Specific embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than the embodiment of whole.It is based on
Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made
Embodiment, belongs to the scope of protection of the invention.
As shown in figure 1, Fig. 1 is a kind of structural representation of common electronic equipment in prior art, flexible touch-control shows
Panel 11 is arranged on the surface of body 12.Flexible touch-control display panel 11 can cover the side area 13 of body 12 so that side
Border area domain 13 can display image, and then improve electronic equipment display area, more image informations can be shown.
But, showing as flexible touch-control display panel 11 is integrated touch-control, electronic equipment shown in Fig. 1 is gripped in user
During, side area 13 will certainly be touched.Now, if electronic equipment touch-control working condition, it will gripping action is known
Not Wei touch control operation, cause maloperation.
In order to solve the above problems, a kind of touch-control display panel is embodiments provided, the touch-control display panel bag
Include:
The firstth area, the secondth area and the 3rd area for arranging successively in a first direction;
Firstth area and the 3rd area are non-coplanar with the secondth area;
Firstth area and the 3rd area are at least only used for image in the first operation mode with predetermined fraction region and show,
Carry out touch control detection simultaneously in the second operation mode and image shows.
In the touch-control display panel, the firstth area and the 3rd area are set at least there is predetermined fraction region in the first work
Image is only used under pattern to show, touch control detection is carried out simultaneously in the second operation mode and image is shown.So, when this is aobvious
When showing that panel works, if arranging the predetermined fraction region in the first mode of operation, predetermined fraction region is only used for image and shows,
Touch control detection is not used in, now user is gripped or touches the predetermined fraction region, is not result in that electronic equipment performs touch-control
Operation, if arranging the predetermined fraction region in the second mode of operation, predetermined fraction region be used for simultaneously carrying out touch control detection with
And image shows, now user can touch the predetermined fraction region and perform touch control operation.Therefore, the touch-control display panel energy
The user is enough avoided when gripping side area, to be identified as the problem of touch control operation, it is to avoid resulting maloperation.
In order that technical scheme provided in an embodiment of the present invention is clearer, below in conjunction with the accompanying drawings such scheme is carried out in detail
It is thin to describe.
It is a kind of structural representation of touch-control display panel provided in an embodiment of the present invention referring to figs. 2 and 3, Fig. 2, Fig. 3
For a kind of touch-control display panel provided in an embodiment of the present invention planar development when top view, the touch-control display panel includes:
The first area 21, the second area 22 and the 3rd area 23 for being arranged on X successively in a first direction.First area 21 and the 3rd area 23 with
Second area 22 is non-coplanar.At least there is predetermined fraction region only to use in the first operation mode for first area 21 and the 3rd area 23
Show in image, carry out touch control detection simultaneously in the second operation mode and image shows.
Specifically, touch-control display panel includes:Flexible base board 24;Multiple pixel cells 26 on flexible substrates are set with
And touch-control film layer 25.Wherein, flexible base board 24, touch-control film layer 25 and pixel cell 26 are stacked.
In the touch-control display panel, pixel cell 26 can be OLED cell, and the touch-control display panel is OLED display surfaces
Plate.
In Fig. 2 and touch-control display panel shown in Fig. 3, pixel cell 26 be located at touch-control film layer 25 and flexible base board 24 it
Between.Touch-control film layer 25 can now be arranged to arrange near the outside of touch-control display panel, flexible base board 24 is near touch-control display surface
The inner side of plate is arranged.
Touch-control film layer 25 can also be arranged in other embodiments to be located between display unit 26 and flexible base board 24, this
When can arrange display unit 26 near touch-control display panel outside arrange, flexible base board 24 is in touch-control display panel
Side is arranged.
Flexible base board 24 can also be arranged in other embodiments to be located between display unit 26 and touch-control film layer 25, this
When can arrange display unit 26 and touch-control film layer 25 one of arrange near the outside of touch-control display panel, another one is leaned on
The inner side of nearly touch-control display panel is arranged.
It should be noted that in the first area 21 touch-control film layer 25, pixel cell 26 and flexible base board 24 lamination order
For the first order, in the second area 22, the lamination order of touch-control film layer 25, pixel cell 26 and flexible base board 24 is the second order,
In 3rd area 23, the lamination order of touch-control film layer 25, pixel cell 26 and flexible base board 24 is the 3rd order.First order, the
Two orders and the 3rd order can be with identical or not exclusively same.
First area 21 and 23 axial symmetry of the 3rd area, and the symmetrical minute surface S of the two is perpendicular to first direction X.Firstth area is set
21 and 23 domain axial symmetry of the 3rd area, that is to say, that touch-control film layer 25, pixel cell 26 and flexible base board 24 in the first area 21
Lamination order is identical with the lamination order of touch-control film layer 25, pixel cell 26 and flexible base board 24 in the 3rd area 23.So, when
When first area 21 and the 3rd area 23 carry out touch control detection, when the first area 21 and the 3rd area 23 carry out touch control detection, can be using same
One precision, is easy to the first area 21 and the 3rd area 23 to carry out touch control detection using identical touch control detection algorithm.
In Fig. 2 with Fig. 3 illustrated embodiments, the second area 22 is plane, that is to say, that the outer surface in the second area 22 is flat
Face.First direction X parallel to the second area 22, and perpendicular to the first area 21 and the first public sideline L1 and second in the second area 22
Area 22 and the second public sideline L2 in the 3rd area 23.First area 21 and the 3rd area 23 it is symmetrical be arranged on the two of the second area 22
Side.
First area 21 faces away from the side bending of 21 display surface of the firstth area with the first public sideline L1 as broken line.3rd
Area 23 faces away from the side bending of 23 display surface of the 3rd area with the second public sideline L2 as broken line.Show based on second area 22
Region, the first area 21 and the 3rd area 23 are the symmetrical side viewing area for being arranged on 22 left and right sides of the secondth area.
First area 21 includes the first sub-district 31 and the second sub-district 32, and the first sub-district 31 is public with the 3rd of the second sub-district 32 the
Sideline L3 is parallel to the first public sideline L1;Second sub-district 32 is located between the first sub-district 31 and the second area 22;Second sub-district 32
With the first public sideline L1 as broken line, the side bending of 21 display surface of the firstth area is faced away from, and bending angle is less than 90 °;First
Sub-district 31 faces away from the side bending of 21 display surface of the firstth area with the 3rd public sideline L3 broken lines.
3rd area 23 includes the 3rd sub-district 33 and the 4th sub-district 34, and the 3rd sub-district 33 is public with the 4th of the 4th sub-district 34 the
Sideline L4 is parallel to the second public sideline L2;3rd sub-district 33 is located between the 4th sub-district 34 and the second area 22;3rd sub-district 33
With the second public sideline L2 as broken line, the side bending of 23 display surface of the 3rd area is faced away from, and bending angle is less than 90 °;4th
Sub-district 34 faces away from the side bending of 23 display surface of the 3rd area with the 4th public sideline L4 as broken line.
First public sideline L1, the second public sideline L2, the 3rd public sideline L3 and the 4th public sideline L4 mutually put down
OK, and it is each perpendicular to first direction X.
First sub-district 31 and the 4th sub-district 34 are each perpendicular to the second area 22.First sub-district 31 and the 4th can also be set
Angle β between sub-district 34 and the second area 22 is more than 90 °, as shown in figure 4, Fig. 4 is provided in an embodiment of the present invention another kind of tactile
The structural representation of control display floater.So, it is easy to watch the image that the first area 22 and 23 side of the 3rd area show.
In touch-control display panel provided in an embodiment of the present invention, all pixels unit 26 is used to connect same display driving
Circuit, with common target image.That is, the viewing area in the first area 21, the second area 22 and the 3rd area 23 is one
, three shows same image jointly.
In touch-control display panel provided in an embodiment of the present invention, the structure of touch-control film layer 25 can be with as shown in figure 5, Fig. 5 be
A kind of structural representation of touch-control film layer provided in an embodiment of the present invention, touch-control film layer 25 include:Corresponding to the portion in the first area 21
It is divided into the first touch-control film layer area 51, is the 3rd area 23 of the second touch-control film layer area 52 and correspondence corresponding to the part in the second area 22
Part is the 3rd touch-control film layer area 53.
First touch-control film layer area 51 at least have part insulate with the second touch-control film layer area 52, the 3rd touch-control film layer area 53 to
It is few that there is part to be insulated with the second touch-control film layer area 52, so that the first area 21 and the 3rd area 23 at least have predetermined fraction
Region is only used for image in the first operation mode and shows, carries out touch control detection simultaneously in the second operation mode and image is aobvious
Show.First area 21 part touch-control film layer 25 corresponding with the predetermined fraction region in the 3rd area 23 and 22 corresponding part of the secondth area
Touch-control film layer 25 insulate, in order to allow the first area 21 and predetermined fraction region in the 3rd area 23 is independent with the secondth area
Carry out touch control detection.
Under the first mode of operation and the second mode of operation, the secondth area equal 22 carries out touch control detection simultaneously and image is aobvious
Show.That is, under the first mode of operation and the second mode of operation, the second area 22 is when image display is carried out, it is also possible to
Perform touch control detection.
In mode shown in Fig. 5, the first touch-control film layer area 51 is fully located in the first area 21, and with the second touch-control film layer area
52 insulation.Second touch-control film layer area 52 is fully located in the second area 22.3rd touch-control film layer area 53 is fully located in the 3rd area 23,
And insulate with the second touch-control film layer area 52.
In the embodiment illustrated in figure 5, the first touch-control film layer area 51 does not carry out touch control detection in the first mode of operation, this
When the first area 21 only carry out image and show;3rd touch-control film layer area 53 does not carry out touch control detection in the first mode of operation, now
3rd area 23 only carries out image and shows.First touch-control film layer area 51 can carry out touch control detection in the second mode of operation, now
First area 21 is carrying out to carry out touch control detection while image shows, the 3rd touch-control film layer area 53 is in the second mode of operation
Touch control detection can be carried out, and now the 3rd area 23 is carrying out touch control detection being carried out while image shows.
In contact panel provided in an embodiment of the present invention, the structure of touch-control film layer 25 can be with as shown in fig. 6, Fig. 6 be as this
The structural representation of another kind of touch-control film layer that inventive embodiments are provided, in Fig. 6 illustrated embodiments, the first touch-control film layer area 51
It is fully located in the second sub-district 32, and insulate with the second touch-control film layer area 52.Second touch-control film layer area 52 is fully located at the secondth area
In 22.3rd touch-control film layer area 53 is fully located in the 3rd sub-district 33, and is insulated with the second touch-control film layer area 52.Now, touch-control
The relative region of film layer 25 is the second sub-district 32, the second area 22 and the 3rd sub-district 33.First sub-district 31 and the 4th sub-district 34
It is not provided with touch-control film layer.
It should be noted that above-mentioned firstth area 21 and 33 minute surface of the 3rd area symmetrically refer to the shape and each functional layer of the two
Lamination order, has identical touch control detection precision in order to two regions, not walking including the two corresponding touch-control film layer 25
Line.That is, with the cabling in 21 corresponding part touch-control film layer area 25 of the firstth area can and with 33 corresponding part of the 3rd area
The cabling in touch-control film layer area 25 is asymmetric, it is also possible to arrange two-part cabling symmetrical.
In Fig. 6 illustrated embodiments, the first touch-control film layer area 51 does not carry out touch control detection in the first mode of operation, this
When the second sub-district 32 only carry out image and show;3rd touch-control film layer area 53 does not carry out touch control detection in the first mode of operation, this
When the 3rd sub-district 33 only carry out image and show.First touch-control film layer area 51 can carry out touch control detection in the second mode of operation,
Now the second sub-district 32 is carrying out touch control detection is carried out while image shows, the 3rd touch-control film layer area 53 is in the second work
Touch control detection can be carried out during pattern, and now the 3rd sub-district 33 is carrying out touch control detection being carried out while image shows.By
Touch-control film layer 25 is not provided with the first sub-district 31 and the 4th sub-district 34, therefore in the first mode of operation and the second Working mould
Formula, the first sub-district 31 and the 4th sub-district 34 can only carry out image and show.
In contact panel provided in an embodiment of the present invention, the structure of touch-control film layer 25 can be with as shown in fig. 7, Fig. 7 be as this
The structural representation of another touch-control film layer that inventive embodiments are provided, in Fig. 7 illustrated embodiments, the first touch-control film layer area 51
Including the first sub- touch-control film layer area 71 and the second sub- touch-control film layer area 72;It is sub that first sub- touch-control film layer area 71 is fully located at first
In area 31, the second sub- touch-control film layer area 72 is fully located in the second sub-district 32.Second touch-control film layer area 52 is fully located at the secondth area
In 22.First sub- touch-control film layer area 71,52 mutually insulated of the second sub- touch-control film layer area 72 and the second touch-control film layer area.3rd touches
Control film layer area 53 includes the 3rd sub- touch-control film layer area 73 and the 4th sub- touch-control film layer area 74;3rd sub- touch-control film layer area 73 is complete
In the 3rd sub-district 33, the 4th sub- touch-control film layer area 74 is fully located in the 4th sub-district 34;3rd sub- touch-control film layer area 73,
52 mutually insulated of four sub- touch-control film layer areas 74 and the second touch-control film layer area.
In the embodiment shown in figure 7, as the first sub- touch-control film layer area 71, the second sub- touch-control film layer area 72, second touch
Control film layer area 52, the 3rd sub- touch-control film layer area 73 and the 4th sub- 74 mutually insulated of touch-control film layer area, can cause the first sub-district
31st, the second sub-district 32, the 3rd sub-district 33 and the 4th sub-district 34 can relative to the second area 22 it is independent carry out touch control detection.
In the embodiment shown in figure 7, at least in the first sub- touch-control film layer area 71 and the second sub- touch-control film layer area 72
It is individual that touch control detection is not carried out in the first mode of operation, in the 3rd sub- touch-control film layer area 73 and the 4th sub- touch-control film layer area 74 extremely
Few one does not carry out touch control detection in the first mode of operation.First sub- touch-control film layer area 71, the second sub- touch-control film layer area 72,
Three sub- touch-control film layer areas 73 and the 4th sub- touch-control film layer area 74 carry out touch control detection in the second mode of operation.
In contact panel provided in an embodiment of the present invention, the structure of touch-control film layer 25 can be with as shown in figure 8, Fig. 8 be as this
The structural representation of another touch-control film layer that inventive embodiments are provided, in Fig. 8 illustrated embodiments, the second touch-control film layer area 52
It is fully located in the second area 22.
First touch-control film layer area 51 includes the first sub- touch-control film layer area 71 and the second sub- touch-control film layer area 72;First son is touched
Control film layer area 71 is fully located in the first sub-district 31, and the second sub- touch-control film layer area 72 is fully located in the second sub-district 32;First is sub
Touch-control film layer area 71 and the second sub- 72 mutually insulated of touch-control film layer area.
3rd touch-control film layer area 53 includes the 3rd sub- touch-control film layer area 73 and the 4th sub- touch-control film layer area 74;3rd son is touched
Control film layer area 73 is fully located in the 3rd sub-district 33, and the 4th sub- touch-control film layer area 74 is fully located in the 4th sub-district 34;3rd is sub
Touch-control film layer area 73 and the 4th sub- 74 mutually insulated of touch-control film layer area.
Second sub- touch-control film layer area 72, the second touch-control film layer area 52 and the 3rd sub- touch-control film layer area 73 are uniformly controlled
Overall touch layer, the second sub-district, the second area 22 and the 3rd sub-district share entirety touch layer.
In the embodiment shown in fig. 8, the second sub-district 32, the second area 22 and the 3rd sub-district 33 the first mode of operation with
Second mode of operation can carry out carrying out touch control detection while image shows.First sub- touch-control film layer area 71 is sub with the 4th
Touch-control film layer area 74 does not carry out touch control detection in the first mode of operation, and now the first sub-district 31 and the 4th sub-district 34 only carry out figure
As showing;First sub- touch-control film layer area 71 and the 4th sub- touch-control film layer area 74 carry out touch control detection in the second mode of operation, this
When the first sub-district 31 and the 4th sub-district 34 carry out image and show while touch control detection can be carried out.
Between touch-control film layer area and sub- touch-control film layer area, between touch-control film layer area and touch-control film layer area, sub- touch-control film layer area
Between sub- touch-control film layer area during mutually insulated, insulation is realized by gap.Realize touch-control film layer with part by gap
Between insulation, and interstitial site is set for crooked place, facilitates implementation the flexible bending of touch-control display panel, electrode will not be damaged
Structure, ensure that the mechanical strength of touch-control display panel.
In above-mentioned each embodiment, the first area 21 and the 3rd area 23 are folding face.In other embodiments, touch
Control display floater structure can with as shown in figure 9, Fig. 9 be another touch-control display panel provided in an embodiment of the present invention knot
Structure schematic diagram, in the embodiment, the first area 21 and the 3rd area 23 are smooth surface;First area 21 faces away from the first area 21
The curving of display surface is simultaneously fixed;3rd area 23 faces away from the curving of 23 display surface of the 3rd area and fixes.
By foregoing description, in touch-control display panel provided in an embodiment of the present invention, the first area 21 and the 3rd area
23 at least there is predetermined fraction region to be only used for image in the first operation mode shows, enters simultaneously in the second operation mode
Row touch control detection and image show.So, when the display floater works, if arranging the predetermined fraction region in the first work
Operation mode, predetermined fraction region are only used for image and show, are not used in touch control detection, and now user grips or touches this and presets
Subregion, is not result in that electronic equipment performs touch control operation, if arranging the predetermined fraction region in the second mode of operation, in advance
If subregion is used for carrying out touch control detection and image shows simultaneously, now user can touch the predetermined fraction region and hold
Row touch control operation.Therefore, the touch-control display panel can avoid user from being identified as touch control operation when gripping side area
Problem, it is to avoid resulting maloperation.
Based on above-mentioned touch-control display panel embodiment, another embodiment of the present invention additionally provides a kind of manufacture method, is used for
Above-mentioned touch-control display panel is made, the manufacture method such as Figure 10-Figure 12, Figure 10-Figure 12 are one kind provided in an embodiment of the present invention
Manufacture method flow chart, the manufacture method include:
Step S11:As shown in Figure 10, there is provided a flexible base board 24.
Step S12:As shown in figure 11, multiple pixel cells 26 and touch-control film layer 25, shape are formed on flexible base board 24
Into plane touch-control display panel.
Step S13:As shown in figure 12, will be divided into what is arranged successively on plane touch-control display panel in a first direction X
First area 21, the second area 22 and the 3rd area 23.
Step S14:As shown in Fig. 2 shaping to plane touch-control display panel so that the first area 21 and the 3rd
Area 23 is non-coplanar with the second area 22.
Wherein, at least there is predetermined fraction region to be only used in the first operation mode for the first area 21 and the 3rd area 23
Image shows, carries out touch control detection simultaneously in the second operation mode and image shows.
After forming touch-control film layer 25, according to touch-control display panel upper firstth areas 21 of X, the second area 22 and the in a first direction
The division in three areas 23, needs to pattern touch-control film layer 25, so that the first area 21 and the 3rd area 23 have default portion
Subregion is only used for image in the first operation mode and shows, carries out touch control detection and image simultaneously in the second operation mode
Show.
Manufacture method provided in an embodiment of the present invention can form the touch-control display panel of above-described embodiment offer, it is to avoid side
There is maloperation in border area domain, manufacture method is simple, low cost when being held.
Based on above-mentioned touch-control display panel embodiment, another embodiment of the present invention additionally provides a kind of electronic equipment, the electricity
As shown in figure 13, Figure 13 is the structural representation of a kind of electronic equipment provided in an embodiment of the present invention to sub- equipment, the electronic equipment
Including:Touch-control display panel and equipment body 131.Equipment body 131 includes backboard and body.Touch-control display panel is upper
State the touch-control display panel in embodiment.Touch-control display panel includes the first area 21, the second area 22 and the 3rd area 23.Touch-control shows
Show that panel has flexible base board 24, touch-control film layer 25 and pixel cell 26.
The electronic equipment can be mobile phone, panel computer and other there is the equipment of display function.The electronic equipment is left
Right side area (the first area 21 is left side region, and the 3rd area 23 is right edge region) can be shown, increased aobvious
Show area.Touch controlled key is shown in the first area 21 and/or the 3rd area 23, main viewing area is not take up, touch controlled key is used to replace existing
There is the mechanical key of electronic equipment.Such as can show for controlling the touch controlled key of volume in the first area 21 and/or the 3rd area 23,
The volume of control electronics, need not be separately provided the volume button of machinery.
Electronic equipment provided in an embodiment of the present invention, can be by control using the touch-control display panel in above-described embodiment
The switching of the first mode of operation and the second mode of operation, it is to avoid the first area 21 is touched when user grips the electronic equipment with
And the 3rd area 23 predetermined fraction region caused by maloperation, be easy to use.Meanwhile, can be in the first area 21 and the 3rd area 23
Touch controlled key is shown, main viewing area is not take up, touch controlled key is used for the mechanical key for replacing existing electronic equipment.
It should be noted that each embodiment is described by the way of progressive in this specification, each embodiment emphasis is said
Bright is all the difference with other embodiment, between each embodiment identical similar portion mutually referring to.For reality
It is for applying electronic equipment disclosed in example and manufacture method embodiment, corresponding with touch-control display panel embodiment due to which, institute
Fairly simple with what is described, related part is illustrated referring to touch-control display panel embodiment part.
The foregoing description of the disclosed embodiments, enables professional and technical personnel in the field to realize or using the present invention.
Various modifications to these embodiments will be apparent for those skilled in the art, as defined herein
General Principle can be realized without departing from the spirit or scope of the present invention in other embodiments.Therefore, the present invention
The embodiments shown herein is not intended to be limited to, and is to fit to and principles disclosed herein and features of novelty phase one
The most wide scope for causing.