CN106201106B - Touch display panel - Google Patents

Abstract

The invention discloses a touch display panel, which comprises an organic light-emitting display panel and a touch panel; the touch panel comprises a touch sensing electrode layer, a touch driving electrode layer and a first metal lead layer; the touch sensing electrode layer comprises a plurality of sub-touch sensing electrodes, and the touch driving electrode layer comprises a plurality of sub-touch driving electrodes; the sub-touch sensing electrodes are electrically insulated from the sub-touch driving electrodes; the first metal lead layer comprises a plurality of first metal leads which are respectively and electrically connected with the sub-touch sensing electrodes and the sub-touch driving electrodes; the additional metal layer between the touch panel and the packaging protection film of the organic light-emitting display panel comprises at least one first conversion metal wire, and the first conversion metal wire is electrically connected with a corresponding first metal lead; the first conversion metal wire and the first metal lead wire which is not electrically connected with the first conversion metal wire extend to the butt joint step of the touch panel and the organic light-emitting display panel.

Description

A kind of touch-control display panel

Technical field

The present embodiments relate to field of display technology more particularly to a kind of touch-control display panels.

Background technique

The direction of the development trend of touch-control display industry towards narrow frame is developed at present, and narrow frame design can make touch-control aobvious Show that the size of the viewing area of panel increases, brings better visual sense of beauty to user.

For the touch-control display panel for integrating touch function, frame portion is placed with a large amount of touching signals line, Touching signals line is connect with driving chip or flexible circuit board, for transmitting touching signals for the touch control electrode of viewing area.Because of touching The limitation for controlling the line width and line spacing of signal wire causes the narrow frame design of touch-control display panel to have limitation.

Summary of the invention

The present invention provide a kind of touch-control display panel and, for meeting user to the need of touch-control display panel narrow frame It asks.

The embodiment of the invention provides a kind of touch-control display panels, comprising:

Organic light emitting display panel and the touch panel above the organic light emitting display panel；

The touch panel includes touch-control sensing electrode layer, touch-driven electrode layer and the first metal wiring layer；The touching Controlling sensing electrode layer includes multiple sub- touch-control sensing electrodes, and the touch-driven electrode layer includes multiple sub- touch-driven electrodes； The multiple sub- touch-control sensing electrode and the multiple sub- touch-driven electrode are electrically insulated；First metal wiring layer includes A plurality of first metal lead wire, the multiple sub- touch-control sensing electrode and the multiple sub- touch-driven electrode respectively with it is described a plurality of First metal lead wire is electrically connected；

Additional metal layer is provided between the touch panel and the packaging protection film of the organic light emitting display panel； The additional metal layer includes at least one the first transition metal lines, the first transition metal line corresponding with one described first Metal lead wire is electrically connected；The first transition metal line extends to the touch panel and the organic light emitting display panel It docks at step；First metal lead wire not being electrically connected with the first transition metal line extends to the touch panel At the docking step of the organic light emitting display panel.

Touch-control display panel provided in an embodiment of the present invention passes through the encapsulation in touch panel and organic light emitting display panel Additional metal layer is set between protective film, which includes at least one the first transition metal lines.Multiple sub- touch-controls Sensing electrode and multiple sub- touch-driven electrodes are connect with a plurality of first metal lead wire respectively.In circumferential metal cabling area, need Metal routing is used to lead to sub- touch-control sensing electrode at touch panel and the docking step of organic light emitting display panel, into And it is connect with external driving circuit.To reduce circumferential metal cabling area, and then realize narrow frame, setting unit molecule touching of the present invention Control sensing electrode is led at touch panel and the docking step of organic light emitting display panel by the first transition metal line, part Sub- touch-control sensing electrode is led at touch panel and the docking step of organic light emitting display panel by the first metal lead wire.Tool Body, the first transition metal line of setting first metal lead wire corresponding with one is electrically connected, and the first transition metal line extends to touching It controls at panel and the docking step of the organic light emitting display panel；The first metal not being electrically connected with the first transition metal line Lead extends at touch panel and the docking step of organic light emitting display panel.The first metal in this way on touch-control display panel The additional metal layer on the packaging protection film surface layer of trace layer and organic light emitting display panel is formed double-level-metal cabling, makes The metal routing of sub- touch-control sensing electrode and driving chip or flexible circuit board circuit connection is set with two metal layers, to subtract The number of the metal routing of small single metal layer setting, can reduce metal routing peak width, realize that touch-control display panel is narrow Frame design.

Detailed description of the invention

Fig. 1 a is a kind of overlooking structure diagram of touch-control display panel provided in an embodiment of the present invention；

Fig. 1 b is the schematic diagram of the section structure in the direction AA along Fig. 1 a；

Fig. 2 a is the overlooking structure diagram of another touch-control display panel provided in an embodiment of the present invention；

Fig. 2 b is the schematic diagram of the section structure in the direction BB along Fig. 2 a；

Fig. 3 is the overlooking structure diagram of another touch-control display panel provided in an embodiment of the present invention；

Fig. 4 is the overlooking structure diagram of another touch-control display panel provided in an embodiment of the present invention；

Fig. 5 a is the overlooking structure diagram of another touch-control display panel provided in an embodiment of the present invention；

Fig. 5 b is the schematic diagram of the section structure in the direction CC along Fig. 5 a；

Fig. 6 a is the overlooking structure diagram of another touch-control display panel provided in an embodiment of the present invention；

Fig. 6 b is the schematic diagram of the section structure in the direction DD along Fig. 6 a.

Specific embodiment

The present invention is described in further detail with reference to the accompanying drawings and examples.It is understood that this place is retouched The specific embodiment stated is used only for explaining the present invention rather than limiting the invention.It also should be noted that in order to just Only the parts related to the present invention are shown in description, attached drawing rather than entire infrastructure.

Fig. 1 a is a kind of overlooking structure diagram of touch-control display panel provided in an embodiment of the present invention.Fig. 1 b is along Fig. 1 a The schematic diagram of the section structure in the middle direction AA.Referring to shown in Fig. 1 a and Fig. 1 b, touch-control display panel provided in this embodiment includes Machine light emitting display panel 10 and the touch panel 20 above organic light emitting display panel 10.Touch panel 20 includes touch-control Sensing electrode layer 21, touch-driven electrode layer 22 and the first metal wiring layer 23.Touch-control sensing electrode layer 21 includes multiple sub- touchings Sensing electrode 211 is controlled, touch-driven electrode layer 22 includes multiple sub- touch-driven electrodes 221.Multiple sub- touch-control sensing electrodes 211 It is electrically insulated with multiple sub- touch-driven electrodes 221.First metal wiring layer 23 includes a plurality of first metal lead wire 231, multiple Sub- touch-control sensing electrode 211 and multiple sub- touch-driven electrodes 221 are electrically connected with a plurality of first metal lead wire 231 respectively.Have Machine light emitting display panel 10 further includes packaging protection film 11.The packaging protection of touch panel 20 and organic light emitting display panel 10 Additional metal layer 12 is provided between film 11.Additional metal layer 12 includes at least one the first transition metal lines 121.First turn First metal lead wire 231 corresponding with one of metal wire 121 is changed to be electrically connected.First transition metal line 121 extends to touch panel 20 and organic light emitting display panel 10 docking step 30 at, not with the first transition metal line 121 be electrically connected the first metal Lead 231 also extends at touch panel 20 and the docking step 30 of organic light emitting display panel 10.

Referring to Fig. 1 a, the embodiment of the present invention passes through in two metal layers (the first metal wiring layer 23 and additional metal layer 12) Middle setting leads to sub- touch-control sensing electrode 211 at touch panel 20 and the docking step 30 of organic light emitting display panel 10 Metal wire.Fig. 1 a is illustratively arranged 2 the first metal lead wires 231 and sub- touch-control sensing electrode 211 is directly led to touch surface At plate 20 and the docking step 30 of organic light emitting display panel 10,2 121 one end of the first transition metal line of setting are respectively with first Metal lead wire 231 is electrically connected, and the other end extends at touch panel 20 and the docking step 30 of organic light emitting display panel 10. Therefore, the sub- touch-control sensing electrode 211 in part leads to touch panel 20 and organic light emitting display by the first transition metal line 121 At the docking step 30 of panel 10, the sub- touch-control sensing electrode 211 in part leads to touch panel 20 by the first metal lead wire 231 At the docking step 30 of organic light emitting display panel 10, it is arranged in same metal layer compared to by all metal wires, it can To reduce the number of metal routing in single metal layer, and then the peripheral metal routing region that can reduce touch-control display panel is wide Degree realizes touch-control display panel narrow frame design.

For example, touch-control display panel shares 4 row touch-control sensing electrodes, corresponding to need 4 metal lines by each son Touch-control sensing electrode is led at touch panel 20 and the docking step 30 of organic light emitting display panel 10, if being used alone first Metal wiring layer 23 makes metal lead wire, then every row touch-control sensing electrode requires and at least one the first metal lead wires 231 connections, therefore at least need 4 the first metal lead wires 231.To keep the homogeneity of signal on sub- touch-control sensing electrode, Each sub- touch-control sensing electrode both ends are all connected with first metal lead wire 231, it is therefore desirable to 8 the first metal lead wires be arranged 231, wherein the left side of sub- touch-control sensing electrode extending direction, 4 the first metal lead wires are arranged in 4 the first metal lead wires 231 231 are arranged in the right side of sub- touch-control sensing electrode extending direction.Therefore, touch-control display panel narrow side width of frame is equal to 4 first The sum of line width of metal lead wire 231 adds the sum of the line spacing of each first metal lead wire 231.Using the side of the embodiment of the present invention 2 the first metals are arranged using the first metal wiring layer 23 in the left side of sub- touch-control sensing electrode extending direction and/or right side in formula Lead 231 leads to the sub- touch-control sensing electrode in part at touch panel 20 and the docking step 30 of organic light emitting display panel 10 (illustratively 2 the first metal lead wires 231 are respectively set in the left and right side of sub- touch-control sensing electrode extending direction in Fig. 1 a will The sub- touch-control sensing electrode in part is led at touch panel 20 and the docking step 30 of organic light emitting display panel 10), then in son The left side and/or right side of touch-control sensing electrode extending direction reuse additional metal layer 12 and 2 first transition metal lines 121 are arranged Remaining sub- touch-control sensing electrode is led at touch panel 20 and the docking step 30 of organic light emitting display panel 10, theoretically Touch-control display panel border width is equal to the sum of line width (or 2 first transition metal lines 121 of 2 the first metal lead wires 231 The sum of line width) plus each first metal lead wire 231 the sum of line spacing (or the line spacing of each first transition metal line 121 it With), therefore metal routing peak width can be substantially reduced.

Optionally, referring to Fig. 1 b, the first transition metal line 121 can pass through the first via hole 13 first metal corresponding with one Lead 231 is electrically connected, and is filled with conductive silver paste in the first via hole 13.The embodiment of the present invention can be in organic light emitting display panel Integration packaging touch panel 20 again after the completion of 10 preparations, therefore can be by way of silver paste is perfused in the first via hole 13 by the One transition metal line 121 is electrically connected with corresponding first metal lead wire 231.In other embodiments, can also directly make The mode of the first via hole 13 is covered by the first transition metal line 121 and corresponding first metal lead wire with the first metal lead wire 231 231 are electrically connected.

It should be noted that touch-control sensing electrode layer and touching in touch-control display panel is illustratively arranged in Fig. 1 a and Fig. 1 b Control drive electrode layer is located at different layers, the i.e. different layer setting of touch-control sensing electrode layer and touch-driven electrode layer.In other embodiment party In formula, touch-control sensing electrode layer and touch-driven electrode layer can be arranged with same layer.

Fig. 2 a is the overlooking structure diagram of another touch-control display panel provided in an embodiment of the present invention.Fig. 2 b is along figure The schematic diagram of the section structure in the direction BB in 2a.Referring to fig. 2 shown in a and Fig. 2 b, unlike Fig. 1 a and Fig. 1 b, touch-control sensing electricity Pole layer 21 and the setting of 22 same layer of touch-driven electrode layer.First metal wiring layer 23 further includes multiple first metal bridges 232.Son Touch-control sensing electrode 211 includes multiple sub- touch-control sensing electrode blocks arranged in parallel；Sub- touch-driven electrode 221 includes parallel Multiple sub- touch-driven electrode blocks of column.Multiple first metal bridges 232 are by multiple sub- touchings of each sub- touch-control sensing electrode 211 It controls sensing electrode block to be electrically connected, and multiple sub- touch-driven electrode blocks of each sub- touch-driven electrode 221 is electrically connected It connects.

Fig. 3 is the overlooking structure diagram of another touch-control display panel provided in an embodiment of the present invention.Referring to Fig. 3 institute Show, unlike Fig. 2 a, multiple first metal bridges 232 are by multiple sub- touch-control sensings of each sub- touch-control sensing electrode 211 Electrode block is electrically connected.Electricity is driven by touch-control between multiple sub- touch-driven electrode blocks of each sub- touch-driven electrode 221 The connection of pole layer material.

Fig. 4 is the overlooking structure diagram of another touch-control display panel provided in an embodiment of the present invention.Institute referring to fig. 4 Show, unlike Fig. 2 a, multiple first metal bridges 232 drive multiple sub- touch-controls of each sub- touch-driven electrode 221 Electrode block is electrically connected.Pass through touch-control sensing electricity between multiple sub- touch-control sensing electrode blocks of each sub- touch-control sensing electrode 211 The connection of pole layer material.

Optionally, the present embodiment is at interval of the sub- touch-control sensing electrode of at least a line, and one first metal lead wire and one the is arranged One transition metal line is electrically connected.To reduce metal routing peak width as far as possible, it is preferred that at interval of the sub- touch-control sense of a line Electrode is surveyed, one first metal lead wire is set and one first transition metal line is electrically connected, theoretically, compared in one layer of metal layer Middle all metal wires for drawing sub- touch-control sensing electrode of setting, in this way setting can reduce one times of peripheral metal cabling area Field width degree.

Fig. 5 a is the overlooking structure diagram of another touch-control display panel provided in an embodiment of the present invention.Fig. 5 b is along figure The schematic diagram of the section structure in the direction CC in 5a.As shown in figure 5 a and 5b, additional metal layer 12 further includes multiple pad contacts 122 And a plurality of second transition metal line 123.Multiple pad contacts 122 are located at touch panel 20 and organic light emitting display panel 10 It docks at step 30.Multiple 122 one end of pad contact and the corresponding a plurality of conversion of second transition metal line 123 or a plurality of first are golden Belong to line 121 to be electrically connected, the other end and driving chip (IC) interface or flexible circuit board (FPC) are electrically connected, and are used for sub- touching Control sensing electrode 211 is connected with driving chip or flexible circuit board.A plurality of second transition metal line, 123 one end connects with multiple pads Point 122 is electrically connected, and the other end is electrically connected with corresponding a plurality of first metal lead wire 231.

Optionally, the embodiment of the present invention can add all first metal lead wires 231 by punching at docking step 30 The mode of point silver paste is connect with the second transition metal line 123 in additional metal layer 12 on packaging protection film 11, the second conversion Metal wire 123 and the first transition metal line 121 are connect with pad contact 122 at docking step 30, in subsequent encapsulation Driving chip (IC) or flexible circuit board (FPC) can be subjected to bonding conducting.

Fig. 6 a is the overlooking structure diagram of another touch-control display panel provided in an embodiment of the present invention.Fig. 6 b is along figure The schematic diagram of the section structure in the direction DD in 6a.As shown in figures 6 a and 6b, organic light emitting display panel 10 includes viewing area and non- Viewing area (not shown).A plurality of second metal lead wire 141 is provided in non-display area.First metal wiring layer 23 further includes multiple Second metal bridge 233.Multiple second metal bridges 233 are located at the dock of touch panel 20 and organic light emitting display panel 10 At rank 30.Multiple second metal bridge, 233 one end and corresponding a plurality of first metal lead wire 231 or a plurality of transition metal line 121 It is electrically connected, the other end is electrically connected with corresponding a plurality of second metal lead wire 141.A plurality of second metal lead wire 141 and driving Chip interface (IC) or flexible circuit board (FPC) are electrically connected.The first conversion gold in the present embodiment, on packaging protection film 11 Belong to line 121 and merely serves as auxiliary cabling use.The first transition metal line at docking step 30, on packaging protection film 11 121 are electrically connected by the second metal bridge 233 with the second metal lead wire 141 in organic light emitting display panel 10.Then have The second metal lead wire 141 in machine light emitting display panel 10 electrically connects with driving chip interface (IC) or flexible circuit board (FPC) It connects.

Optionally, multiple second metal bridges 233 pass through the second via hole 14 and corresponding a plurality of first transition metal line 121 It is electrically connected；Multiple second metal bridges 233 are electrically connected by third via hole 15 with corresponding a plurality of second metal lead wire 141 It connects；Conductive silver paste is filled in second via hole 14 and third via hole 15.

It should be noted that the second metal lead wire in organic light emitting display panel can nothing in order to save manufacturing process Metal layer need to additionally be increased, make to form the second metal lead wire conducive to original metal layer in organic light emitting display panel.Such as Organic light emitting display panel includes thin film transistor (TFT) and the thin film transistor (TFT) leakage that viewing area is located at viewing area in matrix arrangement The reflection electrode layer that pole is electrically connected.Thin film transistor (TFT) includes grid, source electrode and drain electrode.Second metal lead wire can with grid, Source electrode, drain electrode or the setting of reflection electrode layer same layer.

The touch-control display panel that the above embodiment of the present invention provides can also be flexible touch-control display panel, combination of touch control skill The advantages of art and flexible display technologies, not only has the characteristics that changeable type or flexible, can also realize touch control operation.The present invention Organic light emitting display panel need to be arranged to realize changeable type or flexible feature in the touch-control display panel that embodiment provides Including the first flexible substrate, touch panel includes the second flexible substrate.

It should be noted that having many something in common in Fig. 1 a- Fig. 6 b, something in common continues to use phase in subsequent drawings Same appended drawing reference, and something in common repeats no more.

Note that the above is only a better embodiment of the present invention and the applied technical principle.It will be appreciated by those skilled in the art that The invention is not limited to the specific embodiments described herein, be able to carry out for a person skilled in the art it is various it is apparent variation, It readjusts and substitutes without departing from protection scope of the present invention.Therefore, although being carried out by above embodiments to the present invention It is described in further detail, but the present invention is not limited to the above embodiments only, without departing from the inventive concept, also It may include more other equivalent embodiments, and the scope of the invention is determined by the scope of the appended claims.

Claims (10)

1. a kind of touch-control display panel characterized by comprising organic light emitting display panel and to be located at the organic light emission aobvious Show the touch panel above panel；

The touch panel includes touch-control sensing electrode layer, touch-driven electrode layer and the first metal wiring layer；The touch-control sense Surveying electrode layer includes multiple sub- touch-control sensing electrodes, and the touch-driven electrode layer includes multiple sub- touch-driven electrodes；It is described Multiple sub- touch-control sensing electrodes and the multiple sub- touch-driven electrode are electrically insulated；First metal wiring layer includes a plurality of First metal lead wire, the multiple sub- touch-control sensing electrode and the multiple sub- touch-driven electrode are respectively with described a plurality of first Metal lead wire is electrically connected；

Additional metal layer is provided between the touch panel and the packaging protection film of the organic light emitting display panel；It is described Additional metal layer includes at least one the first transition metal lines, the first transition metal line first metal corresponding with one Lead is electrically connected；The first transition metal line extends to the docking of the touch panel and the organic light emitting display panel At step；First metal lead wire not being electrically connected with the first transition metal line extends to the touch panel and institute It states at the docking step of organic light emitting display panel.

2. touch-control display panel according to claim 1, which is characterized in that the touch-control sensing electrode layer and the touch-control The different layer setting of drive electrode layer；The multiple sub- touch-control sensing electrode intersects with the multiple sub- touch-driven electrode insulation to be set It sets.

3. touch-control display panel according to claim 1, which is characterized in that the touch-control sensing electrode layer and the touch-control The setting of drive electrode layer same layer；First metal wiring layer further includes multiple first metal bridges；

The sub- touch-control sensing electrode includes multiple sub- touch-control sensing electrode blocks arranged in parallel；

The sub- touch-driven electrode includes multiple sub- touch-driven electrode blocks arranged in parallel；

The multiple first metal bridge is electric by the multiple sub- touch-control sensing electrode block of each sub- touch-control sensing electrode Property connection；And/or the multiple first metal bridge drives the multiple sub- touch-control of each sub- touch-driven electrode Electrode block is electrically connected.

4. touch-control display panel according to claim 1, which is characterized in that at interval of sub- touch-control sensing described at least a line Electrode, is arranged first metal lead wire and the first transition metal line is electrically connected.

5. touch-control display panel according to claim 1, which is characterized in that the additional metal layer further includes multiple pads Contact and a plurality of second transition metal line；The multiple pad contact is located at the touch panel and the organic light emitting display At the docking step of panel；

The multiple pad contact one end and the corresponding a plurality of second transition metal line or at least one the first conversion Metal wire is electrically connected, and the other end and driving chip interface or flexible circuit board are electrically connected；

Described a plurality of second transition metal line one end and the multiple pad contact are electrically connected, the other end with it is corresponding described more The first metal lead wire of item is electrically connected.

6. touch-control display panel according to claim 1, which is characterized in that the first transition metal line passes through the first mistake Corresponding first metal lead wire of Kong Yuyi is electrically connected；Conductive silver paste is filled in first via hole.

7. touch-control display panel according to claim 1, which is characterized in that the organic light emitting display panel includes display Area and non-display area；A plurality of second metal lead wire is provided in the non-display area；

First metal wiring layer further includes multiple second metal bridges；The multiple second metal bridge is located at the touch-control At panel and the docking step of the organic light emitting display panel；

The multiple second metal bridge one end and corresponding a plurality of first metal lead wire are at least one the first turns described Metal wire electric connection is changed, the other end is electrically connected with corresponding a plurality of second metal lead wire；A plurality of second metal Lead and driving chip interface or flexible circuit board are electrically connected.

8. touch-control display panel according to claim 7, which is characterized in that

The multiple second metal bridge is electrically connected by the second via hole with the corresponding a plurality of first transition metal line；Institute It states multiple second metal bridges and is electrically connected by third via hole with corresponding a plurality of second metal lead wire；Second mistake Conductive silver paste is filled in hole and the third via hole.

9. touch-control display panel according to claim 7, which is characterized in that the organic light emitting display panel includes being located at The reflection electrode layer that viewing area is electrically connected in the thin film transistor (TFT) of matrix arrangement and thin film transistor (TFT) drain electrode；

The thin film transistor (TFT) includes grid, source electrode and drain electrode；Second metal lead wire and the grid, the source electrode, institute State drain electrode or reflection electrode layer same layer setting.

10. touch-control display panel according to claim 1, which is characterized in that the organic light emitting display panel includes the One flexible substrate, the touch panel include the second flexible substrate.