CN101303487A - Display panel and optoelectronic device - Google Patents

Abstract

The invention discloses a display panel and an electrooptical device. The display panel comprises a first base plate, a second base plate, a frame adhesive, a plurality of supporters and a display medium layer, wherein, the first base plate is provided with a pixel array and surrounding circuits; the frame adhesive, the supporters and the display medium layer are configured between the first base plate and the second base plate; the frame adhesive is arranged on part of the surrounding circuits and encircles the pixel array; the surrounding circuits are provided with a plurality of wire structures in the area covered by the frame adhesive, and a plurality of wire structures comprise a plurality of first wires and a plurality of second wires; the second wires are connected with the pixel array by the first wires, and the extending direction of the first wires is different from the extending direction of the second wires. Additionally, the supporters are distributed at both sides of the frame adhesive and each supporter is respectively positioned between two adjacent first wires.

Description

Display panel and electrooptical device

Technical field

The present invention relates to a kind of electrooptical device, and be particularly related to a kind of display panel.

Background technology

Figure 1A illustrates the part sectioned view of known a kind of display panel.Please refer to Figure 1A, display panel 110 comprises first substrate 120, second substrate 130, frame glue 140, a plurality of spherical gaps son 150 (ballspacer) (Figure 1A only illustrates and is example) and display dielectric layer 160.The perimeter circuit 120b that first substrate 120 has pel array 120a and is connected with pel array 120a.Second substrate 130 is disposed at first substrate top 120.Frame glue 140 is disposed between first substrate 120 and second substrate 130, and frame glue 140 is positioned on the part perimeter circuit 120b.And perimeter circuit 120 has conductor structure 122 in the zone that is covered by frame glue 140.Spherical gap 150 is disposed in the frame glue 140, in order to keep the gap g ' between first substrate 120 and second substrate 130.

By Figure 1A as can be known, the top of conductor structure 122 configuration insulation course PV ' is in order to guardwire structure 122.In detail, because frame glue 140 includes steam and/or solvent, then can make conductor structure 122 corrosion if directly contact with conductor structure 122.On the other hand, the quality of spherical gap 150 is harder, and insulation course PV ' is disposed between spherical gap son 150 and the conductor structure 122 then can produce buffer action, to slow down the external force that conductor structure 122 is born.

For dwindling the zone of perimeter circuit, display panel has the trend that designs towards narrow edge (slim border) gradually.Yet the perimeter circuit zone is narrow more, just compresses the arrangement space of conductor structure more.Therefore, the conductor structure of above-mentioned single rete then changes into by two retes and being constituted, shown in Figure 1B.

Figure 1B illustrates the part sectioned view of known another kind of display panel.Please refer to Figure 1B, display panel 110 ' is similar with the display panel 110 among Figure 1A, that is spherical gap 150 is still in the configuration block glue 140, and the two main difference of Figure 1A and Figure 1B is that the conductor structure in the display panel 110 ' is the multi-layer conductor leads structure 122 ' that is made of the first lead 122a and the second lead 122b.Between the first lead 122a and the second lead 122b insulation course GI ' is arranged, electrically connect in order to avoid the first lead 122a and the second lead 122b.And have insulation course PV ' to be covered in the top of the second lead 122b in addition, can be used to protect the second lead 122b.

Please be simultaneously with reference to Figure 1B, the top of multi-layer conductor leads structure 122 ' has insulation course PV ' to be protected, but spherical gap 150 be if still can destroy insulation course PV ' when excessive because of external force, even destroy the multi-layer conductor leads structure 122 ' of insulation course PV ' below.

Summary of the invention

The invention provides a kind of display panel, the stilt in this display panel can not destroy the multi-layer conductor leads structure in the zone that frame glue covered.

The present invention provides a kind of electrooptical device in addition, and it has above-mentioned display panel.

The present invention proposes a kind of display panel, and this display panel comprises first substrate, second substrate, frame glue, a plurality of stilt and display dielectric layer.The perimeter circuit that first substrate has pel array and is connected with pel array, and second substrate is disposed at first substrate top.Frame glue is disposed between first substrate and second substrate, and frame glue is positioned on the perimeter circuit of part and ring pixel array, and perimeter circuit has the multi-layer conductor leads structure in the zone that is covered by frame glue.Wherein, the multi-layer conductor leads structure comprises many first leads and many second leads.In addition, second lead is connected with pel array by first lead, and the bearing of trend of first lead is different with the bearing of trend of second lead.Stilt is disposed between first substrate and second substrate, and is distributed in frame glue both sides, and each stilt lays respectively between the two adjacent first wires.Display dielectric layer between first substrate and second substrate, and by frame glue institute around.

The present invention proposes a kind of electrooptical device in addition, and this electrooptical device comprises as above-mentioned display panel.

Stilt in electrooptical device of the present invention and the display panel is disposed at the both sides of frame glue, and therefore, the multi-layer conductor leads structure in the zone that is covered by frame glue can not suffer the destruction of stilt.

For above-mentioned feature and advantage of the present invention can be become apparent, preferred embodiment cited below particularly, and conjunction with figs. are described in detail below.

Description of drawings

Figure 1A illustrates the part sectioned view of known a kind of display panel.

Figure 1B illustrates the part sectioned view of known another kind of display panel.

Fig. 2 illustrates the partial top view of the display panel of one embodiment of the invention.

Fig. 2 A be according among Fig. 2 along the sectional view of L1-L1 ' profile line.

Fig. 2 B be according among Fig. 2 along the sectional view of L2-L2 ' profile line.

Fig. 3 illustrates the partial top view of another display panel of one embodiment of the invention.

Fig. 3 A be according among Fig. 3 along the sectional view of L3-L3 ' profile line.

Fig. 3 B be according among Fig. 3 along the sectional view of L4-L4 ' profile line.

Fig. 4 illustrates first stilt of one embodiment of the invention and the arrangement mode synoptic diagram of second stilt.

Fig. 5 illustrates first stilt of another embodiment of the present invention and the arrangement mode synoptic diagram of second stilt.

Fig. 6 illustrates the synoptic diagram of the electrooptical device of one embodiment of the invention.

Description of reference numerals

110,110 ': 120: the first substrates of display panel

120a: pel array 120b: perimeter circuit

122: conductor structure 122 ': the multi-layer conductor leads structure

122a: the first lead 122b: second lead

Substrate 140 in 130: the second: frame glue

150: spherical gap 160: display dielectric layer

G ': gap PV ': insulation course

100: 200: the first substrates of display panel

210: pel array 210a: pixel cell

210b: sweep trace 210c: data line

220: perimeter circuit 222: the multi-layer conductor leads structure

222a: the first lead 222b: second lead

Substrate 400 in 300: the second: frame glue

500: stilt 500a: first stilt

500b: second stilt 600: display dielectric layer

G: gap L 1-L1 ', L2-L2 ', L3-L3 ', L4-L4 ': profile line

GI, PV: insulation course M1: conductor layer No.1

M2: second conductor layer

Embodiment

Fig. 2 illustrates the partial top view of the display panel of one embodiment of the invention.Fig. 2 A be according among Fig. 2 along the sectional view of L1-L1 ' profile line.Wherein, Fig. 2 only illustrates part first substrate 200 in the display panel 100.Please join simultaneously according to Fig. 2 and Fig. 2 A, the display panel 100 of present embodiment comprises first substrate 200, second substrate 300, frame glue 400, a plurality of stilt 500 and display dielectric layer 600.

The perimeter circuit 220 that first substrate 200 has pel array 210 and is connected with pel array 210.

Second substrate 300 is disposed at first substrate top 200.

Frame glue 400 is disposed between first substrate 200 and second substrate 300, and frame glue 400 is positioned on the perimeter circuit 220 partly and ring pixel array 210.And perimeter circuit 200 has multi-layer conductor leads structure 222 in the zone that is covered by frame glue 400, and wherein multi-layer conductor leads structure 222 comprises many first lead 222a and many second lead 222b.In addition, the second lead 222b is connected with pel array 210 by the first lead 222a, and the bearing of trend of the bearing of trend of the first lead 222a and the second lead 222b is different in essence.

For instance, in the present embodiment, the first lead 222a is vertical in fact with frame glue 400, and the bearing of trend of the second lead 222b is parallel in fact with the bearing of trend of the frame glue 400 of its position.Yet in other embodiments, the first lead 222a and frame glue 400 also can present nonparallel being staggered.

Shown in Fig. 2 A, configuration insulation course GI between the rete M2 of the rete M1 of the first lead 222a and the second lead 222b electrically connects to avoid the first lead 222a and the second lead 222b.And put another insulation course of configuration PV on the rete of the second lead 222b, to protect the second lead 222b.

Stilt 500 is disposed between first substrate 200 and second substrate 300, and is distributed in frame glue 400 both sides, and each stilt 500 lays respectively between the two adjacent first wires 222a.Say that further the stilt 500 of present embodiment is disposed on the position that does not have 222 distributions of multi-layer conductor leads structure.In other words, there is not conductor structure 222 to exist under the stilt 500 of present embodiment.

Display dielectric layer 600 between first substrate 200 and second substrate 300, and by 400 in frame glue around.

For display dielectric layer 600 is disposed between first substrate 200 and second substrate 300, then first substrate 200 and second substrate 300 must be kept gap g.Yet, in the present embodiment, do not have stilt 500 in the frame glue 400.That is to say that the frame glue 400 of present embodiment does not have the function of keeping gap g in fact in order to first substrate 200 and second substrate 300 are adhered together.Therefore, stilt 500 is disposed at the both sides of frame glue 400, then stilt 500 can effectively make between first substrate 200 and second substrate 300 and keep gap g.

More specifically, the stilt 500 of present embodiment comprises a plurality of first stilt 500a and a plurality of second stilt 500b.Wherein, the first stilt 500a by 400 in frame glue around, and the second stilt 500b is disposed at outside the frame glue 400.

In detail, in the process that first substrate 200 and second substrate 300 are assembled, can exert pressure to first substrate 200 and second substrate 300 respectively, so that packaging technology can carry out smoothly.At this moment, each rete of the first stilt 500a, the second stilt 500b, insulation course PV and insulation course PV below also can bear assembling time institute's applied pressure.Yet when the pressure that is born as the first stilt 500a and the second stilt 500b was excessive, the first stilt 500a and the second stilt 500b just may injure the rete of insulation course PV and insulation course PV below.Because the first stilt 500a of present embodiment and the second stilt 500b are disposed on the position that does not have 222 distributions of multi-layer conductor leads structure.So the first lead 222a or the second lead 222b can not bear the pressure that stilt 500 is bestowed.And then avoid the first lead 222a and the second lead 222b to suffer the destruction of stilt 500, to guarantee can inerrably sending a signal to pixel cell 210a with sweep trace 210b and the data line 210c that the first lead 222a is connected with the second lead 222b respectively.

The pel array 210 of present embodiment comprises pixel cell 210a, multi-strip scanning line 210b and many data line 210c of a plurality of arrayed, and wherein sweep trace 210b and data line 210c all can electrically connect with pixel cell 210a.For example, sweep trace 210b is electrically connected to the grid of the transistor (not indicating) in the pixel cell 210a, data line 210c is electrically connected to the source electrode of the transistor (not indicating) in the pixel cell 210a, and the transistor in the pixel cell 210a (not indicating) is electrically connected to pixel electrode (not indicating).In addition, the part first lead 222a is connected with sweep trace 210b, and the part first lead 222a is connected with data line 210c.

On the practice, the part first lead 222a that is connected with sweep trace 210b can electrically connect by the second lead 222b and gate drivers (not illustrating), and then sweep trace 210b just can be sent to the sweep signal that gate drivers sent pixel cell 210a.On the other hand, the part first lead 222a that is connected with data line 210c can electrically connect by the second lead 222b and source electrode driver (not illustrating), and then data line 210c just can be sent to the data-signal that source electrode driver sent pixel cell 210a.

By Fig. 2 A as can be known, the part first lead 222a that is connected with sweep trace 210b for example is conductor layer No.1 M1, and the second lead 222b that is connected with these parts first lead 222a can be made of the conductor layer No.1 M1 and the second conductor layer M2, and the rete of the wherein adjacent second lead 222b is different each other.Yet this design helps to dwindle the zone of perimeter circuit 220.Must be noted that the indicated pixel cell 210a of Fig. 2 A is with the position representative at transistor (indicating) place, and transistorized number can be one or more.Wherein, the transistor kenel of Fig. 2 A is an example with the bottom gate type structure, but is not limited thereto, and also can adopt top gate type structure or other suitable construction.On the other hand, the part first lead 222a that is connected with data line 210c for example is the second conductor layer M2, and the second lead 222b that is connected with these parts first lead 222a also can be made of the conductor layer No.1 M1 and the second conductor layer M2, shown in Fig. 2 B.Fig. 2 B be according among Fig. 2 along the sectional view of L2-L2 ' profile line.By Fig. 2 B as can be known, the rete of the adjacent second lead 222b is also different each other.

From the above, stilt 500 is not set, therefore, when present embodiment is applied to have the display panel 100 of narrow edge, can guarantees that the first lead 222a and the second lead 222b do not suffer the destruction of stilt 500 owing to have in the glue frame 400.

In other embodiments, the second lead 222b also can present other sample attitude, as shown in Figure 3.Fig. 3 illustrates the partial top view of another display panel of one embodiment of the invention.Please refer to Fig. 3, the second lead 222b is configured in the zone at frame glue 400 places equably.So, the out-of-flatness situation between the frame glue 400 and first substrate 200 just can significantly reduce, with the clinging power between the further lifting frame glue 400 and first substrate 200.

Fig. 3 A be according among Fig. 3 along the sectional view of L3-L3 ' profile line, Fig. 3 B be according among Fig. 3 along the sectional view of L4-L4 ' profile line.Please earlier with reference to Fig. 3 and Fig. 3 A, the part first lead 222a that is connected with sweep trace 210b for example is conductor layer No.1 M1, and the second lead 222b that is connected with these parts first lead 222a for example is the second conductor layer M2.Referring again to Fig. 3 and Fig. 3 B, the part first lead 222a that is connected with data line 210c for example is the second conductor layer M2, and the second lead 222b that is connected with these parts first lead 222a for example is conductor layer No.1 M1.In simple terms, belong to different retes with the part first lead 222a (conductor layer No.1 M1) of sweep trace connection and the part first lead 222a (the second conductor layer M2) that is connected with data line.

So far above-mentioned, the first stilt 500a and the second stilt 500b for example are to be disposed between first substrate 200 and second substrate 300 along an annular trace arrangement mode.Yet, if desire promotes the anchorage force between first substrate 200 and second substrate 300, then the first stilt 500a and the second stilt 500b also can be to be disposed between first substrate 200 and second substrate 300, as shown in Figure 4 along two annular trace arrangement modes.

The present invention is not exceeded with first above-mentioned stilt 500a and the kenel of the second stilt 500b.In other embodiments, the first stilt 500a and the second stilt 500b also can be that arrangement mode with dislocation is disposed between first substrate 200 and second substrate 300 as shown in Figure 5.Certainly, the deviser can in response to the demand of product with the first stilt 500a and the second stilt 500b one of them along the annular trace arrangement mode, and another arrangement mode with dislocation disposes, or the combination of above-mentioned arrangement mode.

In addition, the stilt 500 of present embodiment for example is spherical stilt (ball spacers).Yet in other embodiments, stilt 500 also can be that light stilt (photo-spacers) or other can be kept the structure of gap g or above-mentioned combination.That is the present invention does not limit the form or the material of stilt 500.

Above-mentioned display panel 100 is applied in the electrooptical device, and wherein the framework of electrooptical device as shown in Figure 6.Fig. 6 illustrates the synoptic diagram of the electrooptical device of one embodiment of the invention.Please refer to Fig. 6, the electrooptical device 700 of present embodiment comprises display panel 100 and the electronic component 702 that electrically connects of display panel 100 therewith.The electronic component 702 of present embodiment comprises as control element, executive component, treatment element, input element, memory element, driving element, light-emitting component, protecting component, sensing element, detecing element or other function element or aforesaid combination.And the type of electrooptical device 700 comprises the panel in portable product (as mobile phone, video camera, camera, mobile computer, game machine, wrist-watch, music player, electronic mail transceiver, map navigator, digital photo or similar products like), video and audio product (as audio-visual projector or similar products like), screen, TV, billboard, the projector etc.

In addition, when the display medium in the display panel 100 600 is liquid crystal material, display panel 100 is called display panels (as: penetrating type display panel, the semi penetration type display panel, reflective display panel, colored filter display panel of (color filter on array) on active layers, active layers display panel of (array on color filter) on colored filter, vertical orientation type (VA) display panel, horizontal switch type (IPS) display panel, multi-domain perpendicular alignment-type (MVA) display panel, twisted nematic (TN) display panel, super-twist nematic (STN) display panel, pattern vertical orientation type (PVA) display panel, super pattern vertical orientation type (S-PVA) display panel, the advanced person is type (ASV) display panel with great visual angle, fringe field switch type (FFS) display panel, continuous fireworks shape arrange type (CPA) display panel, rotational symmetry is arranged micella type (ASM) display panel, optical compensation curved arrange type (OCB) display panel, super horizontal switch type (S-IPS) display panel, advanced super horizontal switch type (AS-IPS) display panel, extreme edge electric field switch type (UFFS) display panel, stabilizing polymer alignment-type display panel, double vision angle type (dual-view) display panel, three visual angle type (triple-view) display panels, 3 d display (three-dimensional) or other profile plate, or above-mentioned combination), also be called non-light-emitting display panel.If display medium 600 is the electroluminescence material, 100 of display panels are called electric exciting light emitting display panel (as: phosphorescence electric exciting light emitting display panel, fluorescence electric exciting light emitting display panel or above-mentioned combination), also be called light-emitting display panel, and its electroluminescence material can be organic material, organic material, inorganic material or above-mentioned combination, moreover the molecular size of above-mentioned material comprises micromolecule, macromolecule or above-mentioned combination.If display medium 600 comprises liquid crystal material and electroluminescence material simultaneously, then display panel 100 is called hybrid (hybrid) display panel or half self-luminescent display panel.

In sum, the design of display panel in the past all is that stilt is disposed in the frame glue, but stilt can directly or indirectly destroy the conductor structure that is disposed at frame glue below.Along with the rise of narrow edge display panel, the multi-layer conductor leads structure can be dwindled the zone of perimeter circuit, makes display panel have the advantage of narrow edge.Therefore, the problem of stilt destruction multi-layer conductor leads structure becomes more and more important.

Stilt in the display panel of the present invention is disposed at the both sides of frame glue, therefore can not wrecked by the multi-layer conductor leads structure in the zone that frame glue covered, and then effectively solve narrow edge design and the problem that causes the multi-layer conductor leads structure destroyed by stilt because bearing the pressure that stilt imposes.

Though the present invention discloses as above with preferred embodiment; right its is not in order to limit the present invention; any person of ordinary skill in the field; without departing from the spirit and scope of the present invention; when can doing a little change and retouching, so protection scope of the present invention is when looking being as the criterion that accompanying Claim defines.

Claims (10)

1. display panel comprises:

First substrate, the perimeter circuit that has pel array and be connected with this pel array;

Second substrate is disposed at this first substrate top;

Frame glue, be disposed between this first substrate and this second substrate, and this frame glue is positioned on this perimeter circuit partly and around this pel array, and this perimeter circuit has the multi-layer conductor leads structure in the zone that is covered by this frame glue, and this multi-layer conductor leads structure comprises:

Many first leads;

Many second leads are connected with this pel array by these first leads, and wherein the bearing of trend of these first leads is different with the bearing of trend of these second leads;

A plurality of stilts are disposed between this first substrate and this second substrate, and are distributed in this frame glue both sides, and respectively this stilt lays respectively between adjacent two first leads; And

Display dielectric layer, between this first substrate and this second substrate, and by this frame glue institute around.

2. display panel as claimed in claim 1, wherein this pel array comprises:

The pixel cell of a plurality of arrayed;

The multi-strip scanning line electrically connects with these pixel cells; And

Many data lines electrically connect with these pixel cells, and wherein these first leads of part are connected with these sweep traces, and these first leads of part are connected with these data lines.

3. display panel as claimed in claim 2 wherein belongs to different retes with these first leads of part of these sweep traces connections and these first leads of part that are connected with these data lines.

4. display panel as claimed in claim 1, wherein these stilts are disposed on this first substrate not on the position of this multi-layer conductor leads structure distribution.

5. display panel as claimed in claim 1, wherein these stilts comprise spherical stilt or light stilt.

6. display panel as claimed in claim 1 does not wherein have stilt in this frame glue.

7. display panels as claimed in claim 1, wherein these stilts comprise:

A plurality of first stilts, by this frame glue institute around, wherein respectively this first stilt is disposed at respectively between two first adjacent leads; And

A plurality of second stilts are disposed at outside this frame glue.

8. one of them is arranged or is dislocation arrangement along at least one annular trace at least for display panel as claimed in claim 7, these first stilts and these second stilts.

9. display panel as claimed in claim 1, wherein these first leads and this frame glue are staggered, and the bearing of trend of these second leads is parallel in fact with the bearing of trend of this frame glue of its position.

10. an electrooptical device comprises the described display panel of claim 1.

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