CN104849918A - Display panel, curved display panel and curved display module - Google Patents

Abstract

The invention provides a display panel, which is provided with a central line so as to divide the display panel into a first area and a second area. The display panel comprises a first substrate, a second substrate, a display medium, a plurality of scanning lines and data lines, a plurality of first pixel structures located in a first area, a plurality of second pixel structures located in a second area, a first gap object arranged corresponding to the first pixel structures and a second gap object arranged corresponding to the second pixel structures. The shortest distance between the first spacer and the left data line of the first pixel structure in vertical projection is XL1, and the shortest distance between the first spacer and the right data line in vertical projection is XR 1. The shortest distance in vertical projection between the second spacer and the left data line of the second pixel structure is XL2 and the shortest distance in vertical projection between the second spacer and the right data line is XR2, and XL1 ≠ XL 2.

Description

Display panel, bending display panel and curved displays module

Technical field

The invention relates to a kind of display panel, and relate to a kind of bending display panel especially and there is a kind of curved displays module of bending display panel.

Background technology

Along with the progress of science and technology, the technology of display also constantly develops.Gently, thin, short, little flat-panel screens (Flat Panel Display, FPD) replaces the thick and heavy negative electrode crt display (CathodeRay Tube, CRT) of tradition gradually.Nowadays, due to the frivolous characteristic of flat-panel screens, flat-panel screens is more configured on nonplanar surface of many buildingss or electronic equipment.

In order to coordinate nonplanar surface, display panel also will and then have a little radian, therefore bending display panel is also suggested.In existing display panels, usually there is separation material, in order to maintain the gap (cell gap) between the upper substrate of display panel and infrabasal plate.But, in the process making bending display panel, if upper and lower base plate runs into the problem of dislocation, then the problem such as gap error, other faces of separation material scratch or separation material can be caused overlapping with protuberance (Tsuno).

Summary of the invention

The invention provides a kind of display panel, a kind of bending display panel and a kind of curved displays module, the problem such as the gap error in display panel, other faces of separation material scratch or separation material can be avoided overlapping with protuberance.

The invention provides a kind of display panel, it has a center line, display panel to be divided into a first area and a second area.Display panel comprise a first substrate, a second substrate, a display medium between first substrate and second substrate, many be positioned at sweep trace on first substrate and data line, multiple first dot structure, multiple second dot structure, at least one first separation material and at least one second separation material.First dot structure to be positioned on first substrate and to be positioned at first area, and one of them of wherein one of them and data line of each first dot structure and sweep trace is electrically connected.Second dot structure to be positioned on first substrate and to be positioned at second area, wherein each second dot structure and sweep trace wherein one and data line wherein one be electrically connected.First separation material is positioned on second substrate and one of them of corresponding first dot structure is arranged, the bee-line wherein between the first separation material and a left data line of described first dot structure in a vertical projection be XL1 and and a bee-line on the right side of in the of one of described first dot structure between data line in described vertical projection be XR1.Second separation material is positioned on second substrate and one of them of corresponding second dot structure is arranged, a bee-line wherein between the second separation material and a left data line of described second dot structure in described vertical projection be XL2 and and a bee-line on the right side of in the of one of described second dot structure between data line in described vertical projection be XR2, and XL1 ≠ XL2.

The invention provides a kind of display panel, it has a center line, display panel to be divided into a first area and a second area.Display panel comprise a first substrate, a second substrate, a display medium between first substrate and second substrate, many be positioned at sweep trace on first substrate and data line, multiple first dot structure, multiple second dot structure, at least one first separation material and at least one second separation material.First dot structure to be positioned on first substrate and to be positioned at first area, wherein each first dot structure and sweep trace wherein one and data line wherein one be electrically connected, each first dot structure comprises one first active member and one first pixel electrode, and the first pixel electrode is electrically connected by one first contact hole and the first active member.Second dot structure to be positioned on first substrate and to be positioned at second area, wherein each second dot structure and sweep trace wherein one and data line wherein one be electrically connected, each second dot structure comprises one second active member and one second pixel electrode, and the second pixel electrode is electrically connected by one second contact hole and the second active member.First separation material is positioned on second substrate and one of them of corresponding first dot structure is arranged, and the bee-line wherein between the first contact hole and the first separation material in a vertical projection is XD1.Second separation material is positioned on second substrate and one of them of corresponding second dot structure is arranged, and the bee-line wherein between the second contact hole and the second separation material in described vertical projection is XD2, and XD1 ≠ XD2.

The invention provides a kind of bending display panel, it has a center line, and display panel from center line toward two lateral bends.Display panel is divided into a first area and a second area by center line.Display panel comprise a first substrate, a second substrate, a display medium between first substrate and second substrate, many be positioned at sweep trace on first substrate and data line, multiple first dot structure, multiple second dot structure, multiple color filter patterns, at least one first separation material and at least one second separation material.First dot structure to be positioned on first substrate and to be positioned at first area, wherein each first dot structure and sweep trace wherein one and data line wherein one be electrically connected.Second dot structure to be positioned on first substrate and to be positioned at second area, wherein each second dot structure and sweep trace wherein one and data line wherein one be electrically connected.Color filter patterns is positioned on first substrate, and to should the first dot structure and the second dot structure arrange.First separation material is positioned on second substrate and one of them of corresponding first dot structure is arranged, the bee-line wherein between the first separation material and a left side edge of the color filter patterns of corresponding described first dot structure be ML1 and and a bee-line between a right side edge of the color filter patterns of corresponding described first dot structure be MR1.Second separation material is positioned on second substrate and one of them of corresponding second dot structure is arranged, a bee-line wherein between the second separation material and a left side edge of the color filter patterns of corresponding described second dot structure be ML2 and and a bee-line between a right side edge of this color filter patterns of corresponding described second dot structure be MR2, and ML1 ≠ ML2.

The invention provides a kind of curved displays module, it comprises aforesaid display panel, a backlight module and a panel bending assembly.Backlight module is positioned at the back side of display panel.Panel bending assembly is installed at least side of display panel, forms a bending display panel to make display panel.

Based on above-mentioned, the design of mirror image is done in the position of separation material before bending by display panel of the present invention for bending direction, to make in display panel after bending, separation material still can not be overlapping with data line or contact hole.By this, other faces of separation material scratch can be avoided or the problem such as separation material is overlapping with protuberance.In addition, because separation material can not skid off on the element at original place, the generation of the problem of the gap error caused by difference in height can't therefore be caused.

For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and coordinate institute's accompanying drawings to be described in detail below.

Accompanying drawing explanation

Figure 1A is the upper schematic diagram of the display panel of one embodiment of the invention.

Figure 1B is the upper schematic diagram of the display panel of another embodiment of the present invention.

Fig. 2 is the diagrammatic cross-section of the display panel of one embodiment of the invention.

Fig. 3 A is the upper schematic diagram of the display panel before bending of one embodiment of the invention.

Fig. 3 B is the upper schematic diagram of the display panel after bending of the embodiment of Fig. 3 A.

Fig. 4 A is the upper schematic diagram of the display panel before bending of another embodiment of the present invention.

Fig. 4 B is the upper schematic diagram of the display panel after bending of the embodiment of Fig. 4 A.

Fig. 5 A is the upper schematic diagram of the display panel before bending of yet another embodiment of the invention.

Fig. 5 B is the upper schematic diagram of the display panel after bending of the embodiment of Fig. 5 A.

Fig. 6 A is the upper schematic diagram of the display panel before bending of further embodiment of this invention.

Fig. 6 B is the upper schematic diagram of the display panel after bending of the embodiment of Fig. 6 A.

Fig. 7 A is the upper schematic diagram of the display panel before bending of one embodiment of the invention.

Fig. 7 B is the upper schematic diagram of the display panel after bending of the embodiment of Fig. 7 A.

Fig. 8 A is the upper schematic diagram of the display panel before bending of another embodiment of the present invention.

Fig. 8 B is the upper schematic diagram of the display panel after bending of the embodiment of Fig. 8 A.

Fig. 9 A is the upper schematic diagram of the display panel of another embodiment of the present invention.

Fig. 9 B is the upper schematic diagram of the display panel of further embodiment of this invention.

Figure 10 A is the upper schematic diagram of the display panel before bending of one embodiment of the invention.

Figure 10 B is the upper schematic diagram of the display panel after bending of the embodiment of Figure 10 A.

Figure 11 A is the upper schematic diagram of the display panel before bending of another embodiment of the present invention.

Figure 11 B is the upper schematic diagram of the display panel after bending of the embodiment of Figure 11 A.

Figure 12 is the diagrammatic cross-section of the display panel of another embodiment of the present invention.

Figure 13 A is the upper schematic diagram of the display panel before bending of one embodiment of the invention.

Figure 13 B is the upper schematic diagram of the display panel after bending of the embodiment of Figure 13 A.

Figure 14 A is the upper schematic diagram of the display panel before bending of another embodiment of the present invention.

Figure 14 B is the upper schematic diagram of the display panel after bending of the embodiment of Figure 14 A.

Figure 15 is the schematic diagram of the curved displays module of one embodiment of the invention.

Wherein, Reference numeral:

100: display panel

102: first substrate

104: second substrate

103: element layer

106: display medium

107: electrode layer

108: chromatic filter layer

110: protective seam

P1: the first dot structure

P2: the second dot structure

ML: center line

R1: first area

R2: second area

DL1, DL3: left data line

DL2, DL4: right side data line

SL1: the first sweep trace

SL2: the second sweep trace

G1: first grid

CH1: first passage layer

S1: the first source electrode

D1: the first drain electrode

TFT1: the first active member

G2: second grid

CH2: second channel layer

S2: the second source electrode

D2: the second drain electrode

TFT2: the second active member

C1: the first contact hole

C2: the second contact hole

PE1: the first pixel electrode

PE2: the second pixel electrode

CF1: the first color filter patterns

CF2: the second color filter patterns

CL: bridging line

XL1, XR1, XL2, XR2: bee-line

BL1, BR1, BL2, BR2: bee-line

WL1, WR1, WL2, WR2: bee-line

ML1, MR1, ML2, MR2: bee-line

XD1, XD2: bee-line

200: backlight module

300: panel bending part

310: framework

320: screw rod

400: backboard

500: encapsulation material

1000: curved displays module

Embodiment

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Figure 1A is the upper schematic diagram of the display panel of one embodiment of the invention.Please refer to Figure 1A, display panel 100 of the present invention has a center line ML.Display panel 100 is divided into an a first area R1 and second area R2 by center line ML.Display panel 100 has the multiple first dot structure P1 being positioned at first area R1 and the multiple second dot structure P2 being positioned at second area R2.Figure 1B is the upper schematic diagram of the display panel of another embodiment of the present invention.Please refer to Figure 1B, the embodiment of Figure 1B is roughly the same with the embodiment of Figure 1A, and discrepancy be the panel of the embodiment of Figure 1A be the panel of the embodiment of transverse type panel and Figure 1B for straight to formula panel.In other words, in embodiment herein, be no matter the display panel of straight display panel or horizontal type, display panel is divided into two symmetrical regions by described center line ML.

The part section of the display panel of above-mentioned Figure 1A and Figure 1B is illustrated in.Please refer to Fig. 2, display panel 100 comprises first substrate 102, second substrate 104, element layer 103, display medium 106, electrode layer 107, chromatic filter layer 108, multiple first separation material PS1 and multiple second separation material PS2.The material of substrate 100 can be glass, quartz, organic polymer or other material applicatory.First substrate 100 comprises and is provided with element layer 103, wherein element layer 103 comprises multiple first dot structure P1, multiple second dot structure P2, multi-strip scanning line and a plurality of data lines (not showing).The content of relevant elements layer 103 will elaborate in subsequent paragraph.

Second substrate 104 is the subtends being arranged on first substrate 102.The material of second substrate 200 can be glass, quartz or organic polymer etc.Second substrate 104 more comprises and is provided with chromatic filter layer 108, wherein chromatic filter layer 108 comprises multiple color filter patterns (not illustrating) and black matrix pattern (not illustrating).Color filter patterns comprises redness, green and blue color filter pattern, but the present invention is not limited thereto.

Display medium 106 is sealed between first substrate 102 and second substrate 104.In other words, display medium 106 is arranged among the spatial accommodation between first substrate 102 and second substrate 104.Display medium 106 can comprise liquid crystal molecule, electrophoretic display medium or other medium applicatory.Electrode layer 107 is configured between chromatic filter layer 108 and display medium 106, wherein can produce an electric field between electrode layer 107 and element layer 103, in order to drive the liquid crystal molecule in display medium 106.In addition, display panel 100 more comprises and is positioned at multiple first separation material PS1 on second substrate 104 and multiple second separation material PS2.Specifically, the first separation material PS1 and multiple second separation material PS2 is configured between electrode layer 107 and element layer 103, in order to support the spacing between first substrate 102 and second substrate 104.The material of the first separation material PS1 and the second separation material PS2 is such as photoresist, but the present invention is not limited thereto.

Next the design of the first dot structure P1 being positioned at first area R1 in display panel 100 and the second dot structure P2 being positioned at second area R2 will be described in detail.In this article, the first dot structure P1 being positioned at first area R1 and the second dot structure P2 being positioned at second area R2 can have the design of various embodiments, below will describe in detail one by one.

Fig. 3 A be one embodiment of the invention bending before display panel upper schematic diagram, in order to clearly the present embodiment is described, Fig. 3 A shows one of them first dot structure P1 and one of them second dot structure P2 of display panel.These those skilled in the art can by this paper and graphic understanding, and display panel is made up of multiple first dot structure P1 and multiple second dot structure P2.

Please refer to Fig. 3 A, the first dot structure P1 and sweep trace SL1 and data line DL1 is electrically connected, and the second dot structure P2 and sweep trace SL2 and data line DL3 is electrically connected.These those skilled in the art can by this paper and graphic understanding, display panel herein comprises multi-strip scanning line, a plurality of data lines, multiple first dot structure and multiple second dot structure, wherein the first dot structure P1 is electrically connected with corresponding sweep trace and data line, second dot structure P2 is electrically connected with corresponding sweep trace and data line, and the label of sweep trace herein and data line does not limit it and puts in order.Considering based on electric conductivity, sweep trace SL1 ~ SL2 and data line DL1 ~ DL4 uses metal material.So, the present invention is not limited thereto, according to other embodiments, sweep trace SL1 ~ SL2 and data line DL1 ~ DL4 also can use other conductive materials.Such as: the oxides of nitrogen of the nitride of alloy, metal material, the oxide of metal material, metal material or other suitable material) or metal material and other lead the stack layer of material.

In addition, the first dot structure P1 comprises the first active member TFT1 and the first pixel electrode PE1.First active member TFT1 can be bottom grid film transistor or top gate-type thin film transistor, and it comprises first grid G1, first passage layer CH1, the first source S 1 and the first drain D 1.Second dot structure P2 comprises the second active member TFT2 and the second pixel electrode PE2.Second active member TFT2 can be bottom grid film transistor or top gate-type thin film transistor, and it comprises second grid G2, second channel layer CH2, the second source S 2 and the second drain D 2.In the present embodiment, the left data line DL1 of the first active member TFT1 and the first dot structure P1 is electrically connected, and the left data line DL3 of the second active member TFT2 and the second dot structure P2 is electrically connected, but the present invention is not limited thereto.In other embodiments, the first active member TFT1 can also be electrically connected with the right side data line DL2 of the first dot structure P1, and the second active member TFT2 can also be electrically connected with the right side data line DL4 of the second dot structure P2.In addition, first drain D 1 of the first active member TFT1 is electrically connected by the first contact hole C1 and the first pixel electrode PE1, and second drain D 2 of the second active member TFT2 is electrically connected by the second contact hole C2 and the second pixel electrode PE2.On the other hand, in the present embodiment, the bearing of trend of center line ML is parallel with the bearing of trend of data line DL1 ~ DL4, but the present invention does not limit therewith.In other embodiments, the bearing of trend of center line ML can also be parallel with the bearing of trend of sweep trace SL1 ~ SL2.

Display panel more comprises multiple first separation material PS1 and multiple second separation material PS2, and wherein the corresponding first dot structure P1 of the first separation material PS1 is arranged, and the corresponding second dot structure P2 of the second separation material PS2 is arranged, as shown in Figure 3A.According to the present embodiment, the left data line DL1 of the first separation material PS1 and the first dot structure P1 has a bee-line XL1 in a vertical projection, and the right side data line DL2 of the first separation material PS1 and the first dot structure P1 has a bee-line XR1 in a vertical projection.The left data line DL3 of the second separation material PS2 and the second dot structure P2 has a bee-line XL2 in a vertical projection, and the right side data line DL4 of the second separation material PS2 and the second dot structure P2 has a bee-line XR2 in a vertical projection.In the present embodiment, XL1 ≠ XL2.

Fig. 3 B is the upper schematic diagram of the display panel after bending of the embodiment of Fig. 3 A.Please refer to Fig. 3 B, after display panel 100 carries out bending using center line ML as bending axis, the first separation material PS1 and the second separation material PS2 all moves towards the direction of center line ML.But the left data line DL1 of the first separation material PS1 and the first dot structure P1 still possesses a vertical projection bee-line XL1 and still possesses a vertical projection bee-line XR1 with the right side data line DL2 of the first dot structure P1.The left data line DL3 of the second separation material PS2 and the second dot structure P2 still possesses a vertical projection bee-line XL2 and still possesses a vertical projection bee-line XR2 with the right side data line DL4 of the second dot structure P2.For example, the bee-line of the present embodiment is as following table:

XL1

XR1

XL2

XR2

Before bending	17μm	27μm	27μm	17μm
					After bending	39μm	5μm	5μm	39μm

Can be learnt by upper table, in the present embodiment, XL1<XL2 and XR1>XR2, but the present invention is not limited thereto.Specifically, the bending method of the present embodiment illustrates with being bent outwardly.In other examples, aduncate method can also be utilized to bend display panel.And in aduncate display panel, the XL1>XL2 before bending and XR1<XR2.It should be noted that two of display panel 100 edges bend along center line ML to the inverse direction of user by bandy being defined as, curve inwardly, is bent along center line ML to the direction of user at two of display panel 100 edges.

In the present embodiment, by the setting of the first separation material PS1 in bending front display panel 100 and the second separation material PS2, can make the first separation material PS1 in display panel 100 upon bending and the second separation material PS2 can not be overlapping with data line DL1 ~ DL4, and active member TFT1 ~ TFT2 can not be skidded off, therefore other faces of separation material scratch can not be caused simultaneously.In addition, separation material can also maintain same height, avoids the gap error that difference in height produces.

Fig. 4 A is the upper schematic diagram of the display panel before bending of another embodiment of the present invention.Fig. 4 B is the upper schematic diagram of the display panel after bending of the embodiment of Fig. 4 A.Referring to Fig. 4 A and Fig. 4 B, the present embodiment is similar to the embodiment of Fig. 3 A to Fig. 3 B, and discrepancy is in the present embodiment, display panel more comprises many shared lines CL, and the first dot structure P1 and the second dot structure P2 comprises the first contact hole C1 and the second contact hole C2 more respectively.Bridging line CL and sweep trace SL1 ~ SL2 belongs to same rete.The extension of first drain D 1 of the first active member TFT1 of the first dot structure P1 is electrically connected by the first contact hole C1 and the first pixel electrode PE1, and the extension of second drain D 2 of the second active member TFT2 of the second dot structure P2 is electrically connected by the second contact hole C2 and the second pixel electrode PE2.Wherein, the first contact hole C1 and the second contact hole C2 is overlapping with bridging line CL respectively.In addition, bridging line CL is electrically connected to common voltage (common voltage).

In addition, the first dot structure P1 of the present embodiment and the structure of the second dot structure P2 are centered by center line ML, present mirror image arrangement.That is, in the present embodiment, first active member of the first dot structure P1 is the left data line DL1 being connected to the first dot structure P1, and second active member of the second dot structure P2 is the right side data line DL4 being connected to the second dot structure P2.In the present embodiment, can use and to curve inwardly or bandy method bends display panel, the present invention is not limited thereto.But the embodiment illustrated in Fig. 4 A to Fig. 4 B adopts aduncate method to bend display panel 100, thus bending before XL1>XL2 and XR1<XR2.It should be noted that in the present embodiment, owing to being adopt aduncate mode, therefore relative to before bending, upon bending, the first separation material PS1 and the second separation material PS2 can move towards the direction away from center line ML.

Similarly, in the present embodiment, by the setting of the first separation material PS1 in bending front display panel 100 and the second separation material PS2, can make the first separation material PS1 in display panel 100 upon bending and the second separation material PS2 can not be overlapping with data line DL1 ~ DL4, and active member TFT1 ~ TFT2 can not be skidded off, therefore other faces of separation material scratch can not be caused simultaneously.In addition, separation material can also maintain same height, avoids the gap error that difference in height produces.

Fig. 5 A is the upper schematic diagram of the display panel before bending of yet another embodiment of the invention.Fig. 5 B is the upper schematic diagram of the display panel after bending of the embodiment of Fig. 5 A.The embodiment of Fig. 5 A to Fig. 5 B is similar to the embodiment of Fig. 4 A to Fig. 4 B.The first active member TFT1 of the first dot structure P1 and the left data line DL1 of the first dot structure has a bee-line BL1, and the right side data line DL2 of the first active member TFT1 and the first dot structure P1 has a bee-line BR1.The second active member TFT2 of the second dot structure P2 and the left data line DL3 of the second dot structure has a bee-line BL2, and the right side data line DL4 of the second active member TFT2 and the second dot structure P2 has a bee-line BR2, and BL1 ≠ BL2.Specifically, in the present embodiment, BL1>BL2 and BR1<BR2, but the present invention does not limit therewith.In other embodiments, also can be BL1<BL2 and BR1>BR2.In the present embodiment, also can use and to curve inwardly or bandy method bends display panel, the present invention is not limited thereto.

Similarly, in the present embodiment, by the setting of the first active member TFT1 in bending front display panel 100 and the second active member TFT2, can make the first separation material PS1 in display panel 100 upon bending and the second separation material PS2 can not be overlapping with data line DL1 ~ DL4, and active member TFT1 ~ TFT2 can not be skidded off, therefore other faces of separation material scratch can not be caused simultaneously.In addition, separation material can also maintain same height, avoids the gap error that difference in height produces.

Fig. 6 A is the upper schematic diagram of the display panel before bending of further embodiment of this invention.Fig. 6 B is the upper schematic diagram of the display panel after bending of the embodiment of Fig. 6 A.The embodiment of Fig. 6 A to Fig. 6 B is similar to the embodiment of Fig. 3 A to Fig. 3 B, and discrepancy is in the present embodiment, and the first contact hole C1 and the second contact hole C2 overlaps with the first sweep trace SL1 and the second sweep trace SL2 respectively.In addition, the first dot structure P1 of the present embodiment and the second dot structure P2 is also that mirror image is arranged.In the present embodiment, between the first contact hole C1 of the first dot structure P1 and the left data line DL1 of the first dot structure P1, there is a bee-line WL1, and and between the right side data line DL2 of the first dot structure P1, there is a bee-line WR1.Between the second contact hole C2 of the second dot structure P2 and the left data line DL3 of the second dot structure P2, there is a bee-line WL2, and and between the right side data line DL4 of the second dot structure P2, there is a bee-line WR2.In addition, WL1 ≠ WL2.Specifically, in the present embodiment, WL1>WL2 and WR1<WR2, but the present invention does not limit therewith.In other embodiments, also can be WL1<WL2 and WR1>WR2.

In the present embodiment, by the setting of the first separation material PS1 in bending front display panel 100 and the second separation material PS2, the first separation material PS1 in display panel 100 upon bending and the second separation material PS2 can be made simultaneously overlappingly with data line DL1 ~ DL4 and contact hole C1 ~ C2 also can not can not to skid off active member TFT1 ~ TFT2, therefore other faces of separation material scratch can not be caused.In addition, separation material can also maintain same height, avoids the gap error that difference in height produces.

Fig. 7 A is the upper schematic diagram of the display panel before bending of one embodiment of the invention.Fig. 7 B is the upper schematic diagram of the display panel after bending of the embodiment of Fig. 7 A.The embodiment of Fig. 7 A to Fig. 7 B is similar to the embodiment of Fig. 6 A to Fig. 6 B, and discrepancy is in the present embodiment, and contact hole C1 ~ C2 is the left side being positioned at active member TFT1 ~ TFT2.In addition, the first separation material PS1 and the second separation material PS2 is not configured on the first active member TFT1 or the second active member TFT2.Specifically, before bending display panel, first separation material PS1 is configured on the first sweep trace SL1 and has a bee-line XD1 with the first contact hole C1 of the first dot structure P1, and the second separation material PS2 is configured on the second scanning SL2 and has a bee-line XD2 with the second contact hole C2 of the second dot structure P2, and XD1 ≠ XD2.In the present embodiment, also can use and to curve inwardly or bandy method bends display panel, the present invention is not limited thereto.

In the present embodiment, by the setting of the first separation material PS1 in bending front display panel 100 and the second separation material PS2, can make the first separation material PS1 in display panel 100 upon bending and the second separation material PS2 can not be overlapping with data line DL1 ~ DL4 and contact hole C1 ~ C2, and the first sweep trace SL1 or the second sweep trace SL2 can not be skidded off respectively, therefore other faces of separation material scratch can not be caused.In addition, separation material can also maintain same height, avoids the gap error that difference in height produces.

Fig. 8 A is the upper schematic diagram of the display panel before bending of another embodiment of the present invention.Fig. 8 B is the upper schematic diagram of the display panel after bending of the embodiment of Fig. 8 A.The embodiment of Fig. 8 A to Fig. 8 B is similar to the embodiment of Fig. 7 A to Fig. 7 B, and discrepancy is in the present embodiment, and contact hole C1 ~ C2 is the right side being positioned at active member TFT1 ~ TFT2.Be similar to the embodiment of Fig. 7 A to Fig. 7 B, the first separation material PS1 and the second separation material PS2 is not configured on the first active member TFT1 or the second active member TFT2.Specifically, before bending display panel, first separation material PS1 is configured on the first sweep trace SL1 and has a bee-line XD1 with the first contact hole C1 of the first dot structure P1, and the second separation material PS2 is configured on the second scanning SL2 and has a bee-line XD2 with the second contact hole C2 of the second dot structure P2, and XD1 ≠ XD2.In the present embodiment, also can use and to curve inwardly or bandy method bends display panel, the present invention is not limited thereto.

Similarly, in the present embodiment, by the setting of the first separation material PS1 in bending front display panel 100 and the second separation material PS2, can make the first separation material PS1 in display panel 100 upon bending and the second separation material PS2 can not be overlapping with data line DL1 ~ DL4 and contact hole C1 ~ C2, and the first sweep trace SL1 or the second sweep trace SL2 can not be skidded off respectively, therefore other faces of separation material scratch can not be caused.In addition, separation material can also maintain same height, avoids the gap error that difference in height produces.

Fig. 9 A is the upper schematic diagram of the display panel of another embodiment of the present invention.Please refer to Fig. 9 A, display panel 100 of the present invention has a center line ML.Display panel 100 is divided into an a first area R1 and second area R2 by center line ML.Display panel 100 has the multiple first dot structure P1 being positioned at first area R1 and the multiple second dot structure P2 being positioned at second area R2.Fig. 9 B is the upper schematic diagram of the display panel of further embodiment of this invention.Fig. 9 B is the upper schematic diagram of the display panel of another embodiment of the present invention.Please refer to Fig. 9 B, the embodiment of Fig. 9 B is roughly the same with the embodiment of Fig. 9 A, and discrepancy be the panel of the embodiment of Fig. 9 A be the panel of the embodiment of transverse type panel and Fig. 9 B for straight to formula panel.

It should be noted that the embodiment of Fig. 9 A and Fig. 9 B is similar to the embodiment of Figure 1A and Figure 1B, and discrepancy is in the embodiment of Fig. 9 A and Fig. 9 B, center line ML is extended by the right side of the left side of panel towards panel.That is, in the present embodiment, the bearing of trend of center line ML is parallel with the bearing of trend of sweep trace.

Figure 10 A is the upper schematic diagram of the display panel before bending of one embodiment of the invention.Figure 10 B is the upper schematic diagram of the display panel after bending of the embodiment of Figure 10 A.Referring to Figure 10 B and Figure 10 A, the present embodiment is similar to the embodiment of Fig. 5 A to Fig. 5 B, and discrepancy is in the present embodiment, and the bearing of trend of center line ML is parallel with the bearing of trend of sweep trace SL1 ~ SL2.In addition, the first dot structure P1 in the present embodiment and the second dot structure P2 structure are not arrangement in mirror image.Specifically, in the present embodiment, the first active member TFT1 of the first dot structure P1 and the left data line DL1 of the first dot structure P1 is electrically connected, and the left data line DL3 of the second active member TFT2 of the second dot structure P2 and the second dot structure P2 is electrically connected.First separation material PS1 and the first contact hole C1 of the first dot structure P1 have a bee-line XD1 in a vertical projection, and the second separation material PS2 of the second dot structure P2 and the second contact hole C2 has a bee-line XD2 in a vertical projection, and XD1 ≠ XD2.In the present embodiment, also can use and to curve inwardly or bandy method bends display panel, the present invention is not limited thereto.

In the present embodiment, by the setting of the first separation material PS1 in bending front display panel 100 and the second separation material PS2, separation material can maintain same height, avoids the gap error that difference in height produces.

Figure 11 A is the upper schematic diagram of the display panel before bending of another embodiment of the present invention.Figure 11 B is the upper schematic diagram of the display panel after bending of the embodiment of Figure 11 A.The embodiment of Figure 11 A and Figure 11 B is similar to the embodiment of Fig. 6 A to Fig. 6 B, and the first contact hole C1 and the second contact hole C2 overlaps with the first sweep trace SL1 and the second sweep trace SL2 respectively.And the embodiment discrepancy of the present embodiment and Fig. 6 A to Fig. 6 B is in the present embodiment, the bearing of trend of center line ML is parallel with the bearing of trend of sweep trace SL1 ~ SL2, that is the first dot structure P1 in the present embodiment and the second dot structure P2 is not arrangement in mirror image.In addition, the first separation material PS1 and the second separation material PS2 is not configured on the first active member TFT1 or the second active member TFT2.Specifically, before bending display panel, first separation material PS1 is configured on the first sweep trace SL1 and has a bee-line XD1 with the first contact hole C1 of the first dot structure P1, and the second separation material PS2 is configured on the second scanning SL2 and has a bee-line XD2 with the second contact hole C2 of the second dot structure P2, and XD1 ≠ XD2.In the present embodiment, also can use and to curve inwardly or bandy method bends display panel, the present invention is not limited thereto.

In the present embodiment, by the setting of the first separation material PS1 in bending front display panel 100 and the second separation material PS2, can make the first separation material PS1 in display panel 100 upon bending and the second separation material PS2 can not be overlapping with contact hole C1 ~ C2, and the first sweep trace SL1 or the second sweep trace SL2 can not be skidded off respectively, therefore other faces of separation material scratch can not be caused.In addition, separation material can also maintain same height, avoids the gap error that difference in height produces.

In the display panel of the various embodiments described above, chromatic filter layer and element layer are separately positioned on two different substrates, so the present invention is not limited thereto.According to other embodiments, technology of the present invention also can be applied in chromatic filter layer and element layer and arrange structure on the same substrate, is described in detail as follows.

Figure 12 is the diagrammatic cross-section of the display panel of another embodiment of the present invention.The embodiment of Figure 12 and Fig. 2 is similar, therefore similar portion just repeats no more at this.But difference is between the two that the chromatic filter layer 108 of the embodiment of Figure 12 is arranged on first substrate 102, to form COA (color filter onarray) structure.Specifically, chromatic filter layer 108 comprises multiple color filter patterns (not illustrating).Element layer 103 comprises the first active member TFT1, the second active member TFT2, protective seam 110, first pixel electrode PE1 and the second pixel electrode PE2.First active member TFT1 and the second active member TFT2 is configured on first substrate 102, and protective seam 110 covers on the first active member TFT1 and the second active member TFT2.Chromatic filter layer 108 is configured between active member TFT1 ~ TFT2 and pixel electrode PE1 ~ PE2.First pixel electrode PE1 and the second pixel electrode PE2 runs through chromatic filter layer 108 and protective seam 110 by the first contact hole C1 and the second contact hole C2 and is electrically connected with the first active member TFT1 and the second active member TFT2 respectively.

Figure 13 A is the upper schematic diagram of the display panel before bending of one embodiment of the invention.Figure 13 B is the upper schematic diagram of the display panel after bending of the embodiment of Figure 13 A.Namely the display panel of Figure 13 A and Figure 13 B is the display panel with COA structure shown in Figure 12.The embodiment of Figure 13 A to Figure 13 B is similar to the embodiment of Fig. 5 A to Fig. 5 B, discrepancy is in the present embodiment, the first contact hole C1 of the first dot structure P1 and the second contact hole C2 of the second dot structure P2 runs through the first color filter patterns CF1 and the second color filter patterns CF2 more respectively, is electrically connected respectively to make the first pixel electrode PE1 and the second pixel electrode PE2 with the extension of the extension of first drain D 1 of the first active member TFT1 and second drain D 2 of the second active member TFT2.

Be similar to the embodiment of Fig. 5 A to Fig. 5 B, in the present embodiment, the first active member TFT1 of the first dot structure P1 and the left data line DL1 of the first dot structure has a bee-line BL1, and the right side data line DL2 of the first active member TFT1 and the first dot structure P1 has a bee-line BR1.The second active member TFT2 of the second dot structure P2 and the left data line DL3 of the second dot structure has a bee-line BL2, and the right side data line DL4 of the second active member TFT2 and the second dot structure P2 has a bee-line BR2, and BL1 ≠ BL2.Specifically, in the present embodiment, BL1>BL2 and BR1<BR2, but the present invention does not limit therewith.In other embodiments, also can be BL1<BL2 and BR1>BR2.In the present embodiment, also can use and to curve inwardly or bandy method bends display panel, the present invention is not limited thereto.In addition, in the present embodiment, center line ML is parallel with data line DL1 ~ DL4 for illustrate, but the present invention is not limited thereto.In other embodiments, center line ML can also be parallel with sweep trace SL1 ~ SL2.

In the present embodiment, by the setting of the first separation material PS1 in bending front display panel 100 and the second separation material PS2, can make the first separation material PS1 in display panel 100 upon bending and the second separation material PS2 can not be overlapping with data line DL1 ~ DL4, and active member TFT1 ~ TFT2 can not be skidded off, therefore other faces of separation material scratch can not be caused simultaneously.In addition, separation material can also maintain same height, avoids the gap error that difference in height produces.

It is worth mentioning that, above-mentioned COA structure can also be applied in the structure of Fig. 3 A, Fig. 4 A, Fig. 6 A, Fig. 7 A, Fig. 8 A, Figure 10 A, Figure 11 A.

Figure 14 A is the upper schematic diagram of the display panel before bending of another embodiment of the present invention.Figure 14 B is the upper schematic diagram of the display panel after bending of the embodiment of Figure 14 A.The embodiment of Figure 14 A to Figure 14 B is similar to the embodiment of Fig. 3 A to Fig. 3 B, discrepancy is in the present embodiment, the first contact hole C1 of the first dot structure P1 and the second contact hole C2 of the second dot structure P2 runs through the first color filter patterns CF1 and the second color filter patterns CF2 more respectively, is electrically connected respectively to make the first pixel electrode PE1 and the second pixel electrode PE2 with the extension of the extension of first drain D 1 of the first active member TFT1 and second drain D 2 of the second active member TFT2.The first separation material PS1 of the first dot structure P1 has a bee-line ML1 with a left side edge of the first color filter patterns CF1 of the first corresponding dot structure P1, and the first separation material PS1 of the first dot structure P1 has a bee-line MR1 with a right side edge of the first color filter patterns CF1 of the first corresponding dot structure P1.The second separation material PS2 of the second dot structure P2 has a bee-line ML2 with a left side edge of the second color filter patterns CF2 of the second corresponding dot structure P2, the second separation material PS2 of the second dot structure P2 has a bee-line MR2 with a right side edge of the second color filter patterns CF2 of the second corresponding dot structure P2, and ML1 ≠ ML2.Specifically, the bending method of the present embodiment illustrates with being bent outwardly, therefore ML1<ML2 and MR1>MR2, but the present invention is not limited thereto.In other embodiments, the bending method of the present embodiment illustrates with being bent outwardly.In other examples, aduncate method can also be utilized to bend display panel.And in aduncate display panel, the ML1>ML2 before bending and MR1<MR2.In addition, in the present embodiment, center line ML is parallel with data line DL1 ~ DL4 for illustrate, but the present invention is not limited thereto.In other embodiments, center line ML can also be parallel with sweep trace SL1 ~ SL2.

In the present embodiment, by the setting of the first separation material PS1 in bending front display panel 100 and the second separation material PS2, the first separation material PS1 in display panel 100 upon bending and the second separation material PS2 can be made simultaneously also can not can not to skid off active member TFT1 ~ TFT2 with the imbricate of color filter patterns, therefore other faces of separation material scratch can not be caused.In addition, separation material can also maintain same height, avoids the gap error that difference in height produces.

Figure 15 is the schematic diagram of the curved displays module of one embodiment of the invention.Please refer to Figure 15, curved displays module 1000 comprises display panel 100, backlight module 200 and a panel bending part 300.Display panel 100 can be the explicit panel described in foregoing embodiments, and backlight module 200 is configured in the back side of display panel 100.Specifically, backlight module 200 can have light source and light guide plate simultaneously or only have light source.When backlight module 200 has light source and light guide plate simultaneously, light source can be arranged on the side of light guide plate, and the light penetrated by light source can incide by the guiding of light guide plate in display panel 100.When backlight module 200 only has light source, light source directly can be configured in the back side of display panel 100, and the light that light source is penetrated need not be directly incident on by the guiding of light guide plate in display panel 100.On the other hand, panel bending assembly 300 comprises framework 310 and screw rod 320, and is arranged on the back side of backlight module 200, forms forniciform explicit panel to make explicit panel 100.Wherein 310 and the material of screw rod 320 can be the malleable metal of tool, but Fa Benming is not limited thereto, and can be only to have framework 310.In addition, curved displays module 1000 also can have backboard 400, with standing screw 320.Curved displays module 1000 separately has encapsulation material 500 and is connected with backboard 400.

In sum, the design of mirror image is done in the position of separation material before bending by display panel of the present invention for bending direction, to make in display panel after bending, separation material still can not be overlapping with data line or contact hole.By this, other faces of separation material scratch can be avoided or the problem such as separation material is overlapping with protuberance.In addition, because separation material can not skid off on the element at original place, the generation of the problem of the gap error caused by difference in height can't therefore be caused.

Although the present invention discloses as above with embodiment; so itself and be not used to limit the present invention; have in any art and usually know the knowledgeable; without departing from the spirit and scope of the present invention; when doing a little change and retouching, therefore protection scope of the present invention is when being as the criterion depending on the accompanying claim person of defining.

Claims (17)

1. a display panel, is characterized in that, has a center line, and so that this display panel is divided into a first area and a second area, this display panel comprises:

One first substrate, a second substrate and the display medium between this first substrate and this second substrate;

Multi-strip scanning line and a plurality of data lines, be positioned on this first substrate;

Multiple first dot structure, to be positioned on this first substrate and to be positioned at this first area, and one of them of wherein one of them and these data lines of each these the first dot structure and these sweep traces is electrically connected;

Multiple second dot structure, to be positioned on this first substrate and to be positioned at this second area, wherein each these the second dot structure and these sweep traces wherein one and these data lines wherein one be electrically connected;

At least one first separation material, to be positioned on this second substrate and one of them of these the first dot structures corresponding is arranged, the bee-line wherein between this first separation material and a left data line of described first dot structure in a vertical projection be XL1 and and a bee-line on the right side of in the of one of described first dot structure between data line in described vertical projection be XR1;

At least one second separation material, to be positioned on this second substrate and one of them of these the second dot structures corresponding is arranged, a bee-line wherein between this second separation material and a left data line of described second dot structure in described vertical projection be XL2 and and a bee-line on the right side of in the of one of described second dot structure between data line in described vertical projection be XR2, and XL1 ≠ XL2.

2. display panel according to claim 1, is characterized in that:

XL1 > XL2 and XR1 < XR2; Or

XL1 < XL2 and XR1 > XR2.

3. display panel according to claim 1, is characterized in that, the bearing of trend of this center line is identical with the bearing of trend of these data lines.

4. display panel according to claim 1, is characterized in that:

One first pixel electrode that each these first dot structure comprises one first active member and is electrically connected with this first active member;

One second pixel electrode that each these second dot structure comprises one second active member and is electrically connected with this second active member, wherein

A bee-line between this left data line of this first active member and described first dot structure be BL1 and and described first dot structure this on the right side of a bee-line between data line be BR1; And

A bee-line between this left data line of this second active member and described second dot structure be BL2 and and described second dot structure this on the right side of a bee-line between data line be BR2, and BL1 ≠ BL2.

5. display panel according to claim 4, is characterized in that:

BL1 > BL2 and BR1 < BR2; Or

BL1 < BL2 and BR1 > BR2.

6. display panel according to claim 1, is characterized in that:

Each these first dot structure comprises one first contact hole, to be electrically connected the first active member and this first pixel electrode;

Each these second dot structure comprises one second contact hole, to be electrically connected the second active member and this second pixel electrode, wherein

A bee-line between this left data line of this first contact hole and described first dot structure be WL1 and and described first dot structure this on the right side of a bee-line between data line be WR1; And

A bee-line between this left data line of this second contact hole and described second dot structure be WL2 and and described second dot structure this on the right side of a bee-line between data line be WR2, and WL1 ≠ WL2.

7. display panel according to claim 6, is characterized in that:

WL1 > WL2 and WR1 < WR2; Or

WL1 < WL2 and WR1 > WR2.

8. display panel according to claim 1, is characterized in that:

Each these first dot structure comprises one first contact hole, to be electrically connected the first active member and this first pixel electrode;

Each these second dot structure comprises one second contact hole, to be electrically connected the second active member and this second pixel electrode, wherein

A bee-line between this first contact hole and this first separation material is XD1; And

A bee-line between this second contact hole and this second separation material is XD2, and XD1 ≠ XD2.

9. a display panel, is characterized in that, has a center line, and so that this display panel is divided into a first area and a second area, this display panel comprises:

One first substrate, a second substrate and the display medium between this first substrate and this second substrate;

Multi-strip scanning line and a plurality of data lines, be positioned on this first substrate:

Multiple first dot structure, to be positioned on this first substrate and to be positioned at this first area, wherein each these the first dot structure and these sweep traces wherein one and these data lines wherein one be electrically connected, each these first dot structure comprises one first active member and one first pixel electrode, and this first pixel electrode is electrically connected by one first contact hole and this first active member:

Multiple second dot structure, to be positioned on this first substrate and to be positioned at this second area, wherein each these the second dot structure and these sweep traces wherein one and these data lines wherein one be electrically connected, each these second dot structure comprises one second active member and one second pixel electrode, and this second pixel electrode is electrically connected by one second contact hole and this second active member;

At least one first separation material, is positioned on this second substrate and one of them of these the first dot structures corresponding is arranged, and the bee-line wherein between this first contact hole and this first separation material in a vertical projection is XD1;

At least one second separation material, is positioned on this second substrate and one of them of these the second dot structures corresponding is arranged, and the bee-line wherein between this second contact hole and this second separation material in described vertical projection is XD2, and XD1 ≠ XD2.

10. display panel according to claim 9, is characterized in that, the bearing of trend of this center line is identical with the bearing of trend of these data lines.

11. display panels according to claim 9, is characterized in that, the bearing of trend of this center line is identical with the bearing of trend of these scanning linears.

12. 1 kinds of bending display panels, is characterized in that, have a center line, and this display panel toward two lateral bends, and is divided into a first area and a second area from this center line by this display panel, and this display panel comprises:

One first substrate, a second substrate and the display medium between this first substrate and this second substrate;

Multi-strip scanning line and a plurality of data lines, be positioned on this first substrate;

Multiple first dot structure, to be positioned on this first substrate and to be positioned at this first area, wherein each these the first dot structure and these sweep traces wherein one and these data lines wherein one be electrically connected;

Multiple second dot structure, to be positioned on this first substrate and to be positioned at this second area, wherein each these the second dot structure and these sweep traces wherein one and these data lines wherein one be electrically connected;

Multiple color filter patterns, is positioned on this first substrate, and these first dot structures corresponding and these the second dot structures are arranged;

At least one first separation material, to be positioned on this second substrate and one of them of these the first dot structures corresponding is arranged, the bee-line wherein between this first separation material and a left side edge of this color filter patterns of corresponding described first dot structure be ML1 and and a bee-line between a right side edge of this color filter patterns of corresponding described first dot structure be MR1;

At least one second separation material, to be positioned on this second substrate and one of them of these the second dot structures corresponding is arranged, a bee-line wherein between this second separation material and a left side edge of this color filter patterns of corresponding described second dot structure be ML2 and and a bee-line between a right side edge of this color filter patterns of corresponding described second dot structure be MR2, and ML1 ≠ ML2.

13. bending display panels according to claim 12, is characterized in that:

ML1 > ML2 and MR1 < MR2; Or

ML1 < ML2 and MR1 > MR2.

14. bending display panels according to claim 12, it is characterized in that, the bearing of trend of this center line is identical with the bearing of trend of these data lines.

15. bending display panels according to claim 12, it is characterized in that, the bearing of trend of this center line is identical with the bearing of trend of these scanning linears.

16. bending display panels according to claim 12, is characterized in that:

One first pixel electrode that each these first dot structure comprises one first active member and is electrically connected with this first active member;

One second pixel electrode that each these second dot structure comprises one second active member and is electrically connected with this second active member, wherein

A bee-line between this first active member and a left data line of described first dot structure be BL1 and and a bee-line on the right side of in the of one of described first dot structure between data line be BR1; And

A bee-line between this second active member and a left data line of described second dot structure be BL2 and and a bee-line on the right side of in the of one of described second dot structure between data line be BR2, and BL1 ≠ BL2.

17. 1 kinds of curved displays modules, is characterized in that, comprising:

One display panel, this display panel is as described in claim 1 or 9;

One backlight module, is positioned at the back side of this display panel; And

One panel bending assembly, is installed at least side of this display panel, forms a bending display panel to make this display panel.