CN112850347A

CN112850347A - VCP coil-to-coil feeding device

Info

Publication number: CN112850347A
Application number: CN202011601286.0A
Authority: CN
Inventors: 吴昱凯; 梁飞; 戴彬; 乔文举; 余仁水
Original assignee: Guangdong Prosper Automation Equipment Co ltd
Current assignee: Guangdong Prosper Automation Equipment Co ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2021-05-28

Abstract

The invention discloses a VCP coil-to-coil feeding device, which belongs to the technical field of VCP feeding and comprises a floor seat, a feeding device, a transmission device, a conveying device, a workbench, a floating device, a pressing device, an electroplater and a winding device, wherein the floor seat is placed on the ground, the feeding device is installed at the top of the floor seat, the transmission device is installed at the top of the floor seat and is positioned beside the feeding device, the conveying device is installed at the top of the floor seat, the workbench is placed on the floor seat, the floating device is placed on the floor seat and is positioned beside the workbench, the pressing device is placed on the floor seat and is positioned above the workbench, the electroplater is installed on the floor seat, the winding device is placed on the floor seat and is positioned beside the conveying device, the VCP is fed through the feeding device, the VCP is electroplated and processed, and is matched with the winding device to wind up the processed VCP in the VCP conveying process, so that the VCP is improved The working efficiency of the processing and electroplating.

Description

VCP coil-to-coil feeding device

Technical Field

The invention relates to the technical field of VCP feeding, in particular to a VCP reel-to-reel feeding device.

Background

In recent years, electronic products have come to be widespread in various fields and are being updated at a development speed of several generations per year. Printed circuit boards, which are important components of electronic products, are also continuously perfected and updated. The FPC is a main development trend of the printed circuit board due to its characteristics of convenience, smallness, high density, and high performance.

However, the existing VCP roll-to-roll feeding device still has the following problems: in the process of loading the VCP, the VCP is usually processed and electroplated one by one, the VCP continuous electroplating operation cannot be realized, and the working efficiency is low.

Disclosure of Invention

The embodiment of the invention provides a VCP coil-to-coil feeding device, which aims to solve the technical problems that VCPs are usually subjected to processing electroplating operation one by one in the feeding process of the VCPs, the VCPs cannot be subjected to continuous electroplating operation, and the working efficiency is low.

The embodiment of the invention adopts the following technical scheme: the utility model provides a VCP coil-to-coil loading attachment, includes the seat that falls to the ground, loading attachment, transmission device, conveyor, workstation, floating device, pushes down the device, electroplate ware and coiling mechanism, the seat that falls to the ground is placed on ground, loading attachment installs at the top of the seat that falls to the ground, transmission device installs the side that is located loading attachment at the top of the seat that falls to the ground, conveyor installs at the top of the seat that falls to the ground, the workstation is placed on the seat that falls to the ground, floating device places the side that is located the workstation on the seat that falls to the ground, it places the top that is located the workstation on the seat that falls to the ground to push down the device, electroplate the ware is installed on the seat that falls to the ground, coiling mechanism places the side that is located conveyor on the seat that falls to the ground.

Further, the feeding device comprises a feeding seat, a first feeding motor, a second feeding motor, a supporting plate, a screw rod, a first driving disk, a second driving disk, a rotating rod, a loop bar, a moving plate, two fixing rings and four groups of spreading assemblies, wherein the feeding seat is arranged on the floor seat, the first feeding motor is arranged on the side wall of the feeding seat, the second feeding motor is arranged on the side wall of the floor seat, the supporting plate is arranged at the top of the floor seat, the rotating rod is arranged on a main shaft of the second feeding motor and is in transmission fit with the main shaft of the second feeding motor, the loop bar is sleeved on the rotating rod and is in rotation fit with the rotating rod, the second driving disk is arranged on the loop bar and is in sliding fit with the loop bar and also in rotation fit with the loop bar, the two fixing rings are fixedly and symmetrically arranged on the loop bar, the screw rod is arranged on the main shaft of the first feeding motor and is in transmission fit with the main shaft of the first feeding motor, the first driving disk is arranged on the screw rod and is in threaded fit with the screw rod, the second driving disk is provided with a clamping groove, the first driving disk is clamped with the clamping grooves of the second driving disk, four groups of the opening components are circumferentially arranged on the two fixed rings, the four groups of the opening components respectively comprise a first hinge block, a second hinge block, a third hinge block and an opening plate, one end of the first hinging block is arranged on the side wall of the second driving disk and is in hinged fit with the second driving disk, one end of the second hinging block is arranged on one of the fixing rings and is in hinged fit with one of the fixing rings, one end of the third hinge block is arranged on the other fixing ring and is in hinge fit with the other fixing ring, the other end at first articulated piece, the articulated piece of second and third articulated piece is installed to the board that struts, be equipped with the spout on the material loading seat, the movable plate is installed in the spout on the material loading seat and with material loading seat sliding fit.

Further, the transmission device comprises a transmission seat, a transmission motor seat, two transmission boxes, two transmission rods, two transmission rollers, two spiral rods, two adjusting springs and four sleeve boxes, wherein the transmission seat is arranged at the top of the floor, the two transmission boxes are symmetrically arranged on the transmission seat, the four sleeve boxes are respectively arranged on the two transmission boxes in a pairwise symmetry manner, two ends of the two transmission rods are respectively arranged on the two sleeve boxes on the two end transmission boxes corresponding to the two transmission rods, two ends of the two transmission rods are respectively in rotational connection with the two sleeve boxes, the two transmission rollers are respectively sleeved on the two transmission rods and are in rotational connection with the two transmission rods, the two adjusting springs are respectively arranged in the two transmission boxes, two ends of the two adjusting springs are respectively connected with the inner top of the transmission boxes and the top of the sleeve box positioned at the upper part in the transmission boxes, the transmission motor base is arranged on the side wall of one of the transmission boxes, the transmission motor is arranged on the transmission motor base, a main shaft of the transmission motor is in transmission fit with one end of one of the transmission rods, the tops of the two transmission boxes are connected with the screw rods in threaded connection, and the two screw rods are fixedly connected with the sleeve boxes positioned on the upper portion of the transmission boxes.

Further, the conveying device comprises a first conveying assembly and a second conveying assembly, the first conveying assembly and the second conveying assembly are symmetrically arranged on a floor base in the same structure, the first conveying assembly comprises a conveying seat, a conveying motor seat, a conveying shaft, two belts, two conveying belts, four conveying rods and four conveying rollers, the conveying seat is placed on the floor base, the conveying motor seat is installed on the side wall of the conveying seat, the conveying motor is installed on the conveying motor seat, the conveying shaft is installed on a main shaft of the conveying motor and is in transmission fit with the main shaft of the conveying motor, two ends of the four conveying rods are respectively connected with two side walls of the conveying seat, the four conveying rollers are respectively installed on the four conveying rods and are in rotation fit with the four conveying rods, and the two belts are respectively sleeved on the two conveying rollers and the conveying shaft, two the transmission band is two liang of covers respectively and is established on two conveying rollers.

Further, the trowelling device comprises a bearing seat, a trowelling motor, a trowelling block, a positioning block, a first rotating block, a second rotating block, a third rotating block, a moving frame, a sliding block, a communication rod and a trowelling roller, wherein the bearing seat is installed at the top of the floor seat, the trowelling seat is installed on the side wall of the bearing seat, the trowelling block is installed at the top of the trowelling seat, the trowelling motor is installed on the side wall of the trowelling block, a main shaft of the trowelling motor penetrates through the trowelling block, one end of the first rotating block is installed on the main shaft of the trowelling motor, one end of the second rotating block is installed at the other end of the first rotating block and is in rotating fit with the other end of the first rotating block, the positioning block is installed on the trowelling seat, one end of the third rotating block is installed on the side wall of the positioning block, and two ends of the communication rod are connected with one end of the second rotating block and one end of the third rotating, the floating roller is characterized in that a falling groove is formed in the floating seat, a sliding groove is formed in the floating seat, one end of the moving frame is installed on the connecting rod, the sliding block is installed in a sliding groove in the floating seat and is in sliding fit with the floating seat, the other end of the moving frame is hinged to the sliding block, and the floating roller is installed at the bottom of the sliding block.

Further, the pushing device comprises a pushing seat, two lower piezoelectric cylinders and two positioning plates, wherein the pushing seat is installed at the top of the floor seat, the two lower piezoelectric cylinders are symmetrically installed on the pushing seat, and the two positioning plates are respectively installed on the telescopic ends of the two lower piezoelectric cylinders and vertically and downwards face the workbench.

Further, the coiling mechanism includes that rolling seat, coiling motor, first rotary disk, second rotary disk, third rotary disk, first connecting band, second connecting band, third connecting band, rotary disk, rolling are wound around post, coiling post, fixing base and a plurality of rotation axis, the top at the seat of falling to the ground is installed to the rolling seat, rolling motor installs on the rolling seat, first rotary disk, second rotary disk and third rotary disk are installed respectively on the lateral wall of rolling seat, first connecting band cover is established on the main shaft of coiling motor and first rotary disk, the second connecting band cover is established on the main shaft of coiling motor and second rotary disk, third connecting band cover is established on second rotary disk and third rotary disk, a plurality of the rotation axis is the circumference and sets up on the lateral wall of rolling seat and wherein four rotation axes respectively with the main shaft of coiling motor, first rotary disk, a plurality of rotation axis, The second rotating disc and the third rotating disc are in running fit, the rotating disc is installed on the rolling seat and is in running fit with the rotating shafts, the winding column is fixedly installed on the rotating disc, the fixing seat is installed on the ground falling seat, and the winding column is installed on the fixing seat.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

when the VCP coil needs to be fed, the VCP coil is sleeved on the four supporting plates, at the moment, the moving plate is moved to the other end of the rotating rod through the sliding groove to be fixed, the second feeding motor operates to drive the rotating rod to rotate, the rotating rod rotates to drive the loop rod to rotate, the loop rod rotates to drive the fixing ring to rotate, the four supporting plates move to drive the VCP coil on the supporting plates to be fed in a rotating mode, the first feeding motor operates to drive the lead screw to rotate, the lead screw rotates to drive the first driving disc to move, the first driving disc moves to drive the second driving disc to move, the second driving disc moves to drive the first hinge block to move, the supporting plates move to enable the second hinge block and the third hinge block to move, the VCP coil is expanded and fixed, and the subsequent processing operation of the VCP is prevented from being influenced by looseness when the VCP coil is fed.

Secondly, when loading attachment carries out the material loading to the VCP coil of wire and exports, transmission motor rotates and drives the transmission pole and rotate, and the transmission pole rotates and drives the transmission roller and rotate, exports the transmission operation to the VCP coil of wire, and two regulating spring can adjust according to the thickness of VCP coil of wire and accomplish work.

And thirdly, when the conveying device conveys the VCP coil to the workbench, the floating motor drives the first rotating block to rotate, the first rotating block rotates to drive the second rotating block to rotate, the second rotating block rotates to drive the moving frame to move, the moving frame moves to drive the sliding block to move in the sliding groove on the floating seat, the sliding block moves to drive the floating roller to move to carry out surface floating operation on the VCP on the workbench, and the electroplating device can not generate the influence on the VCP processing due to the unevenness of the VCP surface when carrying out electroplating operation on the VCP.

And fourthly, when the VCP after electroplating is rolled, the rolling motor rotates to drive the first connecting belt and the second connecting belt to enable the first rotating disc and the second rotating disc to rotate, the second rotating disc rotates to drive the third connecting belt to enable the third rotating disc to rotate, the first rotating disc is enabled to rotate through the rotation of the rolling motor, the rotation of the second rotating disc and the third rotating disc drives a plurality of rotating shafts to rotate, the rotating discs rotate to drive the rotating disc to rotate, the rolling column on the rotating disc is wound and rolled through the rotating disc, and the VCP is wound on the rolling column to complete the rolling operation of the VCP.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic perspective view of the loading device of the present invention;

FIG. 4 is a schematic perspective view of a transmission device according to the present invention;

FIG. 5 is a perspective view of the conveyor of the present invention;

FIG. 6 is a schematic perspective view of a floating device according to the present invention;

fig. 7 is a schematic perspective view of the winding device of the present invention.

Reference numerals

A floor base 1, a feeding device 2, a feeding base 21, a first feeding motor 22, a second feeding motor 23, a support plate 24, a screw rod 25, a first driving disk 26, a second driving disk 27, a rotating rod 28, a sleeve rod 29, a moving plate 291, a fixing ring 292, a spreading assembly 293, a first hinge block 2931, a second hinge block 2932, a third hinge block 2933, a spreading plate 2934, a transmission device 3, a transmission base 31, a transmission motor 32, a transmission motor base 33, a transmission box 34, a transmission rod 35, a transmission roller 36, a screw rod 37, an adjusting spring 38, a sleeve box 39, a transmission device 4, a first transmission assembly 41, a transmission base 411, a transmission motor 412, a transmission motor base 413, a transmission shaft 414, a belt 415, a transmission belt 416, a transmission rod 417, a transmission roller 418, a second transmission assembly 42, a workbench 5, a leveling device 6, a bearing base 61, a leveling base 62, a leveling base 63, a leveling motor 64, a positioning block 65, the device comprises a first rotating block 66, a second rotating block 67, a third rotating block 68, a moving frame 69, a sliding block 691, a communicating rod 692, a leveling roller 693, a pressing device 7, a pressing seat 71, a pressing cylinder 72, a positioning plate 73, a winding device 8, a winding seat 81, a winding motor 82, a first rotating disc 83, a second rotating disc 84, a third rotating disc 85, a first connecting belt 86, a second connecting belt 87, a third connecting belt 88, a rotating disc 89, a winding column 891, a winding column 892, a fixed seat 893, a rotating shaft 894 and an electroplater 9.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1-7, an embodiment of the present invention provides a VCP coil-to-coil feeding device, which includes a landing seat 1, a feeding device 2, a transmission device 3, a conveying device 4, a workbench 5, a leveling device 6, a pressing device 7, an electroplating device 9, and a winding device 8, the floor base 1 is placed on the ground, the feeding device 2 is arranged at the top of the floor base 1, the transmission device 3 is arranged at the top of the floor base 1 and is positioned beside the feeding device 2, the conveying device 4 is arranged on the top of the floor base 1, the workbench 5 is placed on the floor base 1, the floating device 6 is arranged on the floor base 1 and is positioned beside the workbench 5, the pressing device 7 is arranged on the floor base 1 and is positioned above the workbench 5, the electroplating device 9 is installed on the floor base 1, and the winding device 8 is placed on the floor base 1 and positioned beside the conveying device 4.

Preferably, referring to fig. 2 and 3, the feeding device 2 includes a feeding seat 21, a first feeding motor 22, a second feeding motor 23, a supporting plate 24, a screw rod 25, a first driving disk 26, a second driving disk 27, a rotating rod 28, a sleeve rod 29, a moving plate 291, two fixing rings 292, and four sets of spreading assemblies 293, wherein the feeding seat 21 is installed on the landing seat 1, the first feeding motor 22 is installed on a side wall of the feeding seat 21, the second feeding motor 23 is installed on a side wall of the landing seat 1, the supporting plate 24 is installed at the top of the landing seat 1, the rotating rod 28 is installed on a main shaft of the second feeding motor 23 and is in transmission fit with the main shaft of the second feeding motor 23, the sleeve rod 29 is sleeved on the rotating rod 28 and is in rotational fit with the rotating rod 28, the second driving disk 27 is installed on the sleeve rod 29 and is in sliding fit with the sleeve rod 29 as well as in rotational fit with the sleeve rod 29, the two fixing rings 292 are fixedly and symmetrically installed on the sleeve rod 29, the screw rod 25 is installed on a main shaft of the first feeding motor 22 and is in transmission fit with the main shaft of the first feeding motor 22, the first driving disk 26 is installed on the screw rod 25 and is in threaded fit with the screw rod 25, a clamping groove is formed in the second driving disk 27, the first driving disk 26 is clamped with the clamping groove of the second driving disk 27, four groups of the distraction assemblies 293 are circumferentially arranged on the two fixing rings 292, each of the four groups of the distraction assemblies 293 comprises a first hinging block 2931, a second hinging block 2932, a third hinging block 2933 and a distraction plate 2934, one end of the first hinging block 2931 is installed on the side wall of the second driving disk 27 and is in hinged fit with the second driving disk 27, one end of the second hinging block 2932 is installed on one of the fixing rings 292 and is in hinged fit with one of the fixing rings 292, one end of the third hinging block 2933 is installed on the other fixing ring 292 and is in hinged fit with the other fixing ring 292, the opening plate 2934 is mounted at the other end of the first hinge block 2931, the second hinge block 2932 and the third hinge block 2933, a chute is arranged on the feeding seat 21, and the moving plate 291 is mounted in the chute on the feeding seat 21 and is in sliding fit with the feeding seat 21; when the VCP coil needs to be loaded, the VCP coil is sleeved on the four support plates 24, at this time, the moving plate 291 is moved to the other end of the rotating rod 28 through the sliding slot to fix the VCP coil, the second loading motor 23 operates to drive the rotating rod 28 to rotate, the rotating rod 28 rotates to drive the sleeve rod 29 to rotate, the sleeve rod 29 rotates to drive the fixing ring 292 to rotate, so that the four support plates 24 move to drive the VCP coil on the support plates 24 to rotate for loading, the first loading motor 22 operates to drive the screw rod 25 to rotate, the screw rod 25 rotates to drive the first drive disk 26 to move, the first drive disk 26 moves to drive the second drive disk 27 to move, the second drive disk 27 moves to drive the first hinge block 2931 to move, the first hinge block 2931 moves to drive the support plates 24 to move, the support plates 24 move to drive the second hinge block 2932 and the third hinge block 2933 to move, so as to expand and fix the VCP coil, the subsequent processing operation of the VCP due to the influence of looseness when the loading operation is carried out on the VCP coil is prevented.

Preferably, as shown in fig. 4, the transmission device 3 includes a transmission base 31, a transmission motor 32, a transmission motor base 33, two transmission boxes 34, two transmission rods 35, two transmission rollers 36, two spiral rods 37, two adjusting springs 38 and four sleeve boxes 39, the transmission base 31 is installed at the top of the floor base 1, the two transmission boxes 34 are symmetrically installed on the transmission base 31, the four sleeve boxes 39 are respectively installed on the two transmission boxes 34 in a pairwise symmetry manner, two ends of the two transmission rods 35 are respectively installed on the two sleeve boxes 39 on the two end transmission boxes 34 corresponding to the two transmission rods 35, two ends of the two transmission rods 35 are respectively rotatably connected with the two sleeve boxes 39, the two transmission rollers 36 are respectively sleeved on the two transmission rods 35 and rotatably connected with the two transmission rods 35, the two adjusting springs 38 are respectively installed in the two transmission boxes 34, two ends of the two adjusting springs 38 are respectively connected with the top of the transmission boxes 34 and the sleeve boxes located at the upper portion of the transmission boxes 34 39, the transmission motor base 33 is mounted on the side wall of one of the transmission boxes 34, the transmission motor 32 is mounted on the transmission motor base 33, the main shaft of the transmission motor 32 is in transmission fit with one end of one of the transmission rods 35, the tops of the two transmission boxes 34 are both connected with screw rods 37 in threaded connection with the transmission boxes, and the two screw rods 37 are both fixedly connected with sleeve boxes 39 positioned at the upper part in the transmission boxes 34; when loading attachment 2 carried out the material loading to VCP coil of wire and derived, transmission motor 32 rotated and drives transmission pole 35 and rotate, and transmission pole 35 rotates and drives transmission roller 36 and rotate, derives the transmission operation to VCP coil of wire, and two regulating spring 38 can adjust according to the thickness of VCP coil of wire and accomplish work.

Preferably, as shown in fig. 2 and 5, the conveying device 4 includes a first conveying assembly 41 and a second conveying assembly 42, the first conveying assembly 41 and the second conveying assembly 42 are symmetrically disposed on the floor base 1, the first conveying assembly 41 includes a conveying base 411, a conveying motor 412, a conveying motor base 413, a conveying shaft 414, two belts 415, two conveying belts 416, four conveying rods 417 and four conveying rollers 418, the conveying base 411 is disposed on the floor base 1, the conveying motor base is mounted on a side wall of the conveying base 411, the conveying motor 412 is mounted on the conveying motor base 413, the conveying shaft 414 is mounted on a main shaft of the conveying motor 412 and is in transmission fit with a main shaft of the conveying motor 412, two ends of the four conveying rods 417 are respectively connected with two side walls of the conveying base 411, the four conveying rollers 418 are respectively mounted on the four conveying rods 417 and are in rotation fit with the four conveying rods 417, the two belts 415 are respectively sleeved on two conveying rollers 418 and the conveying shaft 414, and the two conveying belts 416 are respectively sleeved on the two conveying rollers 418 in pairs; when the transmission device 3 conveys the VCP coil to the conveying rollers 418, the conveying motor 412 rotates to drive the two belts 415 to rotate, the two belts 415 rotate the two conveying rollers 418, and the two conveying rollers 418 rotate to drive the other two conveying rollers 418 to rotate to carry out parallel conveying operation on the VCP coil.

Preferably, referring to fig. 2 and 6, the floating device 6 includes a bearing seat 61, a floating seat 62, a floating motor 63, a floating block 64, a positioning block 65, a first rotating block 66, a second rotating block 67, a third rotating block 68, a moving frame 69, a sliding block 691, a communication rod 692 and a floating roller 693, the bearing seat 61 is installed on the top of the floor base 1, the floating seat 62 is installed on the side wall of the bearing seat 61, the floating block 64 is installed on the top of the floating seat 62, the floating motor 63 is installed on the side wall of the floating block 64, the main shaft of the floating motor 63 penetrates through the floating block 64, one end of the first rotating block 66 is installed on the main shaft of the floating motor 63, one end of the second rotating block 67 is installed on the other end of the first rotating block 66 and is rotatably engaged with the other end of the first rotating block 66, the positioning block 65 is installed on the floating seat 62, one end of the third rotating block 68 is mounted on the side wall of the positioning block 65, two ends of the connecting rod 692 are connected with one end of the second rotating block 67 and one end of the third rotating block 68, the troweling seat 62 is provided with a dropping groove, the troweling seat 62 is provided with a sliding groove, one end of the moving frame 69 is mounted on the connecting rod 692, the sliding block 691 is mounted in the sliding groove on the troweling seat 62 and is in sliding fit with the troweling seat 62, the other end of the moving frame 69 is hinged with the sliding block 691, and the troweling roller 693 is mounted at the bottom of the sliding block 691; when the conveying device 4 conveys the VCP coil to the workbench 5, the floating motor 63 operates to drive the first rotating block 66 to rotate, the first rotating block 66 rotates to drive the second rotating block 67 to rotate, the second rotating block 67 rotates to drive the moving frame 69 to move, the moving frame 69 moves to drive the sliding block 691 to move in the sliding groove on the floating seat 62, the sliding block 691 moves to drive the floating roller 693 to move to perform surface floating operation on the VCP on the workbench 5, so that the electroplating device 9 can not generate influence on VCP processing due to unevenness of the VCP surface when performing electroplating operation on the VCP.

Preferably, referring to fig. 2, the pressing device 7 includes a pressing base 71, two pressing cylinders 72 and two positioning plates 73, the pressing base 71 is installed on the top of the floor base 1, the two pressing cylinders 72 are symmetrically installed on the pressing base 71, and the two positioning plates 73 are respectively installed on the telescopic ends of the two pressing cylinders 72 and are vertically arranged downward toward the workbench 5; when the electroplater 9 is used for electroplating the VCP on the worktable 5, the lower piezoelectric cylinder 72 operates to drive the two positioning plates 73 to move downwards to press and fix the VCP on the worktable 5.

Preferably, referring to fig. 2 and 7, the winding device 8 includes a winding seat 81, a winding motor 82, a first rotating disk 83, a second rotating disk 84, a third rotating disk 85, a first connecting band 86, a second connecting band 87, a third connecting band 88, a rotating disk 89, a winding column 891, a winding column 892, a fixing seat 893 and a plurality of rotating shafts 894, the winding seat 81 is installed at the top of the landing seat 1, the winding motor 82 is installed on the winding seat 81, the first rotating disk 83, the second rotating disk 84 and the third rotating disk 85 are respectively installed on the side wall of the winding seat 81, the first connecting band 86 is sleeved on the main shaft and the first rotating disk 83 of the winding motor 82, the second connecting band 87 is sleeved on the main shaft and the second rotating disk 84 of the winding motor 82, the third connecting band 88 is sleeved on the second rotating disk 84 and the third rotating disk 85, a plurality of the rotating shafts 894 are circumferentially arranged on the side wall of the winding seat 81, and four of the rotating shafts 894 are respectively connected with the rotating disks 894 The spindle of the winding motor 82, the first rotating disc 83, the second rotating disc 84 and the third rotating disc 85 are in rotating fit, the rotating disc 89 is installed on the winding seat 81 and is in rotating fit with the rotating shafts 894, the winding column 891 is fixedly installed on the rotating disc 89, the fixed seat 893 is installed on the landing seat 1, and the winding column 892 is installed on the fixed seat 893; when the plated VCP is to be rolled up, the rolling motor 82 rotates to drive the first connecting belt 86 and the second connecting belt 87 to rotate the first rotating disc 83 and the second rotating disc 84, the second rotating disc 84 rotates to drive the third connecting belt 88 to rotate the third rotating disc 85, the rolling motor 82 rotates to drive the first rotating disc 83, the second rotating disc 84 and the third rotating disc 85 to rotate to drive the plurality of rotating shafts 894, the plurality of rotating shafts 894 rotate to drive the rotating disc 89 to rotate, the rotating disc 89 rotates to drive the winding post 891 on the rotating disc 89 to wind up and roll up the winding post 892, and the VCP is wound on the winding post 892 to complete the rolling up operation of the VCP.

The working principle is as follows: when the VCP coil needs to be loaded, the VCP coil is sleeved on the four support plates 24, at this time, the moving plate 291 is moved to the other end of the rotating rod 28 through the sliding slot to fix the VCP coil, the second loading motor 23 operates to drive the rotating rod 28 to rotate, the rotating rod 28 rotates to drive the sleeve rod 29 to rotate, the sleeve rod 29 rotates to drive the fixing ring 292 to rotate, so that the four support plates 24 move to drive the VCP coil on the support plates 24 to rotate for loading, the first loading motor 22 operates to drive the screw rod 25 to rotate, the screw rod 25 rotates to drive the first drive disk 26 to move, the first drive disk 26 moves to drive the second drive disk 27 to move, the second drive disk 27 moves to drive the first hinge block 2931 to move, the first hinge block 2931 moves to drive the support plates 24 to move, the support plates 24 move to drive the second hinge block 2932 and the third hinge block 2933 to move, so as to expand and fix the VCP coil, when the loading device 2 loads and guides out the VCP coil, the transmission motor 32 rotates to drive the transmission rod 35 to rotate, the transmission rod 35 rotates to drive the transmission roller 36 to rotate, the VCP coil is guided out and transmitted, when the transmission device 3 conveys the VCP coil to the transmission rollers 418, the transmission motor 412 rotates to drive the two belts 415 to rotate, the two belts 415 rotate two of the transmission rollers 418, the two transmission rollers 418 rotate to drive the other two transmission rollers 418 to rotate to carry out parallel conveying operation on the VCP coil, when the conveying device 4 conveys the VCP coil to the workbench 5, the trowelling motor 63 operates to drive the first rotating block 66 to rotate, the first rotating block 66 rotates to drive the second rotating block 67 to rotate, the second rotating block 67 rotates to drive the moving frame 69 to move, the moving frame 69 moves to drive the sliding block 691 to move in the sliding groove on the trowelling seat 62, the sliding block 691 moves to drive the leveling roller 693 to move to perform surface leveling operation on the VCP on the workbench 5, when the VCP is leveled, the pressing device 7 operates, the pressing cylinder 72 operates to drive the two positioning plates 73 to move downwards to press the VCP on the workbench 5 to perform electroplating operation on the fixed VCP in cooperation with the electroplater 9, when the electroplating processing operation is completed, the conveying device 4 conveys the VCP to the winding column 891, at this time, the winding motor 82 rotates to drive the first connecting belt 86 and the second connecting belt 87 to rotate the first rotating disc 83 and the second rotating disc 84, the second rotating disc 84 rotates to drive the third connecting belt 88 to rotate the third rotating disc 85, the rotation of the winding motor 82 drives the rotating shafts 894 to rotate, the rotating shafts 894 rotate to drive the rotating disc 89 to rotate, the rotating disc 89 rotates to enable the winding post 891 on the rotating disc 89 to wind and wind the winding post 892, and the VCP is wound on the winding post 892 to complete the winding operation of the VCP.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. A VCP coil-to-coil feeding device is characterized by comprising a grounding seat (1), a feeding device (2), a transmission device (3), a conveying device (4), a workbench (5), a floating device (6), a pressing device (7), an electroplater (9) and a winding device (8), wherein the grounding seat (1) is placed on the ground, the feeding device (2) is installed at the top of the grounding seat (1), the transmission device (3) is installed at the top of the grounding seat (1) and is positioned beside the feeding device (2), the conveying device (4) is installed at the top of the grounding seat (1), the workbench (5) is placed on the grounding seat (1), the floating device (6) is placed on the grounding seat (1) and is positioned on the workbench (5), the pressing device (7) is placed on the grounding seat (1) and is positioned above the workbench (5), the electroplating device (9) is installed on the floor base (1), and the winding device (8) is placed on the floor base (1) and positioned beside the conveying device (4).

2. The VCP reel-to-reel feeding device of claim 1, wherein the feeding device (2) comprises a feeding seat (21), a first feeding motor (22), a second feeding motor (23), a support plate (24), a screw rod (25), a first driving disk (26), a second driving disk (27), a rotating rod (28), a sleeve rod (29), a moving plate (291), two fixing rings (292) and four groups of spreading assemblies (293), the feeding seat (21) is installed on the landing seat (1), the first feeding motor (22) is installed on the side wall of the feeding seat (21), the second feeding motor (23) is installed on the side wall of the landing seat (1), the support plate (24) is installed on the top of the landing seat (1), the rotating rod (28) is installed on the main shaft of the second feeding motor (23) and is in transmission fit with the main shaft of the second feeding motor (23), set lever (29) cover is established on dwang (28) and with dwang (28) normal running fit, second driving-disc (27) install on set lever (29) and with set lever (29) both sliding fit and normal running fit, two fixed ring (292) fixed symmetry install on set lever (29), lead screw (25) install on the main shaft of first material loading motor (22) and with first material loading motor (22) main shaft transmission cooperation, first driving-disc (26) install on lead screw (25) and with lead screw (25) screw-thread fit, be equipped with the draw-in groove on second driving-disc (27), the draw-in groove looks block of first driving-disc (26) and second driving-disc (27), four groups prop out subassembly (293) and be the circumference and set up on two fixed ring (292), four groups prop out subassembly (293) and all include first articulated piece (2931), second articulated piece (2932), Third articulated piece (2933) and opening plate (2934), the one end of first articulated piece (2931) is installed on the lateral wall of second driving-disc (27) and is articulated the cooperation with second driving-disc (27), the one end of second articulated piece (2932) is installed on one of them solid fixed ring (292) and is articulated the cooperation with one of them solid fixed ring (292), the one end of third articulated piece (2933) is installed on another solid fixed ring (292) and is articulated the cooperation with another solid fixed ring (292), opening plate (2934) is installed at the other end of first articulated piece (2931), second articulated piece (2932) and third articulated piece (2933), be equipped with the spout on material loading seat (21), movable plate (291) is installed in the spout on material loading seat (21) and with material loading seat (21) sliding fit.

3. The VCP reel-to-reel feeding device of claim 1, wherein the transmission device (3) comprises a transmission seat (31), a transmission motor (32), a transmission motor seat (33), two transmission boxes (34), two transmission rods (35), two transmission rollers (36), two screw rods (37), two adjusting springs (38) and four sleeve boxes (39), the transmission seat (31) is installed on the top of the floor (1), the two transmission boxes (34) are symmetrically installed on the transmission seat (31), the four sleeve boxes (39) are respectively installed on the two transmission boxes (34) in a pairwise symmetry manner, two ends of the two transmission rods (35) are respectively installed on the two sleeve boxes (39) on the two corresponding transmission boxes (34), two ends of the two transmission rods (35) are respectively connected with the two sleeve boxes (39) in a rotation manner, the two transmission rollers (36) are respectively sleeved on the two transmission rods (35) and are rotatably connected with the two transmission rods (35), the two adjusting springs (38) are respectively arranged in the two transmission boxes (34), two ends of the two adjusting springs (38) are respectively connected with the inner top of the transmission boxes (34) and the top of the sleeve box (39) positioned at the inner upper part of the transmission boxes (34), the transmission motor base (33) is arranged on the side wall of one transmission box (34), the transmission motor (32) is installed on a transmission motor base (33), a main shaft of the transmission motor (32) is in transmission fit with one end of one transmission rod (35), the tops of the two transmission boxes (34) are connected with screw rods (37) in threaded connection with the transmission boxes, and the two screw rods (37) are fixedly connected with sleeve boxes (39) located on the upper portion in the transmission boxes (34).

4. A VCP reel-to-reel feeding device according to claim 1, characterized in that said conveying device (4) comprises a first conveying component (41) and a second conveying component (42), said first conveying component (41) and said second conveying component (42) are symmetrically arranged on a floor base (1) in the same structure, said first conveying component (41) comprises a conveying base (411), a conveying motor (412), a conveying motor base (413), a conveying shaft (414), two belts (415), two conveying belts (416), four conveying rods (417) and four conveying rollers (418), said conveying base (411) is placed on the floor base (1), said conveying motor base (413) is installed on the side wall of the conveying base (411), said conveying motor (412) is installed on the conveying motor base (413), said conveying shaft (414) is installed on the main shaft of the conveying motor (412) and is in transmission fit with the main shaft of the conveying motor (412), four the both ends of carrying pole (417) are connected with the both sides wall of carrying seat (411) respectively, four conveying roller (418) install respectively on four conveying pole (417) and with four conveying pole (417) normal running fit, two belt (415) are established respectively on wherein two conveying roller (418) and carry axle (414), two transmission band (416) two double-phase the cover respectively are established on two conveying roller (418).

5. The VCP reel-to-reel feeding device of claim 1, wherein the troweling device (6) comprises a bearing seat (61), a troweling seat (62), a troweling motor (63), a troweling block (64), a positioning block (65), a first rotating block (66), a second rotating block (67), a third rotating block (68), a moving frame (69), a sliding block (691), a communication rod (692) and a troweling roller (693), the bearing seat (61) is installed on the top of the floor seat (1), the troweling seat (62) is installed on the side wall of the bearing seat (61), the troweling block (64) is installed on the top of the troweling seat (62), the troweling motor (63) is installed on the side wall of the troweling block (64), the main shaft of the troweling motor (63) penetrates through the troweling block (64), one end of the first rotating block (66) is installed on the main shaft of the troweling motor (63), one end of the second rotating block (67) is arranged at the other end of the first rotating block (66) and is in rotating fit with the other end of the first rotating block (66), the positioning block (65) is arranged on the trowelling seat (62), one end of the third rotating block (68) is arranged on the side wall of the positioning block (65), both ends of the communication rod (692) are connected to one end of the second rotating block (67) and one end of the third rotating block (68), a dropping groove is arranged on the leveling seat (62), a sliding groove is arranged on the leveling seat (62), one end of the moving frame (69) is arranged on the connecting rod (692), the sliding block (691) is arranged in a sliding groove on the troweling seat (62) and is in sliding fit with the troweling seat (62), the other end and the sliding block (691) articulated connection of removal frame (69), troweling roller (693) installs the bottom at sliding block (691).

6. The VCP coil-to-coil feeding device of claim 1, wherein said pressing device (7) comprises a pressing base (71), two pressing cylinders (72) and two positioning plates (73), said pressing base (71) is installed on the top of the grounding base (1), said two pressing cylinders (72) are symmetrically installed on the pressing base (71), and said two positioning plates (73) are respectively installed on the telescopic ends of said two pressing cylinders (72) and vertically downward toward the working table (5).

7. A VCP reel-to-reel feeding device according to claim 1, characterized in that said reel (8) comprises a reel seat (81), a reel motor (82), a first rotating disc (83), a second rotating disc (84), a third rotating disc (85), a first connecting band (86), a second connecting band (87), a third connecting band (88), a rotating disc (89), a reel winding post (891), a reel winding post (892), a fixed seat (893) and a plurality of rotating shafts (894), said reel seat (81) is installed on the top of the landing seat (1), said reel motor (82) is installed on the reel seat (81), said first rotating disc (83), second rotating disc (84) and third rotating disc (85) are respectively installed on the side wall of the reel seat (81), said first connecting band (86) is sleeved on the main shaft of the reel motor (82) and the first rotating disc (83), second connecting band (87) cover is established on the main shaft and the second rolling disc (84) of rolling motor (82), third connecting band (88) cover is established on second rolling disc (84) and third rolling disc (85), and is a plurality of rotation axis (894) are the circumference setting on the lateral wall of rolling seat (81) and wherein four rotation axis (894) respectively with main shaft, first rotation dish (83), second rolling disc (84) and third rolling disc (85) normal running fit of rolling motor (82), rotary disk (89) install on rolling seat (81) and with a plurality of rotation axis (894) normal running fit, receipts winding post (891) fixed mounting is on rotation disk (89), fixing base (893) are installed on landing seat (1), receipts winding post (892) is installed on fixing base (893).