CN203580300U - Panel adhering structure - Google Patents

Abstract

The utility model provides a panel adhering structure which comprises a display panel, a contract control panel and a first adhering layer, wherein the display panel comprises a first adhering surface; the first adhering surface comprises a display area and a non-display area; the non-display area surrounds the display area; a first inclined angle is formed between two adjacent edges of the first adhering surface; the touch control panel comprises a second adhering surface; the second adhering surface faces to the first adhering surface of the display panel; the adhering layer is arranged between the first adhering surface and the second adhering surface and is used for adhering the touch control panel and the display panel; the display area is completely covered by the adhering layer; a yield area is formed on the edge of the adhering layer; the yield area is exposed on the first adhering surface; the yield area corresponds to the first included angle and is positioned on the non-display area. Therefore, the phenomenon that the stress is not uniform after the touch control panel is adhered to the display panel is effectively reduced.

Description

Panel bonding structure

Technical field

The utility model is the bonding structure about a kind of electronic installation, refers to especially a kind of panel bonding structure.

Background technology

Along with making rapid progress of science and technology, the display device with touch controllable function has become very powerful and exceedingly arrogant now electronic product, and the display device of collocation touch panel becomes one of key part and component of various electronic product gradually.Collocation has the display screen of contact panel, can allow user directly with finger or operating pen, click, press screen-picture and operate, and the operator scheme of more convenient and hommization is provided by this.

It is worth mentioning that, when contact panel and display floater fit, along with processing procedure flaw miscellaneous, easily make to exist between contact panel and display floater the phenomenon of unbalanced stress, and then causing the image generation that panel module provides to have light-source brightness inhomogeneous, the image that panel module provided for example has the situations such as generation color lump (mura) or water ripples (ripple).Above-mentioned unbalanced stress, even can make touch-control sensing layer and display floater peel off.

Summary of the invention

The utility model embodiment is to provide a kind of panel bonding structure, and it sees through the district that dodges that edge of adhesion layer forms, to reduce the unbalanced stress phenomenon after contact panel and display floater are fitted.

The utility model embodiment provides a kind of panel bonding structure, and described panel bonding structure comprises a display floater, a contact panel and an adhesion layer.Display floater has one first binding face, and described the first binding face comprises a viewing area and a non-display area, and described non-display area, around described viewing area, has one first angle between two neighboring edges of wherein said the first binding face.Contact panel has one second binding face, and the second binding face is described the first binding face in the face of described display floater.Adhesion layer is arranged between described the first binding face and described the second binding face, and sticks together described contact panel and described display floater.Described adhesion layer covers described viewing area completely, and the edge of described adhesion layer can form one and dodges district.The described district that dodges exposes described the first binding face, and described in dodge district and be positioned at described non-display area corresponding to described the first angle.

The panel bonding structure that the utility model embodiment is provided can see through the district that dodges that the edge of adhesion layer form, carry out dispersive stress, after fitting with minimizing display floater and contact panel, the stress that the angle place, edge of the first binding face produces is concentrated, and then prevents the generation of the brightness irregularities phenomenons such as color lump (mura) or water ripples (ripple).

Technology, method and the effect in order further to understand the utility model, by reaching set object, taked, refer to the following detailed description about the utility model, graphic, believe object, feature and the feature of the utility model, when being goed deep into thus and concrete understanding, but appended graphic and annex only provide with reference to and explanation use, be not used for the utility model to be limited.

Accompanying drawing explanation

Figure 1A to Fig. 1 C is the manufacture process schematic diagram of the panel bonding structure of the utility model one embodiment.

Fig. 1 D is that the panel bonding structure of Fig. 1 C is along the generalized section of AA line.

Fig. 2 is that the panel bonding structure of another embodiment of the utility model removes the schematic diagram after contact panel.

Fig. 3 is that the panel bonding structure of another embodiment of the utility model removes the schematic diagram after contact panel.

Fig. 4 is that the panel bonding structure of another embodiment of the utility model removes the schematic diagram after contact panel.

Fig. 5 A to Fig. 5 C is the manufacture process schematic diagram of the panel bonding structure of another embodiment of the utility model.

Fig. 5 D is that the panel bonding structure of Fig. 5 C is along the generalized section of BB line.

Fig. 6 is the flow chart of steps of the applying method of the utility model one embodiment.

The specific embodiment

Below in conjunction with accompanying drawing and the specific embodiment, the utility model is described in further detail.

Figure 1A to Fig. 1 C is the manufacture process schematic diagram of the panel bonding structure of the utility model one embodiment.Wherein, the schematic diagram that Figure 1A to Fig. 1 C is illustrated is to present in the mode of top view.Please first consult in the lump Fig. 1 C and Fig. 1 D, Fig. 1 C is the panel bonding structure presenting after having manufactured, and Fig. 1 D is that the panel bonding structure of Fig. 1 C is along the generalized section of AA line.The panel bonding structure 1 of the present embodiment comprises a display floater 11, a contact panel 12 and an adhesion layer 13, and wherein adhesion layer 13 is arranged between contact panel 12 and display floater 11, in order to stick together contact panel 12 and display floater 11.

Refer to Figure 1A and Fig. 1 D, wherein Figure 1A only illustrates display floater 11, display floater 11 is for example display panels, and display floater 11 can be formed (figure does not illustrate) by two transparent substrates that are oppositely arranged and the liquid crystal layer being sealed between described two transparent substrates.Display floater 11 has first surface S1 and second S2, wherein first surface S1 and second S2 both be oppositely arranged, and the first surface S1 of display floater 11 can be used as one first binding face.

First binding face (the first surface S1 of for example display floater 11) of display floater 11 can be the surface of general planar, in order to fit with contact panel 12.As shown in Figure 1A, the first binding face S1 of display floater 11 has roughly square shape, and the first binding face S1 has the first edge E1, the second edge E2, the 3rd edge E3 and the 4th edge E4, wherein the first edge E1 is with respect to the second edge E2, and the 3rd edge E3 is with respect to the 4th edge E4.In addition, the 3rd edge E3 and the 4th edge E4 are connected between the first edge E1 and the second edge E2, and wherein the 3rd edge E3 is connected in the first edge E1 and the second edge E2, and the 4th edge E4 is also connected in the first edge E1 and the second edge E2.

Between two neighboring edges of the first binding face S1 of display floater 11, there is one first angle.Specifically, between the first edge E1 of the first binding face S1 and the 3rd edge E3 of the first binding face S1, there is one first angle G1, between the first edge E1 of the first binding face S1 and the 4th edge E4 of the first binding face S1, also has one first angle G2.Between the second edge E2 of the first binding face S1 and the 3rd edge E3 of the first binding face S1, there is one first angle G3, between the second edge E2 of the first binding face S1 and the 4th edge E4 of the first binding face S1, also has one first angle G4.

In addition, the first binding face S1 of display floater 11 comprises a viewing area A1 and a non-display area A2, and non-display area A2 is around viewing area A1.

In the present embodiment, viewing area A1 is for example positioned at the middle position of the first binding face S1, and viewing area A1 has roughly square shape, and is the peripheral position that is positioned at the first binding face S1 around the non-display area A2 of viewing area A1, being shaped as of non-display area A2 is roughly cubic annular.Shape, size and the setting position of viewing area A1 can design according to actual demand, and the utility model embodiment does not limit.For example, viewing area A1 can be corresponding to pixel portion and the scan line drive circuit on transparent substrates (figure does not illustrate).

See also Figure 1B and Fig. 1 D, wherein adhesion layer 13 is arranged between contact panel 12 and display floater 11, and in order to stick together contact panel 12 and display floater 11.

As shown in Fig. 1 D, the first binding face S1 that an adhesion layer material 13 ' can be arranged to display floater 11 is upper to form adhesion layer 13 (as shown in Figure 1B).Therefore, when contact panel 12 overlapped in the first binding face S1 on adhesion layer material 13 ' time, adhesion layer material 13 ' can be between the first binding face S1 and the second binding face S4 and form adhesion layer 13.Wherein, the second binding face S4 is the fourth face of contact panel, towards display floater.By this, adhesion layer 13 can stick together between contact panel 12 and display floater 11, and both see through adhesion layer 13 and bonded to each other to make contact panel 12 and display floater 11.Adhesion layer 13 is formed by liquid optical cement (Liquid Optical Clear Adhesive, LOCA), and in other embodiment, adhesion layer 13 also can be two-sided adhesive film.Adhesion layer material 13 ' can comprise organic silicon rubber, acrylic type resin or unsaturated polyester (UP), polyurethane, epoxy resin etc.

It should be noted that as shown in the figure, adhesion layer 13 can cover viewing area A1 completely.In other words, in the viewing area A1 of the first binding face S1, be all distributed with adhesion layer material 13 '.

In the present embodiment, adhesion layer 13 has roughly square shape, adhesion layer 13 has the first edge E1 ', the second edge E2 ', the 3rd edge E3 ' and the 4th edge E4 ', and wherein the first edge E1 ' is with respect to the second edge E2 ', and the 3rd edge E3 ' is with respect to the 4th edge E4 '.

In addition, the edge of adhesion layer 13 can form one and dodge district, dodges the first binding face S1 of district's exposure display floater 11, that is to say, dodge the adhesion material that do not distribute in district, and dodge district and be positioned at non-display area A2 corresponding to the first angle that edge formed of the first binding face S1.

As shown in Figure 1B, adhesion layer 13 has respectively four corresponding to four the first angle G1-G4 of the first binding face S1 and dodges district A301-A304, dodge district A301-A304 and lay respectively at four corners of the first binding face S1 for four, and four are dodged district A301-A304 and are all positioned at non-display area A2.Specifically, at adhesion layer 13, in the joint of the first edge E1 ' and the 3rd edge E3 ', can form a unfilled corner, to define one, dodge district A301.Wherein, dodge district A301 corresponding to the first angle G1.The above-mentioned district A301 that dodges is roughly the tetragonal district that dodges.

Hold above-mentionedly, in the joint of the first edge E1 ' Yu the 4th edge E4 ' of adhesion layer 13, the edge of adhesion layer 13 can form a unfilled corner, dodges district A302, and dodge district A302 corresponding to the first angle G2 to define one.In the joint of the second edge E2 ' Yu the 3rd edge E3 ' of adhesion layer 13, the edge of adhesion layer 13 can form a unfilled corner, dodges district A303, and dodge district A303 corresponding to the first angle G3 to define one.In the joint of the second edge E2 ' Yu the 4th edge E4 ' of adhesion layer 13, the edge of adhesion layer 13 can form a unfilled corner, dodges district A304, and dodge district A304 corresponding to the first angle G4 to define one.

In this specific embodiment, both can be positioned at the joint (i.e. the first angle G4 place) of the joint (i.e. the first angle G1 place) of the first edge E1 ' and the 3rd edge E3 ' and the second edge E2 ' and the 4th edge E4 ' virtual line (being a pair of linea angulata of square the first binding face S1) and go up, and the central point of dodging the central point of district A301 and dodging district A304 can all be positioned on described virtual line.Both can be positioned at the joint (i.e. the first angle G3 place) of the joint (i.e. the first angle G2 place) of the first edge E1 ' and the 4th edge E4 ' and the second edge E2 ' and the 3rd edge E3 ' virtual line (being a pair of linea angulata of square the first binding face S1) and go up, and the central point of dodging the central point of district A302 and dodging district A303 can all be positioned on described virtual line.But dodging on district A301-A304 in Figure 1A to Fig. 1 D stated configuration only for illustrating, and non-limiting the utility model.

In addition, the shape of dodging district A301-A304 in Figure 1A to Fig. 1 D and size are only for illustrating, and non-limiting the utility model.For example, in same panel bonding structure 1, each shape, size of dodging district A301-A304 also can be unequal each other.In addition, in the embodiment not illustrating at other, the quantity of dodging district also can be corresponding to the quantity of the first included angle of the first binding face S1 more than four or be less than four, so the quantity of included the first angle of the shape of the first binding face S1 shown in Figure 1A, the first binding face S1 and the quantity of dodging district are all only for illustrating, and non-limiting the utility model.

Please consult in the lump Fig. 1 C and Fig. 1 D, contact panel 12 is to arrange in the face of the first binding face S1 of display floater 11 again.Contact panel 12 can have the 3rd S3 and fourth face S4, wherein the 3rd S3 and fourth face S4 both be oppositely arranged, and the fourth face S4 of contact panel 12 can arrange in the face of the first surface S1 of display floater 11, wherein the fourth face S4 of contact panel 12 can be used as one second binding face.Second binding face (the fourth face S4 of for example contact panel 12) of contact panel 12 can be the surface of general planar, in order to fit with display floater 11.

As shown in Fig. 1 C and 1D, both are roughly the same for the shape of the shape of display floater 11 and contact panel 12, are all tetragonal tabular.The 4th binding face S4 of contact panel 12 also has roughly square shape, and the 4th binding face S4 has the first edge E5, the second edge E6, the 3rd edge E7 and the 4th edge E8, wherein the first edge E5 is with respect to the second edge E6, and the 3rd edge E7 is with respect to the 4th edge E8.In addition, the 3rd edge E7 and the 4th edge E8 are connected between the first edge E5 and the second edge E6, and wherein the 3rd edge E7 is connected in the first edge E5 and the second edge E6, and the 4th edge E8 is also connected in the first edge E5 and the second edge E6.

Contact panel 12 can be in order to as an input block.With regard to structure, contact panel 12 can be the contact panel of individual layer conductive layer or the contact panel of double-deck conductive layer.With regard to function, contact panel 12 can be capacitance type touch-control panel, electric resistance touch-control panel or temperature induction type contact panel etc.

For example, contact panel 12 can be divided into a Touch Zone and the surrounding zone (figure does not illustrate) around Touch Zone.The Touch Zone of contact panel 12 can be corresponding to the viewing area A1 of display floater 11.Contact panel 12 can comprise substrate and be arranged at touch-control sensing layer on substrate (figure does not illustrate), and touch-control sensing layer can comprise touch-control sensing electrode structure and wire, and wire can be electrically connected at touch-control sensing electrode structure.Touch-control sensing electrode structure can have the serial of X axis electrode and the serial of Y-axis electrode, and each electrode serial can comprise respectively multiple transparency electrodes.In addition, in other embodiment, the substrate of contact panel 12 can be a upper cover substrate, can have carrying touch-control sensing electrode structure and safeguard function simultaneously.

With the each assembly of top panel bonding structure 1 and relative position thereof, also can optionally make multiple modification, other embodiment of the utility model panel bonding structure 1 below will be described.Need first chat brightly, the panel bonding structure of following embodiment 1 is not described in detail with previous embodiment similarity, and other characteristic of the each assembly not specified (NS) of following embodiment can be identical with previous embodiment, follow-up repeating no more.

Please refer to Fig. 2, Fig. 2 is that the panel bonding structure of another embodiment of the utility model removes the schematic diagram after contact panel.Similarly, Fig. 2 presents in the mode of top view.As shown in Figure 2, adhesion layer 13 has four corresponding to four first angle G1-G4 at the first binding face S1 edge and dodges district A301-A304, dodges district A301-A304 and all can expose the first binding face S1 of display floater 11.Dodge district A301-A304 and lay respectively at four corners of the first binding face S1 for four, and four are dodged district A301-A304 and are all positioned at non-display area A2.

Specifically, in the joint of the first edge E1 ' Yu the 3rd edge E3 ' of adhesion layer 13, the edge of adhesion layer 13 can form a depression, and depression is extended towards viewing area A1 is inner, dodges district A301, and dodge district A301 corresponding to the first angle G1 to define one.Depression is for example arc-shaped recess.Wherein, an arch section, the extension of the first edge E1 ' and the extension three definable of the 3rd edge E3 ' at adhesion layer 13 edges that cave in order to formation go out one and dodge district A301, dodge the roughly quadrant that is shaped as of district A301.

In the joint of the first edge E1 ' Yu the 4th edge E4 ' of adhesion layer 13, the edge of adhesion layer 13 can form a depression, and depression is extended towards viewing area A1 is inner, dodges district A302, and dodge district A302 corresponding to the first angle G2 to define one.Similarly, dodge district A303 corresponding to the first angle G3, and dodge district A304 corresponding to the first angle G4.Wherein, dodge district A301 and A304 extends towards viewing area A1 inside in the direction of a pair of linea angulata of square the first binding face S1, dodge district A302 and dodge district A303 and towards viewing area A1 inside, extend in another cornerwise direction of square the first binding face S1, the shape of dodging district A301-A304 is all roughly quadrant.

Please refer to Fig. 3, Fig. 3 is that the panel bonding structure of another embodiment of the utility model removes the schematic diagram after contact panel.Similarly, Fig. 3 presents in the mode of top view.As shown in Figure 3, adhesion layer 13 has four corresponding to four first angle G1-G4 at the first binding face S1 edge and dodges district A301-A304, dodges district A301-A304 and all can expose the first binding face S1 of display floater 11.Dodge district A301-A304 and lay respectively at four corners of the first binding face S1 for four, and four are dodged district A301-A304 and are all positioned at non-display area A2.

Specifically,, in the joint of the first edge E1 ' Yu the 3rd edge E3 ' of adhesion layer 13, the edge of adhesion layer 13 can form a corner cut, dodges district A301, and dodge district A301 corresponding to the first angle G1 to define one.Corner cut is for example hypotenuse corner cut.Wherein, in order to form a hypotenuse part, the extension of the first edge E1 ' and the extension three definable of the 3rd edge E3 ' at adhesion layer 13 edges of corner cut, go out a triangle and dodge district A301.Similarly, dodge district A302 corresponding to the first angle G2, dodge district A303 corresponding to the first angle G3, and dodge district A304 corresponding to the first angle G4.The shape of dodging district A301-A304 is all triangle, and adhesion layer 13 can present octagonal outward appearance.

Please refer to Fig. 4, Fig. 4 is that the panel bonding structure of another embodiment of the utility model removes the schematic diagram after contact panel.Similarly, Fig. 4 presents in the mode of top view.As shown in Figure 4, adhesion layer 13 has four corresponding to four first angle G1-G4 at the first binding face S1 edge and dodges district A301-A304, dodges district A301-A304 and all can expose the first binding face S1 of display floater 11.Dodge district A301-A304 and lay respectively at four corners of the first binding face S1 for four, and four are dodged district A301-A304 and are all positioned at non-display area A2.

Specifically,, in the joint of the first edge E1 ' Yu the 3rd edge E3 ' of adhesion layer 13, the edge of adhesion layer 13 can form a chamfering, dodges district A301, and dodge district A301 corresponding to the first angle G1 to define one.Chamfering is for example convex arc.Wherein, in order to form an arch section, the extension of the first edge E1 ' and the extension three definable of the 3rd edge E3 ' at adhesion layer 13 edges of chamfering, go out a general triangular and dodge district A301.

Similarly, dodge district A302 corresponding to the first angle G2, dodge district A303 corresponding to the first angle G3, and dodge district A304 corresponding to the first angle G4.The shape of dodging district A301-A304 is all general triangular.

Fig. 5 A to Fig. 5 C is the manufacture process schematic diagram of the panel bonding structure of another embodiment of the utility model.Wherein, the schematic diagram that Fig. 5 A to Fig. 5 C is illustrated is to present in the mode of top view.Please first consult in the lump Fig. 5 C to Fig. 5 D, Fig. 5 C is the panel bonding structure presenting after having manufactured, and Fig. 5 D is that the panel bonding structure of Fig. 5 C is along the generalized section of figure BB line.The panel bonding structure 1 of the present embodiment comprises a display floater 11, a contact panel 12 and an adhesion layer 13, and wherein adhesion layer 13 is arranged between contact panel 12 and display floater 11, in order to stick together contact panel 12 and display floater 11.

Refer to Fig. 5 A and Fig. 5 D, wherein Fig. 5 A only illustrates contact panel 12, and contact panel 12 has the 3rd S3 and fourth face S4, wherein the 3rd S3 and fourth face S4 both be oppositely arranged, and the fourth face S4 of contact panel 12 can be used as one second binding face.

Second binding face (the fourth face S4 of for example contact panel 12) of contact panel 12 can be the surface of general planar, in order to fit with display floater 11.As shown in Figure 5A, the second binding face S4 of contact panel 12 has roughly square shape, and the second binding face S4 has the first edge E5, the second edge E6, the 3rd edge E7 and the 4th edge E8, wherein the first edge E5 is with respect to the second edge E6, and the 3rd edge E7 is with respect to the 4th edge E8.In addition, the 3rd edge E7 and the 4th edge E8 are connected between the first edge E5 and the second edge E6, and wherein the 3rd edge E7 is connected in the first edge E5 and the second edge E6, and the 4th edge E8 is also connected in the first edge E5 and the second edge E6.

Between two neighboring edges of the second binding face S4 of contact panel 12, there is one second angle.Specifically, between the first edge E5 of the second binding face S4 and the 3rd edge E7 of the second binding face S4, there is one second angle G5, between the first edge E5 of the second binding face S4 and the 4th edge E8 of the second binding face S4, also has one second angle G6.Between the second edge E6 of the second binding face S2 and the 3rd edge E7 of the second binding face S4, there is one second angle G7, between the second edge E6 of the second binding face S4 and the 4th edge E8 of the second binding face S4, also has one second angle G8.

See also Fig. 5 B and Fig. 5 D, wherein adhesion layer 13 is arranged between contact panel 12 and display floater 11, and in order to stick together contact panel 12 and display floater 11.

The second binding face S4 that as shown in Figure 5 D, an adhesion layer material 13 ' can be arranged to contact panel 12 is above to form adhesion layer 13 (as shown in Figure 5 B).Therefore, when display floater 11 overlapped in the second binding face S4 on adhesion layer material 13 ' time, adhesion layer material 13 ' can be between the first binding face S1 and the second binding face S4 and form adhesion layer 13.Wherein, the first binding face S1 is the first surface of display floater, towards contact panel.By this, adhesion layer 13 can stick together between contact panel 12 and display floater 11, and both see through adhesion layer 13 and bonded to each other to make contact panel 12 and display floater 11.

It should be noted that as shown in the figure, adhesion layer 13 can cover viewing area A1 completely.In other words, in the viewing area A1 of the first binding face S1, be all distributed with adhesion layer material 13 '.

In the present embodiment, adhesion layer 13 has roughly square shape, adhesion layer 13 has the first edge E1 ', the second edge E2 ', the 3rd edge E3 ' and the 4th edge E4 ', and wherein the first edge E1 ' is with respect to the second edge E2 ', and the 3rd edge E3 ' is with respect to the 4th edge E4 '.

In addition, the edge of adhesion layer 13 can form one and dodge district, dodges the second binding face S4 of district's exposure contact panel 12, that is to say, dodge the adhesion material that do not distribute in district, and dodge district and be positioned at non-display area A2 corresponding to the second angle that edge formed of the second binding face S4.

As shown in Figure 5 B, adhesion layer 13 has respectively four corresponding to four the second angle G5-G8 of the second binding face S4 and dodges district A301 '-A304 ', dodge district A301 '-A304 ' and lay respectively at four corners of the second binding face S4 for four, and four are dodged district A301 '-A304 ' and are all positioned at non-display area A2.Specifically, at adhesion layer 13, in the joint of the first edge E1 ' and the 3rd edge E3 ', can form a unfilled corner, to define one, dodge district A301 '.Wherein, dodge district A301 ' corresponding to the second angle G5.The above-mentioned district A301 ' that dodges is roughly the tetragonal district that dodges.

Hold above-mentionedly, in the joint of the first edge E1 ' Yu the 4th edge E4 ' of adhesion layer 13, the edge of adhesion layer 13 can form a unfilled corner, dodges district A302 ', and dodge district A302 ' corresponding to the second angle G6 to define one.In the joint of the second edge E2 ' Yu the 3rd edge E3 ' of adhesion layer 13, the edge of adhesion layer 13 can form a unfilled corner, dodges district A303 ', and dodge district A303 ' corresponding to the second angle G7 to define one.In the joint of the second edge E2 ' Yu the 4th edge E4 ' of adhesion layer 13, the edge of adhesion layer 13 can form a unfilled corner, dodges district A304 ', and dodge district A304 ' corresponding to the second angle G8 to define one.

In this specific embodiment, both can be positioned at the joint (i.e. the second angle G8 place) of the joint (i.e. the second angle G5 place) of the first edge E1 ' and the 3rd edge E3 ' and the second edge E2 ' and the 4th edge E4 ' virtual line (being a pair of linea angulata of square the second binding face S4) and go up, and the central point of dodging the central point of district A301 ' and dodging district A304 ' can all be positioned on described virtual line.Both can be positioned at the joint (i.e. the second angle G7 place) of the joint (i.e. the second angle G6 place) of the first edge E1 ' and the 4th edge E4 ' and the second edge E2 ' and the 3rd edge E3 ' virtual line (being a pair of linea angulata of square the second binding face S4) and go up, and the central point of dodging the central point of district A302 ' and dodging district A303 ' can all be positioned on described virtual line.But dodging on district A301 '-A304 ' in Fig. 5 A to Fig. 5 D stated configuration only for illustrating, and non-limiting the utility model.

In addition, the shape of dodging district A301 '-A304 ' in Fig. 5 A to Fig. 5 D and size are only for illustrating, and non-limiting the utility model.For example, in same panel bonding structure 1, each shape, size of dodging district A301 '-A304 ' also can be unequal each other.In addition, in the embodiment not illustrating at other, the quantity of dodging district also can be corresponding to the quantity of the first included angle of the second binding face S4 more than four or be less than four, so the quantity of included the second angle of the shape of the second binding face S4 shown in Fig. 5 A, the second binding face S4 and the quantity of dodging district are all only for illustrating, and non-limiting the utility model.

Please consult in the lump Fig. 5 C and Fig. 5 D, display floater 11 is to arrange in the face of the second binding face S4 of contact panel 12 again.Display floater 11 can have first surface S1 and second S2, wherein first surface S1 and second S2 both be oppositely arranged, and the first surface S1 of display floater 11 can arrange in the face of the fourth face S4 of contact panel 12, wherein the first surface S1 of display floater 11 can be used as one first binding face.First binding face (the first surface S1 of for example display floater 11) of display floater 11 can be the surface of general planar, in order to fit with contact panel 12.

As shown in Fig. 5 C and 5D, both are roughly the same for the shape of the shape of display floater 11 and contact panel 12, are all tetragonal tabular.The first binding face S1 of display floater 11 also has roughly square shape, and the first binding face S1 has the first edge E1, the second edge E2, the 3rd edge E3 and the 4th edge E4, wherein the first edge E1 is with respect to the second edge E2, and the 3rd edge E3 is with respect to the 4th edge E4.In addition, the 3rd edge E3 and the 4th edge E4 are connected between the first edge E1 and the second edge E2, and wherein the 3rd edge E3 is connected in the first edge E1 and the second edge E2, and the 4th edge E4 is also connected in the first edge E1 and the second edge E2.

Above-described embodiment can be summarized the applying method of the utility model one embodiment, and described applying method is applicable to that both are bonded to each other by a contact panel 11 and a display floater 12.Please refer to Fig. 6, Fig. 6 is the flow chart of steps of the applying method of the utility model one embodiment.First, one display floater 11 is provided, described display floater 11 has one first binding face S1, the first binding face S1 comprises a viewing area A1 and a non-display area A2, non-display area A2, around viewing area A1, has one first angle (step S601) between two neighboring edges of wherein said the first binding face S1.Secondly, provide a contact panel 12, contact panel 12 has one second binding face S4, and the second binding face S4 is the first binding face S1 (step S602) in the face of described display floater 11.Finally, one adhesion layer material 13 ' is set between described the first binding face S1 and described the second binding face S4, to form an adhesion layer 13, adhesion layer 13 is sticked together between contact panel 12 and display floater 11, and described adhesion layer 13 covers described viewing area A1 completely, the edge of wherein said adhesion layer 13 can form one and dodge district, dodges district and exposes described the first binding face S1, and dodge district and be positioned at non-display area A2 (step S603) corresponding to described the first angle.

In sum, the panel bonding structure 1 of the utility model embodiment and applying method can see through that the edge of adhesion layer 13 form dodges district A301-A304, carry out dispersive stress, with after reducing display floater 11 and contact panel 12 both fitting, the stress that the first angle G1-G4 place at the first binding face S1 edge produces is concentrated, and then prevent from the generation of the phenomenon of the brightness irregularities such as color lump (mura) or water ripples (ripple) from preventing the distortion of show image.In addition, in the utility model one embodiment, panel bonding structure 1 and applying method also can see through that the edge of adhesion layer 13 form dodges district A301 '-A304 ', with after reducing display floater 11 and contact panel 12 both fitting, the stress that the second angle G5-G8 place at the second binding face S4 edge produces is concentrated.

The foregoing is only embodiment of the present utility model, it is not in order to limit scope of patent protection of the present utility model.Anyly have the knack of alike skill person, not departing from spirit of the present utility model and scope, the change of doing and the equivalence of retouching are replaced, and are still in scope of patent protection of the present utility model.

Claims (7)

1. a panel bonding structure, comprising:

One display floater, has one first binding face, and this first binding face comprises a viewing area and a non-display area, and this non-display area, around this viewing area, wherein has one first angle between two neighboring edges of this first binding face;

One contact panel, has one second binding face, and this second binding face is in the face of this first binding face of this display floater; And

One adhesion layer, is arranged between this first binding face and this second binding face, and sticks together this contact panel and this display floater, and this adhesion layer covers this viewing area completely,

Wherein the edge of this adhesion layer can form one and dodge district, and this is dodged district and exposes this first binding face, and this is dodged district and is positioned at this non-display area corresponding to this first angle.

2. bonding structure according to claim 1, is characterized in that, the edge of this adhesion layer forms a unfilled corner, to define this, dodges district.

3. bonding structure according to claim 1, is characterized in that, this adhesion layer covers part non-display area.

4. bonding structure according to claim 1, is characterized in that, the edge of this adhesion layer forms a depression, and this depression is inner extension towards this viewing area, to define this, dodges district.

5. bonding structure according to claim 1, is characterized in that, the edge of this adhesion layer forms a corner cut, to define this, dodges district.

6. bonding structure according to claim 1, is characterized in that, the edge of this adhesion layer forms a chamfering, to define this, dodges district.

7. bonding structure according to claim 1, is characterized in that, has one second angle between two neighboring edges of this second binding face, and this is dodged district and exposes this second binding face, and this is dodged district and is positioned at this non-display area corresponding to this second angle.

Images