CN208596677U - Flexible display panels and flexible display apparatus - Google Patents
Flexible display panels and flexible display apparatus Download PDFInfo
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- CN208596677U CN208596677U CN201821252166.2U CN201821252166U CN208596677U CN 208596677 U CN208596677 U CN 208596677U CN 201821252166 U CN201821252166 U CN 201821252166U CN 208596677 U CN208596677 U CN 208596677U
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Abstract
The utility model discloses a kind of flexible display panels, including array substrate, color membrane substrates and antistatic layer, the array substrate is stacked with the color membrane substrates, the antistatic layer is located in the array substrate, or the antistatic layer is set to side of the array substrate far from the color membrane substrates, the antistatic layer includes multiple spaced lug bosses, forms gap between adjacent lug boss.Due to forming gap between adjacent lug boss, in flexible display panels bending, antistatic layer can be released effectively stress, be conducive to protect each function laminated construction of flexible display panels not to be damaged.The utility model also provides a kind of flexible display apparatus.
Description
Technical field
The utility model relates to display technology, in particular to a kind of flexible display panels and flexible display apparatus.
Background technique
With the continuous development of display technology, Flexible Displays (Flexible display) technology, which has become, important becomes
One of gesture, can satisfy user to display device in lightweight, easy to carry, low energy consumption, image quality is brilliant and the side such as bent
A variety of requirements in face.Antistatic layer usually can be set in the outside of flexible display panels, to prevent electrostatic interference, influenced flexible aobvious
The performance of display screen.Antistatic layer is generally metallic film (such as copper sheet).In the process of bending, antistatic layer can be to Flexible Displays
Flexible display panels in device and the functional film layer in flexible display panels are generated compared with noticeable effort or reaction
Power, conversely, flexible display panels also can generate biggish reaction force or active force to antistatic layer.In this way, antistatic layer
It itself is easy that phenomenon of rupture is occurring after repeatedly bending.In addition, the functional film layer of flexible display panels after multiple bending because
The active force of antistatic layer is damaged, and influences the normal work of flexible display apparatus.
Utility model content
In order to solve foregoing problems, the utility model provides a kind of flexible display panels and flexible display apparatus.
A kind of flexible display panels, including array substrate, color membrane substrates and antistatic layer, the array substrate and the coloured silk
Ilm substrate is stacked, and the antistatic layer is located in the array substrate or the antistatic layer is set to the array base
Side of the plate far from the color membrane substrates, the antistatic layer include multiple spaced lug bosses, adjacent lug boss it
Between form gap.
Further, pierced pattern is arranged in the antistatic layer, and the pierced pattern constitutes the gap.
Further, the array substrate includes substrate and the tft layer on the substrate, the film
Transistor layer is adjacent with the color membrane substrates and is stacked, and the antistatic layer is set to the substrate.
Further, the array substrate further includes the airbond being stacked between the substrate and the tft layer
Layer, the substrate includes the first surface and second surface being oppositely arranged, and the first surface is disposed adjacent with the airbond layer,
The lug boss is set on the first surface, and the airbond layer is set on the lug boss and fills the gap.
Further, the substrate includes first base material layer and the second substrate layer, and the lug boss is set to first base
On material layer, second substrate layer is set on the lug boss and fills the gap, second substrate layer and the film
Transistor layer is adjacent and is stacked.
Further, the flexible display panels further include functional layer, and it is remote that the functional layer is attached at the array substrate
Side from the color membrane substrates, the lug boss are set to the functional layer.
Further, the functional layer includes the first functional layer and the second functional layer, second functional layer and the battle array
Column substrate is adjacent and is stacked, and the lug boss is set in first functional layer, and second functional layer is set to described convex
In the portion of rising and fill the gap.
Further, first functional layer is identical as the first functional layer material.
Further, the flexible display panels include bent region and non-bent region, the antistatic layer point
It is distributed in the bent region.
A kind of flexible display apparatus, including flexible display panels as described above.
Flexible display panels provided by the utility model and flexible display apparatus, between being formed between adjacent lug boss
Gap, in flexible display panels bending, antistatic layer can be released effectively stress, to reduce antistatic layer and display surface
External force suffered by other function laminated construction functional layer in plate is conducive to each function laminated construction for protecting flexible display panels
It is not damaged, the problems such as layering, fracture occur between antistatic layer and other structures is avoided, to improve Flexible Displays face
The reliability of plate and flexible display apparatus.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only
It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor
Under, it is also possible to obtain other drawings based on these drawings.
Fig. 1 is the schematic diagram for the flexible display panels that the utility model first embodiment provides.
Fig. 2 is the schematic diagram for making array substrate on the glass substrate.
Fig. 3 is the schematic diagram that color membrane substrates are formed in array substrate.
Fig. 4 is the schematic diagram for removing glass substrate from array substrate.
Fig. 5 is the schematic diagram for the flexible display panels that the utility model second embodiment provides.
Fig. 6 is the schematic diagram for making first base material layer on the glass substrate.
Fig. 7 is the schematic diagram that patterned electrostatic layer is made on first base material layer.
Fig. 8 is that the second substrate layer is formed on electrostatic layer.
Fig. 9 is that the airbond layer of stacking and the schematic diagram of tft layer are formed on the second substrate layer.
Figure 10 is the schematic diagram for the flexible display panels that the utility model third embodiment provides.
Figure 11 is the schematic diagram for making substrate on the glass substrate.
Figure 12 is the schematic diagram that patterned antistatic layer is formed on the first surface of substrate.
Figure 13 is the top view of flexible display apparatus provided by the utility model.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts
Every other embodiment obtained, fall within the protection scope of the utility model.
A kind of flexible display panels, including array substrate, color membrane substrates and antistatic layer, the array substrate and the coloured silk
Ilm substrate is stacked, and the antistatic layer is located in the array substrate or the antistatic layer is set to the array base
Side of the plate far from the color membrane substrates, the antistatic layer include multiple spaced lug bosses, adjacent lug boss it
Between form gap.
Referring to Fig. 1, the utility model first embodiment provides a kind of flexible display panels 10.Flexible display panels 10
Including array substrate 11, color membrane substrates 13, antistatic layer 15 and functional layer 17.Array substrate 11 is stacked at color membrane substrates 13 and function
Between ergosphere 17.Antistatic layer 15 is located at functional layer 17, for shielding electrostatic, prevents electrostatic interference, avoids influencing Flexible Displays
The performance of panel 10.
Antistatic layer 15 includes multiple spaced lug bosses 151, forms gap 153 between adjacent lug boss 151.
In present embodiment, antistatic layer 15 further includes pierced pattern, and the pierced pattern constitutes gap 153.Due to adjacent protrusion
Gap 153 is formed between portion 151, when flexible display panels 10 are bent, antistatic layer 15 can be released effectively stress, to subtract
External force suffered by the other structures of small antistatic layer 15 and functional layer 17 and/or flexible display panels 10, is conducive to avoid
Antistatic layer 15, functional layer 17 are damaged, and avoid occurring to divide between antistatic layer 15, functional layer 17 and other structures
The problems such as layer, fracture, to improve the reliability of flexible display panels 10.
In present embodiment, antistatic layer 15 is made of metal, for example, copper (Cu), molybdenum (Mo), titanium (Ti), silver (Ag), aluminium
(Al), at least one of indium oxide ITO is made.Antistatic layer 15 can also be made up of application type conductive material, such as 3,
The polymer of 4- ethene dioxythiophene monomer (3,4-ethylenedioxythiophene), abbreviation PEDOT, or be polyphenyl second
Alkene sodium sulfonate ((C8H7NaO3S) x), Poly (sodium-p-styrenesulfonate), PSS).It is appreciated that antistatic layer
15 can be simple metals or metal and nonmetallic stacked structure.
Further, flexible display panels 10 further include bent 101 (shown area between two dotted lines as shown in figure 1 of region
Domain) and the non-bending region 103 that is connect with bent region 101.Antistatic layer 15 is distributed in bent region 101 and non-bending
Region 103.In other embodiments, lug boss 151 is distributed in bent region 101, is distributed in the anti-of non-bending region 103
Electrostatic layer 15 may not include lug boss 151.
Specifically, array substrate 11 includes substrate 111, airbond layer 113 and the tft layer being cascading
115, tft layer 115 is adjacent with color membrane substrates 13 and is stacked.Wherein, airbond layer 113 is used to prevent external gas
Body, moisture content etc. enter array substrate 11, avoid the performance for influencing tft layer 115.
Functional layer 17 includes the first functional layer 171 and the second functional layer 173 being stacked.Second functional layer 173 and battle array
The substrate 111 of column substrate 11 is adjacent and is stacked.Lug boss 151 is set in the first functional layer 171, and the second functional layer 173 is set
In on lug boss 151 and filling gap 153.In present embodiment, the material phase of the first functional layer 171 and the second functional layer 173
Together, the first functional layer 171 and the second functional layer 173 are support film layer.Due to the first functional layer 171 and the second functional layer 173
Material it is identical, the adhesion property between the first functional layer 171 and the second functional layer 173 is good, realize antistatic layer 15 and first
Functional layer 171, the adhesion between antistatic layer 15 and the second functional layer 173 reach unanimously, effectively avoid the first functional layer
171, lamination occurs for antistatic layer 15 and the second functional layer 173.
In other embodiments, functional layer 17 may include multiple functional layers, and in the multiple functional layer wherein at least
The material/or structure of one functional layer be not identical as remaining functional layer, so that the multiple functional layer has different function,
For example, functional layer 17 includes heat dissipating layer, supporting layer, adhesive layer etc..
Referring to Fig. 2, when production flexible display panels 10, prior to making array substrate 11 on glass substrate 101.It please refers to
Fig. 3 forms color membrane substrates 13 in array substrate 11.Referring to Fig. 4, on side of the color membrane substrates 13 far from array substrate 11
Form plastic packaging film 19.Plastic packaging film 19 avoids flexible display panels 10 in transportational process, storage for protecting flexible display panels 10
When be damaged.Glass substrate 101 is removed into (Debonding) far from the side of color membrane substrates 13 from array substrate 11
It removes.It is formed on antistatic layer 15 referring to Fig. 1 in forming patterned antistatic layer 15 in the first functional layer 171
Second functional layer 173, the second functional layer 173 fill gap 153.Side by the second functional layer 173 far from the first functional layer 171
It is connected together with array substrate 11.
In other embodiments, the second functional layer first can be formed on side of the substrate 111 far from color membrane substrates 13
173, patterned antistatic layer 15 is formed on the second side of the functional layer 173 far from array substrate 11, by the first function
Layer 171 is formed on antistatic layer 15, and the first functional layer 171 fills gap 153.
Referring to Fig. 5, the utility model second embodiment provides a kind of flexible display panels 30.Flexible display panels 30
Roughly the same with 10 structure of flexible display panels that first embodiment provides, flexible display panels 30 include the battle array being stacked
Column substrate 31 and color membrane substrates 33, array substrate 31 include substrate 311, airbond layer 313 and the film crystal being cascading
Tube layer 315, difference is, antistatic layer 35 is located in the substrate 311 of array substrate 31.
Specifically, substrate 311 includes first base material layer 3113 and the second substrate layer 3115, lug boss 351 is set to the first base
On material layer 3113, the second substrate layer 3115 is set on antistatic layer 35 and fills gap 353, the second substrate layer 3115 and airbond layer
313 is adjacent and be stacked.Since antistatic layer 35 is integrated in array substrate 31, the knot of flexible display panels 30 is simplified
Structure improves the integrated level of flexible display panels 30, facilitates the preparation and assembling of flexible display panels 30.
Referring to Fig. 6, first making first base material layer 3113 on glass substrate 301 when production flexible display panels 30.Please
Refering to Fig. 7, patterned electrostatic layer 35 is made on first base material layer 3113.Referring to Fig. 8, forming second on electrostatic layer 35
Substrate layer 3115.Referring to Fig. 9, in the airbond layer 313 and tft layer that sequentially form stacking on the second substrate layer 3115
315.Glass substrate 301 is removed after forming color membrane substrates 33 above tft layer 315.
Referring to Fig. 10, the utility model third embodiment provides a kind of flexible display panels 50.Flexible display panels
50 is roughly the same with 30 structure of flexible display panels that second embodiment provides, and flexible display panels 50 include being stacked
Array substrate 51 and color membrane substrates 53, array substrate 51 include substrate 511, airbond layer 513 and the film crystalline substance being cascading
Body tube layer 515, difference is, antistatic layer 55 is located on the substrate 511 of array substrate 51, and airbond layer 513 is set to antistatic layer
On 55 and fill the gap 553 of antistatic layer 55.
Specifically, substrate 511 includes the first surface 5111 and second surface 5113 that are oppositely arranged, first surface 5111 with
Airbond layer 513 is disposed adjacent, and lug boss 551 is set on first surface 5111, and airbond layer 513 is set on lug boss 551 and fills
Gap 553.
In conclusion the antistatic layer can be set in the array substrate or the antistatic layer be set to institute
State side of the array substrate far from the color membrane substrates.
Figure 11 is please referred to, when making flexible display panels 50, substrate 511 is first made on glass substrate 501.Please refer to figure
12, patterned antistatic layer 55 is formed on first surface 5111 of the substrate 511 far from glass substrate 501.Again antistatic
The airbond layer 513 and tft layer 515 of stacking are formed on layer 55.Color membrane substrates are formed above tft layer 515
Glass substrate 501 is removed after 53.
Figure 13 is please referred to, the utility model also provides a kind of flexible display apparatus 100, and the flexible display apparatus 100 wraps
Include flexible display panels 30 provided by flexible display panels 10, second embodiment as provided by first embodiment and
Any one in flexible display panels 50 provided by three embodiments.
Flexible display panels provided by the utility model and flexible display apparatus, between being formed between adjacent lug boss
Gap, in flexible display panels bending, antistatic layer can be released effectively stress, to reduce antistatic layer and display surface
External force suffered by other function laminated construction functional layer in plate is conducive to each function laminated construction for protecting flexible display panels
It is not damaged, the problems such as layering, fracture occur between antistatic layer and other structures is avoided, to improve Flexible Displays face
The reliability of plate and flexible display apparatus.In addition, the antistatic layer can be integrated in the array substrate, to simplify soft
The structure and assembling of property display panel.
Above disclosures are merely preferred embodiments of the utility model, the utility model cannot be limited with this certainly
Interest field, therefore equivalent variations made according to the claim of the utility model still fall within the scope of the utility model.
Claims (10)
1. a kind of flexible display panels, which is characterized in that the flexible display panels include array substrate, color membrane substrates and resist quiet
Electric layer, the array substrate are stacked with the color membrane substrates, and the antistatic layer is located in the array substrate, Huo Zhesuo
Antistatic layer is stated set on side of the array substrate far from the color membrane substrates, the antistatic layer includes multiple interval settings
Lug boss, form gap between adjacent lug boss.
2. flexible display panels as described in claim 1, which is characterized in that pierced pattern is arranged in the antistatic layer, described
Pierced pattern constitutes the gap.
3. flexible display panels as described in claim 1, which is characterized in that the array substrate includes substrate and is set to described
Tft layer on substrate, the tft layer is adjacent with the color membrane substrates and is stacked, described antistatic
Layer is set to the substrate.
4. flexible display panels as claimed in claim 3, which is characterized in that the array substrate further includes being stacked at the lining
Airbond layer between bottom and the tft layer, the substrate include the first surface and second surface being oppositely arranged, institute
It states first surface to be disposed adjacent with the airbond layer, the lug boss is set on the first surface, and the airbond layer is set to institute
It states on lug boss and fills the gap.
5. flexible display panels as claimed in claim 3, which is characterized in that the substrate includes first base material layer and the second base
Material layer, the lug boss are set on the first base material layer, and second substrate layer is set on the lug boss and described in filling
Gap, second substrate layer is adjacent with the tft layer and is stacked.
6. flexible display panels as described in claim 1, which is characterized in that the flexible display panels further include functional layer,
The functional layer is attached at side of the array substrate far from the color membrane substrates, and the lug boss is set to the functional layer.
7. flexible display panels as claimed in claim 6, which is characterized in that the functional layer includes the first functional layer and second
Functional layer, second functional layer is adjacent with the array substrate and is stacked, and the lug boss is set to first function
On layer, second functional layer is set on the lug boss and fills the gap.
8. flexible display panels as claimed in claim 6, which is characterized in that the functional layer includes the first functional layer and second
Functional layer, second functional layer is adjacent with the array substrate and is stacked, and the lug boss is set to second function
On layer, first functional layer is set on the lug boss and fills the gap.
9. flexible display panels as described in claim 1, which is characterized in that the flexible display panels further include bendable folding area
Domain and non-bent region, the antistatic layer are distributed in the bent region.
10. a kind of flexible display apparatus, which is characterized in that the flexible display apparatus includes as claim 1-9 any one
Flexible display panels described in.
Priority Applications (1)
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CN201821252166.2U CN208596677U (en) | 2018-08-02 | 2018-08-02 | Flexible display panels and flexible display apparatus |
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CN201821252166.2U CN208596677U (en) | 2018-08-02 | 2018-08-02 | Flexible display panels and flexible display apparatus |
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Address after: 518172 43 Universiade Software Town, 8288 Longgang Avenue, Henggang Street, Longgang District, Shenzhen City, Guangdong Province Patentee after: Shenzhen Ruoyu Technology Co.,Ltd. Address before: 518172 43 Universiade Software Town, 8288 Longgang Avenue, Henggang Street, Longgang District, Shenzhen City, Guangdong Province Patentee before: SHENZHEN ROYOLE TECHNOLOGIES Co.,Ltd. |