CN209089023U - Terminal, liquid crystal display panel and Image Acquisition mould group - Google Patents

Abstract

The disclosure provides a kind of terminal, liquid crystal display panel and image capture module, wherein being about terminal, comprising: image capture device；Liquid crystal display panel, hole is provided in the liquid crystal display panel, and the position in the hole is corresponding with the described image acquisition camera lens of equipment；And light-emitting device array, the light-emitting device array are arranged at the hole.In accordance with an embodiment of the present disclosure, camera lens is corresponding with lower position of opening is shielded, and camera lens can realize the Image Acquisition operation such as take pictures, image with through hole.On the other hand, light-emitting device array is arranged in Kong Chu, so that the screen that camera lens upper area may be implemented in light-emitting device array is shown, so that the embodiment of the present disclosure, which can solve in comprehensive screen scheme, takes into account image collecting function and screen display function.

Description

Terminal, liquid crystal display panel and Image Acquisition mould group

Technical field

This disclosure relates to field of terminal technology more particularly to terminal, liquid crystal display panel and Image Acquisition mould group.

Background technique

In order to pursue the better display effect of mobile phone and more attractive appearance, current screen comprehensively is the trend of mobile phone development.

However there is no comprehensive screen designs that manufacturer can be realized truly 100% screen accounting at present, wherein one Main reason is that in order to which front camera is arranged, generally require that one piece of region is specially arranged in mobile phone front is preposition to accommodate Camera, and screen can not be set in this block region, to limit screen accounting, comprehensive screen is caused to be difficult to realize.

Utility model content

The disclosure provides terminal, liquid crystal display panel and Image Acquisition mould group, to solve deficiency in the related technology.

According to the first aspect of the embodiments of the present disclosure, a kind of terminal is provided, comprising:

Image capture device；

Liquid crystal display panel, hole is provided in the liquid crystal display panel, and the position in the hole and described image acquisition are set Standby camera lens is corresponding；With

Light-emitting device array, the light-emitting device array are arranged at the hole.

Optionally, the hole includes:

The first through hole being arranged in backlight layer and the second through-hole being arranged in filter layer, and the first through hole and the The position of two through-holes is corresponding.

Optionally, the light-emitting device array setting is set in the first through hole, and on the light-emitting device array It is equipped with hollow area, the position of the hollow area is corresponding with the camera lens.

Optionally, the light-emitting device array is movably disposed at the first through hole and is located on the camera lens Side, the moving range of the light-emitting device array are from the camera lens above to above the removal camera lens.

Optionally, the light-emitting device array is fixed at the first through hole and is located above the camera lens.

Optionally, the density of the driving circuit at the hole is corresponded in array substrate lower than the driving circuit outside the hole Density.

Optionally, the hole includes running through backlight layer, filter layer, the third through-hole of array substrate and liquid crystal layer.

Optionally, the light-emitting device array is located in the third through-hole, is arranged between protective layer and the camera lens.

Optionally, the terminal further include:

Light shield layer is arranged in the side wall in the hole of backlight layer, for blocking the light in the backlight layer into the hole.

Optionally, luminous less than the first part of the first pre-determined distance first to the distance of hole wall in the light-emitting device array The visual field of part angularly the light-emitting device array field angle center inclination.

According to the second aspect of an embodiment of the present disclosure, a kind of liquid crystal display panel is provided, comprising:

The hole being arranged in the liquid crystal display panel；And

Light-emitting device array, the light-emitting device array are arranged at the hole.

Optionally, the hole includes:

The first through hole being arranged in backlight layer and the second through-hole being arranged in filter layer, and the first through hole and the The position of two through-holes is corresponding.

Optionally, the light-emitting device array setting is set in the first through hole, and on the light-emitting device array It is equipped with hollow area.

Optionally, the light-emitting device array is movably disposed at the first through hole, the light-emitting device array Moving range be from the first through hole to outside the first through hole.

Optionally, the light-emitting device array is fixed at the first through hole.

Optionally, the density of the driving circuit at the hole is corresponded in array substrate lower than the driving circuit outside the hole Density.

Optionally, the hole includes running through backlight layer, filter layer, the third through-hole of array substrate and liquid crystal layer.

Optionally, the light-emitting device array is located in the third through-hole, is arranged under protective layer.

Optionally, the liquid crystal display panel further include:

Light shield layer is arranged in the side wall in the hole of backlight layer, for blocking the light in the backlight layer into the hole.

Optionally, luminous less than the first part of the first pre-determined distance first to the distance of hole wall in the light-emitting device array The visual field of part angularly the light-emitting device array field angle center inclination.

Optionally, the position in the hole and the camera lens of image capture device are corresponding.

According to the third aspect of an embodiment of the present disclosure, a kind of Image Acquisition mould group is provided, comprising:

Camera lens and light-emitting device array；

The light-emitting device array is set to the camera lens peripheral location；The light-emitting device array is for realizing the mirror The image of head upper area is shown.

Optionally, the light-emitting device array is set to the camera lens peripheral location, comprising:

Hollow area is provided on the light-emitting device array；The position of the hollow area is opposite with the camera lens It answers.

Optionally, the light-emitting device array is set to the camera lens peripheral location, comprising:

The light-emitting device array is movably disposed above the camera lens；

The light-emitting device array moving range is from the camera lens above to above the removal camera lens.

Optionally, the light-emitting device array is set to the camera lens peripheral location, comprising:

The light-emitting device array is fixedly provided in above the camera lens.

Optionally, in the light-emitting device array to the light-emitting device array outer edge less than the of the first pre-determined distance The visual field of a part of light-emitting component angularly the light-emitting device array field angle center inclination.

Optionally, the camera lens is for corresponding with the hole in liquid crystal display panel；The light-emitting device array be used for Hole in liquid crystal display panel matches.

The technical scheme provided by this disclosed embodiment can include the following benefits:

As can be seen from the above embodiments, camera lens is corresponding with lower position of opening is shielded, and camera lens can be realized with through hole and take pictures, image Etc. Image Acquisition operation.On the other hand, light-emitting device array is arranged in Kong Chu, so that camera lens may be implemented in light-emitting device array The screen of upper area is shown, so that the embodiment of the present disclosure, which can solve in comprehensive screen scheme, takes into account image collecting function and screen Display function.

It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not The disclosure can be limited.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, and shows the implementation for meeting the disclosure Example, and together with specification for explaining the principles of this disclosure.

Fig. 1 is a kind of schematic diagram of the terminal shown in accordance with an embodiment of the present disclosure.

Fig. 2 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.

Fig. 3 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.

Fig. 4 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.

Fig. 5 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.

Fig. 6 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.

Fig. 7 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.

Fig. 8 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.

Fig. 9 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.

Figure 10 is a kind of schematic diagram of the liquid crystal display panel shown in accordance with an embodiment of the present disclosure.

Figure 11 is the schematic diagram of another liquid crystal display panel shown in accordance with an embodiment of the present disclosure.

Figure 12 is the schematic diagram of another liquid crystal display panel shown in accordance with an embodiment of the present disclosure.

Figure 13 is the schematic diagram of another liquid crystal display panel shown in accordance with an embodiment of the present disclosure.

Figure 14 is the schematic diagram of another liquid crystal display panel shown in accordance with an embodiment of the present disclosure.

Figure 15 is the schematic diagram of another liquid crystal display panel shown in accordance with an embodiment of the present disclosure.

Figure 16 is the schematic diagram of another liquid crystal display panel shown in accordance with an embodiment of the present disclosure.

Figure 17 is the schematic diagram of another liquid crystal display panel shown in accordance with an embodiment of the present disclosure.

Figure 18 is a kind of schematic diagram of the Image Acquisition mould group shown in accordance with an embodiment of the present disclosure.

Figure 19 is the schematic diagram of another Image Acquisition mould group shown in accordance with an embodiment of the present disclosure.

Figure 20 is the schematic diagram of another the Image Acquisition mould group shown in accordance with an embodiment of the present disclosure.

Figure 21 is the schematic diagram of another the Image Acquisition mould group shown in accordance with an embodiment of the present disclosure.

Figure 22 is the schematic diagram of another the Image Acquisition mould group shown in accordance with an embodiment of the present disclosure.

Figure 23 is the schematic diagram of another the Image Acquisition mould group shown in accordance with an embodiment of the present disclosure.

Figure 24 is the schematic diagram of another the Image Acquisition mould group shown in accordance with an embodiment of the present disclosure.

Figure 25 is a kind of schematic diagram of the display control method shown in accordance with an embodiment of the present disclosure.

Figure 26 is a kind of schematic diagram of the terminal shown in accordance with an embodiment of the present disclosure.

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all implementations consistent with this disclosure.On the contrary, they be only with it is such as appended The example of the consistent device and method of some aspects be described in detail in claims, the disclosure.

Realize at present the technical problem really shielded comprehensively first is that cannot be considered in terms of camera function and comprehensive screen shows function Energy.Utility model people is during solving above-mentioned technical problem, through studying, for liquid crystal display panel (Liquid Crystal Display, abbreviation LCD) as the mobile phone of screen for, in order to realize comprehensive screen, consider in liquid crystal display panel Camera is arranged in lower section, and in order to which camera is arranged below liquid crystal display panel, it needs to open up hole in liquid crystal display panel, then Camera is arranged in hole.Although camera can collect the image of mobile phone front with through hole, display is not had at hole Function, this leads to liquid crystal display panel when displaying an image, and the position of corresponding aperture can not show image, cannot achieve shield comprehensively it is whole The display effect of body.On the other hand, shield whole display effect comprehensively to realize, some solutions are will by hardware configuration Proactive part is changed to ejecting structure or other means, but no matter in many aspects such as cost or production technology and user experience All sacrificed.

Embodiment of the disclosure proposes a kind of terminal, which can be the electronics such as mobile phone, tablet computer, wearable device Equipment, the terminal may include: image capture device, liquid crystal display panel and light-emitting device array.

Wherein, hole is provided in liquid crystal display panel, the position in hole and the camera lens of image capture device are opposite.And hair Optical component array is arranged at above-mentioned hole.

It is appreciated that camera lens is corresponding with lower position of opening is shielded, camera lens can realize that the images such as take pictures, image are adopted with through hole Collection operation.On the other hand, light-emitting device array is arranged in Kong Chu, so that camera lens upper area may be implemented in light-emitting device array Screen show, so that the embodiment of the present disclosure, which can solve to take into account in comprehensive screen scheme, proactive takes pictures camera function and screen is shown Function.

A plurality of light-emitting elements in light-emitting device array are aobvious by the luminous image that the camera lens upper area may be implemented Show, so that terminal is also equipped with screen display function in Kong Chu, so that the screen that cannot achieve for solving tapping below screen is shown Show function, and then realizes the display effect of terminal screen entirety and be compatible with preceding camera shooting function.

In one embodiment, the light-emitting component in the light-emitting device array may include following at least one:

Light emitting diode (Light Emitting Diode abbreviation LED), Organic Light Emitting Diode (Organic Light- Emitting Diode abbreviation OLED) etc..

Wherein, the light emitting diode comprises at least one of the following:

Micro-led (Micro LED), mini light emitting diode (Mini LED) etc..

Since light emitting diode and Organic Light Emitting Diode can show multiple color, and size can make compared with It is small, convenient for light-emitting component is shown image as sub-pixel.

Fig. 1 is a kind of schematic diagram of the terminal shown in accordance with an embodiment of the present disclosure.As shown in Figure 1, the liquid crystal in terminal Display panel successively includes: backlight layer 3, array substrate 4, liquid crystal layer 5, filter layer 6, protective layer 7 from the bottom to top.It needs to illustrate It is that the hierarchical specification of above-mentioned liquid crystal display panel illustrates only for scheme, is possible to not only above-mentioned five layers in practical application, or Wherein certain it is several layers of be possible to be integrated into the multiple structural forms such as one layer, the embodiment of the present disclosure is without limitation.

Wherein, hole 8 includes:

The first through hole being arranged in backlight layer 3 and the second through-hole being arranged in filter layer 6, and the first through hole and The position of second through-hole is corresponding.

Refer to first through hole and the second through-hole in axis it should be noted that the position of first through hole and the second through-hole is corresponding There are overlapping regions on line direction, accordingly, it is ensured that light can pass through first through hole and the second through-hole.Optionally, first The axis of through-hole and the second through-hole is overlapped, and first through hole is identical with the shape of the second through-hole, and area equation works as light accordingly When vertical incidence liquid crystal display panel, light will not be blocked by the side wall of first through hole or the second through-hole, and image capture device is adopted The effect for collecting image is preferable.

As shown in Figure 1, the light-emitting device array 1 is arranged in the first through hole, and in the light-emitting device array 1 On be provided with hollow area, the position of the hollow area is corresponding with the camera lens 2.

It should be noted that the position of hollow area is corresponding with camera lens, refer to camera lens and hollow area in axis direction On there are overlapping regions, accordingly, it is ensured that light can be penetrated by the hollow area of light-emitting device array into camera lens.It is optional Ground, the axis of camera lens and the axis of hollow area are overlapped, and hollow area is equal or slightly larger than cutting for camera lens Vertical camera lens axis Face advantageously reduces light-emitting device array and shuts out the light into camera lens, so that camera lens receives more light, Jin Erbao accordingly Demonstrate,prove the effect of camera lens acquisition image.

The light that light-emitting component in light-emitting device array issues is shone in a manner of certain visual angle, then close The some light that the light-emitting component of hollow area issues can be overlapping in the space above camera lens, to realize in hollow area The display of side.

Fig. 2 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.

The positional relationship of camera lens and light-emitting device array is not limited to situation shown in FIG. 1 in the embodiment of the present disclosure, such as In Fig. 1, the plane where camera lens 2 is higher than light-emitting device array 1 and is formed by plane, and the plane where camera lens 2 can also be with Light-emitting device array 1 is formed by that plane is equal, and the plane where camera lens 2 can also be formed by lower than light-emitting device array 1 Plane.

As shown in Fig. 2, the plane where setting camera lens 2 is formed by plane lower than light-emitting device array 1, the disclosure is implemented Example may make light-emitting device array to realize Showing Effectiveness On Screen good as far as possible.

Structure in Fig. 1 and embodiment shown in Fig. 2 can according to need selection, as one embodiment, 2 institute of camera lens Plane and light-emitting device array 1 be formed by plane substantially in a plane, i.e., the difference in height of two interplanars is less than Second pre-determined distance, wherein the second pre-determined distance can be according to setting.Accordingly, in the embodiment shown in fig. 1, camera lens is adopted Collecting effect can be better, and in the embodiment shown in Figure 2, the effect that screen is shown can be better.

It should be noted that Fig. 1 and light-emitting device array shown in Fig. 2 are arranged in first through hole at lower edge, it is practical It can be not limited to lower edge in, the other positions in first through hole are set.

In the embodiment of the present disclosure, light-emitting device array is arranged in Kong Chu, so that camera lens may be implemented in light-emitting device array The screen of upper area is shown, in the concrete realization, can include but is not limited to following several display modes:

Mode one: control light-emitting device array shows pre-set image.

Pre-set image can be pre-set image, for example can be preset pure color pattern or certain predetermined pattern, Such as can be mobile phone brand icons, electricity icon, bluetooth icon, etc., or can directly be customized by the user and be ok.

Mode two: the display parameters of the 8 surrounding image of display interface mesoporous of liquid crystal display panel are obtained, and control the member that shines Part array shows image according to the display parameters of 8 surrounding image of hole.Wherein, display parameters include but is not limited to following at least one Kind: luminance parameter and color parameter.

In order to shield whole screen display effect comprehensively closer, user experience more preferably, in mode two, available liquid crystal display In the interface that panel is being shown, positioned at the display parameters of 8 surrounding image of hole, such as brightness, color etc., and then light-emitting component Array carries out screen according to the display parameters of the 8 surrounding image of hole of acquisition and shows, so that the image shown at hole seems and hole Surrounding image is close to an entirety.For example, if in current screen display interface, certain interface app is pink around hole 8 Color background interface, it is available to pink colour and the brightness parameter value at background interface in mode two, control light-emitting device array according to The pink colour and brightness parameter value realize that the screen at hole is shown, to realize more coherent display effect.

Mode three: the display content in the display interface of liquid crystal display panel at corresponding aperture 8 is obtained, and controls light-emitting component Array shows image according to the display content.

For example, hole 8 nearby will just be shown originally if the display interface of liquid crystal display panel is just interface The content shown is vital values " 10 ", and the corresponding screen portions in hole 8 are the position of " 1 ", the available display at hole 8 of mode three Content " 1 ", and control light-emitting device array and image " 1 " is shown according to the display content, and then realize preferably display experience.? That is due to being provided with hole in liquid crystal display panel, then the content meeting when liquid crystal display panel shows content, at hole It lacks, the display content at the hole is corresponded in the display interface of the available liquid crystal display panel of the present embodiment, in turn It controls the light-emitting device array and image is shown according to the display content, to be shown by light-emitting device array due to hole In the presence of and the content that lacks, guarantee that the image that show of liquid crystal display panel is complete and continuous, be conducive to raising display effect.

In one embodiment, the driving circuit of light-emitting device array and the driving circuit of the array substrate at hole can connect It is connected to the same signal input circuit, also can connect in different signal input circuits.

In one embodiment, the driving circuit of the array substrate at hole and the driving circuit of the array substrate outside hole can be with It is connected to the same signal input circuit, also can connect in different signal input circuits.

Connection type in above-described embodiment, which can according to need, to be selected.

As further embodiment, Fig. 3 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.

In one embodiment, as shown in figure 3, the terminal further include:

Light shield layer 9 is arranged in the side wall in the hole of backlight layer 3, for blocking described in the entrance of the light in the backlight layer 3 Hole.

In one embodiment, it since backlight layer 3 generally comprises light guide plate, when forming hole in backlight layer 3, will lead Hole is formed in tabula rasa, the light in light guide plate can enter the hole, and be mixed into the light of light-emitting component sending, influence at hole Display effect.

It blocks the light in the backlight layer 3 by setting light shield layer 9 and enters the hole, then it can be to avoid in backlight layer 3 Light enter the hole, thus avoid to light-emitting component issue light impact, advantageously ensure that the screen at hole is shown Effect.

In practical application, light shield layer can there are many realizing technique and implementation, such as using ink, fiber, coating, Extinction material, the light masking various ways such as material, if functionally may be implemented to shelter from light reduce to the greatest extent or avoid into Enter in hole, does not enumerate one by one herein.

Fig. 4 and Fig. 5 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.

As shown in Figure 4 and Figure 5, first in the light-emitting device array to the distance of hole wall less than the first pre-determined distance Distribute optical element 11 visual field angularly the light-emitting device array field angle center inclination.

Inclined by being arranged the field angle of first part's light-emitting component 11 to the field angle center of the light-emitting device array Tiltedly, the light that first part's light-emitting component 11 can be made to issue preferably covers the space of 2 or more camera lens, so that camera lens 2 upper areas realize better display effect.

It should be noted that the angular light-emitting component battle array of the visual field of first part's light-emitting component 11 in the embodiment of the present disclosure The inclined specific implementation in field angle center of column, in addition to inclined in plane inclination or arc-shaped face shown in Fig. 4 and Fig. 5 Outside structure, it may occur to persons skilled in the art that the deformation of a variety of incline structures, as long as first part can be made to send out after inclination The light that optical element 11 issues preferably covers the space of 2 or more camera lens, does not enumerate one by one herein.

As further scheme, the close of the driving circuit at the hole is corresponded in the embodiment of the present disclosure, in array substrate Degree is lower than the density of the driving circuit outside the hole, to realize better image collection effect.

In accordance with an embodiment of the present disclosure, for above-mentioned, there are the embodiment of array substrate and liquid crystal layer, Ke Yijin at hole The density that one step is arranged in array substrate corresponding to the driving circuit at hole accordingly can lower than the density of the driving circuit outside hole To reduce the density of the driving circuit at hole, to improve the transmitance of array substrate at hole, more light are worn It crosses array substrate and enters camera lens, be conducive to improve camera lens through the effect of hole acquisition image.

As further scheme, when image capture device acquires image, terminal be can control at hole in the embodiment of the present disclosure Liquid crystal layer in liquid crystal deflection light transmission, so that the light of access aperture can preferably enter camera lens through liquid crystal layer, so that mirror Head is more preferable through the effect of hole acquisition image.In the concrete realization, it can be realized in liquid crystal layer by the control of array substrate Liquid crystal deflection light transmission, it is of course also possible to control liquid crystal deflection light transmission otherwise, herein with no restrictions.

Fig. 6 and Fig. 7 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.

As shown in Figure 6 and Figure 7, hole 8 is provided in the liquid crystal display panel of terminal.

As one embodiment, the liquid crystal display panel in terminal successively includes: backlight layer 3, array substrate from the bottom to top 4, liquid crystal layer 5, filter layer 6, protective layer 7；Wherein, above-mentioned hole 8 includes: that the first through hole being arranged in backlight layer 3 and setting exist The second through-hole in filter layer 6, and the position of the first through hole and the second through-hole is corresponding.

Light-emitting device array 1 is movably disposed at first through hole and is located at 2 top of camera lens, light-emitting device array 1 Moving range is above camera lens 2 to removal camera lens 2.

In one embodiment, by being arranged light-emitting device array 1 above camera lens 2, so that light-emitting device array 1 can It is complete flat luminous to constitute one, advantageously ensure that the good illumination effect of light-emitting device array 1.In practical applications, The light-emitting device array can be coherent plane, is also possible to discrete distribution and constitutes plane.

The present embodiment can be set light-emitting device array 1 and be movably disposed at first through hole, light-emitting device array 1 Moving range is that, when image capture device acquires image, can control the member that shines to removing above camera lens 2 above camera lens 2 Part array 1 removes 2 top (such as shown in Fig. 6) of camera lens, guarantees the acquisition image effect of camera lens 2；It is shown in light-emitting device array 1 When image, control light-emitting device array 1 moves to 2 top (such as shown in Fig. 7) of camera lens, so that the light that light-emitting device array 1 issues Line can project from hole, realize the effect shown at hole.

In the present embodiment, light-emitting device array is movably disposed above camera lens 2, light-emitting device array can be direct Through hole emits beam on screen, realizes that the image of 2 upper area of camera lens is shown, and display effect is preferable.

It should be noted that for hollow area is arranged in above-mentioned light-emitting device array and light-emitting component is movably arranged In the embodiment of array, the light-emitting component on light-emitting device array is either LED, is also possible to OLED or other elements.

In one embodiment, the terminal further include:

Light shield layer is arranged in the side wall in the hole of backlight layer, for blocking the light in the backlight layer into the hole. Particular content is detailed in previous embodiment, and this will not be repeated here.

In one embodiment, first in the light-emitting device array to the distance of hole wall less than the first pre-determined distance Distribute optical element visual field angularly the light-emitting device array field angle center inclination.Particular content is detailed in previous embodiment, This will not be repeated here.

As further scheme, the close of the driving circuit at the hole is corresponded in the embodiment of the present disclosure, in array substrate Degree is lower than the density of the driving circuit outside the hole, to realize better image collection effect.

In one embodiment, light-emitting device array is arranged in Kong Chu, so that camera lens may be implemented in light-emitting device array The screen of upper area is shown, in the concrete realization, can include but is not limited to following several display modes:

Mode one: control light-emitting device array shows pre-set image.

Mode two: the display parameters of the 8 surrounding image of display interface mesoporous of liquid crystal display panel are obtained, and control the member that shines Part array shows image according to the display parameters of 8 surrounding image of hole.Wherein, display parameters include but is not limited to following at least one Kind: luminance parameter and color parameter.

Mode three: the display content in the display interface of liquid crystal display panel at corresponding aperture 8 is obtained, and controls light-emitting component Array shows image according to the display content.

As further scheme, when image capture device acquires image, terminal be can control at hole in the embodiment of the present disclosure Liquid crystal layer in liquid crystal deflection light transmission, so that the light of access aperture can preferably enter camera lens through liquid crystal layer, so that mirror Head is more preferable through the effect of hole acquisition image.In the concrete realization, it can be realized in liquid crystal layer by the control of array substrate Liquid crystal deflection light transmission, it is of course also possible to control liquid crystal deflection light transmission otherwise, herein with no restrictions.

In one embodiment, the driving circuit of light-emitting device array and the driving circuit of the array substrate at hole can connect It is connected to the same signal input circuit, also can connect in different signal input circuits.

In one embodiment, the driving circuit of the array substrate at hole and the driving circuit of the array substrate outside hole can be with It is connected to the same signal input circuit, also can connect in different signal input circuits.

Connection type in above-described embodiment, which can according to need, to be selected.

Fig. 8 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.As shown in figure 8, the liquid in terminal Hole 8 is provided in LCD panel.

As one embodiment, the liquid crystal display panel in terminal successively includes: backlight layer 3, array substrate from the bottom to top 4, liquid crystal layer 5, filter layer 6, protective layer 7；Wherein, above-mentioned hole 8 includes: that the first through hole being arranged in backlight layer 3 and setting exist The second through-hole in filter layer 6, and the position of the first through hole and the second through-hole is corresponding.The fixation of light-emitting device array 1 is set It sets at the first through hole and is located above camera lens 2.

Wherein, in practical applications, which can be coherent plane, be also possible to discrete distribution structure At plane.

In one embodiment, as shown in figure 8, light-emitting device array 1 can be fixed at the first through hole And it is located at 2 top of camera lens, further, the transmitance of light-emitting device array is greater than the first transmitance, and described first penetrates Rate is the thresholding transmitance value being arranged according to image acquisition request, which, which can be, requires energy according to specific model The proactive effect requirements enough received.In practical application, the transmitance of light-emitting device array is greater than or equal to the transmitance of liquid crystal layer, To meet the photographing request of the camera lens under light-emitting device array.That is, can choose the higher element of transmitance as hair Light-emitting component on optical component array, such as can choose OLED etc. as light-emitting component, so that more light can penetrate Light-emitting device array enters camera lens, so that the brightness of image of camera lens acquisition will not be too low.

Embodiment illustrated in fig. 8 realizes 2 upper area of camera lens due to being arranged light-emitting device array 1 above camera lens 2 Image is shown.

In one embodiment, the terminal further include:

Light shield layer is arranged in the side wall in the hole of backlight layer, for blocking the light in the backlight layer into the hole. Particular content is detailed in previous embodiment, and this will not be repeated here.

In one embodiment, first in the light-emitting device array to the distance of hole wall less than the first pre-determined distance Distribute optical element visual field angularly the light-emitting device array field angle center inclination.Particular content is detailed in previous embodiment, This will not be repeated here.

It further, can in described image acquisition equipment acquisition image for Fig. 1 to any embodiment shown in Fig. 8 With the liquid crystal deflection light transmission in the liquid crystal layer at control hole, so that the light of access aperture can preferably enter mirror through liquid crystal layer Head, so that camera lens is more preferable through the effect of hole acquisition image.

In one embodiment, light-emitting device array is arranged in Kong Chu, so that camera lens may be implemented in light-emitting device array The screen of upper area is shown, in the concrete realization, can include but is not limited to following several display modes:

Mode one: control light-emitting device array shows pre-set image.

Mode two: the display parameters of the 8 surrounding image of display interface mesoporous of liquid crystal display panel are obtained, and control the member that shines Part array shows image according to the display parameters of 8 surrounding image of hole.Wherein, display parameters include but is not limited to following at least one Kind: luminance parameter and color parameter.

Mode three: the display content in the display interface of liquid crystal display panel at corresponding aperture 8 is obtained, and controls light-emitting component Array shows image according to the display content.

As further scheme, the close of the driving circuit at the hole is corresponded in the embodiment of the present disclosure, in array substrate Degree is lower than the density of the driving circuit outside the hole, to realize better image collection effect.

In accordance with an embodiment of the present disclosure, for above-mentioned, there are the embodiment of array substrate and liquid crystal layer, Ke Yijin at hole The density that one step is arranged in array substrate corresponding to the driving circuit at hole accordingly can lower than the density of the driving circuit outside hole To reduce the density of the driving circuit at hole, to improve the transmitance of array substrate at hole, more light are worn It crosses array substrate and enters camera lens, be conducive to improve camera lens through the effect of hole acquisition image.

Optionally, the light-emitting device array includes the light-emitting component of n kind color；Wherein, the light-emitting device array is same Shi Faguang, the scan frequency that the driving circuit of the array substrate outside hole is located in the array substrate is f1, the array substrate In be located at the hole at array substrate driving circuit scan frequency be f2, wherein f2 >=f1.

Optionally, the light-emitting device array includes the light-emitting component of n kind color；

Wherein, light-emitting device array colour light emitting one by one is located at the array substrate outside hole in the array substrate The scan frequency of driving circuit is f1 ', and the scanning of the driving circuit of the array substrate at the hole is located in the array substrate Frequency is f2 ', wherein f2 ' >=nf1 '.

In one embodiment, the light-emitting mode of light-emitting device array can according to need setting.

Such as all light-emitting components in light-emitting device array shine simultaneously, then light-emitting device array is equivalent to a light Source, light-emitting device array can issue the light of n kind color in a scan period, then for the corresponding driving electricity of light-emitting component The scanning mode on road, can be identical as the scanning mode of the driving circuit outside hole, therefore f2=f1 can be set.

Such as light-emitting device array colour light emitting one by one, then the light-emitting component of each color is equivalent to a light source, one Light-emitting device array can issue the light of a kind of color in a scan period, then needing n scan period just to issue n kind face The light of color, in this case, in order to guarantee to show that the frequency of image shows that the frequency of image is identical with other regions at hole, just Need 1 scanning of n scan period of the driving circuit of the array substrate at hole and the driving circuit of the array substrate outside hole Period etc., then the scan frequency f2 ' of the driving circuit of the array substrate at hole and the drive of the array substrate outside hole can be set The relationship of the scan frequency f1 ' of dynamic circuit is f2 '=nf1 '.

It is contemplated that the driving circuit of the array substrate at hole and the driving circuit of the array substrate outside hole there may be Nonsynchronous situation, it is possible to appear in a scan period, the driving circuit driving sub-pixel of the array substrate outside hole is aobvious Show that the image of the i-th frame, the driving circuit driving sub-pixel of the array substrate at hole show the image of jth frame.

By taking all light-emitting components in light-emitting device array shine simultaneously as an example, the drive of the array substrate at hole can be improved The scan frequency of dynamic circuit, is arranged f2 > f1, so that the driving circuit driving sub-pixel of the array substrate outside hole shows the i-th frame In the period of image, the driving circuit of the array substrate at hole can drive the image of sub-pixel display jth frame.And specific f2 ratio F1 is how many greatly, can be determined according to the difference of i and j, f2=(| j-i |+1) * f1, such as j=i+1, then f2=can be set 2f1, so that so that the driving circuit driving sub-pixel of the array substrate outside hole was shown in the period of image of the i-th frame, at hole The driving circuit of array substrate can drive sub-pixel to show the image of the i-th frame and i+1 frame, realize within a scan period, The driving circuit driving sub-pixel of array substrate outside hole shows that the image of the i-th frame, the driving circuit of the array substrate at hole drive Mover pixel can also show the image of the i-th frame.

Similarly, f2 ' > nf1 ' can be set, specifically can be f2 ' > (| j-i |+1) * nf1 '.It so in conclusion can be with F2 >=f1, f2 ' >=nf1 ' are set.

In one embodiment, the driving circuit of light-emitting device array and the driving circuit of the array substrate at hole can connect It is connected to the same signal input circuit, also can connect in different signal input circuits.

In one embodiment, the driving circuit of the array substrate at hole and the driving circuit of the array substrate outside hole can be with It is connected to the same signal input circuit, also can connect in different signal input circuits.

Connection type in above-described embodiment, which can according to need, to be selected.

Fig. 9 is the schematic diagram of another terminal shown in accordance with an embodiment of the present disclosure.Liquid crystal in terminal as shown in Figure 9 Providing holes 8 in display panel.

As one embodiment, the liquid crystal display panel in terminal successively includes: backlight layer 3, array substrate from the bottom to top 4, liquid crystal layer 5, filter layer 6, protective layer 7；Wherein, which includes: through backlight layer 3 to the through-hole between filter layer 6.

As one embodiment, the liquid crystal display panel in terminal successively includes: backlight layer 3, array substrate from the bottom to top 4, liquid crystal layer 5, filter layer 6, protective layer 7；Wherein, hole 8 include: through backlight layer 3, filter layer 6, and, array substrate 4 and liquid The third through-hole of crystal layer 5.

As shown in figure 9, the light-emitting device array 1 is located in the third through-hole, it is arranged in protective layer 7 and the camera lens Between 2.Wherein, in practical applications, which can be coherent plane, is also possible to discrete distribution and constitutes Plane.

In one embodiment, as shown in figure 9, light-emitting device array 1 can be arranged in third through-hole, and by luminous member Part array is arranged between protective layer 7 and camera lens 2, is based on this, and light-emitting device array can emit beam directly up, realizes institute The image for stating 2 upper area of camera lens shows the display effect, it can be achieved that the preferable image of 2 upper area of camera lens.

It is possible to further which light-emitting device array 1 is attached to 7 lower section of protective layer, to guarantee that light-emitting device array 1 is penetrated Light out directly can show have preferable Showing Effectiveness On Screen on the screen by protective layer 7.

Further, the transmitance of light-emitting device array is greater than the first transmitance, and first transmitance is according to image Acquisition requires the thresholding transmitance value of setting, which, which can be, is required to the proactive of receiving according to specific model Effect requirements.In practical application, the transmitance of light-emitting device array is greater than or equal to the transmitance of liquid crystal layer, by LCD display In the case that plate and image capture device are used cooperatively, the photographing request of the camera lens under light-emitting device array can satisfy.Also It is to say, can choose the higher element of transmitance as the light-emitting component on light-emitting device array, such as can choose OLED etc. As light-emitting component.

Further, for embodiment shown in Fig. 9, in order to show more complicated image, light-emitting component can be directed to Each light-emitting component makes driving circuit in array, such as in the case where light-emitting component is OLED, can be by light-emitting component battle array Column are made as miniature OLED display panel, and being shone with to will pass through driving circuit driving light-emitting component shows complicated image.

In one embodiment, the terminal further include:

Light shield layer is arranged in the side wall in the hole of backlight layer, for blocking the light in the backlight layer into the hole. Particular content is detailed in previous embodiment, and this will not be repeated here.

In one embodiment, first in the light-emitting device array to the distance of hole wall less than the first pre-determined distance Distribute optical element visual field angularly the light-emitting device array field angle center inclination.Particular content is detailed in previous embodiment, This will not be repeated here.

In one embodiment, light-emitting device array is arranged in Kong Chu, so that camera lens may be implemented in light-emitting device array The screen of upper area is shown, in the concrete realization, can include but is not limited to following several display modes:

Mode one: control light-emitting device array shows pre-set image.

Mode two: the display parameters of the 8 surrounding image of display interface mesoporous of liquid crystal display panel are obtained, and control the member that shines Part array shows image according to the display parameters of 8 surrounding image of hole.Wherein, display parameters include but is not limited to following at least one Kind: luminance parameter and color parameter.

Mode three: the display content in the display interface of liquid crystal display panel at corresponding aperture 8 is obtained, and controls light-emitting component Array shows image according to the display content.

In one embodiment, signal input circuit can be separately configured for light-emitting device array, it can also be by luminous member The driving circuit of array substrate outside part array and hole is connected to the same signal input circuit.

Embodiment of the disclosure also proposes that a kind of liquid crystal display panel, the liquid crystal display panel include:

The hole being arranged in the liquid crystal display panel；And light-emitting device array, the light-emitting device array setting exist At the hole.

In accordance with an embodiment of the present disclosure, by the providing holes in liquid crystal display panel, and light-emitting device array setting is existed At hole, since light-emitting component can emit beam to form image, so that liquid crystal display panel can be in the corresponding position in hole Show image.

In an application scenarios, liquid crystal display panel can be used cooperatively with image capture device, image capture device Setting is below liquid crystal display panel, and the camera lens of image capture device is corresponding with the position in hole.Light-emitting device array In a plurality of light-emitting elements the image of the camera lens upper area may be implemented show by shining so that being also equipped with screen in Kong Chu Curtain display function so that solve tapping below screen cannot achieve screen display function, and then realizes terminal screen Whole display effect and preceding camera shooting function has been compatible with it.

In one embodiment, the light-emitting component in the light-emitting device array may include following at least one:

Light emitting diode, Organic Light Emitting Diode etc..

Wherein, the light emitting diode comprises at least one of the following:

It is micro-led, mini light emitting diode etc..

Since light emitting diode and Organic Light Emitting Diode can show multiple color, and size can make compared with It is small, convenient for light-emitting component is shown image as sub-pixel.

Figure 10 is a kind of schematic diagram of the liquid crystal display panel shown in accordance with an embodiment of the present disclosure.

As shown in Figure 10, liquid crystal display panel successively includes: backlight layer 3, array substrate 4, liquid crystal layer 5, filter from the bottom to top Photosphere 6, protective layer 7.It should be noted that the hierarchical specification of above-mentioned liquid crystal display panel illustrates only for scheme, in practical application It is possible that five layers not only above-mentioned, or wherein certain several layers of is possible to be integrated into the multiple structural forms such as one layer, the embodiment of the present disclosure It is without limitation.

Wherein, hole 8 includes:

The first through hole being arranged in backlight layer 3 and the second through-hole being arranged in filter layer 6, and the first through hole and The position of second through-hole is corresponding.

Refer to first through hole and the second through-hole in axis it should be noted that the position of first through hole and the second through-hole is corresponding There are overlapping regions on line direction, accordingly, it is ensured that light can pass through first through hole and the second through-hole.Optionally, first The axis of through-hole and the second through-hole is overlapped, and first through hole is identical with the shape of the second through-hole, and area equation works as light accordingly When vertical incidence liquid crystal display panel, light will not be blocked by the side wall of first through hole or the second through-hole, when in LCD display Image capture device is set below plate, and when the camera lens that image capture device is arranged is corresponding with the position in hole, Image Acquisition is set The effect of standby acquisition image is preferable.

As shown in Figure 10, the light-emitting device array 1 is arranged in the first through hole, and in the light-emitting device array Hollow area is provided on 1.

In one embodiment, by being provided with hollow area on light-emitting device array 1, light is allowed to pass through sky Heart district domain passes through light-emitting device array 1.It, can and then in the case where liquid crystal display panel and image capture device to be used cooperatively To guarantee that light can be penetrated by the hollow area of light-emitting device array into camera lens.Optionally, the axis of camera lens and hollow section The axis in domain is overlapped, and hollow area is equal or slightly larger than the section of camera lens Vertical camera lens axis, accordingly, advantageously reduces luminous Element arrays shut out the light into camera lens, so that camera lens receives more light, and then guarantee the effect of camera lens acquisition image.

The light that light-emitting component in light-emitting device array issues is shone in a manner of certain visual angle, then close The some light that the light-emitting component of hollow area issues can be overlapping in the space above camera lens, to realize in hollow area The display of side.

In the embodiment of the present disclosure, light-emitting device array is arranged in Kong Chu, so that camera lens may be implemented in light-emitting device array The screen of upper area is shown, in the concrete realization, can include but is not limited to following several display modes:

Mode one: control light-emitting device array shows pre-set image.

Pre-set image can be pre-set image, for example can be preset pure color pattern or certain predetermined pattern, Such as can be mobile phone brand icons, electricity icon, bluetooth icon, etc., or can directly be customized by the user and be ok.

Mode two: the display parameters of the 8 surrounding image of display interface mesoporous of liquid crystal display panel are obtained, and control the member that shines Part array shows image according to the display parameters of 8 surrounding image of hole.Wherein, display parameters include but is not limited to following at least one Kind: luminance parameter and color parameter.

In order to shield whole screen display effect comprehensively closer, user experience more preferably, in mode two, available liquid crystal display In the interface that panel is being shown, positioned at the display parameters of 8 surrounding image of hole, such as brightness, color etc., and then light-emitting component Array carries out screen according to the display parameters of the 8 surrounding image of hole of acquisition and shows, so that the image shown at hole seems and hole Surrounding image is close to an entirety.For example, if in current screen display interface, certain interface app is pink around hole 8 Color background interface, it is available to pink colour and the brightness parameter value at background interface in mode two, control light-emitting device array according to The pink colour and brightness parameter value realize that the screen at hole is shown, to realize more coherent display effect.

Mode three: the display content in the display interface of liquid crystal display panel at corresponding aperture 8 is obtained, and controls light-emitting component Array shows image according to the display content.

For example, hole 8 nearby will just be shown originally if the display interface of liquid crystal display panel is just interface The content shown is vital values " 10 ", and the corresponding screen portions in hole 8 are the position of " 1 ", the available display at hole 8 of mode three Content " 1 ", and control light-emitting device array and image " 1 " is shown according to the display content, and then realize preferably display experience.? That is due to being provided with hole in liquid crystal display panel, then the content meeting when liquid crystal display panel shows content, at hole It lacks, the display content at the hole is corresponded in the display interface of the available liquid crystal display panel of the present embodiment, in turn It controls the light-emitting device array and image is shown according to the display content, to be shown by light-emitting device array due to hole In the presence of and the content that lacks, guarantee that the image that show of liquid crystal display panel is complete and continuous, be conducive to raising display effect.

In one embodiment, the driving circuit of light-emitting device array and the driving circuit of the array substrate at hole can connect It is connected to the same signal input circuit, also can connect in different signal input circuits.

In one embodiment, the driving circuit of the array substrate at hole and the driving circuit of the array substrate outside hole can be with It is connected to the same signal input circuit, also can connect in different signal input circuits.

Connection type in above-described embodiment, which can according to need, to be selected.

As further embodiment, Figure 11 is showing for another liquid crystal display panel shown in accordance with an embodiment of the present disclosure It is intended to.

In one embodiment, as shown in figure 11, the liquid crystal display panel further include:

Light shield layer 9 is arranged in the side wall in the hole of backlight layer 3, for blocking described in the entrance of the light in the backlight layer 3 Hole.

In one embodiment, it since backlight layer 3 generally comprises light guide plate, when forming hole in backlight layer 3, will lead Hole is formed in tabula rasa, the light in light guide plate can enter the hole, and be mixed into the light of light-emitting component sending, influence at hole Showing Effectiveness On Screen.

In practical application, light shield layer can there are many realizing technique and implementation, such as using ink, fiber, coating, Extinction material, the light masking various ways such as material, if functionally may be implemented to shelter from light reduce to the greatest extent or avoid into Enter in hole, does not enumerate one by one herein.

Figure 12 and Figure 13 is the schematic diagram of another liquid crystal display panel shown in accordance with an embodiment of the present disclosure.

As shown in Figure 12 and Figure 13, in the light-emitting device array 1 to the distance of hole wall less than the of the first pre-determined distance The visual field of a part of light-emitting component angularly the light-emitting device array 1 field angle center inclination.

Inclined by being arranged the field angle of first part's light-emitting component 11 to the field angle center of the light-emitting device array Tiltedly, the light that first part's light-emitting component 11 can be made to issue preferably covers the space of 2 or more camera lens, so that camera lens 2 upper areas realize better display effect.

It should be noted that the angular light-emitting component battle array of the visual field of first part's light-emitting component 11 in the embodiment of the present disclosure The inclined specific implementation in field angle center of column, in addition to being tilted in plane inclination or arc-shaped face shown in Figure 12 and Figure 13 Structure outside, it may occur to persons skilled in the art that the deformation of a variety of incline structures, as long as first part can be made after inclination The light that light-emitting component 11 issues preferably covers the space of 2 or more camera lens, does not enumerate one by one herein.

As further scheme, the close of the driving circuit at the hole is corresponded in the embodiment of the present disclosure, in array substrate Degree is lower than the density of the driving circuit outside the hole, to realize better image collection effect.

In accordance with an embodiment of the present disclosure, for above-mentioned, there are the embodiment of array substrate and liquid crystal layer, Ke Yijin at hole The density that one step is arranged in array substrate corresponding to the driving circuit at hole accordingly can lower than the density of the driving circuit outside hole To reduce the density of the driving circuit at hole, to improve the transmitance of array substrate at hole, by liquid crystal display panel and image In the case that acquisition equipment is used cooperatively, enables more light to pass through array substrate and enter camera lens, be conducive to improve mirror Effect of the head through hole acquisition image.

As further scheme, when image capture device acquires image, liquid crystal display panel can be in the embodiment of the present disclosure Liquid crystal deflection light transmission in liquid crystal layer at control hole, so that the light of access aperture can preferably enter mirror through liquid crystal layer Head, so that camera lens is more preferable through the effect of hole acquisition image.In the concrete realization, liquid can be realized by the control of array substrate Liquid crystal deflection light transmission in crystal layer, it is of course also possible to control liquid crystal deflection light transmission otherwise, herein with no restrictions.

Figure 14 and Figure 15 is the schematic diagram of another liquid crystal display panel shown in accordance with an embodiment of the present disclosure.

As shown in Figure 14 and Figure 15, hole 8 is provided in liquid crystal display panel.

As one embodiment, liquid crystal display panel successively includes: backlight layer 3, array substrate 4, liquid crystal layer from the bottom to top 5, filter layer 6, protective layer 7；Wherein, above-mentioned hole 8 includes: the first through hole being arranged in backlight layer 3 and is arranged in filter layer 6 The second through-hole, and the position of the first through hole and the second through-hole is corresponding.

Light-emitting device array 1 is movably disposed at first through hole, and the moving range of light-emitting device array 1 is from first Outside through hole to first through hole.

In one embodiment, it by the way that light-emitting device array 1 to be movably disposed at first through hole, can will shine Element arrays 1 be made as one it is complete flat luminous, advantageously ensure that the good illumination effect of light-emitting device array 1.In reality In the application of border, which can be coherent plane, is also possible to discrete distribution and constitutes plane.

In the case where liquid crystal display panel and image capture device to be used cooperatively, the member that shines is can be set in the present embodiment Part array 1 is movably disposed at first through hole, and the moving range of light-emitting device array 1 is logical to first from first through hole Outside hole, to can control light-emitting device array 1 when image capture device acquires image and remove above camera lens, such as move on to First through hole is outer (such as shown in Figure 14), guarantees the effect of camera lens acquisition image；When light-emitting device array 1 shows image, control Light-emitting device array 1 processed moves to above camera lens, such as moves at first through hole (such as shown in Figure 15), so that light-emitting device array 1 light issued can project from hole, realize the effect shown at hole.

In the present embodiment, be movably disposed light-emitting device array, light-emitting device array can directly through hole to screen It emits beam on curtain, realizes that the image of 2 upper area of camera lens is shown, and display effect is preferable.

It should be noted that in the case where liquid crystal display panel and image capture device are used cooperatively, for above-mentioned hair It is arranged in hollow area and the embodiment of moveable setting light-emitting device array in optical component array, on light-emitting device array Light-emitting component either LED, is also possible to OLED or other elements.

In one embodiment, the liquid crystal display panel further include:

Light shield layer is arranged in the side wall in the hole of backlight layer, for blocking the light in the backlight layer into the hole. Particular content is detailed in previous embodiment, and this will not be repeated here.

In one embodiment, first in the light-emitting device array to the distance of hole wall less than the first pre-determined distance Distribute optical element visual field angularly the light-emitting device array field angle center inclination.Particular content is detailed in previous embodiment, This will not be repeated here.

As further scheme, the close of the driving circuit at the hole is corresponded in the embodiment of the present disclosure, in array substrate Degree is lower than the density of the driving circuit outside the hole, to realize better image collection effect.

In one embodiment, light-emitting device array is arranged in Kong Chu, so that camera lens may be implemented in light-emitting device array The screen of upper area is shown, in the concrete realization, can include but is not limited to following several display modes:

Mode one: control light-emitting device array shows pre-set image.

Mode two: the display parameters of the 8 surrounding image of display interface mesoporous of liquid crystal display panel are obtained, and control the member that shines Part array shows image according to the display parameters of 8 surrounding image of hole.Wherein, display parameters include but is not limited to following at least one Kind: luminance parameter and color parameter.

Mode three: the display content in the display interface of liquid crystal display panel at corresponding aperture 8 is obtained, and controls light-emitting component Array shows image according to the display content.

As further scheme, when image capture device acquires image, liquid crystal display panel can be in the embodiment of the present disclosure Liquid crystal deflection light transmission in liquid crystal layer at control hole, so that the light of access aperture can preferably enter mirror through liquid crystal layer Head, so that camera lens is more preferable through the effect of hole acquisition image.In the concrete realization, liquid can be realized by the control of array substrate Liquid crystal deflection light transmission in crystal layer, it is of course also possible to control liquid crystal deflection light transmission otherwise, herein with no restrictions.

In one embodiment, the driving circuit of light-emitting device array and the driving circuit of the array substrate at hole can connect It is connected to the same signal input circuit, also can connect in different signal input circuits.

In one embodiment, the driving circuit of the array substrate at hole and the driving circuit of the array substrate outside hole can be with It is connected to the same signal input circuit, also can connect in different signal input circuits.

Connection type in above-described embodiment, which can according to need, to be selected.

Figure 16 is the schematic diagram of another liquid crystal display panel shown in accordance with an embodiment of the present disclosure.As shown in figure 16, Hole 8 is provided in liquid crystal display panel.

As one embodiment, liquid crystal display panel successively includes: backlight layer 3, array substrate 4, liquid crystal layer from the bottom to top 5, filter layer 6, protective layer 7；Wherein, above-mentioned hole 8 includes: the first through hole being arranged in backlight layer 3 and is arranged in filter layer 6 The second through-hole, and the position of the first through hole and the second through-hole is corresponding.Light-emitting device array 1 is fixed at described One through hole.

Wherein, in practical applications, which can be coherent plane, be also possible to discrete distribution structure At plane.

In one embodiment, as shown in figure 16, light-emitting device array 1 can be fixed at the first through hole Place, further, the transmitance of light-emitting device array are greater than the first transmitance, and first transmitance is to be wanted according to Image Acquisition The thresholding transmitance value of setting is sought, which can be wants according to the proactive effect that specific model is required to receive It asks.In practical application, the transmitance of light-emitting device array is greater than or equal to the transmitance of liquid crystal layer, by liquid crystal display panel and figure In the case where being used cooperatively as acquisition equipment, the photographing request of the camera lens under light-emitting device array can satisfy.That is, can To select the higher element of transmitance as the light-emitting component on light-emitting device array, such as it can choose OLED etc. as luminous Element.

Embodiment illustrated in fig. 16 can be incited somebody to action in the case where liquid crystal display panel and image capture device to be used cooperatively Light-emitting device array 1 is arranged above camera lens, realizes that the image of camera lens upper area is shown.

In one embodiment, the liquid crystal display panel further include:

Light shield layer is arranged in the side wall in the hole of backlight layer, for blocking the light in the backlight layer into the hole. Particular content is detailed in previous embodiment, and this will not be repeated here.

In one embodiment, first in the light-emitting device array to the distance of hole wall less than the first pre-determined distance Distribute optical element visual field angularly the light-emitting device array field angle center inclination.Particular content is detailed in previous embodiment, This will not be repeated here.

Further, it for any embodiment shown in Figure 10 to Figure 16, is set by liquid crystal display panel and Image Acquisition In the case where being used cooperatively, in described image acquisition equipment acquisition image, the liquid crystal in the liquid crystal layer at hole can control Light transmission is deflected, so that the light of access aperture can preferably enter camera lens through liquid crystal layer, so that camera lens acquires image through hole Effect it is more preferable.

In one embodiment, light-emitting device array is arranged in Kong Chu, so that camera lens may be implemented in light-emitting device array The screen of upper area is shown, in the concrete realization, can include but is not limited to following several display modes:

Mode one: control light-emitting device array shows pre-set image.

Mode two: the display parameters of the 8 surrounding image of display interface mesoporous of liquid crystal display panel are obtained, and control the member that shines Part array shows image according to the display parameters of 8 surrounding image of hole.Wherein, display parameters include but is not limited to following at least one Kind: luminance parameter and color parameter.

Mode three: the display content in the display interface of liquid crystal display panel at corresponding aperture 8 is obtained, and controls light-emitting component Array shows image according to the display content.

As further scheme, the close of the driving circuit at the hole is corresponded in the embodiment of the present disclosure, in array substrate Degree is lower than the density of the driving circuit outside the hole, to realize better image collection effect.

In accordance with an embodiment of the present disclosure, for above-mentioned, there are the embodiment of array substrate and liquid crystal layer, Ke Yijin at hole The density that one step is arranged in array substrate corresponding to the driving circuit at hole accordingly can lower than the density of the driving circuit outside hole To reduce the density of the driving circuit at hole, to improve the transmitance of array substrate at hole.

In one embodiment, the driving circuit of light-emitting device array and the driving circuit of the array substrate at hole can connect It is connected to the same signal input circuit, also can connect in different signal input circuits.

In one embodiment, the driving circuit of the array substrate at hole and the driving circuit of the array substrate outside hole can be with It is connected to the same signal input circuit, also can connect in different signal input circuits.

Connection type in above-described embodiment, which can according to need, to be selected.

Optionally, the light-emitting device array includes the light-emitting component of n kind color；Wherein, the light-emitting device array is same Shi Faguang, the scan frequency that the driving circuit of the array substrate outside hole is located in the array substrate is f1, the array substrate In be located at the hole at array substrate driving circuit scan frequency be f2, wherein f2 >=f1.

Optionally, the light-emitting device array includes the light-emitting component of n kind color；

Wherein, light-emitting device array colour light emitting one by one is located at the array substrate outside hole in the array substrate The scan frequency of driving circuit is f1 ', and the scanning of the driving circuit of the array substrate at the hole is located in the array substrate Frequency is f2 ', wherein f2 ' >=nf1 '.

In one embodiment, the light-emitting mode of light-emitting device array can according to need setting.

Such as all light-emitting components in light-emitting device array shine simultaneously, then light-emitting device array is equivalent to a light Source, light-emitting device array can issue the light of n kind color in a scan period, then for the corresponding driving electricity of light-emitting component The scanning mode on road, can be identical as the scanning mode of the driving circuit outside hole, therefore f2=f1 can be set.

Such as light-emitting device array colour light emitting one by one, then the light-emitting component of each color is equivalent to a light source, one Light-emitting device array can issue the light of a kind of color in a scan period, then needing n scan period just to issue n kind face The light of color, in this case, in order to guarantee to show that the frequency of image shows that the frequency of image is identical with other regions at hole, just Need 1 scanning of n scan period of the driving circuit of the array substrate at hole and the driving circuit of the array substrate outside hole Period etc., then the scan frequency f2 ' of the driving circuit of the array substrate at hole and the drive of the array substrate outside hole can be set The relationship of the scan frequency f1 ' of dynamic circuit is f2 '=nf1 '.

It is contemplated that the driving circuit of the array substrate at hole and the driving circuit of the array substrate outside hole there may be Nonsynchronous situation, it is possible to appear in a scan period, the driving circuit driving sub-pixel of the array substrate outside hole is aobvious Show that the image of the i-th frame, the driving circuit driving sub-pixel of the array substrate at hole show the image of jth frame.

By taking all light-emitting components in light-emitting device array shine simultaneously as an example, the drive of the array substrate at hole can be improved The scan frequency of dynamic circuit, is arranged f2 > f1, so that the driving circuit driving sub-pixel of the array substrate outside hole shows the i-th frame In the period of image, the driving circuit of the array substrate at hole can drive the image of sub-pixel display jth frame.And specific f2 ratio F1 is how many greatly, can be determined according to the difference of i and j, f2=(| j-i |+1) * f1, such as j=i+1, then f2=can be set 2f1, so that so that the driving circuit driving sub-pixel of the array substrate outside hole was shown in the period of image of the i-th frame, at hole The driving circuit of array substrate can drive sub-pixel to show the image of the i-th frame and i+1 frame, realize within a scan period, The driving circuit driving sub-pixel of array substrate outside hole shows that the image of the i-th frame, the driving circuit of the array substrate at hole drive Mover pixel can also show the image of the i-th frame.

Similarly, f2 ' > nf1 ' can be set, specifically can be f2 ' > (| j-i |+1) * nf1 '.It so in conclusion can be with F2 >=f1, f2 ' >=nf1 ' are set.

Figure 17 is the schematic diagram of another the liquid crystal mesogens display panel shown in accordance with an embodiment of the present disclosure.Such as Figure 17 institute Show providing holes 8 in liquid crystal display panel.

As one embodiment, liquid crystal display panel successively includes: backlight layer 3, array substrate 4, liquid crystal layer from the bottom to top 5, filter layer 6, protective layer 7；Wherein, which includes: through backlight layer 3 to the through-hole between filter layer 6.

As one embodiment, liquid crystal display panel successively includes: backlight layer 3, array substrate 4, liquid crystal layer from the bottom to top 5, filter layer 6, protective layer 7；Wherein, hole 8 includes running through backlight layer 3, filter layer 6, and, the of array substrate 4 and liquid crystal layer 5 Three through-holes.

As shown in figure 17, the light-emitting device array 1 is located in the third through-hole, is arranged under protective layer 7.Its In, in practical applications, which can be coherent plane, is also possible to discrete distribution and constitutes plane.

In one embodiment, as shown in figure 17, light-emitting device array 1 can be set in third through-hole, and will be shone In the case that liquid crystal display panel and image capture device are used cooperatively by element arrays setting under protective layer 7, shine member Part array 1 can be set between protective layer 7 and the camera lens, be based on this, light-emitting device array can issue light directly up Line, realize image at hole show, it can be achieved that at hole preferable image display effect.

It is possible to further which light-emitting device array 1 is attached to 7 lower section of protective layer, to guarantee that light-emitting device array 1 is penetrated Light out directly can show have preferable Showing Effectiveness On Screen on the screen by protective layer 7.

Further, the transmitance of light-emitting device array is greater than the first transmitance, and first transmitance is according to image Acquisition requires the thresholding transmitance value of setting, which, which can be, is required to the proactive of receiving according to specific model Effect requirements.In practical application, the transmitance of light-emitting device array is greater than or equal to the transmitance of liquid crystal layer, by LCD display In the case that plate and image capture device are used cooperatively, the photographing request of the camera lens under light-emitting device array can satisfy.Also It is to say, can choose the higher element of transmitance as the light-emitting component on light-emitting device array, such as can choose OLED etc. As light-emitting component.

Further, for embodiment shown in Figure 17, in order to show more complicated image, light-emitting component can be directed to Each light-emitting component makes driving circuit in array, such as in the case where light-emitting component is OLED, can be by light-emitting component battle array Column are made as miniature OLED display panel, and being shone with to will pass through driving circuit driving light-emitting component shows complicated image.

In one embodiment, the liquid crystal display panel further include:

Light shield layer is arranged in the side wall in the hole of backlight layer, for blocking the light in the backlight layer into the hole. Particular content is detailed in previous embodiment, and this will not be repeated here.

In one embodiment, first in the light-emitting device array to the distance of hole wall less than the first pre-determined distance Distribute optical element visual field angularly the light-emitting device array field angle center inclination.Particular content is detailed in previous embodiment, This will not be repeated here.

In one embodiment, the position in the hole in liquid crystal display panel shown in above-described embodiment and Image Acquisition The camera lens of equipment is corresponding.Such as liquid crystal display panel shown in above-described embodiment and image capture device cooperation can be made With so that the hole in liquid crystal display panel is corresponding with the camera lens of image capture device.

In one embodiment, light-emitting device array is arranged in Kong Chu, so that camera lens may be implemented in light-emitting device array The screen of upper area is shown, in the concrete realization, can include but is not limited to following several display modes:

Mode one: control light-emitting device array shows pre-set image.

Mode two: the display parameters of the 8 surrounding image of display interface mesoporous of liquid crystal display panel are obtained, and control the member that shines Part array shows image according to the display parameters of 8 surrounding image of hole.Wherein, display parameters include but is not limited to following at least one Kind: luminance parameter and color parameter.

Mode three: the display content in the display interface of liquid crystal display panel at corresponding aperture 8 is obtained, and controls light-emitting component Array shows image according to the display content.

In one embodiment, signal input circuit can be separately configured for light-emitting device array, it can also be by luminous member The driving circuit of array substrate at part array and hole is connected to the same signal input circuit.

Embodiment of the disclosure also proposes a kind of Image Acquisition mould group, comprising:

Camera lens and light-emitting device array.Wherein, the light-emitting device array is set to the camera lens peripheral location；The hair Optical component array shows for realizing the image of the camera lens upper area.

In one embodiment of the disclosure, in above-mentioned Image Acquisition mould group, light-emitting device array is set to position around camera lens It sets, it can be including but not limited to following several there are many implementation:

A kind of mode is that hollow area is provided on light-emitting device array；The position of the hollow area is opposite with camera lens It answers.

Another way is that light-emitting device array is movably disposed above the camera lens；And light-emitting device array moves Dynamic range is from camera lens above to above removal camera lens.

Yet another approach is that light-emitting device array is fixedly provided in above the camera lens.

As further scheme, in the embodiment of the present disclosure, it is also possible that arriving the light-emitting component in the light-emitting device array Visual field of the array outer edge less than the angular light-emitting device array of visual field of first part's light-emitting component of the first pre-determined distance The inclination of angle center.The structure is applicable to light-emitting device array in Image Acquisition mould group in above-mentioned a variety of set-up modes.

It, can be by the Image Acquisition mould group and liquid crystal display panel cooperation in the embodiment of the present disclosure in practical application scene It uses, hole is provided in liquid crystal display panel, Image Acquisition mould group is arranged below liquid crystal display panel, and Image Acquisition The camera lens of mould group and the position in hole are corresponding, and light-emitting device array with the hole in liquid crystal display panel for matching.

Embodiment of the disclosure also proposes that a kind of Image Acquisition mould group, described image acquisition mould group include:

Camera lens and light-emitting device array；

The light-emitting device array is set to the camera lens peripheral location；The light-emitting device array is for realizing the mirror The image of head upper area is shown.

In accordance with an embodiment of the present disclosure, by the way that camera lens and light-emitting device array are arranged in Image Acquisition mould group, can make Image Acquisition mould group is obtained on the basis of having acquisition image function, is also equipped with certain display function.

In an application scenarios, Image Acquisition mould group can be used cooperatively with liquid crystal display panel, Image Acquisition mould group Camera lens setting below liquid crystal display panel, and camera lens is corresponding with the position in hole.It is multiple in light-emitting device array Light-emitting component is shown by the luminous image that the camera lens upper area may be implemented, so that being also equipped with screen in Kong Chu shows function Can, so that solve tapping below screen cannot achieve screen display function, and then realize whole aobvious of terminal screen Show effect and is compatible with preceding camera shooting function.

In one embodiment, the light-emitting component in the light-emitting device array may include following at least one:

Light emitting diode, Organic Light Emitting Diode etc..

Wherein, the light emitting diode comprises at least one of the following:

It is micro-led, mini light emitting diode etc..

Since light emitting diode and Organic Light Emitting Diode can show multiple color, and size can make compared with It is small, convenient for light-emitting component is shown image as sub-pixel.

Figure 18 is a kind of schematic diagram of the Image Acquisition mould group shown in accordance with an embodiment of the present disclosure.As shown in figure 18, scheme As acquisition mould group includes:

Camera lens 2 and light-emitting device array 1；The light-emitting device array 1 is set to 2 peripheral location of camera lens；The hair Optical component array 1 shows for realizing the image of 2 upper area of camera lens.

Wherein, above-mentioned light-emitting device array 1 is set to 2 peripheral location of camera lens, comprising:

1 is provided with hollow area on the light-emitting device array；The position of the hollow area and the camera lens 2 are opposite It answers.

It should be noted that the position of hollow area is corresponding with camera lens, refer to camera lens and hollow area in axis direction On there are overlapping regions, accordingly, it is ensured that light can be penetrated by the hollow area of light-emitting device array into camera lens.It is optional Ground, the axis of camera lens and the axis of hollow area are overlapped, and hollow area is equal or slightly larger than cutting for camera lens Vertical camera lens axis Face advantageously reduces light-emitting device array and shuts out the light into camera lens, so that camera lens receives more light, Jin Erbao accordingly Demonstrate,prove the effect of camera lens acquisition image.

The light that light-emitting component in light-emitting device array issues is shone in a manner of certain visual angle, then close The some light that the light-emitting component of hollow area issues can be overlapping in the space above camera lens, to realize in hollow area The display of side.

Figure 19 is the schematic diagram of another Image Acquisition mould group shown in accordance with an embodiment of the present disclosure.

The positional relationship of camera lens and light-emitting device array is not limited to situation shown in Figure 18 in the embodiment of the present disclosure, such as In Figure 18, the plane where the vertex of camera lens 2 is higher than light-emitting device array 1 and is formed by plane, the plane where camera lens 2 It can be formed by that plane is equal with light-emitting device array 1, the plane where camera lens 2 can also be lower than 1 institute of light-emitting device array The plane of formation.

As shown in figure 19, the plane where setting camera lens 2 is formed by plane lower than light-emitting device array 1, and the disclosure is real Applying example may make light-emitting device array to realize Showing Effectiveness On Screen good as far as possible.

Structure in embodiment shown in Figure 18 and Figure 19 can according to need selection, as one embodiment, camera lens 2 The plane and light-emitting device array 1 at place are formed by plane substantially in a plane, i.e., the difference in height of two interplanars is small In the second pre-determined distance, wherein the second pre-determined distance can be according to setting.Accordingly, in the embodiment shown in Figure 18, camera lens Collection effect can be better, and in the embodiment shown in Figure 19, the effect that light-emitting device array is shown can be better.

In the embodiment of the present disclosure, light-emitting device array is arranged in Kong Chu, so that camera lens may be implemented in light-emitting device array The screen of upper area shows, in the concrete realization, can be with by taking Image Acquisition mould group and liquid crystal display panel are used cooperatively as an example Including but not limited to following several display modes:

Mode one: control light-emitting device array shows pre-set image.

Pre-set image can be pre-set image, for example can be preset pure color pattern or certain predetermined pattern, Such as can be mobile phone brand icons, electricity icon, bluetooth icon, etc., or can directly be customized by the user and be ok.

Mode two: the display parameters of the 8 surrounding image of display interface mesoporous of liquid crystal display panel are obtained, and control the member that shines Part array shows image according to the display parameters of 8 surrounding image of hole.Wherein, display parameters include but is not limited to following at least one Kind: luminance parameter and color parameter.

In order to shield whole screen display effect comprehensively closer, user experience more preferably, in mode two, available liquid crystal display In the interface that panel is being shown, positioned at the display parameters of 8 surrounding image of hole, such as brightness, color etc., and then light-emitting component Array carries out screen according to the display parameters of the 8 surrounding image of hole of acquisition and shows, so that the image shown at hole seems and hole Surrounding image is close to an entirety.For example, if in current screen display interface, certain interface app is pink around hole 8 Color background interface, it is available to pink colour and the brightness parameter value at background interface in mode two, control light-emitting device array according to The pink colour and brightness parameter value realize that the screen at hole is shown, to realize more coherent display effect.

Mode three: the display content in the display interface of liquid crystal display panel at corresponding aperture 8 is obtained, and controls light-emitting component Array shows image according to the display content.

For example, hole 8 nearby will just be shown originally if the display interface of liquid crystal display panel is just interface The content shown is vital values " 10 ", and the corresponding screen portions in hole 8 are the position of " 1 ", the available display at hole 8 of mode three Content " 1 ", and control light-emitting device array and image " 1 " is shown according to the display content, and then realize preferably display experience.? That is due to being provided with hole in liquid crystal display panel, then the content meeting when liquid crystal display panel shows content, at hole It lacks, the display content at the hole is corresponded in the display interface of the available liquid crystal display panel of the present embodiment, in turn It controls the light-emitting device array and image is shown according to the display content, to be shown by light-emitting device array due to hole In the presence of and the content that lacks, guarantee that the image that show of liquid crystal display panel is complete and continuous, be conducive to raising display effect.

In one embodiment, in the case where Image Acquisition mould group and liquid crystal display panel are used cooperatively, light-emitting component The driving circuit of array and the driving circuit of the array substrate at hole can connect in the same signal input circuit, can also connect It is connected to different signal input circuits.

In one embodiment, the battle array in the case where Image Acquisition mould group and liquid crystal display panel are used cooperatively, at hole The driving circuit of column substrate and the driving circuit of the array substrate outside hole can connect in the same signal input circuit, can also be with It is connected to different signal input circuits.

Connection type in above-described embodiment, which can according to need, to be selected.

Figure 20 and Figure 21 is the schematic diagram of another the Image Acquisition mould group shown in accordance with an embodiment of the present disclosure.

As shown in Figure 20 and Figure 21,1 outer edge of light-emitting device array is arrived in the light-emitting device array 1 less than first The visual field of 11 light-emitting component of first part of pre-determined distance angularly the light-emitting device array 1 field angle center inclination.

Inclined by being arranged the field angle of first part's light-emitting component 11 to the field angle center of the light-emitting device array Tiltedly, the light that first part's light-emitting component 11 can be made to issue preferably covers the space of 2 or more camera lens, so that camera lens 2 upper areas realize better display effect.

It should be noted that the angular light-emitting component battle array of the visual field of first part's light-emitting component 11 in the embodiment of the present disclosure The inclined specific implementation in field angle center of column, in addition to being tilted in plane inclination or arc-shaped face shown in Figure 20 and Figure 21 Structure outside, it may occur to persons skilled in the art that the deformation of a variety of incline structures, as long as first part can be made after inclination The light that light-emitting component 11 issues preferably covers the space of 2 or more camera lens, does not enumerate one by one herein.

As further scheme, in the embodiment of the present disclosure, Image Acquisition mould group is being used cooperatively with liquid crystal display panel In the case where, the density that the array substrate at the hole is corresponded in array substrate is close lower than the array substrate outside the hole Degree, to realize better image collection effect.

In accordance with an embodiment of the present disclosure, for above-mentioned, there are the embodiment of array substrate and liquid crystal layer, Ke Yijin at hole The density that one step is arranged in array substrate corresponding to the driving circuit at hole accordingly can lower than the density of the driving circuit outside hole To reduce the density of the driving circuit at hole, to improve the transmitance of array substrate at hole, more light are worn It crosses array substrate and enters camera lens, be conducive to improve camera lens through the effect of hole acquisition image.

As further scheme, in the case where Image Acquisition mould group and liquid crystal display panel to be used cooperatively, image is adopted When collecting mould group acquisition image, the liquid crystal deflection that liquid crystal display panel can control in the liquid crystal layer at hole in the embodiment of the present disclosure is saturating Light, so that the light of access aperture can preferably enter camera lens through liquid crystal layer, so that effect of the camera lens through hole acquisition image More preferably.In the concrete realization, it can realize that the liquid crystal deflection light transmission in liquid crystal layer certainly can also by the control of array substrate To control liquid crystal deflection light transmission otherwise, herein with no restrictions.

Figure 22 and 23 is the schematic diagram of another the Image Acquisition mould group shown in accordance with an embodiment of the present disclosure.

As depicted in figures 22 and 23, Image Acquisition mould group includes:

Camera lens 2 and light-emitting device array 1；The light-emitting device array 1 is set to 2 peripheral location of camera lens；The hair Optical component array 1 shows for realizing the image of 2 upper area of camera lens.

Wherein, the light-emitting device array is set to the camera lens peripheral location, comprising:

Light-emitting device array 1 is movably disposed at 2 top of camera lens；

1 moving range of light-emitting device array be from camera lens 2 above to removal camera lens 2 above.

In one embodiment, by being arranged light-emitting device array 1 above camera lens 2, so that light-emitting device array 1 can It is complete flat luminous to constitute one, advantageously ensure that the good illumination effect of light-emitting device array 1.In practical applications, The light-emitting device array can be coherent plane, is also possible to discrete distribution and constitutes plane.

The present embodiment can be set light-emitting device array 1 and be movably disposed at 2 top of camera lens, light-emitting device array 1 Moving range is that, when Image Acquisition mould group acquires image, can control the member that shines to removing above camera lens 2 above camera lens 2 Part array 1 removes 2 top (such as shown in Figure 22) of camera lens, guarantees the acquisition image effect of camera lens 2；It is aobvious in light-emitting device array 1 Diagram as when, control light-emitting device array 1 moves to the top of camera lens 2 (such as shown in Figure 23), so that light-emitting device array 1 issued Light can project above camera lens, realize the effect shown above camera lens.

In the present embodiment, light-emitting device array is movably disposed above camera lens 2, light-emitting device array can be direct It emits beam above camera lens, realizes that the image of 2 upper area of camera lens is shown, and display effect is preferable.

It should be noted that for hollow area is arranged in above-mentioned light-emitting device array and light-emitting component is movably arranged In the embodiment of array, the light-emitting component on light-emitting device array is either LED, is also possible to OLED or other elements.

In one embodiment, default less than first to the light-emitting device array outer edge in the light-emitting device array The visual field of first part's light-emitting component of distance angularly the light-emitting device array field angle center inclination.Particular content is detailed in Previous embodiment, this will not be repeated here.

As further scheme, in the embodiment of the present disclosure, Image Acquisition mould group is being used cooperatively with liquid crystal display panel In the case where, the density that the driving circuit at the hole is corresponded in array substrate is close lower than the driving circuit outside the hole Degree, to realize better image collection effect.

In one embodiment, it in the case where Image Acquisition mould group and liquid crystal display panel to be used cooperatively, can incite somebody to action Light-emitting device array is arranged in Kong Chu, so that the screen that camera lens upper area may be implemented in light-emitting device array is shown, specific In realization, it can include but is not limited to following several display modes:

Mode one: control light-emitting device array shows pre-set image.

Mode two: the display parameters of the 8 surrounding image of display interface mesoporous of liquid crystal display panel are obtained, and control the member that shines Part array shows image according to the display parameters of 8 surrounding image of hole.Wherein, display parameters include but is not limited to following at least one Kind: luminance parameter and color parameter.

Mode three: the display content in the display interface of liquid crystal display panel at corresponding aperture 8 is obtained, and controls light-emitting component Array shows image according to the display content.

As further scheme, in the case where Image Acquisition mould group and liquid crystal display panel to be used cooperatively, image is adopted When collecting mould group acquisition image, the liquid crystal deflection that liquid crystal display panel can control in the liquid crystal layer at hole in the embodiment of the present disclosure is saturating Light, so that the light of access aperture can preferably enter camera lens through liquid crystal layer, so that effect of the camera lens through hole acquisition image More preferably.In the concrete realization, it can realize that the liquid crystal deflection light transmission in liquid crystal layer certainly can also by the control of array substrate To control liquid crystal deflection light transmission otherwise, herein with no restrictions.

In one embodiment, in the case where Image Acquisition mould group and liquid crystal display panel to be used cooperatively, shine member The driving circuit of part array and the driving circuit of the array substrate at hole can connect in the same signal input circuit, can also be with It is connected to different signal input circuits.

In one embodiment, in the case where Image Acquisition mould group and liquid crystal display panel to be used cooperatively, at hole The driving circuit of array substrate and the driving circuit of the array substrate outside hole can connect in the same signal input circuit, can also To be connected to different signal input circuits.

Connection type in above-described embodiment, which can according to need, to be selected.

Figure 24 is the schematic diagram of another the Image Acquisition mould group shown in accordance with an embodiment of the present disclosure.As shown in figure 24, Image Acquisition mould group includes:

Camera lens 2 and light-emitting device array 1；The light-emitting device array 1 is set to 2 peripheral location of camera lens；The hair Optical component array 1 shows for realizing the image of 2 upper area of camera lens.

Wherein, above-mentioned light-emitting device array 1 is set to 2 peripheral location of camera lens, comprising:

The light-emitting device array 1 is fixedly provided in 2 top of camera lens.Wherein, in practical applications, the member that shines Part array can be coherent plane, is also possible to discrete distribution and constitutes plane.

In one embodiment, light-emitting device array can be fixed at the first through hole and is located at the mirror Head top, further, the transmitance of light-emitting device array are greater than the first transmitance, and first transmitance is to be adopted according to image Collection requires the thresholding transmitance value of setting, which, which can be, is required to the proactive effect received according to specific model Fruit requires.In practical application, the transmitance of light-emitting device array is greater than or equal to the transmitance of liquid crystal layer, to meet in the member that shines The photographing request of camera lens under part array.That is, can choose the higher element of transmitance as on light-emitting device array Light-emitting component, such as can choose OLED etc. as light-emitting component, so as to more light can through light-emitting device array into Enter camera lens, so that the brightness of image of camera lens acquisition will not be too low.

In one embodiment, default less than first to the light-emitting device array outer edge in the light-emitting device array The visual field of first part's light-emitting component of distance angularly the light-emitting device array field angle center inclination.Particular content is detailed in Previous embodiment, this will not be repeated here.

In one embodiment, it in the case where Image Acquisition mould group and liquid crystal display panel to be used cooperatively, can incite somebody to action Light-emitting device array is arranged in Kong Chu, so that the screen that camera lens upper area may be implemented in light-emitting device array is shown, specific In realization, it can include but is not limited to following several display modes:

Mode one: control light-emitting device array shows pre-set image.

Mode two: the display parameters of the 8 surrounding image of display interface mesoporous of liquid crystal display panel are obtained, and control the member that shines Part array shows image according to the display parameters of 8 surrounding image of hole.Wherein, display parameters include but is not limited to following at least one Kind: luminance parameter and color parameter.

Mode three: the display content in the display interface of liquid crystal display panel at corresponding aperture 8 is obtained, and controls light-emitting component Array shows image according to the display content.

As further scheme, in the embodiment of the present disclosure, Image Acquisition mould group is being used cooperatively with liquid crystal display panel In the case where, the density that the driving circuit at the hole is corresponded in array substrate is close lower than the driving circuit outside the hole Degree, to realize better image collection effect.

In one embodiment, in the case where Image Acquisition mould group and liquid crystal display panel to be used cooperatively, shine member The driving circuit of part array and the driving circuit of the array substrate at hole can connect in the same signal input circuit, can also be with It is connected to different signal input circuits.

In one embodiment, in the case where Image Acquisition mould group and liquid crystal display panel to be used cooperatively, at hole The driving circuit of array substrate and the driving circuit of the array substrate outside hole can connect in the same signal input circuit, can also To be connected to different signal input circuits.

Connection type in above-described embodiment, which can according to need, to be selected.

Optionally, the light-emitting device array includes the light-emitting component of n kind color；Wherein, the light-emitting device array is same Shi Faguang is located at outside hole in the array substrate in the case where Image Acquisition mould group and liquid crystal display panel to be used cooperatively The scan frequency of driving circuit of array substrate be f1, the driving of the array substrate at the hole is located in the array substrate The scan frequency of circuit is f2, wherein f2 >=f1.

Optionally, the light-emitting device array includes the light-emitting component of n kind color；

Wherein, light-emitting device array colour light emitting one by one cooperates by Image Acquisition mould group and liquid crystal display panel The scan frequency for being located at the driving circuit of the array substrate outside hole in the case where use, in the array substrate is f1 ', the battle array The scan frequency for being located at the driving circuit of the array substrate at the hole in column substrate is f2 ', wherein f2 ' >=nf1 '.

In one embodiment, the light-emitting mode of light-emitting device array can according to need setting.

Such as all light-emitting components in light-emitting device array shine simultaneously, then light-emitting device array is equivalent to a light Source, light-emitting device array can issue the light of n kind color in a scan period, then for the corresponding driving electricity of light-emitting component The scanning mode on road, can be identical as the scanning mode of the driving circuit of the array substrate outside hole, therefore f2=f1 can be set.

Such as light-emitting device array colour light emitting one by one, then the light-emitting component of each color is equivalent to a light source, one Light-emitting device array can issue the light of a kind of color in a scan period, then needing n scan period just to issue n kind face The light of color, in this case, in order to guarantee to show that the frequency of image shows that the frequency of image is identical with other regions at hole, just Need 1 scanning of n scan period of the driving circuit of the array substrate at hole and the driving circuit of the array substrate outside hole Period etc., then the scan frequency f2 ' of the driving circuit of the array substrate at hole and the drive of the array substrate outside hole can be set The relationship of the scan frequency f1 ' of dynamic circuit is f2 '=nf1 '.

It is contemplated that the driving circuit of the array substrate at hole and the driving circuit of the array substrate outside hole there may be Nonsynchronous situation, it is possible to appear in a scan period, the driving circuit driving sub-pixel of the array substrate outside hole is aobvious Show that the image of the i-th frame, the driving circuit driving sub-pixel of the array substrate at hole show the image of jth frame.

By taking all light-emitting components in light-emitting device array shine simultaneously as an example, the drive of the array substrate at hole can be improved The scan frequency of dynamic circuit, is arranged f2 > f1, so that the driving circuit driving sub-pixel of the array substrate outside hole shows the i-th frame In the period of image, the driving circuit of the array substrate at hole can drive the image of sub-pixel display jth frame.And specific f2 ratio F1 is how many greatly, can be determined according to the difference of i and j, f2=(| j-i |+1) * f1, such as j=i+1, then f2=can be set 2f1, so that so that the driving circuit driving sub-pixel of the array substrate outside hole was shown in the period of image of the i-th frame, at hole The driving circuit of array substrate can drive sub-pixel to show the image of the i-th frame and i+1 frame, realize within a scan period, The driving circuit driving sub-pixel of array substrate outside hole shows that the image of the i-th frame, the driving circuit of the array substrate at hole drive Mover pixel can also show the image of the i-th frame.

Similarly, f2 ' > nf1 ' can be set, specifically can be f2 ' > (| j-i |+1) * nf1 '.It so in conclusion can be with F2 >=f1, f2 ' >=nf1 ' are set.

In one embodiment, camera lens shown in above-described embodiment is for corresponding with the hole in liquid crystal display panel；Institute Light-emitting device array is stated for matching with the hole in liquid crystal display panel.Such as it can be by Image Acquisition mould group and liquid crystal display Panel is used cooperatively, so that the hole in liquid crystal display panel is corresponding with the camera lens of Image Acquisition mould group in terminal, And light-emitting device array is arranged at the hole.

A kind of display control method shown in embodiment of the disclosure.Method shown in the disclosure can be applied to liquid crystal Show panel, hole is provided in liquid crystal display panel, the position in the hole is corresponding with the camera lens of Image Acquisition mould group, and shines Element arrays are arranged at the hole, which includes:

Image Acquisition mould group obtains image by the hole and realizes Image Acquisition operation；Light-emitting device array passes through the hole Display operation is realized on the liquid crystal display panel.

It in accordance with an embodiment of the present disclosure, can be in liquid crystal display panel providing holes, and by the position in hole and Image Acquisition mould The camera lens of group is corresponding, thus being capable of through hole acquisition image realization Image Acquisition operation based on camera lens；And it is also set at hole It is equipped with light-emitting device array, so that display operation can also be realized on the liquid crystal display panel by the hole.

As one embodiment, a kind of schematic diagram of display control method as shown in figure 25.

Method shown in the disclosure can be applied to liquid crystal display panel, and hole is provided in liquid crystal display panel, described The position in hole and the camera lens of image capture device are corresponding, and light-emitting device array is arranged at the hole, the display control side Method includes:

Step S1, light-emitting device array through hole realize display operation on the liquid crystal display panel.

Step S2, when carrying out Image Acquisition operation, image capture device obtains image by the hole and realizes that image is adopted Collection operation.

In accordance with an embodiment of the present disclosure, it can be set in liquid crystal display panel providing holes, and by the position in hole with Image Acquisition Standby camera lens is corresponding, is additionally provided with light-emitting device array in Kong Chu, light-emitting device array can be by the hole in liquid crystal Show and realizes screen display operation on panel；When Image Acquisition operation to be carried out, control image capture device is obtained by the hole Image is taken to realize Image Acquisition operation.

In one embodiment, the hole being arranged in liquid crystal display panel, including the first through hole that is arranged in backlight layer and The second through-hole in filter layer is set, and the position of the first through hole and the second through-hole is corresponding.

The display control method further include:

In described image acquisition equipment acquisition image, the liquid crystal deflection light transmission in the liquid crystal layer at the hole is controlled.

In one embodiment, image is if desired acquired by image capture device, can control as further scheme Liquid crystal deflection light transmission in liquid crystal layer at hole enables camera lens to pass through so that light can pass through liquid crystal layer and enter camera lens Hole obtains image and realizes Image Acquisition operation.

In another embodiment of the present disclosure, light-emitting device array described in above-mentioned steps is by the hole in the liquid crystal display Display operation is realized on panel, including but not limited to:

The display content corresponded at the hole in the display interface of the liquid crystal display panel is obtained, and controls described shine Element arrays show image according to the display content.Or, controlling the light-emitting device array shows pre-set image；Or, obtaining The display parameters of image around hole described in the display interface of the liquid crystal display panel, and control the light-emitting device array root Image is shown according to the display parameters of image around the hole；The display parameters comprise at least one of the following: luminance parameter, color Parameter etc..

Another display control method shown in embodiment of the disclosure.In this embodiment, it is set in liquid crystal display panel It is equipped with hole, light-emitting device array is movably disposed at hole and is located above camera lens.Display control method further include:

In described image acquisition equipment acquisition image, controls the light-emitting device array and removed above the camera lens.

When the light-emitting device array carries out display operation at the hole, controls the light-emitting device array and move to institute It states above camera lens.

In one embodiment, since light-emitting device array is movably disposed at hole, camera lens is arranged in light-emitting component Under array.When image capture device acquires image, it can control light-emitting device array and removed above camera lens, to avoid Light-emitting device array blocks camera lens, guarantees the effect of camera lens acquisition image.It is enterprising in liquid crystal display panel in light-emitting device array When row display operation, it can control light-emitting device array and move to above camera lens, to control light-emitting device array above camera lens Light is projected from hole, realizes that light-emitting device array carries out display operation at hole.

Display control method shown in the embodiment of the present disclosure can be adapted for aperture under shielding and be provided in tapping The terminal of light-emitting device array solves to take into account proactive camera function and the screen display function of taking pictures in comprehensive screen scheme to realize Energy.It is readily applicable to shielding lower aperture and tapping is provided with the screen of light-emitting device array and with the correlator of screen Part, the aperture are used to provide the channel of picture acquisition for camera lens, so taken into account in the comprehensive screen scheme of realization image collecting function and Screen display function.It is readily applicable to be provided in the camera mould group of light-emitting device array and related device with camera lens, By being matched with the screen with aperture, and then realizes in comprehensive screen scheme and take into account image collecting function and screen display function.

Figure 26 is a kind of schematic diagram of the terminal 2600 shown in accordance with an embodiment of the present disclosure.For example, device 2600 can be with It is mobile phone, computer, digital broadcasting terminal, messaging device, game console, tablet device, Medical Devices, body-building Equipment, personal digital assistant etc..

Referring to Figure 26, device 2600 may include following one or more components: processing component 2602, memory 2604, Power supply module 2606, multimedia component 2608, audio component 2610, the interface 2612 of input/output (I/O), sensor module 2614 and communication component 2616.

The integrated operation of the usual control device 2600 of processing component 2602, such as with display, telephone call, data communication, Camera operation and record operate associated operation.Processing component 2602 may include one or more processors 2620 to execute Instruction, to perform all or part of the steps of the methods described above.In addition, processing component 2602 may include one or more moulds Block, convenient for the interaction between processing component 2602 and other assemblies.For example, processing component 2602 may include multi-media module, To facilitate the interaction between multimedia component 2608 and processing component 2602.

Memory 2604 is configured as storing various types of data to support the operation in device 2600.These data Example includes the instruction of any application or method for operating on device 2600, contact data, telephone book data, Message, picture, video etc..Memory 2604 can by any kind of volatibility or non-volatile memory device or they Combination is realized, such as static random access memory (SRAM), electrically erasable programmable read-only memory (EEPROM), it is erasable can Program read-only memory (EPROM), programmable read only memory (PROM), read-only memory (ROM), magnetic memory, flash memory Reservoir, disk or CD.

Power supply module 2606 provides electric power for the various assemblies of device 2600.Power supply module 2606 may include power management System, one or more power supplys and other with for device 2600 generate, manage, and distribute the associated component of electric power.

Multimedia component 2608 includes the screen of one output interface of offer between described device 2600 and user.? In some embodiments, screen may include liquid crystal display (LCD) and touch panel (TP).If screen includes touch panel, Screen may be implemented as touch screen, to receive input signal from the user.Touch panel includes that one or more touch passes Sensor is to sense the gesture on touch, slide, and touch panel.The touch sensor can not only sense touch or sliding is dynamic The boundary of work, but also detect duration and pressure associated with the touch or slide operation.In some embodiments, more Media component 2608 includes a front camera and/or rear camera.When device 2600 is in operation mode, as shot mould When formula or video mode, front camera and/or rear camera can receive external multi-medium data.Each preposition camera shooting Head and rear camera can be a fixed optical lens system or have focusing and optical zoom capabilities.

Audio component 2610 is configured as output and/or input audio signal.For example, audio component 2610 includes a wheat Gram wind (MIC), when device 2600 is in operation mode, when such as call mode, recording mode, and voice recognition mode, microphone quilt It is configured to receive external audio signal.The received audio signal can be further stored in memory 2604 or via communication Component 2616 is sent.In some embodiments, audio component 2610 further includes a loudspeaker, is used for output audio signal.

I/O interface 2612 provides interface, above-mentioned peripheral interface module between processing component 2602 and peripheral interface module It can be keyboard, click wheel, button etc..These buttons may include, but are not limited to: home button, volume button, start button and Locking press button.

Sensor module 2614 includes one or more sensors, and the state for providing various aspects for device 2600 is commented Estimate.For example, sensor module 2614 can detecte the state that opens/closes of device 2600, the relative positioning of component, such as institute The display and keypad that component is device 2600 are stated, sensor module 2614 can be with detection device 2600 or device 2,600 1 The position change of a component, the existence or non-existence that user contacts with device 2600,2600 orientation of device or acceleration/deceleration and dress Set 2600 temperature change.Sensor module 2614 may include proximity sensor, be configured in not any physics It is detected the presence of nearby objects when contact.Sensor module 2614 can also include optical sensor, as CMOS or ccd image are sensed Device, for being used in imaging applications.In some embodiments, which can also include acceleration sensing Device, gyro sensor, Magnetic Sensor, pressure sensor or temperature sensor.

Communication component 2616 is configured to facilitate the communication of wired or wireless way between device 2600 and other equipment.Dress The wireless network based on communication standard, such as WiFi can be accessed by setting 2600,2G or 3G or their combination.It is exemplary at one In embodiment, communication component 2616 receives broadcast singal or broadcast correlation from external broadcasting management system via broadcast channel Information.In one exemplary embodiment, the communication component 2616 further includes near-field communication (NFC) module, to promote short distance Communication.For example, radio frequency identification (RFID) technology, Infrared Data Association (IrDA) technology, ultra wide band can be based in NFC module (UWB) technology, bluetooth (BT) technology and other technologies are realized.

In the exemplary embodiment, device 2600 can be by one or more application specific integrated circuit (ASIC), number Signal processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic components are realized, for executing the above method.

In the exemplary embodiment, a kind of non-transitorycomputer readable storage medium including instruction, example are additionally provided It such as include the memory 2604 of instruction, above-metioned instruction can be executed by the processor 2620 of device 2600 to complete the above method.Example Such as, the non-transitorycomputer readable storage medium can be ROM, random access memory (RAM), CD-ROM, tape, soft Disk and optical data storage devices etc..

Those skilled in the art will readily occur to its of the disclosure after considering specification and practicing disclosure disclosed herein Its embodiment.This application is intended to cover any variations, uses, or adaptations of the disclosure, these modifications, purposes or Person's adaptive change follows the general principles of this disclosure and including the undocumented common knowledge in the art of the disclosure Or conventional techniques.The description and examples are only to be considered as illustrative, and the true scope and spirit of the disclosure are by following Claim is pointed out.

It should be understood that the present disclosure is not limited to the precise structures that have been described above and shown in the drawings, and And various modifications and changes may be made without departing from the scope thereof.The scope of the present disclosure is only limited by the accompanying claims.

Claims (27)

1. a kind of terminal characterized by comprising

Image capture device；

Liquid crystal display panel, is provided with hole in the liquid crystal display panel, the position in the hole and described image acquisition equipment Camera lens is corresponding；With

Light-emitting device array, the light-emitting device array are arranged at the hole.

2. terminal according to claim 1, which is characterized in that the hole includes:

The first through hole being arranged in backlight layer and the second through-hole being arranged in filter layer, and the first through hole and second is led to The position in hole is corresponding.

3. terminal according to claim 2, which is characterized in that the light-emitting device array is arranged in the first through hole In, and hollow area is provided on the light-emitting device array, the position of the hollow area is corresponding with the camera lens.

4. terminal according to claim 2, which is characterized in that the light-emitting device array is movably disposed at described One through hole and it is located above the camera lens, the moving range of the light-emitting device array is above the camera lens to removal institute It states above camera lens.

5. terminal according to claim 2, which is characterized in that it is logical that the light-emitting device array is fixed at described first At hole and it is located above the camera lens.

6. terminal according to claim 2, which is characterized in that correspond to the driving circuit at the hole in array substrate Density of the density lower than the driving circuit outside the hole.

7. terminal according to claim 1, which is characterized in that the hole includes running through backlight layer, filter layer, array substrate With the third through-hole of liquid crystal layer.

8. terminal according to claim 7, which is characterized in that the light-emitting device array is located in the third through-hole, It is arranged between protective layer and the camera lens.

9. terminal according to claim 1, which is characterized in that further include:

Light shield layer is arranged in the side wall in the hole of backlight layer, for blocking the light in the backlight layer into the hole.

10. terminal according to claim 1, which is characterized in that the distance in the light-emitting device array to hole wall is less than The visual field of first part's light-emitting component of first pre-determined distance angularly the light-emitting device array field angle center inclination.

11. a kind of liquid crystal display panel characterized by comprising

The hole being arranged in the liquid crystal display panel；And

Light-emitting device array, the light-emitting device array are arranged at the hole.

12. liquid crystal display panel according to claim 11, which is characterized in that the hole includes:

The first through hole being arranged in backlight layer and the second through-hole being arranged in filter layer, and the first through hole and second is led to The position in hole is corresponding.

13. liquid crystal display panel according to claim 12, which is characterized in that the light-emitting device array is arranged described In first through hole, and hollow area is provided on the light-emitting device array.

14. liquid crystal display panel according to claim 12, which is characterized in that the light-emitting device array is movably set It sets at the first through hole, the moving range of the light-emitting device array is from the first through hole to the first through hole Outside.

15. liquid crystal display panel according to claim 12, which is characterized in that the light-emitting device array is fixed at At the first through hole.

16. liquid crystal display panel according to claim 12, which is characterized in that correspond at the hole in array substrate Density of the density of driving circuit lower than the driving circuit outside the hole.

17. liquid crystal display panel according to claim 11, which is characterized in that the hole includes running through backlight layer, is filtered Layer, the third through-hole of array substrate and liquid crystal layer.

18. liquid crystal display panel according to claim 17, which is characterized in that the light-emitting device array is located at described the In three through-holes, it is arranged under protective layer.

19. liquid crystal display panel according to claim 11, which is characterized in that further include:

Light shield layer is arranged in the side wall in the hole of backlight layer, for blocking the light in the backlight layer into the hole.

20. liquid crystal display panel according to claim 11, which is characterized in that arrive hole wall in the light-emitting device array Field angle center of the distance less than the angular light-emitting device array of visual field of first part's light-emitting component of the first pre-determined distance Inclination.

21. liquid crystal display panel according to claim 11, which is characterized in that the position in the hole and image capture device Camera lens it is corresponding.

22. a kind of Image Acquisition mould group characterized by comprising

Camera lens and light-emitting device array；

The light-emitting device array is set to the camera lens peripheral location；The light-emitting device array is for realizing on the camera lens The image in square region is shown.

23. Image Acquisition mould group according to claim 22, which is characterized in that the light-emitting device array is set to described Camera lens peripheral location, comprising:

Hollow area is provided on the light-emitting device array；The position of the hollow area is corresponding with the camera lens.

24. Image Acquisition mould group according to claim 22, which is characterized in that the light-emitting device array is set to described Camera lens peripheral location, comprising:

The light-emitting device array is movably disposed above the camera lens；

The light-emitting device array moving range is from the camera lens above to above the removal camera lens.

25. Image Acquisition mould group according to claim 22, which is characterized in that the light-emitting device array is set to described Camera lens peripheral location, comprising:

The light-emitting device array is fixedly provided in above the camera lens.

26. Image Acquisition mould group according to claim 22, which is characterized in that arrive the hair in the light-emitting device array The visual field angularly light-emitting device array of the optical component array outer edge less than first part's light-emitting component of the first pre-determined distance Field angle center inclination.

27. Image Acquisition mould group according to claim 22, which is characterized in that the camera lens is used for and liquid crystal display panel In hole it is corresponding；The light-emitting device array with the hole in liquid crystal display panel for matching.