CN102830584B - Display screen and terminal equipment - Google Patents

Abstract

The invention discloses a display screen and terminal equipment. The display screen comprises a display panel, a first shell, a second shell, a camera module, a light path configuration unit, a first opening and a second opening, wherein the first shell is arranged on one side of the display panel; the second shell is arranged on the other side of the display panel, wherein a gap is arranged between parts of the first shell and the second shell, which exceed the display panel; the camera module is arranged on a first region of the gap, and a light axis of a lens group of the camera module is parallel to the first shell and/or the second shell; the light path configuration unit is arranged at the top of the lens group of the camera module; the first opening is arranged on a position on the first shell, which corresponds to the light path configuration unit; the second opening is arranged on a position on the second shell, which corresponds to the light path configuration unit, wherein the ray of the first opening or the second opening is received by the light path configuration unit; and the ray of the first opening or the second opening is introduced to the lens group of the camera module through the light path configuration unit.

Description

Display screen and terminal device

Technical field

The present invention relates to a kind of display screen and comprise the terminal device of this display screen.Particularly, the present invention relates to and comprise the display screen can taking multidirectional camera module and the terminal device comprising this display screen.

Background technology

In recent years, such as the terminal device of notebook, smart mobile phone or panel computer and so on is used by increasing user, and on these terminal devices, arranges camera module take image to allow user.Usually, the both side surface of terminal device all arranges camera, wherein the camera of display screen side is used for auto heterodyne or Video chat etc., and the camera of opposite side is used for taking pictures.In this case, arrange multiple camera on the terminal device can increase the cost of terminal device and increase the complexity of terminal device.In addition, for using terminal device to carry out in the process of taking, when user wishes to switch camera, often needing the longer time to switch between two cameras, and needing more complicated process.

Summary of the invention

In order to solve above-mentioned technical matters of the prior art, according to an aspect of the present invention, a kind of display screen being provided, comprising: display panel; First housing, is arranged on described display panel side; Second housing, is arranged on the opposite side of described display panel, wherein, forms space between the part exceeding described display panel at described first housing and the second housing; Camera module, is arranged on the first area in described space, and the optical axis of the lens group of described camera module and described first housing and/or described second housing parallel; Light path dispensing unit, is arranged on the lens combination top of described camera module; First opening, is arranged on the first housing position corresponding with light path dispensing unit; Second opening, is arranged on the second housing position corresponding with light path dispensing unit, and wherein said light path dispensing unit receives the light by described first opening or described second opening; And the light from described first opening or described second opening is directed in the described lens combination of described camera module by described light path dispensing unit.

In addition, according to a further aspect in the invention, provide a kind of terminal device, comprising: housing, described housing at least comprises the first housing and the second housing, and described first housing and described second housing are oppositely arranged; Display panel, is fixedly installed in described housing, is located between described first housing and described second housing, forms space between the part wherein exceeding described display panel at described first housing and described second housing; Camera module, be fixedly installed in described housing, be located at the first area in described space, and the optical axis of the lens group of described camera module and described first housing and/or described second housing parallel, described camera module configuration produces picture signal, and described picture signal is sent to processing unit by board unit; Board unit, is fixedly installed in described housing, and is connected with described display panel, described camera module and described processing unit; Processing unit, is arranged on described board unit, and configuration processes picture signal, and by described board unit, described picture signal is sent to described display unit; Light path dispensing unit, is arranged on the lens combination top of described camera module; First opening, is arranged on the first housing position corresponding with light path dispensing unit; Second opening, is arranged on the second housing position corresponding with light path dispensing unit, and wherein, light path dispensing unit receives the light by described first opening or described second opening; And the light from described first opening or described second opening is directed in the described lens combination of described camera module by light path dispensing unit.

In addition, according to a further aspect in the invention, provide a kind of terminal device, comprising: board unit, configuration is connected with display unit and processing unit; Processing unit, configuration processes picture signal, and by described board unit, described view data is sent to described display unit; And display unit, described display unit comprises: display panel; First housing, is arranged on described display panel side; Second housing, is arranged on the opposite side of described display panel, wherein, forms space between the part exceeding described display panel at described first housing and the second housing; Camera module, be arranged on the first area in described space, and the optical axis of the lens group of described camera module and described first housing and/or described second housing parallel, described camera module is connected with described processing unit by described board unit, and will transmit the view data produced to described processing unit; Light path dispensing unit, is arranged on the lens combination top of described camera module; First opening, is arranged on the first housing position corresponding with light path dispensing unit; Second opening, is arranged on the second housing position corresponding with light path dispensing unit, and wherein light path dispensing unit receives the light by described first opening or described second opening; And the light from described first opening or described second opening is directed in the described lens combination of described camera module by light path dispensing unit.

By above-mentioned configuration, the light from one of the first opening and the second opening is received by light path dispensing unit, and the light from the first opening or the second opening is directed to camera module, only can utilize a camera module, just can cross and the object of the first case side or the object of the second case side are taken, and without the need to installing camera module respectively in display screen both sides, greatly reduce production cost thus, and simplify the circuit structure of display screen inside.In the prior art, the camera module with lower quality is only set at the first housing (display screen side) place of display screen usually.But, according to embodiments of the invention, by configuration in display screen, there is more high-quality camera module, light path dispensing unit receive from the first opening light and when the light from the first opening is directed to camera module, camera module can produce the image of the better quality of the object of the first case side.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the structure of the display screen described according to a first embodiment of the present invention;

Fig. 2 is the schematic diagram of the structure of the display screen described according to a second embodiment of the present invention;

Fig. 3 A and Fig. 3 B is the schematic diagram of the structure of the display screen described according to a third embodiment of the present invention; And

Fig. 4 A and Fig. 4 B is the schematic diagram of the structure of the display screen described according to a fourth embodiment of the present invention.

Embodiment

Describe in detail with reference to the accompanying drawings according to each embodiment of the present invention.Here it is to be noted that it in the accompanying drawings, identical Reference numeral is given there is identical or similar structures and function ingredient substantially, and the repeated description of will omit about them.

First, be described to the display screen according to the embodiment of the present invention.Here, according to the display screen of the embodiment of the present invention can be the display screen of the terminal device of such as notebook, PC, panel computer or smart mobile phone and so on.

Such as, can comprise according to the display screen of the embodiment of the present invention: display panel; First housing; Second housing; Camera module; Light path dispensing unit; First opening and the second opening etc.

Display panel can be made up of the display panel of any type (e.g., TFT, SLCD, OLED, AMOLED, IPS).

First housing can be arranged on display panel side.Such as, the first housing can be user when watching display screen housing in user oriented side (that is, display screen front), and can be made up of the material of such as plastics or metal and so on.

Second housing can be arranged on the opposite side of display panel.Such as, the second housing can be user when watching display screen housing at user side (that is, the display screen back side) dorsad, and can be made up of the material of such as plastics or metal and so on.Usually, the first housing and the second housing are fixed together by bonding agent or frame, and are fixed between the first housing and the second housing by display panel, and the housing parts of the first housing and the second housing composition display screen.

Here, the size (length of side) of the first housing and the second housing is greater than the size of display panel usually, forms space (space) between the part therefore exceeding display panel at the first housing and the second housing.In this case, can formation between the part that the first housing and the second housing exceed display panel space presumptive area on camera module is set.Here, predetermined region can be the arbitrary region in space.Usually, camera module is arranged in the space of upside of display panel.Here, camera module can be the camera module (e.g., CCD or CMOS type camera module) comprising camera lens arbitrarily.

According to embodiments of the invention, the direction of camera module is set, makes the optical axis direction of the lens group comprised in camera module and the first housing and/or the second housing parallel.In this case, the optical axis of the lens group comprised in camera module is vertical with the thickness direction of display panel.In this case, due to the optical axis of lens group that comprises in camera module and the first housing and/or the second housing parallel, therefore camera module itself directly can not obtain light from display screen outside to form image.

Therefore, according to embodiments of the invention, in formed space, light path dispensing unit can be set at the lens combination top of camera module.Here, light path dispensing unit can change its light received, and the light received is directed in the lens combination of camera module.

First opening can be arranged on the first housing, and can be corresponding with the position of light path dispensing unit.Second opening can be arranged on the second housing, and corresponding with the position of light path dispensing unit.In addition, can also arrange and can transparent components (e.g., glass, transparent plastic) etc. prevent dust from entering opening at opening part, and Backup lightpath dispensing unit.According to embodiments of the invention, light path dispensing unit can receive the light by the first opening or the second opening, and the light from the first opening or the second opening can be guided (reflection) in the lens combination of camera module, make the lens group of camera by received image formation by rays on the imageing sensor (e.g., CCD or CMOS photo-sensitive cell) of camera module.

Schematically illustrate the situation of the display screen according to the embodiment of the present invention above, describe the situation according to all parts (particularly light path dispensing unit) in the display screen of each embodiment of the present invention below with reference to accompanying drawings in detail.

Embodiment one

Fig. 1 is the schematic diagram of the structure of the display screen described according to a first embodiment of the present invention.

As shown in Figure 1, display screen according to a first embodiment of the present invention comprises display panel 11, first housing 12, second housing 13, camera module 14, light path dispensing unit 15, first opening 16 and the second opening 17.

First housing 12 is arranged on display panel 11 side, and the second housing 13 is arranged on the opposite side of display panel 12, the presumptive area (upside as display panel 11) in the space of the formation between the part wherein exceeding display panel at the first housing 12 and the second housing 13 arranges camera module 14.Here, the optical axis direction of the lens group comprised in camera module 14 is parallel with the first housing 12, second housing 13 and/or display panel 11.

Light path dispensing unit 15 is arranged on the lens combination top of camera module 14.The first opening 16 on first housing 12 is corresponding with the position of light path dispensing unit 15.The second opening 17 on second housing 13 is corresponding with the position of light path dispensing unit 15, and the first opening 16 and the second opening 17 positioned opposite to each other.Here, the position corresponding relation of the first opening 16 and light path dispensing unit 15 and the second opening 17 and the position corresponding relation of light path dispensing unit 15 represent and can be irradiated to light path dispensing unit 15 by the light of the first opening 16 or the second opening 17.In addition, due to the first opening 16 or the second opening 17 corresponding with the position of light path dispensing unit 15, and light path dispensing unit 15 is arranged in the lens combination of camera module 14, therefore the position of the first opening 16 and the second opening 17 is also corresponding with the position of camera module 14.

Here, as shown in Figure 1, prism 151 and steering mechanism 152 is comprised further according to the light path dispensing unit 15 of the present embodiment.

As shown in the figure, prism 151 comprises light entrance face 151A and refractive optical surface 151B, light entrance face 151A can receive the light from the first opening 16 or the second opening 17, and refractive optical surface 151B can by the light by light entrance face, namely from the light refraction of the first opening 16 or the second opening 17 to the lens combination of camera module 14.

Arrange steering mechanism 152 to change prism 151 towards, make prism 151 towards the first opening 16 or the second opening 17.Here, steering mechanism can be any mechanism (e.g., rotating disk, the slide rail of hollow) that prism 151 is rotated.Here, steering mechanism can comprise manual steering mechanism.Such as, can by arranging the control section of such as knob or plectrum and so at the side frame (not shown) of the first housing 12 or the second housing 13 or connection the first housing 12 and the second housing 13, and assign to make steering mechanism drive prism 151 to rotate by operation control part, thus control prism 151 (light entrance face 151A) towards one of the first opening 16 or the second opening 17.In addition, steering mechanism can also be self-turning mechanism (carrying driver element), and can based on concrete application or screening-mode change prism towards.

Such as, the application of the camera in such as terminal device and so on can provide multiple screening-mode, and can according to these screening-modes (as, virtual key), trigger steering mechanism by the processing unit (not shown) in terminal device, make prism 151 light entrance face 151A towards one of the first opening 16 or the second opening 17.

Such as, if when enabling self-timer mode in camera application, processing unit in terminal device can drive steering mechanism 152 to make prism 151 light entrance face 151A towards the first opening 16 by arranging of application program, make the light entrance face 151A of prism 151 can receive light from the first opening 16, and guide (refraction) to the lens combination of camera module 14 light from the first opening 16 by prism 151.In this case, camera module 14 can take the object outside the first housing 12, realizes self-timer mode thus.In addition, under general screening-mode, processing unit can drive steering mechanism 152 to make prism 151 light entrance face 151A towards the second opening 17 by arranging of application program, make the light entrance face 151A of prism 151 can receive light from the second opening 17, and guide (refraction) to the lens combination of camera module 14 light from the second opening 17 by prism 151.In this case, camera module 14 can take the object outside the second housing 12, realizes general screening-mode thus.

In addition, instruction processing unit controls steering mechanism can also be come by the specific keys (comprising the virtual key that physical button or Application Program Interface provide) that terminal device provides, thus user can select the prism 151 in light path dispensing unit 15 to be towards the first opening 16 or towards the second opening 17 by this specific keys, thus realize the switching of shooting direction.

In addition, alternatively, at the opaque reflective membrane of refractive optical surface 151B arranged outside of prism 151, the refracting power of refractive optical surface 151B can also be increased thus, the imaging of the light interference camera module 14 outside from refractive optical surface can also be prevented simultaneously.

By above-mentioned configuration, the light from one of the first opening 16 and the second opening 17 is received by light path dispensing unit 15, and the light from the first opening 16 or the second opening 17 is directed to camera module 14, only can utilize a camera module 14, just can cross and the object of the first housing 12 side or the object of the second case side are taken, and without the need to installing camera module respectively in display screen both sides, greatly reduce production cost thus, and simplify the circuit structure of display screen inside.In the prior art, the camera module with lower quality is only set at the first housing (display screen side) place of display screen usually.But, according to embodiments of the invention, by configuration in display screen, there is more high-quality camera module, when light path dispensing unit 15 receives the light from the first opening 16 and the light from the first opening 16 is directed to camera module 14, camera module 14 can produce the image of the better quality of the object of the first housing 12 side.

Embodiment two

Fig. 2 is the schematic diagram of the structure of the display screen described according to a second embodiment of the present invention.

As shown in Figure 2, display screen according to a second embodiment of the present invention comprises display panel 11, first housing 12, second housing 13, camera module 14, light path dispensing unit 25, first opening 16 and the second opening 17.Here, because display panel 11, first housing 12, second housing 13, camera module 14, first opening 16 are identical with the function and structure of the corresponding component in embodiment one or similar with the function and structure of the second opening 17, be therefore omitted here the detailed description about them.

Similar with the description for embodiment one, light path dispensing unit 25 is according to a second embodiment of the present invention arranged on the lens combination top of camera module 14.The first opening 16 on first housing 12 is corresponding with the position of light path dispensing unit 25.The second opening 17 on second housing 13 is corresponding with the position of light path dispensing unit 25, and the first opening 16 and the second opening 17 positioned opposite to each other.

Different from embodiment 1, as shown in Figure 2, comprise light reflection mirror (mirror) 251 and steering mechanism 252 further according to the light path dispensing unit 15 of the present embodiment.

Here, light reflection mirror 251 can with the bearing of trend of the first opening 16 and the second opening 17 be predetermined angle (as, 45 degree), and the optical axis of the lens combination of camera module 14 be predetermined angle (as, 45 degree), when making light reflection mirror 251 towards the first opening 16 or the second opening 17, the light from the first opening 16 or the second opening 17 can be received, and can by the light refraction from the first opening 16 or described second opening 17 to the lens combination of camera module 14.

In addition, similar with the description of embodiment one, arrange steering mechanism 252 to change light reflection mirror 251 towards, make light reflection mirror 251 towards the first opening 16 or the second opening 17.Here, steering mechanism can be any mechanism (e.g., rotating disk, slide rail) that light reflection mirror 251 is rotated.Here, steering mechanism can comprise manual steering mechanism.Such as, can by arranging the control section of such as knob or plectrum and so at the side frame (not shown) of the first housing 12 or the second housing 13 or connection the first housing 12 and the second housing 13, and assign to make steering mechanism drive light reflection mirror 251 to rotate by operation control part, thus control light reflection mirror 251 towards one of the first opening 16 or the second opening 17.In addition, steering mechanism can also be self-turning mechanism (carrying driver element), and can based on concrete application or screening-mode or specific keys control light reflection mirror 251 towards, thus make light reflection mirror 251 towards one of the first opening 16 or the second opening 17.

Embodiment three

Fig. 3 is the schematic diagram of the structure of the display screen described according to a third embodiment of the present invention.

As shown in Figure 3, display screen according to a third embodiment of the present invention comprises display panel 11, first housing 12, second housing 13, camera module 14, light path dispensing unit 35, first opening 16 and the second opening 17.Here, because display panel 11, first housing 12, second housing 13, camera module 14, first opening 16 are identical with the function and structure of the corresponding component in embodiment one or similar with the function and structure of the second opening 17, be therefore omitted here the detailed description about them.

Light path dispensing unit 35 is according to a third embodiment of the present invention arranged on the lens combination top of camera module 14.The first opening 16 on first housing 12 is corresponding with the position of light path dispensing unit 35.The second opening 17 on second housing 13 is corresponding with the position of light path dispensing unit 35, and the first opening 16 and the second opening 17 positioned opposite to each other.In addition, the position of the first opening 16 and the second opening 17 is also corresponding with the position of camera module 14.

As shown in Figure 3, light path dispensing unit 35 according to a third embodiment of the present invention comprises prism 351, prism 352 and switch unit 353.

As shown in Figure 3 B, prism 351 and prism 352 entirety are disposed side by side on the lens combination top of camera module 14, and can by switch unit 353 relative to the integral translation of camera module.Such as, prism 352 can be arranged on the side (that is, prism 351 is different with the position of prism 352) of prism 351 along the side frame direction between the first housing 12 and the second housing 13, and does not have space therebetween.Here, this side frame is the side frame closest to camera module 14.In addition, when the first housing 12 and the second housing 13 are integrally formed, this side frame is the frame portion of the thickness corresponding to display screen.According to the present embodiment, prism 351 and prism 352 towards the opposite.Such as, prism 351 can towards the first housing 12, and prism 352 can towards the second housing 17.In this case, when prism 351 is relative with the first opening 16, prism 351 can receive the light from the first opening 16, and by the light refraction from the first opening 16 to the lens combination of camera module 14, and when prism 352 is relative with the second opening 17, prism 352 can receive the light from the second opening 17, and by the light refraction from the second opening 17 to the lens combination of camera module 14.

In addition, switch unit 353 can be connected with prism 351 and prism 352, and can change the position of (translation) prism 351 and prism 352 along this side frame direction entirety described.Such as, as shown in Figure 3 B, switch unit 353 can be the plectrum be connected with prism 351 and prism 352, and the plectrum of switch unit 353 can be used as by movement/switching and come integral translation prism 351 and prism 352, namely change the position of each in prism 351 and prism 352.Can configure the plectrum as switch unit 353, make plectrum when the first gear, integral translation prism 351 and prism 352, and prism 351 is relative with the first opening 16.In this case, prism 351 receives the light from the first opening 16, and by the light refraction from the first opening 16 to the lens combination of camera module 14.In addition, changing the position of plectrum, make plectrum when the second gear, integral translation prism 351 and prism 352, and prism 352 is relative with the second opening 17.In this case, prism 352 receives the light from the second opening 17, and by the light refraction from the second opening 17 to the lens combination of camera module 14.

In addition, switch unit 353 is not limited to plectrum as shown in Figure 3 B.Such as, switch unit 353 can be any operational mechanism for automatically switching (e.g., carrying driver element slide rail etc.).In this case, can trigger by the multiple screening-mode provided in the application of the camera in such as terminal device and so on and control switch unit 353.

Such as, if when enabling self-timer mode in camera application, can by the setting of application program, control switch unit 353 by the processing unit (not shown) in terminal device and come integral translation prism 351 and prism 352, and make prism 351 relative with the first opening 16.In this case, camera module 14 can take the object outside the first housing 12, realizes self-timer mode thus.In addition, under general screening-mode, processing unit can come integral translation prism 351 and prism 352 by the control switch unit 353 that arranges of application program, and makes prism 352 relative with the second opening 17.In this case, camera module 14 can take the object outside the second housing 12, realizes general screening-mode thus.

In addition, instruction processing unit controls switch unit 353 can also be carried out by the specific keys (comprising the virtual key that physical button or Application Program Interface provide) that terminal device provides, thus user can select light path dispensing unit 35 by this specific keys, to control, prism 351 is relative with the first opening 16 or prism 352 is relative with the second opening 17.

Embodiment four

Fig. 4 is the schematic diagram of the structure of the display screen described according to a fourth embodiment of the present invention.

As shown in Figure 4, display screen according to a fourth embodiment of the present invention comprises display panel 11, first housing 12, second housing 13, camera module 14, light path dispensing unit 45, first opening 16, second opening 17 and the 3rd opening 48.Here, because display panel 11, first housing 12, second housing 13, camera module 14, first opening 16 are identical with the function and structure of the corresponding component in embodiment one or similar with the function and structure of the second opening 17, be therefore omitted here the detailed description about them.

Light path dispensing unit 45 is according to a fourth embodiment of the present invention arranged on the lens combination top of camera module 14.The first opening 16 on first housing 12 is corresponding with the position of light path dispensing unit 45.The second opening 17 on second housing 13 is corresponding with the position of light path dispensing unit 45, and the first opening 16 and the second opening 17 positioned opposite to each other.In addition, the position of the first opening 16 and the second opening 17 is also corresponding with the position of camera module 14.In addition, the 3rd opening 48 is arranged on the side frame between the first housing 12 and the second housing 13, and the position of the 3rd opening 48 is corresponding with the position of the lens combination of camera module 14.Here, this side frame is the side frame closest to camera module 14.In addition, when the first housing 12 and the second housing 13 are integrally formed, this side frame is the frame portion of the thickness corresponding to display screen.

As shown in Figure 4, light path dispensing unit 45 according to a fourth embodiment of the present invention comprises prism 451, prism 452 and switch unit 453.

As shown in Figure 4 B, prism 451 and prism 452 are integrally provided in the lens combination top of camera module 14, and can by switch unit 453 relative to the integral translation of camera module.Such as, prism 452 can be arranged on the side of prism 451 along the side frame direction between the first housing 12 and the second housing 13.In addition, according to forming the space with predetermined interval between the present embodiment prism 451 and prism 452, and predetermined interval can match with the size of the 3rd opening.Here, this side frame is the side frame closest to camera module 14.In addition, when the first housing 12 and the second housing 13 are integrally formed, this side frame is the frame portion of the thickness corresponding to display screen.

According to the present embodiment, prism 451 and prism 452 towards the opposite.Such as, prism 451 can towards the first housing 12, and prism 452 can towards the second housing 17.In this case, when prism 451 is relative with the first opening 16, prism 451 can receive the light from the first opening 16, and by the light refraction from the first opening 16 to the lens combination of camera module 14, and when prism 452 is relative with the second opening 17, prism 452 can receive the light from the second opening 17, and by the light refraction from the second opening 17 to the lens combination of camera module 14.In addition, when the space between prism 451 and prism 452 is relative with the 3rd opening 48, the light from the 3rd opening 48 directly can be irradiated to the lens combination of camera module 14 by the space between prism 451 and prism 452.

According to the present embodiment, switch unit 453 can be connected with prism 451 and prism 452, and can change the position of (translation) prism 451 and prism 452 along this side frame direction entirety described.Such as, as shown in Figure 4 B, switch unit 453 can be the plectrum be connected with prism 451 and prism 452, and the plectrum of switch unit 453 can be used as by movement/switching and come integral translation prism 451 and prism 452, namely change the position of each in prism 451 and prism 452.Can configure the plectrum as switch unit 453, make plectrum when the first gear, integral translation prism 451 and prism 452, and prism 451 is relative with the first opening 16.In this case, prism 451 receives the light from the first opening 16, and by the light refraction from the first opening 16 to the lens combination of camera module 14.In addition, changing the position of plectrum, make plectrum when the second gear, integral translation prism 451 and prism 452, and prism 452 is relative with the second opening 17.In this case, prism 452 receives the light from the second opening 17, and by the light refraction from the second opening 17 to the lens combination of camera module 14.In addition, changing the position of plectrum, make plectrum when third gear, integral translation prism 451 and prism 452, and space between prism 451 and prism 452 is relative with the 3rd opening 48.In this case, directly can be irradiated to the lens combination of camera module 14 by the space between prism 451 and prism 452 from the light of the 3rd opening 48.

In addition, switch unit 453 is not limited to plectrum as shown in Figure 4 B.Such as, switch unit 453 can be the mechanism for automatically switching such as carrying driver element (micro motor) slide rail, the plectrum carrying driver element and so on.In this case, can trigger by the multiple screening-mode provided in the application of the camera in such as terminal device and so on and control switch unit 453.

Such as, if when enabling self-timer mode in camera application, the processing unit (not shown) in terminal device can make prism 451 relative with the first opening 16 by the control switch unit 453 that arranges of application program.In this case, camera module 14 can take the object outside the first housing 12, realizes self-timer mode thus.In addition, under microshot pattern, processing unit can make prism 452 relative with the second opening 17 by the control switch unit 453 that arranges of application program.In this case, camera module 14 can take object outside the second housing 12 to realize microshot pattern.In addition, under general screening-mode, processing unit can make the space between prism 451 and prism 452 relative with the 3rd opening 48 by the control switch unit 453 that arranges of application program, and camera module 14 takes image by the 3rd opening 48 thus, to realize general screening-mode.

In addition, instruction processing unit controls switch unit 453 can also be carried out by the specific keys (comprising the virtual key that physical button or Application Program Interface provide) that terminal device provides, thus user can select/arrange light path dispensing unit 45 by this specific keys, to control that prism 451 is relative with the first opening 16, space between prism 451 and prism 452 and the 3rd opening 48 relatively or prism 452 relative with the second opening 17.

When the terminal device comprising display screen is the terminal device of panel computer and so on, because such terminal device is usually heavier, therefore often lift terminal device carry out shooting can make user feel inconvenience.But by above-mentioned configuration, by making the space between prism 451 and prism 452 relative with the 3rd opening 48, make camera module 14 can take image by the 3rd opening 48 being positioned at side frame (caliper portion corresponding to display screen).In this case, using the user of terminal device without the need to lifting terminal device, only needing terminal device to keep flat just can take, the muscle power of user can be saved thus, and user also can not feel inconvenience.

Be described above according to each embodiment of the present invention, the display screen according to above-described embodiment can be applied in the terminal device of such as panel computer or smart mobile phone and so on.

In this case, such as, housing, display panel, camera module, board unit, processing unit, light path dispensing unit, the first opening and the second opening etc. can at least be comprised according to the terminal device of the embodiment of the present invention.

Housing at least comprises the first housing and the second housing, and this first housing and the second housing are oppositely arranged, to be made up of the material of such as plastics or metal and so on.

Display panel can be made up of the display panel of any type (e.g., TFT, SLCD, OLED, AMOLED, IPS).

Here, the size (length of side) of the first housing and the second housing is greater than the size of display panel usually, forms space (space) between the part therefore exceeding display panel at the first housing and the second housing.In this case, can formation between the part that the first housing and the second housing exceed display panel space presumptive area on camera module is set.Here, predetermined region can be the arbitrary region in space.Usually, camera module is arranged in the space of upside of display panel.Here, camera module can be the camera module (e.g., CCD or CMOS type camera module) comprising camera lens arbitrarily.In addition, arrange the direction of camera module, make the optical axis direction of the lens group comprised in camera module and the first housing and/or the second housing parallel, the optical axis of the lens group namely comprised in camera module is vertical with the thickness direction of display panel.Camera module can produce picture signal based on captured image, and picture signal is sent to processing unit by board unit.Here, due to the optical axis of lens group that comprises in camera module and the first housing and/or the second housing parallel, therefore camera module itself directly can not obtain light from display screen outside to form image.

Therefore, according to embodiments of the invention, in formed space, light path dispensing unit can be set at the lens combination top of camera module.Here, light path dispensing unit can change its light received, and the light received is directed in the lens combination of camera module.

First opening can be arranged on the first housing, and can be corresponding with the position of light path dispensing unit.Second opening can be arranged on the second housing, and corresponding with the position of light path dispensing unit.In addition, can also arrange and can transparent components (e.g., glass, transparent plastic) etc. prevent dust from entering opening at opening part, and Backup lightpath dispensing unit.According to embodiments of the invention, light path dispensing unit can receive the light by the first opening or the second opening, and the light from the first opening or the second opening can be guided (reflection) in the lens combination of camera module, make the lens group of camera by received image formation by rays on the imageing sensor (e.g., CCD or CMOS photo-sensitive cell) of camera module.

Board unit in housing, and can be connected with display panel, camera module and processing unit, and can be made up of the mainboard of any type.Such as, board unit can be arranged on the below of display panel.In addition, in the design of ultra-thin terminal device, board unit can also be arranged on the first housing and the second housing and exceed in the space that display panel formed (e.g., the both sides of display panel).In addition, the processing unit of such as processor, microprocessor or DSP and so on can be arranged on board unit, and can process the picture signal transmitted from camera module, and by board unit, picture signal is sent to described display panel.

Here, the 26S Proteasome Structure and Function of any one in embodiment one to the embodiment four described before light path dispensing unit can have, and in order to make instructions more simple and clear, be omitted here the repeated description to light path dispensing unit.In addition, it should be noted that when light path dispensing unit has the structure of embodiment four, terminal device is also included in the 3rd opening that side frame is arranged.

In addition, the multiple screening-mode that the processing unit of terminal device can provide according to the application of the camera stored in terminal device and so on or trigger condition (as, the virtual key that the physical button that terminal device provides or Application Program Interface provide), configuration light path dispensing unit, makes light path dispensing unit can receive light from one of the first opening or the second opening.

Such as, if when enabling self-timer mode in camera application, processing unit can configure the light of light path dispensing unit reception from the first opening by arranging of application program, and guides (refraction) to the lens combination of camera module the light from the first opening.In this case, camera module can take the object outside the first housing, realizes self-timer mode thus.In addition, under general screening-mode, by the setting of application program, processing unit can configure light path dispensing unit to receive the light from the second opening, and guides (refraction) to the lens combination of camera module the light from the second opening.In this case, camera module can take the object outside the second housing, realizes general screening-mode thus.In addition, before terminal device has when the display screen of the structure of embodiment four, processing unit can also configure light path dispensing unit to receive the light from the 3rd opening, and guides (direct projection) to the lens combination of camera module the light from the 3rd opening.In this case, camera module can take between the first housing and the second housing side frame outside object.

In addition, trigger processing unit can also be carried out by the specific keys (comprising the virtual key that physical button or Application Program Interface provide) that terminal device provides and control steering mechanism, thus user can select the reception of light path dispensing unit from the light of one of the first opening, the second opening (or the first opening, the second opening and the 3rd opening) by this specific keys, thus realize the switching of shooting direction.

In addition, can also be applied in the terminal device of such as notebook computer and so on according to the display screen of above-described embodiment.

In this case, such as, at least board unit, processing unit and display unit can be comprised according to the terminal device of the embodiment of the present invention.

The board unit can be made up of the mainboard of any type can be connected with display unit and processing unit., the processing unit of such as processor, microprocessor or DSP and so on can process picture signal, and by board unit, view data is sent to display unit.

Here, may further include according to the display unit of the embodiment of the present invention: display panel; First housing; Second housing; Camera module; Light path dispensing unit; First opening and the second opening etc.

Display panel can be made up of the display panel of any type (e.g., TFT, SLCD, OLED, AMOLED, IPS).First housing can be arranged on display panel side, and can be made up of the material of such as plastics or metal and so on.Second housing can be arranged on the opposite side of display panel, and can be made up of the material of such as plastics or metal and so on.

Here, the size (length of side) of the first housing and the second housing is greater than the size of display panel usually, forms space (space) between the part therefore exceeding display panel at the first housing and the second housing.In this case, can formation between the part that the first housing and the second housing exceed display panel space presumptive area on camera module is set.Here, camera module can be the camera module (e.g., CCD or CMOS type camera module) comprising camera lens arbitrarily, and the view data that can be produced by board unit is sent to processing unit.The direction of camera module is set, makes the optical axis direction of the lens group comprised in camera module and the first housing and/or the second housing parallel.In this case, the optical axis of the lens group comprised in camera module is vertical with the thickness direction of display panel.In addition, in formed space, light path dispensing unit can be set at the lens combination top of camera module.Here, light path dispensing unit can change its light received, and the light received is directed in the lens combination of camera module.

First opening can be arranged on the first housing, and can be corresponding with the position of light path dispensing unit.Second opening can be arranged on the second housing, and corresponding with the position of light path dispensing unit.According to embodiments of the invention, light path dispensing unit can receive the light by the first opening or the second opening, and the light from the first opening or the second opening can be guided (reflection) in the lens combination of camera module, make the lens group of camera by received image formation by rays on the imageing sensor (e.g., CCD or CMOS photo-sensitive cell) of camera module.

Here, the 26S Proteasome Structure and Function of any one in embodiment one to the embodiment four described before light path dispensing unit can have, and in order to make instructions more simple and clear, be omitted here the repeated description to light path dispensing unit.In addition, it should be noted that when light path dispensing unit has the structure of embodiment four, terminal device is also included in the 3rd opening that side frame is arranged.

In addition, the multiple screening-mode that the processing unit of terminal device can provide according to the application of the camera stored in terminal device and so on or trigger condition (as, the virtual key that the physical button that terminal device provides or Application Program Interface provide), configuration light path dispensing unit, makes light path dispensing unit can receive light from one of the first opening or the second opening.

Such as, if when enabling self-timer mode in camera application, processing unit can configure the light of light path dispensing unit reception from the first opening by arranging of application program, and guides (refraction) to the lens combination of camera module the light from the first opening.In this case, camera module can take the object outside the first housing, realizes self-timer mode thus.In addition, under general screening-mode, by the setting of application program, processing unit can configure light path dispensing unit to receive the light from the second opening, and guides (refraction) to the lens combination of camera module the light from the second opening.In this case, camera module can take the object outside the second housing, realizes general screening-mode thus.In addition, before terminal device has when the display screen of the structure of embodiment four, processing unit can also configure light path dispensing unit to receive the light from the 3rd opening, and guides (direct projection) to the lens combination of camera module the light from the 3rd opening.In this case, camera module can take between the first housing and the second housing side frame outside object.

In addition, trigger processing unit can also be carried out by the specific keys (comprising the virtual key that physical button or Application Program Interface provide) that terminal device provides and control steering mechanism, thus user can select the reception of light path dispensing unit from the light of one of the first opening, the second opening (or the first opening, the second opening and the 3rd opening) by this specific keys, thus realize the switching of shooting direction.

Each embodiment of the present invention is described in detail above.But, it should be appreciated by those skilled in the art that without departing from the principles and spirit of the present invention, various amendment can be carried out to these embodiments, combination or sub-portfolio, and such amendment should fall within the scope of the present invention.

Claims (6)

1. a display screen, comprising:

Display panel;

First housing, is arranged on described display panel side;

Second housing, is arranged on the opposite side of described display panel, wherein, forms space between the part exceeding described display panel at described first housing and described second housing;

Camera module, is arranged on the first area in described space, and the optical axis of the lens combination of described camera module and described first housing and/or described second housing parallel;

Light path dispensing unit, is arranged on the lens combination top of described camera module;

First opening, is arranged on the described first housing position corresponding with described light path dispensing unit;

Second opening, is arranged on the described second housing position corresponding with described light path dispensing unit,

Wherein, described light path dispensing unit receives the light by described first opening or described second opening; And

Light from described first opening or described second opening is directed in the described lens combination of described camera module by described light path dispensing unit,

Wherein said light path dispensing unit comprises further:

First prism;

Second prism, the frame direction, first side along described display screen is arranged on the side of described first prism, and described first side frame is the side frame closest to described camera module, and described second prism and described first prism move integrally; And

Switch unit, is connected with described first prism and described second prism, and configuration moves integrally the position of described first prism and described second prism along frame direction, described first side,

Wherein said first opening and described second opening toward each other,

The position of described first prism and described second prism is moved integrally by described switch unit, when making described first prism relative with described first opening, described first prism receives the light from described first opening, and by the light refraction from the first opening to described lens combination, and

The position of described first prism and described second prism is moved integrally by described switch unit, when making described second prism relative with described second opening, described second prism receives the light from described second opening, and by the light refraction from the second opening to described lens combination.

2. display screen as claimed in claim 1, comprises further:

3rd opening, is arranged on position corresponding with described lens combination on the frame of described first side,

Wherein between described first prism and described second prism, there is predetermined interval, and

Moved integrally the position of described first prism and described second prism by described switch unit, when making the interval between described first prism and described second prism relative with described 3rd opening, the light from the 3rd opening is directly incident on described lens combination.

3. a terminal device, comprising:

Housing, described housing at least comprises the first housing and the second housing, and described first housing and described second housing are oppositely arranged;

Display panel, is fixedly installed in described housing, is located between described first housing and described second housing, forms space between the part wherein exceeding described display panel at described first housing and described second housing;

Camera module, be fixedly installed in described housing, be located at the first area in described space, and the optical axis of the lens combination of described camera module and described first housing and/or described second housing parallel, described camera module configuration produces picture signal, and described picture signal is sent to processing unit by board unit;

Board unit, is fixedly installed in described housing, and is connected with described display panel, described camera module and described processing unit;

Processing unit, is arranged on described board unit, and configuration processes picture signal, and by described board unit, described picture signal is sent to described display panel;

Light path dispensing unit, is arranged on the lens combination top of described camera module;

First opening, is arranged on the first housing position corresponding with light path dispensing unit;

Second opening, is arranged on the second housing position corresponding with light path dispensing unit,

Wherein, light path dispensing unit receives the light by described first opening or described second opening; And

Light from described first opening or described second opening is directed in the described lens combination of described camera module by light path dispensing unit,

Wherein said light path dispensing unit comprises further:

First prism;

Second prism, the frame direction, first side along display screen is arranged on the side of described first prism, and described first side frame is the side frame closest to described camera module, and described second prism and described first prism move integrally; And

Switch unit, is connected with described first prism and described second prism, and configuration moves integrally the position of described first prism and described second prism along described side frame direction,

Wherein said first opening and described second opening toward each other,

The position of described first prism and described second prism is moved integrally by described switch unit, when making described first prism relative with described first opening, described first prism receives the light from described first opening, and by the light refraction from the first opening to described lens combination, and

The position of described first prism and described second prism is moved integrally by described switch unit, when making described second prism relative with described second opening, described second prism receives the light from described second opening, and by the light refraction from the second opening to described lens combination.

4. terminal device as claimed in claim 3, comprises further:

3rd opening, is arranged on position corresponding with described lens combination on the frame of described first side,

Wherein between described first prism and described second prism, there is predetermined interval, and

Moved integrally the position of described first prism and described second prism by described switch unit, when making the interval between described first prism and described second prism relative with described 3rd opening, the light from the 3rd opening is directly incident on described lens combination.

5. terminal device as claimed in claim 3, wherein said processing unit controls described light path dispensing unit according at least two kinds of screening-modes or default trigger condition, make the reception of light path dispensing unit from the light of one of the first opening or the second opening, and the light from one of the first opening or the second opening is directed in the described lens combination of described camera module.

6. a terminal device, comprising:

Board unit, configuration is connected with display unit and processing unit;

Processing unit, configuration processes picture signal, and by described board unit, described view data is sent to described display unit; And

Display unit, described display unit comprises:

Display panel;

First housing, is arranged on described display panel side;

Second housing, is arranged on the opposite side of described display panel, wherein, forms space between the part exceeding described display panel at described first housing and the second housing;

Camera module, be arranged on the first area in described space, and the optical axis of the lens combination of described camera module and described first housing and/or described second housing parallel, described camera module is connected with described processing unit by described board unit, and will transmit the view data produced to described processing unit;

Light path dispensing unit, is arranged on the lens combination top of described camera module;

First opening, is arranged on the first housing position corresponding with light path dispensing unit;

Second opening, is arranged on the second housing position corresponding with light path dispensing unit,

Wherein said light path dispensing unit receives the light by described first opening or described second opening; And

Light from described first opening or described second opening is directed in the described lens combination of described camera module by light path dispensing unit,

Wherein said light path dispensing unit comprises further:

First prism;

Second prism, the frame direction, first side along display screen is arranged on the side of described first prism, and described first side frame is the side frame closest to described camera module, and described second prism and described first prism move integrally; And

Switch unit, is connected with described first prism and described second prism, and configuration moves integrally the position of described first prism and described second prism along described side frame direction,

Wherein said first opening and described second opening toward each other,

The position of described first prism and described second prism is moved integrally by described switch unit, when making described first prism relative with described first opening, described first prism receives the light from described first opening, and by the light refraction from the first opening to described lens combination, and

The position of described first prism and described second prism is moved integrally by described switch unit, when making described second prism relative with described second opening, described second prism receives the light from described second opening, and by the light refraction from the second opening to described lens combination.