CN203427423U - Precise OCA full-lamination machine - Google Patents

Precise OCA full-lamination machine Download PDF

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Publication number
CN203427423U
CN203427423U CN201320259929.7U CN201320259929U CN203427423U CN 203427423 U CN203427423 U CN 203427423U CN 201320259929 U CN201320259929 U CN 201320259929U CN 203427423 U CN203427423 U CN 203427423U
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CN
China
Prior art keywords
suction disc
feeding mechanism
slide block
press box
vacuum
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CN201320259929.7U
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Chinese (zh)
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牛高堂
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SHENZHEN POWER DE AUTOMATION PRECISION EQUIPMENT CO Ltd
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SHENZHEN POWER DE AUTOMATION PRECISION EQUIPMENT CO Ltd
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Abstract

The utility model provides a precise OCA full-lamination machine which comprises a vacuum lamination component, wherein the vacuum lamination component mainly consists of an absorption plate mechanism and a vacuum lamination mechanism; the vacuum lamination mechanism comprises a bottom plate, and the bottom plate is connected with a pressure frame through a second elastic connecting piece; one side surface of the pressure frame sinks inward to form a sealing cavity, a material containing tank is arranged in the sealing cavity, and an absorption hole is formed in the material containing tank; a vacuumizing hole and an inflation hole are formed in the pressure frame respectively, and the vacuumizing hole, the inflation hole and the absorption hole are all communicated with the sealing cavity; the absorption plate mechanism comprises an absorption plate and a displacement device, the absorption plate is mounted on the displacement device, and an air exhaust tank is formed on the surface of one side of the absorption plate, which is opposite to the pressure frame. When in work, the precise OCA full-lamination machine is effective and reduces the requirement for the vacuum degree; due to the participation of light gas, an additional bubble removal step is not required, thereby saving energy and greatly improving the lamination yield of the product.

Description

The full make-up machine of accurate OCA
Technical field
The utility model relates to a kind of touch-screen production equipment, refers in particular to the full make-up machine of a kind of accurate OCA.
Background technology
Along with the development of touching technique and the further reduction of cost, touching technique and Display Technique further combined with, except the application of the tradition such as mobile phone, touch-control PC intelligent appliance will become the new power of touch-screen development; Along with the development of information technology, the facility that touch-screen brings to people, the release of middle large scale touch panel makes domestic many enterprises start touch screen technology to become interested.To all kinds of machines more and more towards the further reduction of cost, easy to operate, superior performance, can meet in the future development of the feature such as large scale touch panel production.The full make-up machine of High-precision O CA is no exception becomes the capacitive touch screen production technology back segment most important equipment of fitting.
Common make-up machine is to be fitted by roller type or pressure head type, no matter is roller type laminating or pressure head type laminating, and their common shortcomings need high vacuum environment while being to fit, if vacuum not can produce bubble, and the bubble producing is difficult for getting rid of.Moreover what existing make-up machine adopted when laminating is mechanical type locate mode, aligning accuracy is poor easily to be caused and fits unsuccessfully.
Utility model content
The purpose of this utility model is to have overcome above-mentioned defect, and the full make-up machine of a kind of accurate OCA is provided.
The purpose of this utility model is achieved in that the full make-up machine of a kind of accurate OCA, and it comprises that vacuum sticks assembly, and described vacuum sticks assembly and mainly suction disc mechanism and vacuum abutted mechanism, consists of; Described vacuum abutted mechanism comprises base plate, on base plate, by the second Flexible Connector, is connected with press box; Described press box one side surface indent is formed with annular seal space, is provided with material storage tank in annular seal space, in material storage tank, is provided with sucker; On press box, be respectively equipped with and vacuumize hole and air-filled pore, described in vacuumize hole, air-filled pore and sucker and be all connected with annular seal space; Described suction disc mechanism comprises suction disc and gearshift, and described suction disc is installed on gearshift, and relative press box one side surface of described suction disc is provided with the groove of bleeding;
During laminating, first product A to be fit is adsorbed on the suction disc of suction disc mechanism, product B to be fit is positioned over after the material storage tank of press box of vacuum abutted mechanism, the gearshift of suction disc mechanism drives suction disc to move on press box, then move both vertically and be pressed together on press box annular seal space one side surface is set, by vacuumizing hole to vacuumizing in annular seal space, then by air-filled pore, in annular seal space, be filled with light gas, further by gearshift, drive suction disc to press down laminating;
In said structure, it also comprises frame, is provided with the first feeding mechanism, feed mechanism, bottom image acquisition mechanism, the second feeding mechanism, suction disc mechanism, upper image collecting mechanism and indication mechanism in frame; Described the first feeding mechanism arranges with the second feeding mechanism interval and both feedstock directions parallel, and the first feeding mechanism drives described feed mechanism, and the second feeding mechanism drives described vacuum abutted mechanism; Described suction disc mechanism is arranged at one end of the first feeding mechanism and the second feeding mechanism; Described bottom image acquisition mechanism is arranged at the bottom of close suction disc mechanism one end between the first feeding mechanism and the second feeding mechanism; Described upper image collecting mechanism is arranged at the second feeding mechanism away from the top of suction disc mechanism one end; Bottom image acquisition mechanism is electrically connected to indication mechanism with upper image collecting mechanism;
In said structure, described the first feeding mechanism comprises the first guide rail and the first linear displacement device; Described feed mechanism comprises the first slide block, the first Flexible Connector, blowing plate and feed collet; Described the first slide block is slidably connected on the first guide rail and with the first linear displacement device and is connected, and on the first slide block, by the first Flexible Connector, is connected with blowing plate, on blowing plate, feed collet is set;
In said structure, described feed collet comprises a plurality of jacking blocks, and a plurality of jacking blocks form material folding district around arranging, and the inside edge of each jacking block is provided with Ka Tai; In blowing plate surface, be provided with from outside to inside screw, described jacking block is spirally connected by the screw of bolt and blowing plate;
In said structure, described the second feeding mechanism comprises the second guide rail, the second linear displacement device, the second slide unit, turntable and tumbler; Described the second slide unit is slidably connected on the second guide rail and with the second linear displacement device and is connected; Described turntable is articulated on the second slide unit, and turntable is connected with tumbler, and described vacuum abutted mechanism is set on turntable;
In said structure, described upper image collecting mechanism comprises two support guides that be arranged in parallel, in a support guide structure of an essay, be provided with movable stand, on movable stand, be fixed with adjusting screw, adjusting screw one end is provided with runner, in adjusting screw, be socketed with slide block, on slide block, be provided with camera and lighting device, the supporting focusing arrangement that drives camera that is provided with also on slide block;
Described bottom image acquisition mechanism comprises two support guides that be arranged in parallel, in a support guide structure of an essay, be provided with movable stand, on movable stand, be fixed with adjusting screw, adjusting screw one end is provided with runner, in adjusting screw, be socketed with slide block, on slide block, be provided with camera and lighting device, the supporting focusing arrangement that drives camera that is provided with also on slide block;
In said structure, the groove of bleeding on the suction disc surface of described suction disc mechanism comprises many, every the groove of bleeding end to end, many grooves sockets mutually from the inside to the outside of bleeding, are provided with gas channel in described suction disc, gas channel with described in the groove of bleeding by through hole, be connected.
The beneficial effects of the utility model are to provide to know clearly and can be respectively used to carry vacuum abutted mechanism and the suction disc mechanism of two products upon adsorption, vacuum abutted mechanism and suction disc mechanism can bonded to each otherly seal, and then it is front to first vacuumizing in pressing annular seal space to be supported in pressing, be filled with again light gas, this has not only reduced vacuum requirement, and owing to there being the participation of light gas, even if laminating process produces bubble, after after laminating, product is exposed in atmospheric environment, light gas meeting automatic-ascending and then bubble are eliminated, therefore adopt this kind of technique just without extra de-bubble step, can save the energy, can also greatly improve the laminating yields of product.In addition by increasing image sensing, identify, can make the aligning accuracy of laminating greatly improve, in reach ± 0.02mm.And the contraposition scope of application more extensively can realize a tractor serves several purposes, reached the object reducing costs.
Accompanying drawing explanation
Below in conjunction with accompanying drawing in detail concrete structure of the present utility model is described in detail
Fig. 1 is overall structure schematic perspective view of the present utility model;
Fig. 2 is vacuum abutted mechanism of the present utility model structural upright schematic diagram;
Fig. 3 is suction disc of the present utility model mechanism upward view;
Fig. 4 is feed mechanism structural upright schematic diagram of the present utility model;
Fig. 5 is feed mechanism structure side view of the present utility model;
Fig. 6 is the perspective view of upper image collecting mechanism of the present utility model.
10-frame; 20-the first feeding mechanism; 30-feed mechanism; 40-bottom image acquisition mechanism; 50-the second feeding mechanism; The vacuum abutted mechanism of 60-; 70-suction disc mechanism; 80-upper image collecting mechanism; 90-indication mechanism;
31-the first slide block; 32-optoelectronic switch; 33-blowing plate; 34-shadow shield; 35-feed collet; 36-Ka Tai; 37-the first Flexible Connector;
61-base plate; 62-the second Flexible Connector; 63-press box; 64-seal groove; 65-annular seal space; 66-material storage tank; 67-sucker; 68-vacuumizes hole; 69-air-filled pore;
71-suction disc; 72-gas channel; The 73-groove of bleeding; 74-through hole;
81-support guide; 82-movable stand; 83-adjusting screw; 84-slide block; 85-runner; 86-focusing arrangement; 87-lighting device.
The specific embodiment
By describing technology contents of the present utility model, structural feature in detail, being realized object and effect, below in conjunction with embodiment and coordinate accompanying drawing to be explained in detail.
Refer to Fig. 1, the utility model provides the full make-up machine of a kind of accurate OCA, and it comprises frame 10, the first feeding mechanism 20, feed mechanism 30, bottom image acquisition mechanism 40, the second feeding mechanism 50, the vacuum abutted 60, of mechanism suction disc mechanism 70, upper image collecting mechanism 80 and indication mechanism 90.
In above-mentioned, frame 10 is for the first above-mentioned feeding mechanism 20, feed mechanism 30, bottom image acquisition mechanism 40, the second feeding mechanism 50, suction disc mechanism 70, upper image collecting mechanism 80 and indication mechanism 90 are set, for whole equipment provides a support.
And the first feeding mechanism 20 is set in distance with the second feeding mechanism 50 and both feedstock directions parallel, the first feeding mechanism 20 is for driving feed mechanism 30 to move, and the second 50 of feeding mechanisms are for driving vacuum abutted mechanism 60 to move.70, suction disc mechanism is arranged at one end of the first feeding mechanism 20 and the second feeding mechanism 50.
Two products to be fit are positioned over respectively feed mechanism 30 and vacuum abutted mechanism 60 thus, by the first feeding mechanism 20, the second feeding mechanism 50 chargings, by suction disc mechanism 70, from the feed mechanism 30 of the first feeding mechanism 20, product A to be fit is carried to vacuum abutted mechanism 60 so that further laminating again.
In the utility model, most important part is that vacuum sticks assembly, mainly comprises the part of above-mentioned suction disc mechanism 70 and vacuum abutted mechanism 60.
Referring to Fig. 2, vacuum abutted mechanism 60 includes base plate 61, on base plate 61, by the second Flexible Connector 62, is connected with press box 63.Press box 63 1 side surface indents are formed with annular seal space 65, in annular seal space 65, be provided with material storage tank 66, in material storage tank 66, be provided with sucker 67, material to be fit can be positioned in material storage tank 66 thus, by sucker 67, further completes absorption in order to laminating, common, material storage tank 66 upper surfaces are lower than the upper surface of press box 63, thereby certain stroke is provided, to can first carry out and vacuumize and inflate in pressing process, then, in shape pressing, avoid the generation of bubble.On press box 63, be respectively equipped with and vacuumize hole 68 and air-filled pore 69.Above-mentioned hole 68, air-filled pore 69 and the sucker 67 of vacuumizing is all connected with annular seal space 65.The second Flexible Connector 62 is herein mainly that both can have certain surplus to move in the vertical direction in order to make press box 63 and base plate 61, so that the completing of bonding process.As an embodiment, the second Flexible Connector 62 can comprise guide pillar, back-moving spring and air bag skin, and wherein guide pillar one end is connected on base plate 61, other end socket press box 63, guide pillar arranges back-moving spring between press box 63 and base plate 61, and air bag skin is wrapped in press box 63 bottoms, guarantees sealing.
Above-mentioned suction disc mechanism 70 comprises suction disc 71 and gearshift, described suction disc 71 is installed on gearshift, thereby when needs pressing, the press box 63 that suction disc 71 moves to vacuum abutted mechanism 60 under gearshift drives arranges annular seal space 65 1 side surfaces, then press down, thereby the annular seal space 65 of sealed pressing frame 63, needs for follow-up laminating.Best, in order to ensure sealing effectiveness, at the upper surface of press box 63, be provided with a circle seal groove 64, the interior rubber ring that arranges of seal groove 64 can have individual flexibility to accept thus when suction disc 71 presses down, and guarantees better sealing effectiveness.And be provided with at relative press box 63 1 side surfaces of suction disc 71 groove 73 of bleeding, and by constantly bleeding of this groove 73 of bleeding, material to be fit can be adsorbed on to suction disc 71 surfaces, by suction disc 71, be transported to press box 63 stations and then pressing.Best, the structure of above-mentioned suction disc 71 is referring to Fig. 3, the groove 73 of bleeding on suction disc 71 surfaces comprises many, the end to end circle that is coiled into a sealing of every the groove 73 of bleeding, many groove 73 sockets mutually from the inside to the outside of bleeding, and in suction disc 71, be provided with gas channel 72, gas channel 72 with described in the groove 73 of bleeding by through hole 74, be connected.
Thus, when laminating, first by the groove 73 of bleeding to suction disc 71, bleed, and then product A to be fit is adsorbed on the suction disc 71 of suction disc mechanism, product B to be fit is placed in the material storage tank 66 of the press box 63 of vacuum abutted mechanism 60, the gearshift of suction disc mechanism 70 drives suction disc 71 to drive the product A of band laminating to move to press box 63 tops, then under driving, gearshift moves both vertically, make suction disc 71 be pressed together on press box 63 annular seal space 65 1 side surfaces are set, close encapsulation chamber 65, then by vacuumizing in the annular seal space 65 of 68 pairs, hole on press box 63, vacuumize, by air-filled pore 69, to being filled with light gas in annular seal space 65, (teach the gas that air is lighter again, the best is selected hydrogen, helium), after having inflated, can further by gearshift, drive suction disc 71 to press down, press box 63 moves down along the second Flexible Connector 62, maintenance of material storage tank 66, and then make product A to be fit, B is affixed, under pressure, can complete laminating.
Than the pure mode that vacuumizes pressing of tradition, the utility model is by being filled with light gas, one has reduced the vacuum (can teach original low vacuum-20KP left and right) vacuumizing, two is light gas due to what be filled with, can be in the bottom of annular seal space vacuum in laminating process, the environment of one deck light gas is formed at top, product is fitted in this environment, even if laminating process has produced bubble, because the gas in bubble is light gas, therefore after after laminating, product is exposed in atmospheric environment, light gas meeting automatic-ascending and then bubble are eliminated, therefore adopt this kind of equipment, technique is just without extra de-bubble step, can save the energy, can also greatly improve the laminating yields of product.
As an embodiment, above-mentioned the first feeding mechanism 20 comprises the first guide rail and the first linear displacement device, and feed mechanism 30 includes the first slide block 31, blowing plate 33, feed collet 35 and the first Flexible Connector 37 referring to Fig. 4,5.The first slide block 31 is slidably connected on the first guide rail and with the first linear displacement device and is connected, and the first linear displacement device can drive the first slide block 31 to seesaw along the first guide rail.On the first slide block 31, by the first Flexible Connector 37, be connected with blowing plate 33, feed collet 35 is set on blowing plate 33.The first Flexible Connector 37 effect is herein identical with the second Flexible Connector 62 of vacuum abutted mechanism 60, and in order to make blowing plate 33 and the first slide block 31, both can have certain surplus to move in the vertical direction, so that the completing of absorption process.As an embodiment, the first Flexible Connector 37 can comprise guide pillar and back-moving spring, and guide pillar one end is connected on the first slide block 31, other end socket blowing plate 33, and guide pillar arranges back-moving spring between the first slide block 31 and blowing plate 33.As required, can be further at the first slide block 31 and corresponding optoelectronic switch 32, shadow shield 34 on blowing plate 33, thus blowing plate 33 is reached capacity behind position when moving up and down, shadow shield 34 blocking optoelectronic switches 32, thus send limit signal.
As a kind of possibility, above-mentioned feed collet 35 comprises a plurality of jacking blocks, and a plurality of jacking blocks form material folding district around arranging, and the inside edge of each jacking block is provided with card platform 36; In blowing plate 33 surfaces, be provided with from outside to inside screw, described jacking block is spirally connected by the screw of bolt and blowing plate, can adjust as required the position that jacking block is spirally connected thus, thereby gets to the object of revising material folding district size.
Thus, the first feeding mechanism 20 coordinates the material loading task mainly finishing a product with feed mechanism 30, during its work, first the first linear displacement device of the first feeding mechanism 20 drives the first slide block along the first guide rail movement to outer end, a plurality of jacking blocks of feed collet 35 of blowing plate 33 that then the artificial product A by be fit is put into feed mechanism 30 are around the feed collet district forming, and then the first linear displacement device drives the first slide block along the first guide rail movement to the other end.Now the suction disc 71 of suction disc mechanism 70 runs to feed collet 35 tops under gearshift drives, then suction disc 71 is descending, the groove 73 of bleeding on suction disc 71 starts to bleed simultaneously, after suction disc 71 conforms to feed collet 35, suction disc 71 continues a descending distance, blowing plate 33 moves a certain distance to the first slide block 31 along the first Flexible Connector 37, and design is herein mainly the accurate absorption in order to ensure product A, can complete thus the automatic charging task of product A.
And for the automatic charging of another one product, by the second feeding mechanism 50, completed.As an embodiment, the second feeding mechanism 50 includes the second guide rail, the second linear displacement device, the second slide unit, turntable and tumbler.Wherein the second slide unit is slidably connected on the second guide rail and with the second linear displacement device and is connected, and the second linear displacement device can drive the second slide block to seesaw along the second guide rail.And turntable is to be articulated on the second slide unit, turntable is connected with tumbler, and described vacuum abutted mechanism is set on turntable.As an embodiment, tumbler also can be a kind of linear drive apparatus, its output with turn edge of table and be connected, extend to shorten and drive turntable to rotate along drive-connecting shaft, complete low-angle adjustment, being used in before laminating pre-contraposition, to adjust angle used.
During material loading, the second linear displacement device of same the second feeding mechanism 50 drives the second slide unit to move to outer end, then the artificial product B by be fit is put into the material storage tank 66 of the vacuum abutted mechanism 60 on the second slide unit, by the second linear displacement device, drive the second slide unit to move to the inner again, the suction disc 71 of suction disc mechanism 70 runs to material storage tank 66 tops under gearshift drives, and can carry out next step bonding process.For example, and the turntable of the second feeding mechanism 50 and tumbler can when being necessary, when finding that product A to be fit, B exist dip deviation, by driving tumbler drive turntable rotation and then revise this deviation, be guaranteed the precision of laminating.
The utility model is except above-mentioned automatic charging, laminating mechanism, in order to overcome the deficiency of machinery location in the past, further improve automation, reach the object of accurate laminating, in technical solutions of the utility model, be also provided with especially picture recognition module, picture recognition module is main comprises bottom image acquisition mechanism 40 and 80 liang of covers of upper image collecting mechanism.Wherein, bottom image acquisition mechanism 40 is arranged at the bottom of close suction disc mechanism 70 one end between the first feeding mechanism 20 and the second feeding mechanism 50, it is for after suction disc mechanism 70 is by feed mechanism 30 suctions on the first feeding mechanism 20, and image contraposition identification is carried out in the position of material now; Upper image collecting mechanism 80 is arranged at the second feeding mechanism 50 away from the top of suction disc mechanism 70 one end, and it carries out image contraposition identification after vacuum abutted mechanism 60 for putting at material.In order conveniently to check, bottom image acquisition mechanism 40 is electrically connected to indication mechanism 90 with upper image collecting mechanism 80.
Concrete, referring to Fig. 6, above-mentioned middle and upper part image acquisition mechanism comprises two support guides that be arranged in parallel 81, in support guide 81 structure of an essay, be provided with movable stand 82, on movable stand 82, be fixed with adjusting screw 83, adjusting screw 83 one end are provided with runner 85, are socketed with slide block 84 in adjusting screw 83, on slide block 84, be provided with camera and lighting device 87, the supporting focusing arrangement 86 that drives camera that is provided with also on slide block 84.Thus, the X-direction of the mobile capable of regulating shooting by movable stand 82, and drive adjusting screws 83 rotations by rotating wheel 85, and then catenating slider 84 can realize the adjustment of camera position Y-axis, focusing arrangement 86 further can be adjusted shooting focus.
And the structure of bottom image acquisition mechanism is identical with upper image collecting mechanism, to comprise two support guides that be arranged in parallel equally, in a support guide structure of an essay, be provided with movable stand, on movable stand, be fixed with adjusting screw, adjusting screw one end is provided with runner, in adjusting screw, be socketed with slide block, on slide block, be provided with camera and lighting device, the supporting focusing arrangement that drives camera that is provided with also on slide block.
Pass through picture recognition module, in suction disc mechanism, from feeding mechanism, adsorb product A to be fit respectively, and after product B to be fit is positioned in vacuum abutted mechanism 60, obtain the mark point of product A, B, then by driving the gearshift of suction disc mechanism, the second linear displacement device of the second feeding mechanism and tumbler drive respectively suction disc, the second slide unit and turntable to realize the level of product A, product B and the XY θ contraposition at angle of inclination, thereby guarantee the high-precision requirement of follow-up attaching process.
Contrast traditional mechanical aligning accuracy ± more than 0.1mm, the utility model adopts after image contraposition, in can reach ± 0.02mm of aligning accuracy.In addition, by imageing sensor automatic aligning, also can extensively be suitable for the laminating of various large, medium and small size products, thereby can realize a tractor serves several purposes, reach the object reducing costs.
The foregoing is only embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (7)

1. the full make-up machine of accurate OCA, is characterized in that: it comprises that vacuum sticks assembly, and described vacuum sticks assembly and mainly suction disc mechanism and vacuum abutted mechanism, consists of;
Described vacuum abutted mechanism comprises base plate, on base plate, by the second Flexible Connector, is connected with press box; Described press box one side surface indent is formed with annular seal space, is provided with material storage tank in annular seal space, in material storage tank, is provided with sucker; On press box, be respectively equipped with and vacuumize hole and air-filled pore, described in vacuumize hole, air-filled pore and sucker and be all connected with annular seal space;
Described suction disc mechanism comprises suction disc and gearshift, and described suction disc is installed on gearshift, and relative press box one side surface of described suction disc is provided with the groove of bleeding;
During laminating, first product A to be fit is adsorbed on the suction disc of suction disc mechanism, product B to be fit is positioned over after the material storage tank of press box of vacuum abutted mechanism, the gearshift of suction disc mechanism drives suction disc to move on press box, then move both vertically and be pressed together on press box annular seal space one side surface is set, by vacuumizing hole to vacuumizing in annular seal space, then by air-filled pore, in annular seal space, be filled with light gas, further by gearshift, drive suction disc to press down laminating.
2. the full make-up machine of accurate OCA as claimed in claim 1, it is characterized in that: it also comprises frame, in frame, be provided with the first feeding mechanism, feed mechanism, bottom image acquisition mechanism, the second feeding mechanism, suction disc mechanism, upper image collecting mechanism and indication mechanism; Described the first feeding mechanism arranges with the second feeding mechanism interval and both feedstock directions parallel, and the first feeding mechanism drives described feed mechanism, and the second feeding mechanism drives described vacuum abutted mechanism; Described suction disc mechanism is arranged at one end of the first feeding mechanism and the second feeding mechanism; Described bottom image acquisition mechanism is arranged at the bottom of close suction disc mechanism one end between the first feeding mechanism and the second feeding mechanism; Described upper image collecting mechanism is arranged at the second feeding mechanism away from the top of suction disc mechanism one end; Bottom image acquisition mechanism is electrically connected to indication mechanism with upper image collecting mechanism.
3. the full make-up machine of accurate OCA as claimed in claim 2, is characterized in that: described the first feeding mechanism comprises the first guide rail and the first linear displacement device; Described feed mechanism comprises the first slide block, the first Flexible Connector, blowing plate and feed collet; Described the first slide block is slidably connected on the first guide rail and with the first linear displacement device and is connected, and on the first slide block, by the first Flexible Connector, is connected with blowing plate, on blowing plate, feed collet is set.
4. the full make-up machine of accurate OCA as claimed in claim 3, is characterized in that: described feed collet comprises a plurality of jacking blocks, and a plurality of jacking blocks form material folding district around arranging, and the inside edge of each jacking block is provided with Ka Tai; In blowing plate surface, be provided with from outside to inside screw, described jacking block is spirally connected by the screw of bolt and blowing plate.
5. the full make-up machine of accurate OCA as claimed in claim 2, is characterized in that: described the second feeding mechanism comprises the second guide rail, the second linear displacement device, the second slide unit, turntable and tumbler; Described the second slide unit is slidably connected on the second guide rail and with the second linear displacement device and is connected; Described turntable is articulated on the second slide unit, and turntable is connected with tumbler, and described vacuum abutted mechanism is set on turntable.
6. the full make-up machine of accurate OCA as claimed in claim 2, it is characterized in that: described upper image collecting mechanism comprises two support guides that be arranged in parallel, in a support guide structure of an essay, be provided with movable stand, on movable stand, be fixed with adjusting screw, adjusting screw one end is provided with runner, in adjusting screw, be socketed with slide block, on slide block, be provided with camera and lighting device, the supporting focusing arrangement that drives camera that is provided with also on slide block;
Described bottom image acquisition mechanism comprises two support guides that be arranged in parallel, in a support guide structure of an essay, be provided with movable stand, on movable stand, be fixed with adjusting screw, adjusting screw one end is provided with runner, in adjusting screw, be socketed with slide block, on slide block, be provided with camera and lighting device, the supporting focusing arrangement that drives camera that is provided with also on slide block.
7. the full make-up machine of accurate OCA as described in claim 1-6 any one, it is characterized in that: the groove of bleeding on the suction disc surface of described suction disc mechanism comprises many, every the groove of bleeding end to end, many the groove sockets mutually from the inside to the outside of bleeding, in described suction disc, be provided with gas channel, gas channel with described in the groove of bleeding by through hole, be connected.
CN201320259929.7U 2013-05-14 2013-05-14 Precise OCA full-lamination machine Withdrawn - After Issue CN203427423U (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103273720A (en) * 2013-05-14 2013-09-04 深圳市宝德自动化精密设备有限公司 Precise OCA (optical clear adhesive) full-laminating machine and laminated production technology thereof
CN104003130A (en) * 2014-06-12 2014-08-27 苏州乔岳软件有限公司 Conveyer
CN107901562A (en) * 2017-11-10 2018-04-13 重庆灵江电子科技有限公司 Full-automatic multi-layer laminating apparatus
CN110524618A (en) * 2018-05-24 2019-12-03 光纤电脑科技股份有限公司 Full automatic punching machine and its punching operation method
CN111114085A (en) * 2018-10-31 2020-05-08 东泰高科装备科技有限公司 Laminating apparatus
CN112797061A (en) * 2020-12-30 2021-05-14 盐城创盈利科技有限公司 Full-lamination process for touch screen production
CN113022088A (en) * 2021-04-20 2021-06-25 湖北信永辉电子科技有限公司 Automatic laminating device of touch-sensitive screen

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103273720A (en) * 2013-05-14 2013-09-04 深圳市宝德自动化精密设备有限公司 Precise OCA (optical clear adhesive) full-laminating machine and laminated production technology thereof
CN104003130A (en) * 2014-06-12 2014-08-27 苏州乔岳软件有限公司 Conveyer
CN107901562A (en) * 2017-11-10 2018-04-13 重庆灵江电子科技有限公司 Full-automatic multi-layer laminating apparatus
CN110524618A (en) * 2018-05-24 2019-12-03 光纤电脑科技股份有限公司 Full automatic punching machine and its punching operation method
CN111114085A (en) * 2018-10-31 2020-05-08 东泰高科装备科技有限公司 Laminating apparatus
CN112797061A (en) * 2020-12-30 2021-05-14 盐城创盈利科技有限公司 Full-lamination process for touch screen production
CN113022088A (en) * 2021-04-20 2021-06-25 湖北信永辉电子科技有限公司 Automatic laminating device of touch-sensitive screen

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