and film-receiving axis rotates backward to peel off the protective membrane on electroplated substrate described in driving, and peels off electroplated substrate after protective membrane and roll out machine around being on transition wheel described in broken line form output after tensioning;

Roll out the erecting stage that machine underframe upper surface is level, described axle, film-receiving axis, the transition wheel of rolling out is all vertically arranged on this erecting stage, described EPC proofing unit detects the upper or lower rim of substrate and sends signal, and described EPC deviation correcting device is receiving that the position of controlling substrate after the signal that described EPC proofing unit sends reduces or raises.

The poor roller of the described transition wheel section of comprising and at least one normal transition wheel, one of them normal transition wheel is located at the delivery port position that rolls out axle electroplated substrate, divides the both sides in rolling out axle with described film-receiving axis;

Described section of poor roller is located on the erecting stage of the machine that rolls out of electroplated substrate outgoing side, comprise be V-shape distribute, on substrate delivery direction adjacent three above-mentioned normal transition wheels between two, the transition wheel in the middle of V-shape stretches to V-shape opening direction track by front end is arranged on the erecting stage of the machine of rolling out;

The described machine that rolls out also comprises presser device and changes base-plate buffering device; presser device is arranged near the normal transition wheel that rolls out axle electroplated substrate delivery port position; electroplated substrate is from passing between the two; presser device receives that backward this transition wheel of signal is near coordinating the transmission that compresses substrate time-out substrate with this transition wheel, changes base-plate buffering device and is connected in the middle transition wheel of V-shape.

Need to be to rolling out while adding new substrate on axle, can drive presser device, now rolling out axle stops operating, the transmission of the substrate before suspension clamp device, because whole vertical continuous plating lines is appointed in continuation operation, the substrate after presser device can be opened tighter and tighter, now, transition wheel in presser device rear i.e. transition wheel in the middle of the V-shape can be under the effect of the substrate of tensioning, close to V-shape opening direction along track, continues the needs of transmission with the substrate after equilibrium pressure panel assembly; By new substrate with before substrate hang together after, can unclamp presser device, make substrate continue transmission.

The described rear of base-plate buffering device in described track of changing, comprises counterweight, roller and rope, and roller is arranged on the erecting stage that rolls out machine underframe, and rope is wound on roller, and rope one end lifting counterweight the other end connects the transition wheel in the middle of V-shape.

Described EPC deviation correcting device comprises motor, sprocket transmission device and lifting device; Described lifting device comprises that lifter plate, four covers have the screw mandrel of nut, four bearings, rolling out axle bottom penetrates and rolls out machine underframe inner side and be arranged on lifter plate, lifter plate is square, be horizontally disposed with, four rhizoid bars are divided into four end angle places of lifter plate, upper end passes lifter plate, and lifter plate is fixedly connected with the nut overlapping on each screw mandrel, and the lower end of every rhizoid bar is set with a bearing and is installed on and is rolled out in machine underframe by described bearing; Motor drives the bearing rotary of each screw mandrel around its lower end by sprocket transmission device, rises or declines, and drive the position that rolls out axle raise or reduce with screw mandrel rotation and lifting plate straight line on screw mandrel.

On described screw mandrel, be provided with upper limit plate and lower limit plate for limiting lifter plate stroke.

Described sprocket transmission device comprises motion-work wheel and four follow-up pulleys, four described follow-up pulleys are set with on the body of rod of the bearing below on four rhizoid bars, in same level, motion-work wheel is sleeved on wherein on a rhizoid bar, be positioned at follow-up pulley below, described sprocket transmission device also comprises the follow-up pulley transmission chain and the motion-work wheel transmission chain that is connected motor and motion-work wheel that are driven operation by four follow-up pulleys, described sprocket transmission device also comprises that described tightening pulley is connected with described follow-up pulley transmission chain for making chain keep the tightening pulley of tensioning state.

Described EPC proofing unit comprises erecting frame, detection head, detection head is provided with level just to induced signal projector and the induced signal receptor installed, detection head is fixed on by erecting frame on the erecting stage of the machine of rolling out, electroplated substrate passes between described induced signal projector and induced signal receptor, in the time that its gear is between described induced signal projector and induced signal receptor, EPC proofing unit sends signal.

Described drive unit comprises and rolls out axial brake device, the described bottom surface that rolls out axial brake device and be installed on described lifter plate, comprise main motor, first, second two gears and first, second two cone gears, two gears are vertically arranged side by side and are meshed, the first gear is connected with the output shaft of main motor, and the second gear and the first cone gear are coaxially installed, and the first cone gear is in inner side, the second cone gear is set in and rolls out axle lower end, engages with the first cone gear.

The described machine that rolls out also comprises the speed regulation device of taking turns the position in track and regulating described main motor speed according to positional information for detection of middle.

Another goal of the invention of the present utility model is achieved through the following technical solutions: a kind of full-automatic volume to volume vertical continuous plating lines be vertically involved in machine, described in be involved in machine comprise be involved in machine underframe, drive unit, be involved in axle, paper feeding shaft, several transition wheels and EPC deviation correcting device and EPC correction proofing unit; When use, substrate after plating is involved in machine around be broken line form on transition wheel after tensioning described in being input to, after the outer end of the protective membrane on paper feeding shaft is affixed with the substrate until rolling of exporting from transition wheel be involved in axle and be connected, drive unit drives and is involved in axle rotation, and the protective membrane on paper feeding shaft is constantly drawn by substrate and on axle, receives rolling with it being involved in;

Be involved in the erecting stage that machine underframe upper surface is level, described axle, paper feeding shaft, the transition wheel of being involved in is all vertically arranged on this erecting stage, described EPC proofing unit detects the upper or lower rim of substrate and sends signal, and described EPC deviation correcting device is receiving that the position of controlling substrate after the signal that described EPC proofing unit sends reduces or raises.

The poor roller of the described transition wheel section of comprising and at least one normal transition wheel, one of them normal transition wheel is located at the position, input aperture that is involved in axle and treats rolling substrate, divides the both sides in being involved in axle with described paper feeding shaft;

Described section of poor roller is located on the erecting stage that is involved in machine for the treatment of rolling substrate input side, comprise be V-shape distribute, on substrate delivery direction adjacent three above-mentioned normal transition wheels between two, the transition wheel mediating is arranged on the erecting stage that is involved in machine by stretching to the track of V-shape opening direction;

The described machine that is involved in also comprises presser device and changes base-plate buffering device; presser device is arranged on and is involved in axle and treats near the normal transition wheel of position, rolling substrate input aperture; treat that rolling substrate is from passing between the two; presser device receives that backward this transition wheel of signal is near coordinating the rolling that compresses substrate time-out substrate with this transition wheel, changes base-plate buffering device and is connected in the middle transition wheel of V-shape.

Described EPC deviation correcting device comprises three vertical roller bearing and electric cylinders that arrange, electricity cylinder is installed on and is involved in machine underframe inner side, the front end of the drive shaft of electricity cylinder stretches out the erecting stage that is involved in machine, the upper and lower end of three roller bearings connects together by a web plate respectively, three roller bearing distributions triangular in shape, substrate passes through between leg-of-mutton base and drift angle, contact with three rollers, one side of the web plate of roller bearing below is hinged on the minor axis arranging on the erecting stage that is involved in machine, and the front end of the opposite side of this web plate and the drive shaft of electric cylinder is hinged.

On the described erecting stage that is involved in machine, be also provided with the Destaticizing device for the treatment of the static on rolling substrate for removing.

The utlity model has following beneficial effect: be of the present utility modelly involved in, roll out machine applicable to full-automatic volume to volume vertical continuous plating lines, substrate of the present utility model is vertical transmission, moves ahead by the pulling force tension of synchronizing motors, reduce the infringement of traditional sea line to substrate, go for electroplating thinner substrate, fact proved, utilize the utility model electrodepositable to be thinned to the substrate that reaches 0.012mm most.

Brief description of the drawings

Fig. 1 is the structural representation of traditional volume to volume horizontal continuity plating line;

Fig. 2 is the structural diagrams intention of the machine that vertically rolls out of full-automatic volume to volume vertical continuous plating lines of the present utility model;

Fig. 3 is another structural diagrams intention of the machine that vertically rolls out of full-automatic volume to volume vertical continuous plating lines of the present utility model;

Fig. 4 of the present utility modelly rolls out machine and puts the process schematic diagram of plate, winder;

Fig. 5 is the structural representation of the sprocket transmission device that rolls out machine of the present utility model;

Fig. 6 is the structural representation of the lifting device that rolls out machine of the present utility model;

Fig. 7 is the left view of Fig. 6;

Fig. 8 is the structural diagrams intention that is vertically involved in machine of full-automatic volume to volume vertical continuous plating lines of the present utility model;

Fig. 9 is the process schematic diagram that machine is received plate, put film that is involved in of the present utility model.

Embodiment

Below in conjunction with accompanying drawing and specific embodiment of the utility model, the utility model is further elaborated:

As shown in Fig. 2 ~ 4, vertically roll out machine 1 for putting plate, comprise roll out machine underframe 11, drive unit, roll out axle 15, film-receiving axis 12, several transition wheels and EPC deviation correcting device and EPC correction proofing unit 14, roll out the erecting stage that machine underframe 1 upper surface is level, roll out axle 15, film-receiving axis 12, transition wheel 13 and be vertically arranged on this erecting stage.

The poor roller 132 of the transition wheel section of comprising of the present embodiment and a normal transition wheel 131, normal transition wheel 131 is located at the delivery port position that rolls out axle 15 electroplated substrates, with 12 points of film-receiving axis in rolling out the both sides of axle 15.The poor roller 132 of section is located on the erecting stage of the machine that rolls out of electroplated substrate outgoing side, it is the right side that rolls out machine 2 in Fig. 2, comprise be V-shape distribute, on substrate delivery direction adjacent three above-mentioned normal transition wheels between two, the transition wheel in the middle of V-shape stretches to V-shape opening direction track 133 by front end is arranged on the erecting stage of the machine of rolling out.

In enforcement, the quantity and the location arrangements that roll out the transition wheel on machine 1 all do not limit, and user can be as required from line translation, only need substrate 4 on transition wheel 13, to realize tensioning.

Roll out axle 15 and comprise air-expanding shaft 151 and pallet 152, as shown in Figure 6,7.The electroplated substrate 4 that is rolled into volume is installed on and rolls out on axle 15; by pallet 152 supports that roll out axle 15; the outer end of the protective membrane 3 on electroplated substrate is wrapped on film-receiving axis 12; drive unit drives and rolls out axle 15 and film-receiving axis 12 rotates backward to peel off the protective membrane 3 on electroplated substrate 4, peels off electroplated substrate after protective membrane 3 and rolls out machine 1 around being broken line form output on transition wheel 13 after tensioning.EPC proofing unit 14 is in normal transition wheel 131 and roll out between axle 15, after detecting the upper limb of substrate 4, it sends signal, EPC deviation correcting device is located at and is rolled out machine underframe 11 inner sides, in rolling out axle 15 belows, receiving that after the signal that EPC proofing unit 14 sends, control rolls out the position reduction of axle 15 or raises, thereby adjusting the position of substrate 4.

Rolling out machine 1 also comprises presser device 134 and changes base-plate buffering device; presser device 134 is arranged near the normal transition wheel 131 that rolls out axle 15 electroplated substrate delivery port positions; electroplated substrate is from passing between the two; presser device 134 receives that backward this transition wheel 131 of signal, near coordinate compression substrate 4 to suspend the transmission of substrate with this transition wheel 131, changes base-plate buffering device and is connected in the middle transition wheel of V-shape.

Need to, to rolling out while adding new substrate on axle 15, can drive presser device 134, the transmission of the substrate 4 before suspension clamp device 134.Because whole vertical continuous plating lines is appointed in continuation operation, substrate 4 after presser device 134 can be opened tighter and tighter, now, the transition wheel in the middle of V-shape can be under the effect of the substrate of tensioning 4 for transition wheel in presser device 134 rears, close to V-shape opening direction along track 133, continue with equilibrium pressure panel assembly 134 substrate 4 below the needs that transmit.By new substrate 4 with before substrate 4 hang together after, can unclamp presser device 134, make substrate 4 continue transmission.Meanwhile, change base-plate buffering device and the transition wheel in the middle of V-shape can be retracted to starting position, prepare for reloading next time.The utility model arranges track, presser device and changes base-plate buffering device, makes the utility model really realize continuously uninterrupted operation.

The machine 1 that rolls out of the present utility model is also provided with speed regulation device 136, for the position adjustment on track 133 rolls out the rotating speed of axle 15 according to the transition wheel in the middle of V-shape, thereby adjusts the plate speed of putting that rolls out machine 1.

Below in conjunction with accompanying drawing, state concretely the structure of each parts in lower the present embodiment, but concrete structure of the present utility model is not limit so.

Track 133 is made up of the guide rail 137 be arrangeding in parallel and slide rail 138.As shown in Figure 3, it is cylindric that slide rail is, and guide rail is the strip section bar that a cross section is fluted body, and notch is relative with slide rail.Transition wheel in the middle of V-shape comprises wheel shaft and plinth, and plinth one side is arranged in the groove of guide rail, and the upper surface of opposite side is installed on slide rail, by linear bearings 139 as shown in Figure 2,3.

As shown in Figure 2, presser device 134 comprises cylinder 1341 and has the briquetting 1342 of taking turns the suitable deep-slotted chip breaker of 131 wheel face radians with normal transition, and the front end of the piston rod of cylinder 1341 is connected with briquetting 1342.

As shown in Figure 3 ,change the rear of base-plate buffering device in track 133, comprise counterweight 1351, roller 1352 and rope 1353, roller 1352 is arranged on the erecting stage that rolls out machine underframe, rope 1353 is wound on roller 1352, rope 1353 one end lifting counterweights 1351, the other end connects the plinth of the transition wheel in the middle of V-shape, as shown in Figure 3.

Speed regulation device 136 comprise adjusts structure 1361, fork 1362, pulley 1363, adjusting structure 1361 is installed on the erecting stage on track 133 sides of the machine of rolling out, comprise base, vertical rotating shaft, two mechanical position limitation posts and induction installation, vertical rotating shaft is installed on base middle part, on the plinth that is arranged on normal transition wheel 131 of pulley 1363 by a central shaft level, fork 1362 arranged transverselys, rear end is connected with the vertical rotating shaft of adjusting structure 1361, front end left side is affixed with pulley 1363 periphery upper grooves, two mechanical position limitation posts are located in mounting seat, divide the both sides in fork 1362, for limiting the angle that move fork 1362 left and right, so that the front end that makes fork 1362 is all the time in the movement locus in pulley 1363.

As shown in Figure 3, when the transition wheel in the middle of V-shape moves forward along track under the effect of the substrate of tensioning, while making fork 1362 touch the mechanical position limitation post on its left side, the induction installation of speed regulation device 136 inside sends a signal to drive and rolls out the 171 main motors that axle rotates, rev up, in the time that fork touches the mechanical position limitation post on its right, the induction installation of speed regulation device 136 inside sends a signal to drive and rolls out the main motor that axle rotates, rotating speed slows down, finally make the main motor 171 on the machine that rolls out 1 rotating speed can with lower plating tank in operation on the rotating speed of motor of main transmission gear be consistent.

In speed regulation device 136, while requiring pulley 1363 in the movement locus in fork 1362, they remain and are affixed, can adopt here make mode with magnetic of fork 1362 or pulley 1363 or other more multimode realize.

As shown in Figure 3, EPC proofing unit 14 comprises erecting frame 141, detection head 142, detection head 142 is a lumphy structure that has a U-shaped groove, U-shaped groove inwall is provided with level just to induced signal projector and the induced signal receptor installed, detection head 142 is fixed on by erecting frame 141 on the erecting stage that rolls out machine underframe 11, electroplated substrate 4 passes in the U-shaped groove of detection head 142, in the time that the upper limb of electroplated substrate 4 keeps off between induced signal projector and induced signal receptor, EPC proofing unit 14 sends and reduces the signal that rolls out axle 15 positions to EPC deviation correcting device, the distance that induced signal projector and induced signal receptor leave erecting stage is the upper limit position of electroplated substrate 4.

EPC deviation correcting device comprises motor 161, sprocket transmission device and lifting device.As shown in Figure 6,7, lifting device comprises that lifter plate 162, four covers have the screw mandrel 163 of nut 164, four bearings 165, rolling out axle 15 bottoms penetrates and rolls out machine underframe 11 inner sides, be arranged on lifter plate 162, lifter plate 162 is square, be horizontally disposed with, four rhizoid bars 163 are divided into four end angle places of lifter plate 162, upper end passes lifter plate 162, lifter plate 162 is fixedly connected with the nut 164 of cover on each screw mandrel 163, and the lower end of every rhizoid bar 163 is set with a bearing 165 and is installed on the retaining plate 111 that rolls out machine underframe 11 interior arranged transverselys by bearing 165.Motor 161 drives each screw mandrel 163 to rotate around the bearing 165 of its lower end by sprocket transmission device, rises or declines, and drive the position that rolls out axle 15 raise or reduce with screw mandrel 163 rotation and lifting plates 162 straight line on screw mandrel 163.On screw mandrel 163, be also provided with upper limit plate 1631 and lower limit plate 1632 for limiting lifter plate 162 strokes.

As shown in Fig. 5 ~ 7, sprocket transmission device comprises motion-work wheel 166 and four follow-up pulleys 167, four follow-up pulleys 167 are set with on the body of rod of bearing 165 belows on four rhizoid bars 163, in same level, motion-work wheel 166 is sleeved on wherein on a rhizoid bar, be positioned at follow-up pulley 167 belows, sprocket transmission device also comprises the follow-up pulley transmission chain 168 and the motion-work wheel transmission chain 169 that is connected motor 161 and motion-work wheel 166 that are driven operation by four follow-up pulleys 167.Sprocket transmission device also comprises that tightening pulley is connected with described follow-up pulley transmission chain for making chain keep the tightening pulley of tensioning state.Tightening pulley realizes by being arranged on the different positions of slotted hole the rate of tension of adjusting chain.

Drive unit comprises and rolls out axial brake device, roll out axial brake device and be installed on lifter plate 162 bottom surfaces, comprise main motor 171, first, second two gears 172,173 and first, second two cone gears 174,175, two gears 172,173 are vertically arranged side by side and are meshed, the first gear 172 is connected with the output shaft of main motor 171, the second gear 173 and the first cone gear 174 are coaxially installed, and the first cone gear 174 is in inner side, the second cone gear 175 is set in and rolls out axle 15 lower ends, engages with the first cone gear 174.Film-receiving axis 12 adopts torque motor to drive rotation, substantially identical with prior art.

What Fig. 8 and Fig. 9 represented is the machine that is involved in of the utility model specific embodiment, be involved in machine 2 for receiving plate, structure is with to roll out machine 1 substantially identical, it comprises and is involved in machine underframe 21, drive unit, be involved in axle 25, paper feeding shaft 22, several transition wheels and EPC deviation correcting device and EPC correction proofing unit 24, be involved in the erecting stage that machine underframe 2 upper surfaces are level, be involved in axle 25, film-receiving axis 22, transition wheel is vertically arranged in this erecting stage, drive unit drives and is involved in axle rotation, substrate after plating is input to and is involved in machine 2 around be broken line form on transition wheel after tensioning, and output to being involved in of rotation and on axle 25, carry out rolling.Protective membrane volume is arranged on paper feeding shaft 22, in production, by the outer end of protective membrane 3 with electroplate after after the substrate 4 of rolling is affixed, paper feeding shaft 22 rotates with being involved in axle 25 automatically, the protective membrane 3 on paper feeding shaft 22 is constantly drawn by the substrate 4 of rolling and with its storage rolling.EPC proofing unit 24 detects the upper limb of substrate 4 and sends signal, and EPC deviation correcting device is receiving that the position of controlling substrate 4 after the signal that EPC proofing unit 24 sends reduces or raises.

The poor roller 232 of the transition wheel section of comprising and a normal transition wheel 231, normal transition wheel 231 is located at the position, input aperture that is involved in axle and treats rolling substrate, with 22 points of paper feeding shafts in being involved in the both sides of axle 25.It is the left side that is involved in machine 2 in Fig. 8 that the poor roller 232 of section is located on the erecting stage that is involved in machine for the treatment of rolling substrate input side.It is identical that structure and the section that rolls out machine 1 that is involved in the poor roller 232 of section of machine 2 differs from roller 132.

Being involved in machine 2 equally yet includes presser device 234, changes base-plate buffering device 235 and speed regulation device 236.Presser device 234 is arranged on and is involved in axle and treats that near the normal transition wheel 231 of position, rolling substrate input aperture, structure is identical with the presser device that rolls out machine.Structure and the installation site of changing base-plate buffering device 235 and speed regulation device 236 can be with reference to rolling out machine 1.The drive-motor that is involved in axle 25 that the effect of speed regulation device 236 is mainly used in making being involved in machine 2 can be consistent with the rotating speed of the motor of upper main transmission gear to plating tank in operation.

The EPC deviation correcting device that is involved in machine with roll out in the EPC deviation correcting device structure of machine slightly difference.Be involved between the poor roller 232 of the EPC deviation correcting device section of being located at and normal transition wheel 231 of machine, comprise three vertical roller bearing 261 and electric cylinders 262 that arrange, electricity cylinder 262 is installed on and is involved in machine underframe 21 inner sides, the front end of the drive shaft of electricity cylinder 262 stretches out the erecting stage that is involved in machine, three roller bearings 261 upper, lower end connects together by a web plate respectively, three roller bearing 261 distributions triangular in shape, substrate 4 passes through between leg-of-mutton base and drift angle, contact with three roller bearings 261, one side of the web plate of roller bearing 261 belows is hinged on the minor axis arranging on the erecting stage that is involved in machine, the front end of the drive shaft of the opposite side of this web plate and electric cylinder 262 is hinged.

The EPC correction proofing unit 24 that is involved in machine 2 is located between EPC deviation correcting device and normal transition wheel 231, and structure is identical with the EPC deviation correcting device that rolls out axle.

Be involved on the erecting stage of machine and be also provided with the Destaticizing device 5 for the treatment of the static on rolling substrate for removing, Destaticizing device 5 is located at normal transition wheel 231 and is involved between axle 25.

Claims (10)

1. the machine that vertically rolls out of full-automatic volume to volume vertical continuous plating lines, described in roll out machine comprise roll out machine underframe, drive unit, roll out axle, film-receiving axis, several transition wheels and EPC deviation correcting device and EPC correction proofing unit; When use, electroplated substrate is wrapped in and rolls out on axle, the outer end of the protective membrane on it is connected with film-receiving axis, drive unit rolls out axle and film-receiving axis rotates backward to peel off the protective membrane on electroplated substrate described in driving, and peels off electroplated substrate after protective membrane and roll out machine around being on transition wheel described in broken line form output after tensioning;

It is characterized in that, roll out the erecting stage that machine underframe upper surface is level, described axle, film-receiving axis, the transition wheel of rolling out is all vertically arranged on this erecting stage, described EPC proofing unit detects the upper or lower rim of substrate and sends signal, and described EPC deviation correcting device is receiving that the position of controlling substrate after the signal that described EPC proofing unit sends reduces or raises.

2. the machine that vertically rolls out of full-automatic volume to volume vertical continuous plating lines according to claim 1, it is characterized in that, the poor roller of the described transition wheel section of comprising and at least one normal transition wheel, one of them normal transition wheel is located at the delivery port position that rolls out axle electroplated substrate, divides the both sides in rolling out axle with described film-receiving axis;

Described section of poor roller is located on the erecting stage of the machine that rolls out of electroplated substrate outgoing side, comprise be V-shape distribute, on substrate delivery direction adjacent three above-mentioned normal transition wheels between two, the transition wheel in the middle of V-shape stretches to V-shape opening direction track by front end is arranged on the erecting stage of the machine of rolling out;

The described machine that rolls out also comprises presser device and changes base-plate buffering device; presser device is arranged near the normal transition wheel that rolls out axle electroplated substrate delivery port position; electroplated substrate is from passing between the two; presser device receives that backward this transition wheel of signal is near coordinating the transmission that compresses substrate time-out substrate with this transition wheel, changes base-plate buffering device and is connected in the middle transition wheel of V-shape.

3. the machine that vertically rolls out of full-automatic volume to volume vertical continuous plating lines according to claim 1 and 2, is characterized in that, described EPC deviation correcting device comprises motor, sprocket transmission device and lifting device; Described lifting device comprises that lifter plate, four covers have the screw mandrel of nut, four bearings, rolling out axle bottom penetrates and rolls out machine underframe inner side and be arranged on lifter plate, lifter plate is square, be horizontally disposed with, four rhizoid bars are divided into four end angle places of lifter plate, upper end passes lifter plate, and lifter plate is fixedly connected with the nut overlapping on each screw mandrel, and the lower end of every rhizoid bar is set with a bearing and is installed on and is rolled out in machine underframe by described bearing; Motor drives the bearing rotary of each screw mandrel around its lower end by sprocket transmission device, rises or declines, and drive the position that rolls out axle raise or reduce with screw mandrel rotation and lifting plate straight line on screw mandrel.

4. the machine that vertically rolls out of full-automatic volume to volume vertical continuous plating lines according to claim 3, it is characterized in that, described EPC proofing unit comprises erecting frame, detection head, detection head is provided with level just to induced signal projector and the induced signal receptor installed, detection head is fixed on by erecting frame on the erecting stage of the machine of rolling out, electroplated substrate passes between described induced signal projector and induced signal receptor, in the time that its gear is between described induced signal projector and induced signal receptor, EPC proofing unit sends signal.

5. the machine that vertically rolls out of full-automatic volume to volume vertical continuous plating lines according to claim 3, it is characterized in that, described sprocket transmission device comprises motion-work wheel and four follow-up pulleys, four described follow-up pulleys are set with on the body of rod of the bearing below on four rhizoid bars, in same level, motion-work wheel is sleeved on wherein on a rhizoid bar, be positioned at follow-up pulley below, described sprocket transmission device also comprises the follow-up pulley transmission chain and the motion-work wheel transmission chain that is connected motor and motion-work wheel that are driven operation by four follow-up pulleys, described sprocket transmission device also comprises for making chain keep the tightening pulley of tensioning state, described tightening pulley is connected with described follow-up pulley transmission chain.

6. the machine that vertically rolls out of full-automatic volume to volume vertical continuous plating lines according to claim 3, it is characterized in that, described drive unit comprises and rolls out axial brake device, the described axial brake device that rolls out is installed on described lifter plate bottom surface, comprise main motor, first, the second two gears and first, the second two cone gears, two gears are vertically arranged side by side and are meshed, the first gear is connected with the output shaft of main motor, the second gear and the first cone gear are coaxially installed, and the first cone gear is in inner side, the second cone gear is set in and rolls out axle lower end, engage with the first cone gear.

Full-automatic volume to volume vertical continuous plating lines be vertically involved in a machine, described in be involved in machine comprise be involved in machine underframe, drive unit, be involved in axle, paper feeding shaft, several transition wheels and EPC deviation correcting device and EPC correction proofing unit; When use, substrate after plating is involved in machine around be broken line form on transition wheel after tensioning described in being input to, after the outer end of the protective membrane on paper feeding shaft is affixed with the substrate until rolling of exporting from transition wheel be involved in axle and be connected, drive unit drives and is involved in axle rotation, and the protective membrane on paper feeding shaft is constantly drawn by substrate and on axle, receives rolling with it being involved in;

It is characterized in that, be involved in the erecting stage that machine underframe upper surface is level, described axle, paper feeding shaft, the transition wheel of being involved in is all vertically arranged on this erecting stage, described EPC proofing unit detects the upper or lower rim of substrate and sends signal, and described EPC deviation correcting device is receiving that the position of controlling substrate after the signal that described EPC proofing unit sends reduces or raises.

Full-automatic volume to volume vertical continuous plating lines according to claim 7 be vertically involved in machine, it is characterized in that, the poor roller of the described transition wheel section of comprising and at least one normal transition wheel, one of them normal transition wheel is located at the position, input aperture that is involved in axle and treats rolling substrate, divides the both sides in being involved in axle with described paper feeding shaft;

Described section of poor roller is located on the erecting stage that is involved in machine for the treatment of rolling substrate input side, comprise be V-shape distribute, on substrate delivery direction adjacent three above-mentioned normal transition wheels between two, the transition wheel mediating is arranged on the erecting stage that is involved in machine by stretching to the track of V-shape opening direction;

The described machine that is involved in also comprises presser device and changes base-plate buffering device; presser device is arranged on and is involved in axle and treats near the normal transition wheel of position, rolling substrate input aperture; treat that rolling substrate is from passing between the two; presser device receives that backward this transition wheel of signal is near coordinating the rolling that compresses substrate time-out substrate with this transition wheel, changes base-plate buffering device and is connected in the middle transition wheel of V-shape.

Full-automatic volume to volume vertical continuous plating lines according to claim 8 be vertically involved in machine, it is characterized in that, described EPC deviation correcting device comprises three vertical roller bearing and electric cylinders that arrange, electricity cylinder is installed on and is involved in machine underframe inner side, the front end of the drive shaft of electricity cylinder stretches out the erecting stage that is involved in machine, three roller bearings upper, lower end connects together by a web plate respectively, three roller bearing distributions triangular in shape, substrate passes through between leg-of-mutton base and drift angle, contact with three rollers, one side of the web plate of roller bearing below is hinged on the minor axis arranging on the erecting stage that is involved in machine, the front end of the opposite side of this web plate and the drive shaft of electric cylinder is hinged.

Full-automatic volume to volume vertical continuous plating lines according to claim 9 be vertically involved in machine, it is characterized in that, described in be involved on the erecting stage of machine and be also provided with the Destaticizing device for the treatment of the static on rolling substrate for removing.