CN106033134A - Polarization plate, screen module group and manufacturing method of the screen module group - Google Patents
Polarization plate, screen module group and manufacturing method of the screen module group Download PDFInfo
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- CN106033134A CN106033134A CN201510117475.3A CN201510117475A CN106033134A CN 106033134 A CN106033134 A CN 106033134A CN 201510117475 A CN201510117475 A CN 201510117475A CN 106033134 A CN106033134 A CN 106033134A
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Abstract
The invention provides a polarization plate, a screen module group and a manufacturing method of the screen module group and relates to the semiconductor device manufacturing field. Based on a traditional image screen module group structure, a glue layer is arranged between the polarization plate and a protection film so that the polarization plate is directly attached to a touch control panel. Pollution damages of a device structure during a manufacture procedure can be maximumly reduced and visual detection is convenient to be performed so that the polluted device structure can be timely discovered and subsequent heavy industry operation is continuously performed. Besides, during the heavy industry operation manufacturing procedure, generally, separating operation is performed on an optical glue layer with a thick thickness; during the separating operation process, the polarization plate is attached to the touch control panel so that a touch control sensor on the touch control panel can be effectively prevented from being damaged; heavy industry operation efficiency is effectively increased and production cost is greatly reduced.
Description
Technical field
The present invention relates to field of manufacturing semiconductor devices, particularly relate to a kind of Polarizer, screen mould
Group and the preparation method of this screen module.
Background technology
At present, in the preparation technology of display device (such as displayer part etc.),
It is usually and needs to attach polaroid on the cover-plate glass (Cover glass) of panel (Panel),
Screen module could be formed.
Fig. 1 is the structural representation of traditional screen module;As it is shown in figure 1, traditional display
Module generally comprises Polarizer 11, optical cement layer (Optically Clear Adhesive, letter
Claim OCA) 12 and the sandwiches knot that constitutes of touch screen (Touch Panel, be called for short TP) 13
Structure, and optical cement layer 12 is disposed between Polarizer 11 and touch screen 13, i.e. optical cement
Layer 12 is directly against on the surface being attached to touch screen 13.
But, owing to the thickness (about 0.12~0.15mm) of optical cement layer 12 is much larger than partially
The thickness (about 0.01~0.03mm) of tabula rasa 12 mesoglea;So, when needs are to screen mould
When group is done over again, will select to peel off at optical cement layer 12, and then easily to touching
The touch sensing (Touch Sensor) touched on screen 13 causes damage, results even in whole
Scrapping of touch screen 13.
It addition, the fraction defective of the current full coating technique of TP is the highest, i.e. carry out the product done over again
A lot, and due on OCA with TP touch sensing can directly contact, and then can be bad
Heavy industry causes touch sensing unprotect when separating, thus easily causes TP to scrap, and increases
Add the cost produced.
Summary of the invention
In view of above-mentioned technical problem, the present invention provides a kind of Polarizer, including:
Release layer;
Light polarizing film, is positioned on described release layer;
Glue-line, covers the upper surface of described light polarizing film;And
Protecting film, covers the upper surface of described glue-line.
As a preferred embodiment, above-mentioned Polarizer also includes:
Compensate film layer, cover the upper surface of described release layer;
Wherein, described light polarizing film covers the upper surface of described compensation film layer.
As a preferred embodiment, in above-mentioned Polarizer, described light polarizing film includes:
First protective layer;
Polarization matrix layer, covers the upper surface of described first protective layer;
Second protective layer, covers described polarization matrix layer upper surface;
Wherein, described glue-line covers the upper surface of described second protective layer.
The present invention also provides for a kind of screen module, including:
Panel, has the front of luminescence;
Optical cement layer, covers the surface of described panel front;
Polarizer, covers the upper surface of described optical cement layer;
Contact panel, covers the upper surface of described Polarizer.
As a preferred embodiment, in above-mentioned screen module, described Polarizer includes:
Release layer, covers the upper surface of described optical cement layer;
Light polarizing film, is positioned on described release layer;
Glue-line, covers the upper surface of described light polarizing film;And
Protecting film, covers the upper surface of described glue-line.
As a preferred embodiment, in above-mentioned screen module, described Polarizer also includes:
Compensate film layer, cover the upper surface of described release layer;
Wherein, described light polarizing film covers the upper surface of described compensation film layer.
As a preferred embodiment, in above-mentioned group of screens, described light polarizing film includes:
First protective layer;
Polarization matrix layer, covers the upper surface of described first protective layer;
Second protective layer, covers described polarization matrix layer upper surface;
Wherein, described glue-line covers the upper surface of described second protective layer.
Present invention also offers a kind of method preparing screen module, including:
Thering is provided a panel, this panel has the front of luminescence;
After assembling IC module and flexible circuit board in the front face surface of described panel, carry out mould
Group test;And
The contact panel that surface is pasted with Polarizer conforms to meet the institute of described module test
State on panel, to constitute described screen module.
As a preferred embodiment, the above-mentioned method preparing screen module, also include:
Thering is provided a contact panel, this contact panel has for the front of emergent light and this is being just relatively
The back side in face;
After attaching described Polarizer on the backside surface of described contact panel, continue to attach optics
Glue-line covers the lower surface of described Polarizer;
By on the surface of described panel attachment to described optical cement layer.
As a preferred embodiment, in the above-mentioned method preparing screen module, use with
Lower step prepares described Polarizer:
Thering is provided a light polarizing film, this light polarizing film has the front of emergent light and the back of the body in this front relatively
Face;
In the front face surface of described light polarizing film according to from bottom to up order be sequentially prepared glue-line and
Protecting film;
It is sequentially prepared compensation film according to order from top to bottom on the backside surface of described light polarizing film
Layer and release layer.
Technique scheme has the advantage that or beneficial effect:
Technical scheme in the present invention can based on tradition as screen modular structure on the basis of, pass through
Glue-line is arranged between Polarizer and protecting film, so that Polarizer is directly against being attached to touch surface
On plate, not only can at utmost reduce device architecture contamination damage in processing procedure, and go back
It is convenient for visual detection, and then the device architecture being contaminated can be found in time, after continuing
Continuous heavy industry operation;It addition, in carrying out above-mentioned heavy industry operation processing procedure, generally by right
The optical cement layer that thickness is thicker carries out lock out operation, and owing to, in this separation operation process, touching
Being pasted with Polarizer on control panel, its touch sensing being effectively protected on contact panel is exempted from
Damaged, and then the effective efficiency improving heavy industry operation, be substantially reduced production cost.
Accompanying drawing explanation
With reference to appended accompanying drawing, more fully to describe embodiments of the invention.But, appended
Accompanying drawing is merely to illustrate and illustrates, is not intended that limitation of the scope of the invention.
Fig. 1 is the structural representation of traditional screen module;
Fig. 2 is the structural representation of Polarizer in the embodiment of the present application;
Fig. 3 is the structural representation of screen module in the embodiment of the present invention;
Fig. 4 is the schematic flow sheet of the method preparing screen module in the embodiment of the present invention.
Detailed description of the invention
Polarizer, screen module and the preparation of this screen module provided in the embodiment of the present invention
Method, all can be based on traditional screen modular structure on the basis of, by glue-line is arranged on partially
Polarizer is formed between light film and protecting film, and by this Polarizer directly against being attached to contact panel
On, so that Polarizer is between optical cement layer and contact panel, and then Polarizer is existed
In the follow-up heavy industry operating process carried out, when optical cement layer is carried out lock out operation, Polarizer
Touch sensing in contact panel can be effectively protected do not sustain damage, and then effectively improve
The efficiency of heavy industry operation, is substantially reduced production cost;The device of preparation can also be effectively reduced simultaneously
The probability that part structure is contaminated in processing procedure, it is simple to device architecture is carried out the behaviour such as visual detection
Make.
To the pel array of the present invention and this pixel is included below in conjunction with the accompanying drawings with specific embodiment
The preparation method of the display device of array is described in detail.
Embodiment one
Fig. 2 is the structural representation of Polarizer in the embodiment of the present application;As in figure 2 it is shown, it is a kind of
Polarizer, including release layer 21, compensates film layer 22, light polarizing film 23, glue-line 24 and protection
Film 25;Above-mentioned light polarizing film 23 has the front (i.e. upper surface shown in Fig. 2) of light outgoing
And the back side (i.e. lower surface Fig. 2 shown in) incident for light relative to this front, above-mentioned
Compensate film layer 22 cover on the lower surface of light polarizing film, release layer 21 then covers as substrate
Cover at the lower surface compensating film layer 22;Meanwhile, above-mentioned glue-line 24 and protecting film 25 are then pressed
According to smooth upper surface (the most above-mentioned compensation film being stacked in light polarizing film 23 the most successively from bottom to up
Layer 22, light polarizing film 23, glue-line 24 and protecting film 25 are sequentially stacked according to order from bottom to up
On the upper surface of release layer 21).
Further, above-mentioned light polarizing film 23 includes the first protective layer 231, polarization matrix layer
232 and second protective layer 233, and the first above-mentioned protective layer 231 covers and compensating film layer 22
Upper surface, polarization matrix layer 232 covers the upper surface at the first protective layer 231, and second protects
Sheath 233 covers the upper surface at polarization matrix layer 232, and glue-line 24 covers in the second protection
The upper surface of layer 233.
Preferably, the material of above-mentioned release layer can be selected for the most poly-terephthaldehyde's diethylester
Materials such as (polyethylene terephthalate are called for short PET), to protect above-mentioned first
Protective layer;First protective layer 231 is identical with the material of the second protective layer 233, and all can be selected for
The materials such as Triafol T (Triacetyl Cellulose, be called for short TAC), for supporting and
Protection polarization matrix layer 232;This polarization matrix layer 232 can be then to select polyvinyl acetate
Polarisation mechanism body prepared by materials such as (polyvinyl acetate are called for short PVA);Glue-line 24
Material be chosen as PSA etc., so that protecting film 25 will be pasted in light polarizing film 23, and this protecting film
The material of 25 can be selected for the materials such as PE or PET, for protection light polarizing film 23.
Embodiment two
Fig. 3 is the structural representation of screen module in the embodiment of the present invention;As it is shown on figure 3, this
Application additionally provides a kind of screen module, including panel (panel) 31, optical cement layer (OCA)
32, Polarizer 33 and contact panel (TP) 34;Above-mentioned panel 31 just has light outgoing
Face, and optical cement layer 32 covers in the front face surface of panel 31, Polarizer 33 covers
The upper surface of optical cement layer 32, touch panel 34 is arranged on the upper surface of Polarizer 33.
Further, above-mentioned Polarizer 33 can be the Polarizer illustrated in above-described embodiment one
Structure shown in structure (i.e. Fig. 1) 2), i.e. this Polarizer 33 may also comprise such as Fig. 1
The knots such as shown release layer 21, compensation film layer 22, light polarizing film 23, glue-line 24 and protecting film 25
Structure, simple and clear in order to illustrate, the most structure and position, annexation etc. are not carried out tired stating at this,
I.e. illustrated in embodiment one and Fig. 2 structure and annexation thereof all can be applicable to this enforcement
In;Accordingly, those skilled in the art can be in conjunction with the embodiments one at the base not paying creative work
All technical schemes obtained on plinth are all in the range of the application protects.
Preferably, the thickness of above-mentioned optical cement layer 32 is more than Polarizer 33 mesoglea 24
Thickness, if the thickness of this optical cement layer 32 can be 0.12mm~0.15mm, the thickness of glue-line 24
Degree can be 0.01mm~0.03mm, the i.e. thickness of glue-line 24 thickness much smaller than optical cement layer 32
Degree, and then when screen module needs rework operation, can be right by separating optical cement layer 32
Screen module carries out heavy industry operation.
In the present embodiment, by by the PSA glue (i.e. glue-line 24) of polarizer (polarizer)
Move between protecting film (i.e. protecting film 25) and the light polarizing film 23 of Polarizer 33, Jin Erke
The Polarizer 33 prepared can be directly attached on the surface of contact panel 34, and (i.e. light enters
On the surface penetrated), and then can farthest reduce what screen module was subject in attaching processing procedure
Pollute, be also convenient for carrying out the visual detection of foreign body, to find the defect of product timely simultaneously;
And when screen module needs rework operation, owing to the thickness of optical cement layer 32 is relatively big, therefore can
This optical cement layer 32 is carried out lock out operation, and owing to, in carrying out separation operation process, touching
All the time it is pasted with Polarizer 33 on control panel 34, and then can ensure that the sense in contact panel 34
Answer device to exempt to sustain damage, and then be substantially reduced probability and the production cost of product rejection.
Embodiment three
Fig. 4 is the schematic flow sheet of the method preparing screen module in the embodiment of the present invention;Such as figure
Shown in 4, a kind of method preparing screen module, can be applicable to prepare institute in above-described embodiment two
The screen module (such as displayer part etc.) stated, as shown in figs. 2 to 4, the method
Including:
, it is provided that a panel 31, and this panel 31 has the front with light outgoing first.
Secondly, the front face surface of this panel 31 assembles IC module and flexible circuit board FPC
After (figure does not identifies), this panel 31 is carried out module test (Module).
Afterwards, the contact panel 34 being pasted with Polarizer 33 is fitted by optical cement layer 32
To completing above-mentioned module test and meeting on the panel 31 of technological requirement, novel to be formed
Screen module.
Further, can first pass through to provide and have for the front of emergent light and this front relatively
The contact panel 34 at the back side, and attach above-mentioned inclined on the backside surface of this contact panel 34
After tabula rasa 33, then optical cement layer 32 is fitted on Polarizer 33 and continues to paste with panel 31
Close.
Further, to the panel completing IC module and flexible circuit board (FPC) assembles
After 31 carry out module test, only complete module test and test result meets process requirements
Panel 31, just can carry out the step of follow-up sticking touch control panel 34.
Further, the above-mentioned surface at contact panel 34 directly attaches the step of Polarizer 33
Suddenly completed before carrying out follow-up attaching optical cement layer 32 step, and due to optical cement layer
32 material behaviors, preferable after module testing procedure completes, then at being pasted with polarisation
Attach optical cement layer 32 on the contact panel 34 of plate 33, and continue follow-up by contact panel
With the panel attachment completing module test.
Further, the preparation technology of above-mentioned Polarizer includes:
First, it is provided that a light polarizing film 23, this light polarizing film 23 has institute in embodiment one and Fig. 2
The structure illustrated, has i.e. been covered each by the second protection on the upper and lower surface of polarization matrix 232
Layer 233 and the first protective layer 231.
Secondly, it is used in the front face surface of emergent light according to the most suitable in this light polarizing film 23
Sequence attaches glue-line 24 and protecting film 25 successively, and at the back of the body of the light polarizing film 23 relative to front
Then attach successively according to order from top to bottom on surface, face and compensate film layer 22 and release layer 21.
Preferably, it is also possible to release layer 21 is substrate, at this release layer 21 for light outgoing
Attach successively according to order from bottom to up in front face surface and compensate film layer 22, light polarizing film 23, glue
Layer 24 and protecting film 25, and then form the multi-layer film structure being sequentially stacked.
The present embodiment prepares the method for membrane screen layer can form above-described embodiment one and/or embodiment
The related film Rotating fields illustrated in two;So, in above-described embodiment one and/or embodiment two
Middle illustrated corresponding technical characteristic may be applicable in the technical scheme of the present embodiment.
It should be noted that " upper surface " in the above embodiments is used equally to refer to light and goes out
The surface penetrated, " lower surface " is used equally to refer to the surface that light is incident, and same structure film layer
" upper surface " and " lower surface " be all oppositely arranged, i.e. light is by a film layer structure
After " lower surface " incidence, through this film layer structure, then penetrate from its " upper surface ".
In sum, in the above embodiment of the present invention, can be based on conventional screen modular structure
On the basis of, by glue-line is arranged between Polarizer and protecting film so that Polarizer directly against
It is attached on contact panel, not only can at utmost reduce device architecture contamination in processing procedure
Damage, and it is also convenient for carrying out visual detection, and then the device architecture being contaminated can be found in time,
To continue follow-up heavy industry operation;It addition, in carrying out above-mentioned heavy industry operation processing procedure, typically
It is to carry out lock out operation by the optical cement layer thicker to thickness, and due in this lock out operation mistake
Cheng Zhong, contact panel is pasted with Polarizer, and it can be effectively protected the touch-control on contact panel
Sensor is from damage, and then the effective efficiency improving heavy industry operation, is substantially reduced and produces into
This.
For a person skilled in the art, after reading described above, various changes and modifications
Will be apparent to undoubtedly.Therefore, appending claims should be regarded as and contains the true of the present invention
Sincere figure and whole variations and modifications of scope.In Claims scope any and all etc.
The scope of valency and content, be all considered as still belonging to the intent and scope of the invention.
Claims (10)
1. a Polarizer, it is characterised in that including:
Release layer;
Light polarizing film, is positioned on described release layer;
Glue-line, covers the upper surface of described light polarizing film;And
Protecting film, covers the upper surface of described glue-line.
2. Polarizer as claimed in claim 1, it is characterised in that also include:
Compensate film layer, cover the upper surface of described release layer;
Wherein, described light polarizing film covers the upper surface of described compensation film layer.
3. Polarizer as claimed in claim 1, it is characterised in that described light polarizing film includes:
First protective layer;
Polarization matrix layer, covers the upper surface of described first protective layer;
Second protective layer, covers described polarization matrix layer upper surface;
Wherein, described glue-line covers the upper surface of described second protective layer.
4. a screen module, it is characterised in that including:
Panel, has the front of luminescence;
Optical cement layer, covers the surface of described panel front;
Polarizer, covers the upper surface of described optical cement layer;And
Contact panel, covers the upper surface of described Polarizer.
5. screen module as claimed in claim 4, it is characterised in that described Polarizer bag
Include:
Release layer, covers the upper surface of described optical cement layer;
Light polarizing film, is positioned on described release layer;
Glue-line, covers the upper surface of described light polarizing film;
Protecting film, covers the upper surface of described glue-line.
6. screen module as claimed in claim 5, it is characterised in that described Polarizer is also
Including:
Compensate film layer, cover the upper surface of described release layer;
Wherein, described light polarizing film covers the upper surface of described compensation film layer.
7. screen module as claimed in claim 5, it is characterised in that described light polarizing film bag
Include:
First protective layer;
Polarization matrix layer, covers the upper surface of described first protective layer;
Second protective layer, covers described polarization matrix layer upper surface;
Wherein, described glue-line covers the upper surface of described second protective layer.
8. the method preparing screen module, it is characterised in that described method includes:
Thering is provided a panel, this panel has the front of luminescence;
After assembling IC module and flexible circuit board in the front face surface of described panel, carry out mould
Group test;And
The contact panel that surface is pasted with Polarizer conforms to meet the institute of described module test
State on panel, to constitute described screen module.
The method preparing screen module the most as claimed in claim 8, it is characterised in that institute
Method of stating also includes:
Thering is provided a contact panel, this contact panel has for the front of emergent light and this is being just relatively
The back side in face;
After attaching described Polarizer on the backside surface of described contact panel, continue to attach optics
Glue-line covers the lower surface of described Polarizer;
By on the surface of described panel attachment to described optical cement layer.
The method preparing screen module the most as claimed in claim 8, it is characterised in that adopt
Described Polarizer is prepared by following steps:
Thering is provided a light polarizing film, this light polarizing film has the front of emergent light and the back of the body in this front relatively
Face;
In the front face surface of described light polarizing film according to from bottom to up order be sequentially prepared glue-line and
Protecting film;
It is sequentially prepared compensation film according to order from top to bottom on the backside surface of described light polarizing film
Layer and release layer.
Priority Applications (1)
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CN201510117475.3A CN106033134A (en) | 2015-03-17 | 2015-03-17 | Polarization plate, screen module group and manufacturing method of the screen module group |
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CN201510117475.3A CN106033134A (en) | 2015-03-17 | 2015-03-17 | Polarization plate, screen module group and manufacturing method of the screen module group |
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Cited By (3)
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CN107980155A (en) * | 2016-11-28 | 2018-05-01 | 深圳市柔宇科技有限公司 | touch screen and flexible display |
CN108922402A (en) * | 2018-07-10 | 2018-11-30 | 武汉华星光电半导体显示技术有限公司 | The method for separating flexible circuit board and OLED display panel |
CN110764573A (en) * | 2019-09-18 | 2020-02-07 | 维沃移动通信有限公司 | Mobile terminal |
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CN102193680A (en) * | 2010-03-19 | 2011-09-21 | 索尼公司 | Touch panel and electro-optical apparatus with inputting function |
CN103267994A (en) * | 2013-05-22 | 2013-08-28 | 深圳市华星光电技术有限公司 | Polarizing component, liquid crystal display device and manufacturing method of polarizing component |
CN103294237A (en) * | 2012-03-01 | 2013-09-11 | 上海天马微电子有限公司 | Touch panel, touch liquid crystal display panel and forming method thereof |
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CN102193680A (en) * | 2010-03-19 | 2011-09-21 | 索尼公司 | Touch panel and electro-optical apparatus with inputting function |
CN102109629A (en) * | 2010-12-10 | 2011-06-29 | 友达光电股份有限公司 | Display structure, polarizing structure and method for pasting touch panel on liquid crystal panel |
CN103294237A (en) * | 2012-03-01 | 2013-09-11 | 上海天马微电子有限公司 | Touch panel, touch liquid crystal display panel and forming method thereof |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN107980155A (en) * | 2016-11-28 | 2018-05-01 | 深圳市柔宇科技有限公司 | touch screen and flexible display |
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CN108922402A (en) * | 2018-07-10 | 2018-11-30 | 武汉华星光电半导体显示技术有限公司 | The method for separating flexible circuit board and OLED display panel |
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Application publication date: 20161019 |