CN212625643U - Easy-to-tear adhesive feeding structure - Google Patents

Abstract

The utility model relates to the technical field of laminating processing, and discloses an easy-to-tear-and-paste feeding structure, which comprises an easy-to-tear-and-paste feeding assembly, a waste film collecting assembly, a guiding assembly and an easy-to-tear-and-paste air cylinder assembly; through utilizing easily tearing to paste material loading subassembly, receipts waste film subassembly, direction subassembly and easily tearing to paste cylinder assembly, easily tear to paste material loading subassembly material loading, process the direction subassembly, easily tear to paste cylinder assembly orders about easily tear the subsides flow direction receive the waste film subassembly, just easily tear the subsides and receive easily tear to paste cylinder assembly orders about and provides OCA dyestripping structure and easily tear the subsides, and whole process is very high-efficient.

Description

Easy-to-tear adhesive feeding structure

Technical Field

The patent of the utility model relates to a technical field of laminating processing particularly, relates to easily tear a feed structure.

Background

With the increasing demand of touch screen electronic products such as mobile phones and the like, the security of the touch screen electronic products needs to be more and more emphasized, the fingerprint identification technology is a biological identification technology, and the fingerprint identification system is a set of mode identification system comprising fingerprint image acquisition, processing, feature extraction and comparison peer-to-peer modules; the fingerprint identification technology is commonly used in places needing personnel identity confirmation, such as an access control system, an attendance system, a notebook computer, bank internal processing, bank payment and the like, and the fingerprint identification technology gradually becomes a mainstream on touch screen electronic products.

At present, the automatic laminating machine for fingerprint identification mainly comprises an OLED feeding machine, a soft laminating machine, an IC film tearing machine, a vacuum cavity laminating machine and a finished product blanking machine.

In the prior art, an efficient feeding structure easy to tear and paste is lacked.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an easily tear and paste feed structure, aim at providing an efficient easily tears a feed structure.

The utility model discloses a realize like this, easily tear and paste feed structure, including easily tearing paste material loading subassembly, receipts waste film subassembly, direction subassembly and easily tearing paste cylinder assembly, easily tear and paste material loading of material loading subassembly, process the direction subassembly, easily tear and paste cylinder assembly and order about easily tear the subsides flow direction receive the waste film subassembly, just easily tear and paste the receipt easily tear and order about and provide OCA tear film structure and easily tear the subsides.

Further, easily tear and paste feed structure including easily tearing the subsides mounting panel, the direction subassembly includes a plurality of easily tear and paste the fixed column, easily tear and paste the material loading subassembly including easily tearing the subsides rim plate, easily tear the subsides rim plate with easily tear and paste mounting panel swivelling joint, easily tear paste the fixed column with easily tear and paste mounting panel fixed connection.

Further, a plurality of the easy-tear sticker fixing posts are arranged on the upper surface of the easy-tear sticker mounting plate at intervals.

Further, be equipped with on the lower surface of easily tearing the mounting panel and easily tear a support column, easily tear an support column and arrange easily tear on the four corners of pasting the mounting panel lower surface.

Further, one side of easily tearing the mounting panel is equipped with tensioning assembly, tensioning assembly tensioning easily tear the subsides.

Further, it is in to receive the waste film subassembly setting the upper surface of mounting panel, it includes the waste film rim plate to receive the waste film subassembly, easily tear to paste and rotate to after using receive the waste film rim plate.

Further, the upper surface of the mounting plate is fixedly connected with the cylinder assembly.

Further, two cylinder assemblies are arranged between the easy-tear sticker fixing columns at intervals.

Further, be equipped with the magnetic powder controller on the lower surface of mounting panel, the magnetic powder controller control easily tear the subsides rim plate rotation.

Further, the easily torn and pasted wheel disc is connected with the magnetic powder controller rod piece.

Compared with the prior art, the utility model provides an easily tear and paste feed structure easily tears a material loading subassembly, receipts plastic film waste subassembly, direction subassembly and easily tears a cylinder subassembly through utilizing, easily tear a material loading subassembly material loading, process the direction subassembly, easily tear a cylinder subassembly and order about easily tear the subsides flow direction receipts plastic film waste subassembly, just easily tear the subsides and receive easily tear a cylinder subassembly and order about and provide OCA dyestripping structure and easily tear the subsides, whole process is very high-efficient.

Drawings

Fig. 1 is a schematic perspective view of an automatic fingerprint identification laminating machine provided by the present invention;

fig. 2 is a schematic perspective view of the automatic fingerprint identification laminating machine provided by the present invention;

fig. 3 is a schematic perspective view of the automatic fingerprint identification laminating machine provided by the present invention;

fig. 4 is a schematic perspective view of the automatic fingerprint identification laminating machine provided by the present invention;

fig. 5 is a schematic perspective view of the automatic fingerprint identification laminating machine provided by the present invention;

fig. 6 is a schematic perspective view of the automatic fingerprint identification laminating machine provided by the present invention;

fig. 7 is a schematic perspective view of an OLED lifting structure provided in the present invention;

fig. 8 is a schematic perspective view of an OCA cage assembly provided by the present invention;

fig. 9 is a schematic perspective view of an OLED take-out assembly provided by the present invention;

fig. 10 is a schematic perspective view of an OCA cartridge assembly provided by the present invention;

fig. 11 is a schematic perspective view of an OCA tear-off light film assembly provided by the present invention;

fig. 12 is a schematic perspective view of an easy-tear tape supply structure provided by the present invention;

fig. 13 is a schematic perspective view of an OLED tear film assembly provided by the present invention;

fig. 14 is a schematic perspective view of an OLED flipping feeding robot provided in the present invention;

figure 15 is a schematic perspective view of a CG laminated gantry arm assembly provided by the present invention;

fig. 16 is a schematic perspective view of an IC loading arm provided by the present invention;

FIG. 17 is a schematic perspective view of a peel arm on an IC in accordance with the present invention;

FIG. 18 is a schematic perspective view of an IC tear-off arm provided by the present invention;

fig. 19 is a schematic side view of a tear-off arm on an OLED provided by the present invention;

fig. 20 is a schematic perspective view of the loading/unloading carrying arm for attachment provided by the present invention;

fig. 21 is a schematic perspective view of an OLED attached vacuum chamber provided by the present invention;

fig. 22 is a schematic perspective view of an OLED receiving platform provided in the present invention;

fig. 23 is a schematic perspective view of the vacuum chamber under OLED lamination provided by the present invention;

fig. 24 is a schematic perspective view of a NG dumping assembly provided by the present invention;

fig. 25 is a schematic perspective view of a finished product transfer platform assembly provided by the present invention;

fig. 26 is a perspective view of the single-layer TRAY moving stage according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

Referring to fig. 1-26, the preferred embodiment of the present invention is shown.

The easy tear that this embodiment provided pastes feed structure for provide and easily tear and paste for the dyestripping hand.

Automatic rigging machine of fingerprint identification, including OLED material loading dyestripping structure, OLED upset and transfer structure, easily tear and paste feed structure 16, OCA folded sheet feed structure, OCA dyestripping structure, OLED and OCA laminated structure, OLED and OCA dyestripping structure, IC chip loading attachment, finished product unloading recovery structure, fingerprint identification laminating device, OLED material loading dyestripping structure, OLED upset and transfer structure are to OLED screen dyestripping and transfer, OCA folded sheet feed structure, easily tear and paste feed structure 16, OCA dyestripping structure material loading OCA and tear OCA's membrane, OLED and OCA laminated structure, OLED screen and OCA dyestripping structure laminating OLED screen and OCA, form and wait to adorn the OLED screen, IC chip loading attachment material IC chip, wait to adorn OLED screen and IC chip and be removed to fingerprint identification laminating device, fingerprint identification laminating device laminating is waited to adorn OLED screen and IC chip, retrieve by finished product unloading recovery structure after forming the finished product.

Utilize OLED material loading to tear membrane structure, OLED upset and transfer structure, easily tear and paste feed structure 16, OCA folded sheet charge-in structure, OCA tears membrane structure, OLED and OCA laminated structure, OLED and OCA tear membrane structure, IC chip loading attachment, finished product unloading recovery structure, fingerprint identification laminating device can automated processing and laminating OLED and IC chip, the handling time and the cost that significantly reduce, it is very convenient.

The OLED feeding and film tearing structure comprises an OLED real TRAY feeding conveying belt 19, a single-layer TRAY moving carrying platform 22, an OLED empty TRAY discharging conveying belt 18, an OLED lifting structure 11, an OLED material taking assembly 12, an OLED film tearing platform assembly 14 and an OLED film tearing assembly 15, the OLED real TRAY feeding conveying belt 19 conveys a TRAY disc loaded with an OLED screen, the single-layer TRAY moving carrying platform 22 moves the single-layer TRAY disc and is lifted to the material taking position of the OLED material taking assembly 12 through the OLED lifting structure 11, and after the OLED material taking assembly 12 takes materials from the single-layer TRAY disc, the single-layer TRAY disc moves to the OLED empty TRAY discharging conveying belt 18 through a transfer carrying platform 17 to be discharged; OLED material taking assembly 12 takes the OLED screen to OLED film tearing platform assembly 14, the OLED screen is placed on OLED film tearing platform assembly 14, and OLED film tearing assembly 15 tears the OLED screen.

OCA lamination loading attachment material loading OCA to and OLED upset material loading manipulator material loading OLED screen, OCA lamination loading attachment structure removes OLED and OCA laminated structure, OCA tears the membrane structure and easily tears the membrane that pastes feed structure 16 combination and tear OCA, OLED is removed to OLED and OCA laminated structure, OLED and OCA laminating OCA and OLED screen.

OLED and OCA tear film structure include that OLED moves a year platform 32, tear film arm 33 on the OLED, tear film arm 34 and OLED transfer platform 35 under the OLED, OLED moves a year platform 32 and shifts OLED screen and tear film arm 33 on OLED, tear the upper surface membrane back that removes the OLED screen, OLED moves a year platform 32 and removes OLED screen and tear film arm 34 and tear the membrane that removes OCA under OLED screen to OLED, OLED screen removes and transfers platform 35 in OLED and carry out the transfer.

IC chip loading attachment includes IC chip loading structure, IC chip and tears the membrane and shift the structure, and IC chip loading structure includes IC material loading arm 38, IC upset subassembly 39, and IC material loading arm 38 material loading IC chip, IC upset subassembly 39 upset IC chip, and IC chip tears the membrane and shifts the structure and tear the membrane and clean to IC chip.

Finished product unloading recovery structure includes IC empty TRAY unloading conveyer belt, IC reality TRAY material loading conveyer belt, NG throws material subassembly 51, IC gets the material subassembly and IC moves and carries the platform subassembly, IC empty TRAY unloading conveyer belt, IC reality TRAY material loading conveyer belt and IC get the material subassembly and connect gradually, IC reality TRAY material loading conveyer belt transportation has off-the-shelf TRAY dish, IC gets the material subassembly and takes off the finished product from the TRAY dish, unqualified quilt gets material subassembly scanning back in the finished product and throws material subassembly 51 through NG and throw away, IC empty TRAY unloading conveyer belt removes empty TRAY dish, IC gets the material subassembly and removes the finished product to IC moves and carries the platform subassembly on.

Fingerprint identification laminating device removes arm 49 including the laminating unloading, the arm 46 is removed in the OLED material loading, vacuum cavity 50 on the OLED laminating, vacuum cavity 45 and OLED accept platform 47 under the OLED laminating, the OLED material loading is removed arm 46 and is removed the OLED screen and accept platform 47 to OLED, OLED accepts platform 47 and is filtered OLED and move vacuum cavity 50 on the OLED laminating into, the laminating unloading is removed arm 49 and is removed vacuum cavity 45 under IC chip to the OLED laminating, OLED and IC counterpoint subassembly counterpoint IC chip and OLED screen, vacuum cavity laminates under vacuum cavity and the OLED on the OLED, OLED and the laminating of IC chip.

Easily tear subsides feed structure 16 and including easily tearing subsides feed block 71, receipts waste film subassembly 73, direction subassembly 74 and easily tear subsides cylinder assembly 72, easily tear and paste feed block 71 material loading, through direction subassembly 74, easily tear subsides cylinder assembly 72 and order about easily to tear the subsides flow direction and receive waste film subassembly 73, and easily tear the subsides and receive easily to tear subsides cylinder assembly 72 and order about providing the easy subsides that tear of OCA dyestripping structure.

OLED and OCA laminated structure include CG laminating longmen arm subassembly 29, OCA box with a net subassembly 30 and OCA counterpoint subassembly 23, CG laminating longmen arm subassembly 29 is connected with OCA box with a net subassembly 30, OCA counterpoint subassembly 23 counterpoint OCA and OLED screen, CG laminating longmen arm subassembly 29 orders about OCA box with a net subassembly 30 laminating OCA and OLED screen.

OCA lamination loading structure includes OCA magazine subassembly 27, OCA material loading correction transfer subassembly, OCA butt joint material loading manipulator 26, OCA magazine subassembly 27 feed, and OCA material loading correction transfer subassembly material loading and correction OCA, OCA butt joint material loading manipulator 26 remove OCA and remove to OCA box with a net subassembly 30 and laminate after tearing the membrane to OCA dyestripping structure.

Through utilizing OCA magazine subassembly 27, OCA material loading to rectify transfer subassembly, OCA butt joint material loading manipulator 26, OCA magazine subassembly 27 feed, OCA material loading is rectified the transfer subassembly material loading and is rectified OCA, and OCA butt joint material loading manipulator 26 removes OCA and removes to OCA box with a net subassembly 30 and laminate after tearing the membrane to OCA dyestripping structure, and whole process is very high-efficient.

OCA lamination loading structure includes OCA magazine subassembly 27, OCA material loading correction transfer subassembly, OCA butt joint material loading manipulator 26, OCA magazine subassembly 27 feed, and OCA material loading correction transfer subassembly material loading and correction OCA, OCA butt joint material loading manipulator 26 remove OCA and remove to OCA box with a net subassembly 30 and laminate after tearing the membrane to OCA dyestripping structure.

The OCA magazine assembly 27 comprises an OCA discharging bottom plate 62, a first receiving bottom plate 63, a second receiving bottom plate 64, a rotary cylinder connected with the second receiving bottom plate 64 and a plurality of support columns, wherein the support columns support and are connected with the first receiving bottom plate 63 and the second receiving bottom plate 64, the OCA discharging bottom plate 62 is connected with the first receiving bottom plate 63, the rotary cylinder drives the first receiving bottom plate 63 and the second receiving bottom plate 64 to rotate to drive the OCA discharging bottom plate 62, and the OCA feeding correction transfer assembly corrects the OCA butt joint feeding manipulator 26 to take materials; a stepping motor 65 is further arranged between the first receiving bottom plate 63 and the second receiving bottom plate 64, and the stepping motor 65 pushes the OCA discharging bottom plate 62 to move upwards.

OCA material loading is rectified the transfer subassembly and is included OCA material loading module, OCA correction transfer module, and OCA material loading module absorbs OCA and removes OCA correction transfer module, and OCA correction transfer module is proofreaied and correct and the transfer OCA position.

The OCA feeding module comprises an OCA feeding suction nozzle, an OCA shaking cylinder, an OCA feeding guide rail and an OCA feeding portal frame, the OCA feeding guide rail is arranged on the OCA feeding portal frame, the OCA shaking cylinder is movably connected with the OCA feeding guide rail through a mounting plate, the OCA shaking cylinder is connected with the OCA feeding suction nozzle, and the OCA feeding suction nozzle sucks OCA; OCA material loading module still includes ionic wind machine, and ionic wind machine gets rid of OCA and goes up static, and ionic wind machine is connected with OCA material loading portal frame.

The OCA correction transfer module comprises an OCA transfer suction nozzle, an OCA transfer guide rail, an OCA transfer cylinder and an OCA vacuum plate, wherein the OCA transfer cylinder is connected with the OCA transfer suction nozzle and is in sliding connection with the OCA transfer guide rail; OCA transfer cylinder is connected through the handle with OCA transfer suction nozzle between, and OCA transfer suction nozzle absorbs OCA to OCA vacuum plate on.

OCA rectifies the transfer module and still includes OCA correction guide rail, OCA correction board, OCA connecting piece and OCA correction X to the module, OCA transfer suction nozzle absorption OCA is back to OCA vacuum plate on, OCA correction board helps correcting OCA's direction, OCA corrects X and orders about OCA correction board and OCA vacuum plate fine setting to the module and removes, OCA corrects X and is connected with the OCA connecting piece to the module, OCA connecting piece and OCA correction guide rail sliding connection.

The OCA correction transfer module also comprises an OCA correction cylinder, and the OCA correction cylinder is pneumatically connected with the OCA correction X-direction module; be equipped with the buffer on the OCA rectifies the guide rail, the buffer prevents that the OCA connecting piece from removing and breaks away from OCA and rectifies the guide rail.

The OLED feeding and film tearing structure comprises an OLED real TRAY feeding conveying belt 19, a single-layer TRAY moving carrying platform 22, an OLED empty TRAY discharging conveying belt 18, an OLED lifting structure 11, an OLED material taking assembly 12, an OLED film tearing platform assembly 14 and an OLED film tearing assembly 15, the OLED real TRAY feeding conveying belt 19 conveys a TRAY disc loaded with an OLED screen, the single-layer TRAY moving carrying platform 22 moves the single-layer TRAY disc and is lifted to the material taking position of the OLED material taking assembly 12 through the OLED lifting structure 11, and after the OLED material taking assembly 12 takes materials from the single-layer TRAY disc, the single-layer TRAY disc moves to the OLED empty TRAY discharging conveying belt 18 through a transfer carrying platform 17 to be discharged; OLED material taking assembly 12 takes the OLED screen to OLED film tearing platform assembly 14, the OLED screen is placed on OLED film tearing platform assembly 14, and OLED film tearing assembly 15 tears the OLED screen.

Through OLED real TRAY material loading conveyer belt 19, individual layer TRAY removal microscope carrier 22, empty TRAY unloading conveyer belt 18 of OLED, OLED elevation structure 11, OLED get material subassembly 12, OLED tear film platform subassembly 14 and OLED tear film subassembly 15 and carry out the material loading and tear the membrane on the OLED screen to the OLED screen, very high-efficient.

The OLED real TRAY feeding conveyor belt 19 comprises an OLED conveyor, an OLED feeding guide rail, an OLED feeding belt, an OLED feeding support plate, an OLED feeding sensor and an OLED in-place sensor, wherein the OLED feeding belt is connected with the OLED feeding guide rail in a sliding mode; the OLED feeding guide rail is provided with an OLED feeding sensor and an OLED in-place sensor, the OLED feeding sensor senses feeding of an OLED real TRAY disc, and the OLED in-place sensor sends a signal when the OLED real TRAY disc passes through the OLED in-place sensor; OLED material loading backup pad supports OLED material loading guide rail.

The single-layer TRAY moving carrying platform 22 comprises a single-layer guide rail, a single-layer motor 120, a single-layer transmission shaft and a single-layer transfer assembly 119, wherein the single-layer transfer assembly 119 is connected with the single-layer guide rail, and the single-layer transmission shaft drives the single-layer guide rails on the left side and the right side to move synchronously; the single-layer transfer assembly 119 comprises a single-layer sensor, a single-layer cylinder 121 and a TRAY workpiece, the single-layer cylinder 121 drives the TRAY workpiece to move along the center of a left single-layer guide rail and a right single-layer guide rail, and the single-layer sensor senses that a TRAY disc is separated from or contacts the TRAY workpiece.

OLED lift structure 11 includes the OLED guide bar, OLED lift guide rail 55, OLED support mounting panel, OLED lifting bottom plate 54, OLED lift inductor and TRAY dish backup pad 53, OLED support mounting panel and OLED guide bar are connected with OLED lifting bottom plate 54, TRAY dish backup pad 53 and OLED lift guide rail 55 sliding connection, TRAY dish backup pad 53 takes the TRAY dish to rise or descend on OLED lift guide rail 55, when TRAY dish backup pad 53 is responded to by OLED lift inductor, OLED lift guide rail 55 no longer removes.

The OLED material taking assembly 12 comprises an OLED material taking structure 59, an OLED material taking portal frame, an OLED material taking Y-direction module 61 and an OLED material taking Z-direction module 60, the OLED material taking structure 59 is connected with the OLED material taking portal frame, the OLED material taking Y-direction module 61 is connected with the OLED material taking structure 59, the OLED material taking Z-direction module 60 is connected with the OLED material taking structure 59, and the OLED material taking Y-direction module 61 drives the OLED material taking structure 59 to move in the Y direction; OLED is got material structure 59 and is included OLED and get the material suction nozzle, and OLED is got material Z and is made an order about OLED to get material suction nozzle and reciprocate in the Z direction to module 60, and OLED is got material structure 59, OLED and is got material Y to module 61, OLED and get material Z and to the module 60 back-and-forth movement on OLED and get the material portal frame.

OLED dyestripping platform subassembly 14 includes OLED vacuum smelting tool board, OLED platform guide rail and OLED platform cylinder, and OLED platform cylinder is connected with OLED vacuum smelting tool board pneumatics, and OLED vacuum smelting tool board passes through OLED platform connecting piece and is connected with OLED platform guide rail.

OLED dyestripping subassembly 15 includes OLED dyestripping portal frame structure, OLED dyestripping clamping jaw, and OLED dyestripping clamping jaw and OLED dyestripping portal frame structural connection, OLED dyestripping clamping jaw press from easily tearing paste feeding structure 16 and get the back clamp of easily tearing paste and get the membrane of tearing from the OLED screen.

OLED dyestripping portal frame structure includes that OLED dyestripping Z tears membrane Z to module 76, OLED dyestripping X to the module, OLED dyestripping guide rail, OLED dyestripping connecting piece, OLED dyestripping X is connected with OLED dyestripping guide rail to the module, OLED dyestripping Z tears the membrane Z to module 76 and OLED dyestripping connecting piece is connected, OLED dyestripping connecting piece and OLED dyestripping guide rail are connected, OLED dyestripping clamping jaw and OLED dyestripping connecting piece are connected.

OLED tears membrane subassembly 15 still includes OLED and tears membrane clamping jaw cylinder 75 and OLED and tears membrane servo motor, and OLED tears membrane servo motor control OLED and tears membrane clamping jaw cylinder 75 and orders about OLED and tear the membrane clamping jaw and open and close.

OLED material loading dyestripping structure still includes direction weld holder 20, and direction weld holder 20 is including direction panel beating, section bar support and connecting plate, direction panel beating and section bar support and connecting plate fixed connection, and the transportation of the empty TRAY dish of OLED or the real TRAY dish of OLED is led to the panel beating of direction.

OLED upset and transfer structure move the subassembly 28 including OLED upset manipulator 31 and OLED material loading, OLED upset manipulator 31 moves the subassembly 28 with OLED material loading and is connected, and OLED upset manipulator 31 is with OLED screen upset back, and OLED material loading moves the subassembly 28 and moves and move and carry the OLED screen.

Through utilizing OLED upset manipulator 31 and OLED material loading to move and carry subassembly 28, OLED upset manipulator 31 moves the subassembly 28 with OLED material loading and is connected, and OLED upset manipulator 31 is with OLED screen upset back, and OLED material loading moves and carries subassembly 28 and move and carry OLED screen, and whole process is very high-efficient.

OLED upset manipulator 31 includes OLED upset bottom plate 84, OLED upset mounting panel 83, OLED upset suction nozzle, OLED upset chain stay 81 and OLED upset micro joint 82, OLED upset mounting panel 83 and OLED upset bottom plate 84 fixed connection, OLED upset chain stay 81 is connected with OLED upset mounting panel 83, OLED upset suction nozzle and OLED upset micro joint 82 are connected with OLED upset chain stay 81, OLED upset chain stay 81 receives upset step motor 65 to overturn.

The plurality of OLED overturning suction nozzles are arranged on the OLED overturning fork 81 at intervals, and the plurality of OLED overturning micro connectors 82 are arranged on the OLED overturning fork 81 at intervals; the bottom plate is provided with a turnover cylinder, and the turnover cylinder is pneumatically connected with the OLED turnover suction nozzle.

The overturning mounting plate is provided with an overturning bearing seat 79, and the overturning bearing seat 79 is connected with an overturning stepping motor 65 and an OLED overturning fork 81; be equipped with bar code scanner 80 on the upset mounting panel, bar code scanner 80 passes through the upset mounting bracket with the upset mounting panel to be connected, and arranges the upper end at the mounting panel.

Be equipped with upset inductor 85 on the upset mounting panel, upset inductor 85 and 79 interval arrangements of upset bearing frame, the upset of upset inductor 85 response OLED screen.

The OLED loading transfer assembly 28 comprises an OLED loading transfer linear motor, an OLED loading transfer support, an OLED loading transfer bus plate and an OLED loading transfer suction nozzle rod, the OLED loading transfer suction nozzle rod is connected with the OLED loading transfer support, the OLED loading transfer bus plate is connected with the OLED loading transfer support, the OLED loading transfer support is connected with an OLED loading transfer bottom plate, and the OLED loading transfer bottom plate is connected with the OLED loading transfer linear motor.

The OLED feeding and transferring assembly 28 comprises an OLED feeding and transferring cylinder, the OLED feeding and transferring cylinder is pneumatically connected with an OLED feeding and transferring suction nozzle rod, and the OLED feeding and transferring cylinder is connected with an OLED feeding and transferring support.

The OLED loading and transferring assembly 28 comprises an OLED loading and transferring guide rail, and the OLED loading and transferring bottom plate is connected with the OLED loading and transferring guide rail in a sliding mode.

Easily tear and paste feed structure including easily tearing and pasting material loading subassembly 71, receipts waste film subassembly 73, direction subassembly 74 and easily tearing and paste cylinder assembly 72, easily tear and paste material loading of material loading subassembly 71, through direction subassembly 74, easily tear and paste cylinder assembly 72 and order about easily tearing to paste the flow direction and receive waste film subassembly 73, and easily tear and paste and order about providing the easy subsides that tear of OCA dyestripping structure by easily tearing paste cylinder assembly 72.

Through utilizing easily tearing to paste material loading subassembly 71, receipts waste film subassembly 73, direction subassembly 74 and easily tearing to paste cylinder assembly 72, easily tearing to paste material loading subassembly 71 material loading, through direction subassembly 74, easily tearing to paste cylinder assembly 72 and order about easily to tear and paste the flow direction and receive waste film subassembly 73, and easily tear to paste and receive easily to tear to paste cylinder assembly 72 and order about providing OCA dyestripping structure and easily tear the subsides, whole process is very high-efficient.

The easy-tearing paste feeding structure comprises an easy-tearing paste mounting plate, the guide assembly 74 comprises a plurality of easy-tearing paste fixing columns, the easy-tearing paste feeding assembly 71 comprises an easy-tearing paste wheel disc, the easy-tearing paste wheel disc is rotatably connected with the easy-tearing paste mounting plate, and the easy-tearing paste fixing columns are fixedly connected with the easy-tearing paste mounting plate; a plurality of easily tear and paste the upper surface that the fixed post interval arrangement was pasted the mounting panel at easily tearing.

Easy-to-tear paste support columns are arranged on the lower surface of the easy-to-tear paste mounting plate and are arranged at the four corners of the lower surface of the easy-to-tear paste mounting plate; one side of the easy-to-tear mounting plate is provided with a tensioning assembly which is used for tensioning the easy-to-tear mounting plate.

The waste film collecting component 73 is arranged on the upper surface of the mounting plate, the waste film collecting component 73 comprises a waste film wheel disc, and the waste film wheel disc is turned to the waste film collecting wheel disc after the easy-tearing sticker is used up; the upper surface of the mounting plate is fixedly connected with the air cylinder component.

The two air cylinder assemblies are arranged among the plurality of easy-tearing and sticking fixing columns at intervals; a magnetic powder controller is arranged on the lower surface of the mounting plate and controls the easy-to-tear wheel disc to rotate; the easy-tearing sticking wheel disc is connected with the magnetic powder controller rod piece.

OCA dyestripping structure includes OCA tears light membrane subassembly 24, OCA tears light membrane subassembly 24 including tearing light membrane X to module 70, tear light membrane Y to module 67, tear light membrane Z to module 69, tear light membrane connecting piece, OCA module mounting panel, tear light membrane servo motor 66, OCA tears light membrane cylinder 68 and OCA and tears light membrane clamping jaw, OCA tears light membrane clamping jaw and OCA and tears light membrane cylinder 68 to be connected, servo motor orders OCA to tear light membrane cylinder 68 to control OCA to tear light membrane clamping jaw and presss from both sides and put, tear light membrane connecting piece and tear light membrane servo motor 66 to be connected, and with tear light membrane Y to module 67, tear light membrane Y to module 67 and tear light membrane Z to module 69 to be connected, tear light membrane Z to module 69 and OCA module mounting panel to be connected, OCA module mounting panel and tear light membrane X to module 70 to be connected, light membrane X to module 70, tear light membrane Y to module 67, tear light membrane Z to module 69, tear light membrane Z to module linkage control at OCA to tear light membrane clamping jaw at OCA, Y, Z in the direction of the moving object.

Through utilizing OCA to tear light membrane subassembly 24, OCA tears light membrane subassembly 24 including tearing light membrane X to module 70, tear light membrane Y to module 67, tear light membrane Z to module 69, tear light membrane connecting piece, OCA module mounting panel, tear light membrane servo motor 66, OCA tear light membrane cylinder 68 and OCA tear light membrane clamping jaw and tear the membrane to OCA, whole process ten minutes is high-efficient.

The OCA film tearing structure comprises a small ear feeding assembly 25, the small ear feeding assembly 25 comprises an easy-tearing-and-pasting feeding structure 16 and a waste material structure, and the easy-tearing-and-pasting feeding structure 16 is connected with the waste material structure; the easy-tear sticker feeding structure 16 comprises an easy-tear sticker mounting plate, and the waste material structure comprises a waste material box which is fixedly connected with the easy-tear sticker mounting plate.

The small ear feeding assembly 25 comprises at least two waste material boxes which are arranged in parallel, and the OCA tears the light film clamping jaw to throw the waste film on the OCA into the waste material boxes.

The waste material box upper end is equipped with the waste material box opening, and the waste material box is equipped with the waste material chamber, and waste material box opening intercommunication waste material chamber.

The OCA light film tearing clamping jaws and the OCA light film tearing air cylinders 68 are arranged on two sides of the light film tearing Y-direction module 67 in pairs; the light film tearing connecting piece comprises a light film tearing mounting rack, and an OCA light film tearing clamping jaw and an OCA light film tearing cylinder 68 are connected to two sides of the light film tearing mounting rack; the upper side part of the light film tearing mounting frame is fixedly connected with the light film tearing Y-direction module 67.

The light tearing film Y-direction module 67 comprises a light tearing film Y-direction extending frame and a light tearing film Y-direction servo motor arranged at the rear end of the light tearing film Y-direction extending frame, and the light tearing film Y-direction servo motor drives the light tearing film Y-direction extending frame to move back and forth in the Y-axis direction; be equipped with on the OCA module mounting panel and tear light membrane Z to the calandria, tear and be equipped with the well through-hole of intercommunication electric wire in the light membrane Z to the calandria.

The light tearing film X-direction module 70 is provided with a light tearing film X-direction calandria, and a middle through hole for communicating electric wires is arranged in the light tearing film X-direction calandria.

OLED and OCA laminated structure include CG laminating longmen arm subassembly 29, OCA box with a net subassembly 30 and OCA counterpoint subassembly 23, CG laminating longmen arm subassembly 29 is connected with OCA box with a net subassembly 30, OCA counterpoint subassembly 23 counterpoint OCA and OLED screen, CG laminating longmen arm subassembly 29 orders about OCA box with a net subassembly 30 laminating OCA and OLED screen.

Through utilizing CG laminating longmen arm subassembly 29, OCA box with a net subassembly 30 and OCA counterpoint subassembly 23, CG laminating longmen arm subassembly 29 is connected with OCA box with a net subassembly 30, and OCA counterpoint subassembly 23 counterpoint OCA and OLED screen, CG laminating longmen arm subassembly 29 orders about OCA box with a net subassembly 30 laminating OCA and OLED screen, and whole process is very high-efficient.

CG laminating longmen arm subassembly 29 includes attached subassembly 86 on OLED laminating portal frame and the OLED, and attached subassembly 86 swing joint on OLED laminating portal frame and the OLED is equipped with OLED laminating guide rail on the OLED laminating portal frame, attached subassembly 86 and OLED laminating guide rail sliding connection on the OLED.

CG laminating gantry arm assembly 29 includes OLED laminating X to the module, and OLED laminating X is to the module and is driven the attached subassembly 86 back-and-forth movement on OLED laminating guide rail on the OLED.

And an OLED attachment sensor is arranged on the OLED attachment guide rail and used for sensing the movement of the attachment assembly 86 on the OLED.

OCA box with a net subassembly 30 includes OCA laminating guide rail 58, OCA laminating box with a net cavity 56 and arrange OCA laminating gyro wheel 57 on cavity 56 under the OCA laminating box with a net of arranging in pairs, and OCA laminating gyro wheel 57 orders about OCA fixed arrangement under the OCA laminating box with a net on cavity 56, cavity 56 and the OCA laminating guide rail 58 sliding connection who arranges in pairs under the OCA laminating box with a net.

An OCA lower cavity for storing OCA is formed on the OCA attaching net cage lower cavity 56, and the OCA attaching rollers 57 are fixedly connected with the cavity wall of the OCA lower cavity.

Cavity 56 symmetry is formed with two OCA lower chamber under the OCA laminating box with a net.

OCA counterpoint subassembly 23 includes OCA counterpoint base, OCA counterpoint installing support, OCA camera mounting panel and counterpoint CCD subassembly, and the counterpoint CCD subassembly is connected with OCA camera mounting panel, and OCA camera mounting panel is counterpointed the installing support with OCA and is connected, and OCA counterpoint installing support is connected with OCA counterpoint base.

Counterpoint CCD subassembly and OCA camera mounting panel arrange in pairs in the both sides of OCA counterpoint installing support's axis.

The OCA is counterpointed still and is connected with OCA counterpoint ion fan on the installing support.

OLED and OCA tear film structure include that OLED moves a year platform 32, tear film arm 33 on the OLED, tear film arm 34 and OLED transfer platform 35 under the OLED, OLED moves a year platform 32 and shifts OLED screen and tear film arm 33 on OLED, tear the upper surface membrane back that removes the OLED screen, OLED moves a year platform 32 and removes OLED screen and tear film arm 34 and tear the membrane that removes OCA under OLED, OLED screen removes and transfers platform 35 in OLED to carry out the transfer.

Move the platform 32 through utilizing OLED to move, tear membrane arm 33 on the OLED, tear membrane arm 34 and OLED transfer platform 35 under OLED, OLED moves and moves platform 32 and shifts OLED screen and tear membrane arm 33 on OLED, tear the upper surface membrane back that removes the OLED screen, OLED moves platform 32 and removes OLED screen and tears membrane arm 34 and tear the membrane that removes OCA under OLED, OLED screen moves and transfers platform 35 to OLED and carry out the transfer, whole OLED and OCA tear membrane process very high-efficient.

The OLED transfer platform 32 comprises a transfer platform A and a transfer platform B, wherein the transfer platform A comprises a transfer sucker A, a transfer vacuum solenoid valve and an IO adapter plate, and the transfer platform B comprises a transfer placing plate, a transfer sucker B, a transfer positioning block, a transfer correcting block and a vacuum pressure regulating valve; the transfer vacuum solenoid valve drives the transfer sucker A to adsorb the OLED screen, the IO adapter plate is electrically connected with the transfer vacuum solenoid valve, and the transfer vacuum solenoid valve is pneumatically connected with the transfer sucker A; the transfer sucker B, the transfer positioning block and the transfer correction block are arranged on the transfer placing plate, the OLED screen is positioned on the transfer placing plate through the transfer positioning block and the transfer correction block, and the vacuum pressure regulating valve is electrically connected with the transfer sucker.

The OLED transfer platform 32 comprises an OLED transfer X-axis guide rail, and the transfer platform A and the transfer platform B are connected on the OLED transfer X-axis guide rail in a sliding mode.

The OLED upper film tearing arm 33 comprises an OLED upper film tearing portal frame, an OLED upper film tearing cylinder 98, an OLED upper film tearing top cylinder 9793, an OLED upper film tearing clamping jaw, an upper film tearing Y-axis module, an upper film tearing shifting Z-axis module 99 and an upper film tearing rotating Q-axis module 90, an OLED upper film tearing clamping jaw is fixedly connected with an OLED upper film tearing cylinder 98 and an OLED upper film tearing jacking cylinder 9793, an upper film tearing rotary Q-axis module 90 is movably connected with the OLED upper film tearing clamping jaw through an upper film tearing connecting piece, an upper film tearing shifting Z-axis module 99 is connected with the upper film tearing rotary Q-axis module 90 through an upper film tearing connecting frame, the upper film tearing shifting Z-axis module 99 is connected with an upper film tearing Y-axis module, the upper film tearing Y-axis module is connected with an OLED upper film tearing portal frame, and the upper film tearing Y-axis module and the upper film tearing Z-axis module 92 drive the OLED upper film tearing cylinder 98, the OLED upper film tearing jacking cylinder 9793 and the OLED upper film tearing clamping jaw to move in the Y-axis direction and the Z-axis direction respectively.

The OLED upper film tearing arm 33 comprises an upper film tearing detection optical fiber, and the upper film tearing detection optical fiber is connected with the OLED upper film tearing clamping jaw and is used for detection.

The OLED upper film tearing arm 33 comprises a sampling inspection assembly 100, a sampling inspection Y-axis module and a sampling inspection Z-axis module 101, wherein the sampling inspection assembly 100 is connected with the sampling inspection Z-axis module 101, the sampling inspection Z-axis module 101 is connected with the sampling inspection Y-axis module, and the sampling inspection Y-axis module is connected with an OLED upper film tearing portal frame; the selective examination subassembly 100 includes selective examination sucking disc and selective examination cylinder, and the selective examination cylinder passes through the selective examination mount to be connected with selective examination Z axle module 101, and the selective examination sucking disc is connected with the selective examination cylinder pneumatics, and selective examination Z axle module 101, selective examination Y axle module order about the selective examination sucking disc and remove in Y axle direction, Z axle direction.

And an upper film tearing drag chain calandria is arranged on the OLED film tearing portal frame and used for placing electric wires.

OLED transfer platform 35 includes OLED transfer sucking disc, OLED transfer correcting block and OLED transfer Y axle module, arranges OLED transfer sucking disc on the OLED transfer correcting block, and OLED transfer sucking disc and OLED vacuum valve pneumatic connection, OLED transfer correcting block and OLED transfer Y axle module fixed connection, OLED transfer Y axle module orders about OLED transfer sucking disc, OLED transfer correcting block removes on the Y axle direction.

OLED and OCA tear film structure still including being used for from OLED transfer platform 35 removing the OLED screen move carry the arm 36, OLED moves carry the arm 36 and includes OLED and moves a year X axle module, OLED lift Z axle module, OLED moves a portal frame and moves a year vacuum suction plate structure of moving that X axle module is connected with OLED, OLED lift Z axle module moves a year X axle module with OLED and is connected, OLED moves a year X axle module and moves a year portal frame with OLED and is connected, move and move a year vacuum suction plate structure and OLED lift Z axle module and be connected.

Move and carry vacuum suction plate structure including moving and carrying vacuum suction plate, move and carry vacuum solenoid valve and move and carry the IO keysets, move and carry vacuum suction plate and move and carry vacuum solenoid valve pneumatic connection, move and carry vacuum solenoid valve and move and carry IO keysets electric connection, move and carry IO keysets and be connected with OLED lift Z axle module, move and carry IO keysets and order about to move vacuum solenoid valve and bleed.

The IC chip feeding structure comprises an IC feeding arm 38, an IC overturning assembly 39 and an IC feeding bin 37, the IC feeding bin 37 carries an IC chip tray, the IC feeding arm 38 comprises an IC taking manipulator, the IC taking manipulator takes materials from the IC chip tray and moves to the IC overturning assembly 39, the IC overturning assembly 39 overturns the IC chip, and the IC feeding bin 37, the IC feeding arm 38 and the IC overturning assembly 39 are sequentially connected.

By utilizing the IC feeding arm 38, the IC overturning component 39 and the IC feeding bin 37, the IC feeding bin 37 carries an IC chip tray, the IC feeding arm 38 comprises an IC material taking manipulator, the IC material taking manipulator takes materials from the IC chip tray and moves to the IC overturning component 39, the IC overturning component 39 overturns the IC chip, and the whole IC feeding and overturning process is very efficient.

The IC feeding bin 37 includes an IC feeding frame, an IC tray bearing plate, and an IC feeding lifting module, the IC feeding lifting module is fixedly connected to the IC feeding frame, and the IC tray bearing plate is connected to the IC feeding lifting module and slidably connected to the IC feeding frame.

The IC feeding frame comprises a first feeding frame body, a second feeding frame body and a third feeding frame body, the first feeding frame body, the third feeding frame body and the second feeding frame body are fixedly connected and arranged, a moving area is enclosed among the first feeding frame body, the second feeding frame body and the third feeding frame body, and an IC tray bearing plate is arranged in the moving area.

The upper end of the second feeding frame body is provided with a feeding position detection piece, and the feeding position detection piece is used for detecting whether the movement of the IC material tray bearing plate is in place.

The IC feeding arm 38 comprises an IC feeding tray X-axis module 87, an IC feeding R-axis module 89, an IC feeding Z-axis module, an IC feeding Y-axis module, an IC feeding X-axis module 88 and an IC feeding mounting chassis; IC material loading tray X axle module 87, IC material loading X axle module 88 are connected with IC material loading installation chassis, and IC material loading Z axle module is connected with IC material loading X axle module 88, and IC material loading Y axle module is connected with IC material loading Z axle module, and IC material loading Y axle module is connected with IC material loading R axle module 89.

The IC feeding R shaft module 89 is connected with an IC feeding cylinder, and an IC feeding suction nozzle is pneumatically connected with the IC feeding cylinder.

IC material loading cylinder, IC material loading air cock, IC material loading R axle module 89 arrange in pairs in the both sides of IC material loading Y axle module.

The IC feeding tray X-axis module 87 is butted with the IC feeding tray bearing plate, and the IC feeding R-axis module 89 is higher than the IC feeding tray X-axis module 87 at the initial height.

The IC overturning assembly 39 comprises an IC overturning plate structure, an IC overturning lifting Z-axis module and an IC overturning and shifting Y-axis module, wherein the IC overturning lifting Z-axis module is connected with the IC overturning plate structure through an IC overturning connecting piece, and the IC overturning and shifting Y-axis module is connected with the IC overturning lifting Z-axis module.

The IC turns over the board structure and includes that IC upset adsorbs piece and IC upset counterpoint piece, and IC turns over the board counterpoint piece and counterpoints the IC chip, and IC upset adsorbs the IC chip.

The IC chip film tearing and transferring structure comprises an IC upper film tearing arm 40, an IC lower film tearing arm, an IC transfer platform 41, an IC transfer arm 42, a PLASMA cleaning mechanism 43 and an IC initial alignment mechanism 44, wherein the IC upper film tearing arm 40 and the IC lower film tearing arm tear films of IC chips, the IC transfer platform 41 stores IC chips after film tearing, the transfer arm moves the IC chips to the PLASMA cleaning mechanism 43 and the IC initial alignment mechanism 44, the PLASMA cleaning mechanism 43 cleans the IC chips, and the IC initial alignment mechanism 44 performs initial alignment on the IC chips.

IC chip tears membrane and shifts structure includes that IC goes up tear film arm 40, IC tears film arm down, IC transfer platform 41, IC shifts carries arm 42, the clean mechanism 43 of PLASMA and IC just counterpoint mechanism 44, tear film arm 40 and IC on the IC and tear film arm and tear the membrane to IC chip down, IC transfer platform 41 deposits the IC chip after tearing the membrane, it moves IC chip and removes IC chip to clean mechanism 43 of PLASMA and IC just counterpoint mechanism 44 to move the arm, whole IC chip removes, tear the membrane, clear process is very convenient high-efficient.

The IC film tearing arm 40 comprises an upper film tearing X-axis module, an upper film tearing Z-axis module 92, an upper film tearing guide rail, an upper film tearing rotary Q-axis module 90, an upper film tearing clamping jaw cylinder 91 and an upper film tearing jacking cylinder 93, the upper film tearing clamping jaw cylinder 91 and the upper film tearing jacking cylinder 93 drive an upper film tearing clamping jaw to clamp, the upper film tearing rotary Q-axis module 90 is connected with the upper film tearing clamping jaw cylinder 91, the upper film tearing rotary Q-axis module 90 is connected with the upper film tearing Z-axis module 92 through an upper film tearing connecting frame, the upper film tearing Z-axis module 92 is connected with the upper film tearing X-axis module, the upper film tearing X-axis module is connected with the upper film tearing guide rail, the upper film tearing X-axis module, the upper film tearing Z-axis module 92 drives the upper film tearing clamping jaw cylinder 91 and the upper film tearing jacking cylinder 93 to move in the X-axis direction and the Z-axis direction, and the upper film tearing rotary Q-axis module 90 drives the upper film tearing clamping jaw cylinder 91 to rotate.

The IC film tearing arm 40 comprises an upper film tearing portal frame, and an upper film tearing guide rail is connected with the upper film tearing portal frame.

Finished product material loading recovery structure, including empty TRAY unloading conveyer belt 21 of finished product, finished product reality TRAY material loading conveyer belt 13, NG throws material subassembly 51, finished product gets material subassembly 52 and finished product and moves a platform subassembly, empty TRAY unloading conveyer belt 21 of finished product, finished product reality TRAY material loading conveyer belt 13 and finished product get material subassembly 52 and connect gradually, finished product reality TRAY material loading conveyer belt 13 transports the TRAY dish that has the finished product, finished product gets material subassembly 52 and takes the finished product off the TRAY dish, unqualified getting material subassembly 52 in the finished product and getting the material subassembly to scan the back through NG and throw material subassembly 51, empty TRAY unloading conveyer belt 21 of finished product removes empty TRAY dish, finished product gets material subassembly 52 and removes the finished product to the finished product and moves a platform subassembly on, finished product moves a platform and shifts the finished product to the assembly line, carries.

The production line comprises a TRAY blanking conveyer belt 21, a finished product real TRAY feeding conveyer belt 13, an NG material throwing component 51, a finished product taking component 52 and a finished product transferring platform component, wherein the finished product real TRAY feeding conveyer belt 13 conveys a TRAY disc with finished products, the finished product taking component 52 takes off the finished products from the TRAY disc, the unqualified finished products are scanned by the finished product taking component 52 and then thrown off by the NG material throwing component 51, the empty TRAY disc is removed by the finished product empty TRAY blanking conveyer belt 21, the finished product taking component 52 moves the finished products to the finished product transferring platform component, the finished product transferring platform transfers the finished products to the production line for off-line production, and the whole finished product blanking process is very efficient.

The finished product real TRAY feeding conveyer belt 13 comprises a finished product conveyer, a finished product feeding guide rail, a finished product feeding belt in sliding connection with the finished product feeding guide rail, a finished product feeding support plate, a finished product feeding inductor and a finished product in-place inductor, wherein the finished product conveyer is connected with the finished product feeding guide rail to drive the finished product feeding belt to rotate and drive the finished product real TRAY disc to move; a finished product feeding sensor and a finished product in-place sensor are arranged on the finished product feeding guide rail, the finished product feeding sensor senses the feeding of a finished product real TRAY disc, and the finished product in-place sensor sends a signal when the finished product real TRAY disc passes through the finished product in-place sensor; the finished product feeding support plate supports the finished product feeding guide rail.

The NG material throwing assembly 51 comprises a finished product temporary storage platform 116, a finished product material throwing platform 115 and a finished product profile bracket, wherein the finished product temporary storage platform 116 is fixedly connected with the finished product profile bracket, and the finished product material throwing platform 115 is fixedly connected with the finished product profile bracket.

Finished product material loading recovery structure still includes direction welding jig 20, and direction welding jig 20 is including direction panel beating, section bar support and connecting plate, direction panel beating and section bar support and connecting plate fixed connection, and the transportation of the empty TRAY dish of finished product or the real TRAY dish of finished product is led to the direction panel beating.

Fingerprint identification laminating device removes arm 49 including the laminating unloading, the arm 46 is removed in the OLED material loading, vacuum cavity 50 on the OLED laminating, vacuum cavity 45 and OLED accept platform 47 under the OLED laminating, the OLED material loading is removed arm 46 and is removed the OLED screen to OLED and accept platform 47, OLED accepts platform 47 and is moved OLED screen immigration OLED vacuum cavity 50 on the OLED laminating, the laminating unloading is removed arm 49 and is removed IC chip 45 under the OLED laminating, OLED and IC counterpoint subassembly counterpoint IC chip and OLED screen respectively, vacuum cavity and OLED move the laminating position respectively under OLED on the OLED, vacuum cavity and OLED vacuum cavity laminating under OLED on the OLED, OLED and IC chip laminating form the finished product, go up vacuum cavity and remove arm 49 with the finished product to the unloading laminating, the arm 49 unloading finished product is removed in the unloading of laminating.

By utilizing the attaching material loading and unloading carrying arm 49, the OLED material loading carrying arm 46, the OLED attaching upper vacuum cavity 50, the OLED attaching lower vacuum cavity 45 and the OLED bearing platform 47, the attaching process of the whole OLED and the IC chip is very efficient.

OLED material loading is moved arm 46 and is included OLED laminating material loading Z axle module, OLED laminating material loading X axle module, OLED laminating material loading R axle module, OLED laminating material loading sucking disc, OLED laminating material loading portal frame, OLED laminating material loading X axle module is connected with OLED laminating material loading portal frame, OLED laminating material loading sucking disc and OLED laminating material loading R axle module attach, OLED laminating material loading R axle module and OLED laminating material loading Z axle module attach, OLED laminating material loading Z axle module, OLED laminating material loading X axle module orders about OLED laminating material loading sucking disc and removes in X axle direction and Z axle direction, OLED laminating material loading R axle module orders about OLED laminating material loading sucking disc rotatory.

The OLED and IC aligning component comprises an upper OLED aligning component, the OLED receiving platform 47 comprises an OLED receiving vacuum sucker 108, an OLED receiving photoelectric sensor 110, an OLED receiving bottom plate and an OLED receiving Y-axis module 109, the OLED receiving vacuum sucker 108 is connected with the OLED receiving bottom plate, the upper OLED aligning component is connected with the OLED receiving bottom plate, the OLED receiving photoelectric sensor 110 is connected with the OLED receiving bottom plate, the OLED receiving Y-axis module 109 controls the OLED receiving bottom plate to move back and forth in the Y-axis direction, the upper OLED receiving photoelectric sensor 110 and the upper OLED aligning component control the position of the OLED receiving bottom plate, and the OLED receiving vacuum sucker 108 absorbs the OLED screen.

Unloading is carried arm 49 and is included IC laminating material loading subassembly in the laminating, OLED and IC counterpoint subassembly include IC lower counterpoint subassembly 48, IC laminating material loading subassembly includes IC laminating lift cylinder, IC laminating revolving cylinder, IC laminating material loading suction nozzle 104 and IC laminating interval X axle module 102, IC laminating interval X axle module 102 is connected with IC laminating lift cylinder, IC laminating revolving cylinder and IC laminating lift cylinder, IC laminating material loading suction nozzle 104 and IC laminating revolving cylinder pneumatic connection, IC laminating lift cylinder orders about the rotation of IC chip or goes up and down with IC laminating revolving cylinder, IC laminating interval X axle module 102 orders about IC laminating lift cylinder and IC laminating revolving cylinder and removes on X axle laminating unloading support.

The laminating upper and lower material moving arm 49 comprises a finished product laminating blanking assembly, the finished product laminating blanking assembly comprises a finished product blanking support 105, a finished product laminating interval X-axis module 103 and a finished product blanking Z-axis module, the finished product blanking support 105 is connected with the finished product blanking Z-axis module, the finished product blanking Z-axis module is connected with the finished product laminating interval X-axis module 103, and the finished product laminating interval X-axis module 103 moves on the X-axis laminating blanking support.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. Easily tear and paste feed structure, its characterized in that, including easily tearing paste material loading subassembly, receipts waste film subassembly, direction subassembly and easily tearing paste cylinder assembly, easily tear and paste material loading subassembly material loading, process the direction subassembly, easily tear and paste cylinder assembly orders about easily tear the subsides flow direction receive waste film subassembly, just easily tear the subsides and accept easily tear and paste cylinder assembly orders about and provides OCA dyestripping structure and easily tear the subsides.

2. The easy-tear sticker feeding structure of claim 1, wherein the easy-tear sticker feeding structure comprises an easy-tear sticker mounting plate, the guide assembly comprises a plurality of easy-tear sticker fixing columns, the easy-tear sticker feeding assembly comprises an easy-tear sticker wheel, the easy-tear sticker wheel is rotatably connected with the easy-tear sticker mounting plate, and the easy-tear sticker fixing columns are fixedly connected with the easy-tear sticker mounting plate.

3. The easy-tear sticker supply structure of claim 2, wherein a plurality of the easy-tear sticker fixing posts are spaced apart from each other on the upper surface of the easy-tear sticker mounting plate.

4. The easy-to-tear sticker feeding structure of claim 3, wherein easy-to-tear sticker support columns are arranged on the lower surface of the easy-to-tear sticker mounting plate, and the easy-to-tear sticker support columns are arranged at four corners of the lower surface of the easy-to-tear sticker mounting plate.

5. The easy-tear sticker feeding structure of claim 1, wherein a tensioning assembly is provided on one side of the easy-tear sticker mounting plate, the tensioning assembly tensioning the easy-tear sticker.

6. The easy-tear sticker feeding structure of claim 5, wherein the waste film collecting assembly is arranged on the upper surface of the mounting plate, the waste film collecting assembly comprises a waste film wheel disc, and the easy-tear sticker is turned to the waste film wheel disc after being used.

7. The peel ply feed structure of claim 6 wherein the upper surface of the mounting plate is fixedly attached to the cylinder assembly.

8. The peel strip supply structure of claim 3 wherein two cylinder assemblies are spaced between a plurality of the peel strip securing posts.

9. The easy-tear sticker feeding structure of claim 6, wherein a magnetic powder controller is arranged on the lower surface of the mounting plate, and the magnetic powder controller controls the easy-tear sticker wheel disc to rotate.

10. The easy-tear sticker supply structure of claim 9, wherein the easy-tear sticker wheel is connected to the magnetic powder controller bar.

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