CN102348091B - Display screen and terminal apparatus using the same - Google Patents

Abstract

A display screen and a terminal apparatus using the same are disclosed. The display screen comprises: a display panel part, which is configured to display an image based on the input image; a transparent fixed component, which is located above the display panel part and is configured to protect the display panel part; a camera shooting unit, which is arranged on a first area of the display panel part. Through the above configurations, a user can directly watch a liquid crystal screen when carrying out video conversation or video chatting. In this case, the user can directly watch a camera component and the camera component shoots the user. Therefore, two parties who carry out a video conversation can feel that visual lines of the two parties are opposite to each other. The feelings of the video conversation and chatting can be increased.

Description

Display screen and use the terminal installation of this display screen

Technical field

The present invention relates to a kind of display screen and use the terminal installation of this display screen.

Background technology

In the last few years, along with the development of network, the terminal equipment of such as notebook or mobile phone and so on is utilized to carry out video calling (meeting) or Video chat is becoming more prevalent.In order to realize the function of video calling or Video chat, usually CCD camera assembly is set above the screen of terminal equipment.

In this case, the sight line due to user always look at the image of correspondent on screen, and has very large distance between sight line region in one's power and the physical location of CCD camera assembly.

Therefore cause the sight line of the phase the other side carrying out video calling or Video chat always can not be relative, the susceptibility of thus video calling or chat be very low.

Summary of the invention

Based on the problems referred to above of the prior art, according to an aspect of the present invention, propose a kind of display screen, described display screen comprises: display floater part, and configuration carrys out the view data display image based on input; Transparent fixation kit, it is positioned on described display floater part, and described display floater part is protected in configuration; And image unit, it is arranged on the first area in described display floater part.

In addition, according to a further aspect in the invention, propose a kind of terminal installation, it is characterized in that comprising display screen, described display screen comprises: display floater part, and configuration carrys out the view data display image based on input; Transparent fixation kit, it is positioned on described display floater part, and described display floater part is protected in configuration; And image unit, it is arranged on the first area in described display floater part, and configuration obtains image; And processing unit, the image configured image unit obtains processes, and described image is sent to described display floater part and shows described image thereon.

By above-mentioned configuration, user when carrying out video calling or Video chat, user's These direct view liquid crystal screen.In this case, user looks at CCD camera assembly straight, and CCD camera assembly is taken user, and the user thus carrying out video calling feels that the sight line of both sides is relative, thus adds the impression of video calling and chat.In addition, because the display screen with image unit according to the embodiment of the present invention is not changed display floater part substantially, therefore its structure is relatively simple, and manufacturing cost is lower.In addition, because image unit is arranged on the first area in display floater part, so image unit can not be subject to the impact of display floater.

Accompanying drawing explanation

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

Fig. 2 is the enlarged drawing of the subregion of the display screen shown in schematic thinking 1;

Fig. 3 is the enlarged drawing of the subregion of diagram display screen according to a second embodiment of the present invention;

Fig. 4 is the partial enlarged drawing of the configuration of the blocking parts shown in schematic thinking 3 and CMOS sensor array; And

Fig. 5 is the sectional view of diagram display screen according to a third embodiment of the present invention.

Embodiment

Describe in detail according to each embodiment of the present invention with reference to accompanying drawing.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 part substantially, and the repeated description of will omit about them.

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

As shown in Figure 1, display screen 1 according to a first embodiment of the present invention comprises display floater 11, transparent fixation kit 12 and image unit 13.As shown in the figure, image unit 13 is arranged on display floater 11.

According to exemplary embodiment of the present invention, display floater 11 can show image or video based on the picture signal or vision signal being input to display screen 1, and can be made up of arbitrary display panel assembly.Such as, display floater 11 includes, but is not limited to TFT display floater, PDP display floater, OLED display panel etc.

Transparent fixation kit 12 can protect display floater 11 and image unit 12 etc., and, such as can be made up of glass plate, poly (methyl methacrylate) plate or the transparent plastic sheet with high transmission rate.

Image unit 13 can reference object, and produces the picture signal corresponding with reference object.According to exemplary embodiment of the present invention, image unit 13 includes, but is not limited to CMOS type photographing module and CCD type photographing module.In addition, image unit 13 can be arranged on the mid portion of display floater 11 or the optional position of display floater 11.

As shown in Figure 1, the picture signal produced by image unit 13 can be sent to via data wire the terminal installation (not shown) be connected with display screen 1.Then, terminal installation can carry out predetermined process to the picture signal that image unit 13 produces, and the picture signal processed is sent to display screen 1 to show.Such as, according to one embodiment of present invention, can on display floater 11 layout data line, and data wire is connected to DSP integrated on the timing control circuit of display floater 11 or interface module (as, USB interface), thus the picture signal that image unit 13 can be produced is sent to terminal installation (e.g., the mainboard of terminal installation) by FPC (flexible print circuit).In this case, because the data wire be connected with image unit 13 is usually very thin, therefore, user can not see the data wire arranged on display floater 11.

In addition, according to another embodiment of the present invention, on the upper surface of display floater 11, layout data line can also be carried out by the mode etching transparency electrode.In this case, due to transparency electrode is used as data wire, therefore user can not notice the wiring that display floater 11 exists.

Here, it should be noted that, the present invention does not relate to transmission path to the picture signal captured by camera 13 and transmission means, connected mode namely and between the internal module of be connected terminal installation and the improvement of transmission mode, and foregoing is known to those skilled in the art, therefore, the transmission path to picture signal, terminal equipment is omitted here to the detailed description of the predetermined process of picture signal etc.

The part-structure of display screen 1 is according to a first embodiment of the present invention described in detail below with reference to Fig. 2.Here it is to be noted that it be described embodiments of the invention for TFT type display panels (LCD) and CMOS type image unit.But, obviously, the present invention is not limited thereto, and display floater (e.g., PDP or OLED) and the image unit of any type can be applied.

Fig. 2 is the enlarged drawing of the subregion of the display screen 1 shown in Fig. 1, and wherein the left-half of Fig. 2 is the schematic diagram of image unit 13 position on the display screen, and the right half part of Fig. 2 is the partial enlarged drawing of image unit 13.

As shown in Figure 2, image unit 13 comprises light-blocking member 131, comprises CMOS sensor array 132 and the camera lens 133 of CMOS photo-sensitive cell pixel.

According to embodiments of the invention, light-blocking member 131 can be made up of light-proof material, and for blocking the light that display floater 11 is launched.Because light-blocking member 131 blocks the light that display floater 11 sends, therefore this light-blocking member 131 can be used as the darkroom of the CMOS sensor array 132 of display unit 13.Light-blocking member 131 is arranged on the upper surface of display floater 11.Such as, as shown in Figure 2, light-blocking member 131 can be arranged on the central area of display floater 11.But, the present invention is not limited thereto, can this light-blocking member 131 be set on the optional position of the upper surface of display floater 11.

The upper surface of light-blocking member 131 arranges CMOS sensor array 132.This CMOS sensor array 132 for receiving the light from camera lens 133 incidence, and produces the picture signal corresponding with the object captured by image unit.In addition, produced picture signal is also sent to analog/digital conversion unit 14 and can be undertaken processing and the data image signal be presented on display screen 1 by arbitrary terminal equipment process to be converted to by produced analog picture signal by CMOS sensor array 132.

Camera lens 133 for receiving the light from outside, and can form image with the picture signal making CMOS sensor array 132 generation corresponding with image on cmos sensor.According to one embodiment of present invention, camera lens 133 can be arranged on transparent fixation kit 12.But, the present invention is not limited thereto, based on transparent panel manufacture craft, camera lens 133 can be formed among transparent fixation kit 12.In addition, camera lens 133 and CMOS sensor array 132 and light-blocking member 131 etc. can also be integrated, and be arranged under transparent fixation kit 12.

According to one embodiment of present invention, adopt undersized CMOS type camera module as image unit 13.Such as, can arrange this image unit 13 on the position of the central area of display floater 11, wherein the light-blocking member 131 of image unit 13 covers the area (being about as much as the area of display floater dozens of display pixel) of the about 2.6mm × 2.6mm of display floater 11.According to current cmos sensor technology, about 1000 × 1000 (about 1,000,000) CMOS photo-sensitive cell pixels can be set on this region (about 2.6mm × 2.6mm).In addition, according to current cmos sensor technology, for the cmos sensor of this size (about 2.6mm × 2.6m), the camera lens that diameter is approximately only 0.6mm just can receive image from display screen 1 outside and imaging on this size cmos sensor.Therefore, even if form undersized CMOS type image unit 13 on display floater 11, user is also difficult to notice this image unit when watching the picture that display screen 1 shows, thus does not affect the display effect of display floater 11.

In addition, along with updating of CMOS type sensor technology, the size of the CMOS type transducer of every mega pixel is more and more less.Therefore, along with the development of cmos sensor technology, the CMOS type image unit with smaller szie can also be adopted to be used as image unit 13, thus the experience effect of adding users.

In addition, according to one embodiment of present invention, image unit 13 can also comprise analog/digital conversion unit (not shown).The analog picture signal that CMOS sensor array 132 produces can be converted to data image signal by analog/digital conversion unit.Because the present invention does not relate to the improvement to analog/digital conversion unit, therefore this analog/digital conversion unit can be made up of any analog/digital converter that can be applicable to the CMOS sensor array 132 such as (or CCD).Because the analog picture signal that CMOS sensor array 132 produces is converted to data image signal by analog/digital conversion unit, and for n bar data wire, can 2 be transmitted ⁿthe data of position, therefore, only need low volume data line (e.g., transparency electrode) just can transmit a large amount of data, thus can reduce the quantity of data wire further.By reducing the quantity of data wire, the more difficult existence perceiving camera 13 of user.

In addition, because CMOS sensor array 132 itself is made up of light-proof material, therefore, according to one embodiment of present invention, light screening material 131 can not also be set, and directly CMOS sensor array 132 be set directly on the upper surface of display floater 11.

Below, the structure of display screen 3 is according to a second embodiment of the present invention described with reference to Fig. 3.Difference due to the structure of the display screen 1 shown in the structure of display screen 3 according to a second embodiment of the present invention and Fig. 1 is the structure of image unit, therefore use identical Reference numeral to represent in display screen 3, with the same or similar parts of display screen 1 of Fig. 1, and repeated description is not carried out to them.

Fig. 3 is the enlarged drawing of the subregion of display screen 3 according to a second embodiment of the present invention, and wherein the left-half of Fig. 3 is the schematic diagram of image unit 33 position on a display screen 3, and the right half part of Fig. 3 is the partial enlarged drawing of image unit 33.

As shown in Figure 3, image unit 33 according to a second embodiment of the present invention comprises light-blocking member 331, CMOS sensor array 332 and camera lens 333.Image unit 33 is according to a second embodiment of the present invention with the difference of the image unit 13 shown in Fig. 1: light-blocking member 331 comprises multiple opening (that is, through hole).

As shown in Figure 3, according to one embodiment of present invention, the position one_to_one corresponding (concrete corresponding relation will be discussed in more detail below) of each display pixel on the region of the position of each opening of light-blocking member 331 and display floater 11 being blocked by light-blocking member 331.The object arranging opening at light-blocking member 331 is: the plurality of opening of the light transmission that the display pixel in the region that display floater 11 is blocked by light-blocking member 331 is sent.By above-mentioned configuration, the light that the display pixel in the subregion that display floater 11 is blocked by light-blocking member 331 sends can via the external emission of the plurality of opening to display screen 3.

Usually, the display pixel of display floater 11 forms by organizing red, green and blue look three primary colors (RGB) display pixel more, the shades of colour that the naked eyes producing user by the colour mixture of each group RGB display pixel can identify.By arranging multiple opening at light-blocking member 331, and the position of each opening is corresponding with the position of each the RGB display pixel in the region that light-blocking member 331 blocks.Particularly, such as, on the region of the display unit be made up of one group of rgb pixel (it forms the minimum display unit needed for colour mixture), at least one opening of light-blocking member 331 is corresponding with R display pixel, at least one opening of light-blocking member 331 is corresponding with G display pixel, and at least one opening of light-blocking member 331 is corresponding with B display pixel.In this case, can launch via the outward opening corresponding with these RGB display pixels with the light of each the RGB display pixel in the region that light-blocking member 331 blocks, thus the light that the RGB display pixel in the parts 331 that allow the to be blocked viewing area of blocking sends can mix to produce desired color.

In this case, even if in the region being provided with image unit 13, the light that the RGB display pixel of display floater 11 sends also is launched by outward opening, thus realizes the mixing of the light that RGB display pixel sends.Based on above-mentioned configuration, when user's use shows image according to the display screen 3 of the embodiment of the present invention, even if the specific region on display floater 11 (as, central area) be provided with image unit 33, user also can see the image corresponding with this viewing area, thus user can not notice also there is image unit 33 on the area.Simultaneously, the light sent due to RGB display pixel is by opening and outwards launched by transparent fixation kit 12, therefore, being emitted beam by RGB display pixel can not diffuse scattering in blocking parts 331, therefore the blocking parts 331 comprising opening still can be used as darkroom, thus ensure that the image quality of the photo-sensitive cell arranged thereon.

Below, the position of the blocking parts 331 with opening and the photo-sensitive cell arranged in blocking parts 331 is described in detail with reference to Fig. 4.

Fig. 4 is the partial enlarged drawing of the blocking parts 331 of Fig. 3 and the configuration of CMOS sensor array 332.The left-half of Fig. 4 is the configuration of the pixel in other region of display screen 3, and the right half part of Fig. 4 is the opening of blocking parts 331 and the configuration of CMOS sensor array 332.

According to one embodiment of present invention, multiple opening is set in blocking parts 331, and described multiple opening is corresponding with each the RGB display pixel in the viewing area that blocking parts 331 is blocked.As shown in Figure 4, on the region that the unit viewing area with display floater 11 is corresponding, the aperture position of blocking parts 331 is set in cornerwise mode.Here, unit viewing area refers to the region be made up of one group of RGB display pixel, and the light mixing wherein by being launched by the RGB display pixel in this unit viewing area produces the macroscopic shades of colour of user.By with diagonal way, arrange opening accordingly with each display pixel in the RGB display pixel in unit viewing area, make the light from each RGB display pixel can by described opening to form image by colour mixture.

In addition, on the upper surface of blocking parts 331, the region that opening is not set is arranged CMOS sensor array 332.Size due to the CMOS photo-sensitive cell pixel in CMOS sensor array 332 is far smaller than the size of RGB display pixel, therefore, by arranging the size of opening suitably, even if the non-open areas on the surface of blocking parts 331 arranges CMOS sensor array 332, abundant CMOS photo-sensitive cell pixel also can be set in above-mentioned zone, thus ensure that image unit 33 has abundant pixel to be formed enough large image.

Such as, according to one embodiment of present invention, the opening of blocking parts 331 can be set to about 1/3 of the size of RGB display pixel.By above-mentioned configuration, abundant CMOS photo-sensitive cell pixel both can be set in non-open areas, can guarantee again the opening having abundant light transmission blocking parts 331, user can not be noticed, and the image brightness in the viewing area being provided with image unit 33 is darker than the image brightness of other viewing area of display screen 3.In addition, the present invention is not limited thereto, the size of opening can be reasonably set according to actual needs.In addition, the number (such as, arranging opening etc. for two R display pixels) of opening can also be reasonably set.In addition, the arrangement of the opening of light-blocking member 331 is not limited to diagonal way.As long as the light through the RGB display pixel of these openings can carry out mixing to produce the macroscopic shades of colour of user, other arrangement mode is also fine.

The situation using display screen 3 according to a second embodiment of the present invention to carry out video calling or chat is described below.

Such as, when using display screen 3 to carry out Video chat or call, image unit 33 is taken the image of user and is produced picture signal, and the analog picture signal that image unit 33 produces is converted to data image signal by analog/digital converter 14, and produced data image signal is carried out predetermined process by being sent to the terminal equipment (not shown) be connected with display screen 3.Then, the image processed or vision signal are sent to display screen 3 and show by terminal equipment.

When carrying out video calling or chat, owing to arranging multiple opening in blocking parts 331, and the position of each opening in described multiple opening is corresponding with the corresponding RGB display pixel in the viewing area that blocking parts 331 is blocked, therefore, in this case, the light from each RGB display pixel can by described opening to form image by colour mixture.Therefore, even if be provided with image unit 33 on display floater 11, user also can not perceive the disappearance of image on the viewing area being provided with image unit 33.Simultaneously, owing to arranging CMOS sensor array 332 on the region not arranging opening, and directly pass through transparent fixation kit 12 through the light of multiple openings of blocking parts 331, therefore, the effect of the image that CMOS sensor array 332 produces substantially can not be affected by the light of the RGB display pixel of opening.

In addition, when not using image unit 33 to carry out Video chat or video calling, owing to arranging multiple opening in blocking parts 331, and each opening in these openings is corresponding with the corresponding RGB display pixel in the viewing area that blocking parts 331 is blocked, therefore, light from each RGB display pixel can pass through described opening, thus can form image by colour mixture.In this case, the region being provided with image unit 33 also can show image, therefore, user can not notice the existence of image unit 33.

Therefore, according to exemplary embodiment of the present invention, image unit 33 can produce good image, and user also can not notice the existence of image unit 33 on display screen 3.In this case, carry out video calling or Video chat because user looks at display screen 3 straight, therefore between user, sight line is relative, thus the use sense that improve user is subject to.

In addition, according to another example of the present invention, can also the image that image unit 33 produces be compensated.The reason that the image of image unit 33 generation compensates is: owing to being provided with multiple opening at light-blocking member 331, and CMOS photo-sensitive cell pixel is not set on these openings, therefore, the image that the disappearance of CMOS photo-sensitive cell pixel may produce image unit 33 produces adverse influence.Normally, interpolation technique is utilized to compensate the image that image unit 33 produces.Particularly, the information that the CMOS photo-sensitive cell pixel utilizing the around openings of light-blocking member 331 to arrange obtains carrys out the image information on interpolation calculation opening portion.Because the present invention does not relate to the improvement to interpolation algorithm, therefore can adopt the compensation that arbitrary interpolation arithmetic has come image, and be omitted here the detailed description to interpolation algorithm.

In addition, in order to strengthen image unit CMOS sensor array needed for darkroom effect, can also Unidirectional transparent film be set around camera lens.According to one embodiment of present invention, this Unidirectional transparent film can be arranged on transparent fixation kit 12, and the position of this Unidirectional transparent film and area corresponding with the region occupied by light-blocking member 131 (331).The Unidirectional transparent film that arbitrary Unidirectional transparent material is used as according to the embodiment of the present invention can be adopted.The configuration of this Unidirectional transparent film stops from the CMOS sensor array 132 (332) the light directive light-blocking member 131 (331) of display screen 1 (3) outside, and allows the light penetrated from RGB display pixel through described opening to pass through this Unidirectional transparent film.

By above-mentioned configuration, when not affecting user and watching the image that display screen shows, further enhance the darkroom effect needed for CMOS sensor array of image unit, thus further increase the quality of the image that image unit produces.

Below, the structure of display screen is according to another embodiment of the present invention described with reference to Fig. 5.

Fig. 5 is the sectional view of diagram according to the display screen 5 of the embodiment of the present invention, and wherein the left-half of Fig. 5 is the structure of the TFT type display floater of prior art, and the right half part of Fig. 5 is the structure of the display screen 5 according to the embodiment of the present invention.

As shown in Figure 5, the difference between the display screen 1 according to another embodiment of the present invention shown in display screen 5 and Fig. 1 is: in display screen 5, is arranged on the transparent fixation kit of display screen 5 by the table polaroid on TFT type display floater 51.Here, because each Rotating fields of TFT type display floater 51 and each Rotating fields of CMOS photo-sensitive cell pixel are known to those skilled in the art, therefore, the detailed description of the structure for them is omitted here.

As shown in Figure 5, the upper surface of the display floater 51 of display screen 5 is CF glass and table polaroid.Because table polaroid position need arrange the parts such as described photo-sensitive cell, therefore table polaroid is arranged under transparent fixation kit 12, and light-blocking member is arranged on the CF glass of display floater 51.Due to the light that table polaroid is launched from display floater 51 for polarization, therefore, table polaroid is arranged on the effect that can not affect the image that display floater 51 shows under transparent fixation kit 12, and the life-span of display screen 5 can be extended.

According to above-mentioned configuration, describe the display screen according to each embodiment of the present invention.By above-mentioned configuration, user when carrying out video calling or Video chat, user's These direct view liquid crystal screen.In this case, user looks at CCD camera assembly straight, and CCD camera assembly is taken user, and the user thus carrying out video calling feels that the sight line of both sides is relative, thus adds the impression of video calling and chat.In addition, because the display screen with image unit according to each embodiment of the present invention is not changed display floater part substantially, therefore its structure is relatively simple, and manufacturing cost is lower.In addition, because image unit is arranged on the first area in display floater part, so image unit can not be subject to the impact of display floater.Ensure that image/content that display floater shows is not influenced because of the existence of camera unit owing to being provided with multiple opening on the light-blocking member of image unit simultaneously.

The structure of the display screen according to each embodiment of the present invention is described in detail above.Can be applied to according to the display screen of each embodiment of the present invention and there is display screen and have on the terminal installation of the function of video calling or Video chat and so on.Described terminal installation comprises display screen and processing unit, and described display screen comprises: display floater part, transparent fixation kit, image unit; Wherein, display floater partial configuration carrys out the view data display image based on input; Transparent fixation kit is positioned on described display floater part, and described display floater part is protected in configuration; And image unit is arranged in the presumptive area in described display floater part, configuration obtains image; Processing unit configuration processes the image that image unit obtains, and described image is sent to described display floater part and shows described image thereon.

Such as, having according to the terminal installation of the display screen of the embodiment of the present invention can be the terminal installation of such as computer, notebook, mobile phone, PDA and so on.Such as the terminal installation of computer, notebook, mobile phone, PDA and so on has processing unit, it can when carrying out video calling or Video chat, the image that image unit produces is processed, and the display floater part described image being sent to display screen shows the image produced by image unit on this display floater.In addition, when not using image unit to carry out video calling or Video chat, due to the special construction of image unit, user can not notice the existence of image unit, thus can not affect the effect that user watches the image that display screen shows.

As mentioned above, specifically describing each embodiment of the present invention, but the present invention is not limited thereto.It should be appreciated by those skilled in the art, various amendment, combination, sub-portfolio or replacement can be carried out according to designing requirement or other factors, and they are in the scope of claims and equivalent thereof.

Claims (11)

1. a display screen, is characterized in that, described display screen comprises:

Display floater part, configuration carrys out the view data display image based on input;

Transparent fixation kit, it is positioned on described display floater part, and described display floater part is protected in configuration; And

Image unit, it is arranged on the first area in described display floater part;

Wherein said image unit comprises:

Light-blocking member, be arranged on the described first area of the upper surface of described display floater part, configure the light blocked from described display floater fractional transmission, described light-blocking member comprises multiple opening, configuration carrys out transmitted light, and described light is sending by described display floater part;

Photo-sensitive cell, the upper surface being arranged on described light-blocking member does not arrange on the region of described opening; With

Camera lens part, is arranged on described photo-sensitive cell.

2. display screen as claimed in claim 1, it is characterized in that, described image unit comprises further:

Analog/digital conversion unit, configures the analog picture signal received from described photo-sensitive cell, and described analog picture signal is converted to data image signal.

3. display screen as claimed in claim 1, is characterized in that, described camera lens part divide be arranged on described transparent fixation kit upper surface on.

4. display screen as claimed in claim 1, is characterized in that, described camera lens part divides and is arranged in described transparent fixation kit.

5. display screen as claimed in claim 1, is characterized in that:

Described light-blocking member covers multiple display unit on described display floater, and wherein each display unit comprises at least one group of red, green and blue display pixel; And

In the region corresponding with each display unit, at least one opening of described light-blocking member is corresponding with described red display pixel, at least one opening of described light-blocking member is corresponding with described green display pixels, and at least one opening of described light-blocking member is corresponding with described blue display pixels.

6. display screen as claimed in claim 5, is characterized in that:

The view data of described aperture position is estimated by the view data utilizing described parameatal photo-sensitive cell to produce.

7. display screen as claimed in claim 1, is characterized in that:

At the upper surface of transparent fixation kit, at described camera lens portion, Unidirectional transparent film is set, and described Unidirectional transparent film is corresponding with the described first area of described light-blocking member, wherein said Unidirectional transparent film barrier from the light of photo-sensitive cell described in the outside directive of described display screen, and allows light that described display floater parts are penetrated by described opening by described Unidirectional transparent film.

8. screen as claimed in claim 1, is characterized in that:

Described display floater part is at least one in TFT LCD panel, PDP display floater and OLED display panel.

9. screen as claimed in claim 1, is characterized in that:

Transparent fixation kit lower surface arranges table polarizing layer.

10. screen as claimed in claim 1, is characterized in that:

Described photo-sensitive cell comprises at least one in CCD type photo-sensitive cell and CMOS type photo-sensitive cell.

11. 1 kinds of terminal installations, is characterized in that comprising display screen,

Described display screen comprises:

Display floater part, configuration carrys out the view data display image based on input;

Transparent fixation kit, it is positioned on described display floater part, and configuration is protected described aobvious

Show faceplate part; And

Image unit, it is arranged in the presumptive area in described display floater part, configuration obtains image, and wherein said image unit comprises: on the first area being arranged on the upper surface of described display floater part and configuration block from the light light-blocking member of described display floater fractional transmission, be arranged on the photo-sensitive cell the upper surface of described light-blocking member and be arranged on the camera lens part on described photo-sensitive cell; And

Processing unit, the image configured image unit obtains processes, and described image is sent to described display floater part and shows described image thereon,

Wherein said light-blocking member comprises multiple opening, and configuration carrys out transmitted light, and described light is sending by described display floater part, and the region not arranging described opening on the upper surface of described light-blocking member arranges described photo-sensitive cell.