CN104199212A - Display device and electronic device - Google Patents

Abstract

The invention discloses a display device which is used for solving the technical problem that an electronic device in the prior art is poor in display effect. The display device comprises a liquid crystal panel and a prism. The liquid crystal panel comprises first pixel areas and a second pixel area which is not overlapped with the first pixel areas. The pixel density of the first pixel areas is different from that of the second pixel area, and the first pixel areas are located at least one edge area of the liquid crystal panel. The prism is attached to the first pixel areas and used for refracting a first image formed by pixels in the first pixel areas so that an amplified image corresponding to the first image can be obtained. The liquid crystal panel further comprises a display layer located above the prism, and the display layer is used for displaying a display frame formed by the amplified image and a second image formed by pixels in the second pixel area. The invention further discloses an electronic device with the display device.

Description

A kind of display device and electronic equipment

Technical field

The present invention relates to electronic technology field, particularly a kind of display device and electronic equipment.

Background technology

Day by day fierce with market competition of developing rapidly along with science and technology, the performance of electronic equipment and outward appearance have obtained promoting energetically, such as electronic equipments such as notebooks with its small volume and less weight, be easy to carry, the recreational advantage such as strong is just being subject to liking of increasing people, becomes an indispensable part in studying and living.User utilizes the thing that electronic equipment can do also more and more, as: user can see video by mobile phone or panel computer, take pictures, plays games etc.

At present, in order to improve the display effect of user while using electronic equipment to watch, conventionally the display screen of large-size can be there is for electronic device design, to meet user demand.But owing to thering is driving circuit in display screen, driving circuit is arranged on the surrounding of display screen conventionally, therefore the effective display area of display screen is reduced, display effect is poor, and, for display screen that can process touch control operation, this set has also reduced to complete the region of touch-control sensing, affects touch-control sensing effect.And, in order to block driving circuit, can be the wider frame of display screen increase or coating conventionally, the size of electronic equipment integral body is strengthened, increase floor area, and corresponding effective screen area does not increase accordingly.

Therefore, in prior art, there is the poor technical matters of display effect of electronic equipment.

Summary of the invention

The embodiment of the present invention provides a kind of display device and electronic equipment, for solving the poor technical matters of prior art electronic equipment display effect.

A display device, comprises liquid crystal panel and prism;

Described liquid crystal panel comprise the first pixel region and with nonoverlapping the second pixel region of described the first pixel region; Wherein, described the first pixel region is different from the picture element density of described the second pixel region, and described the first pixel region is positioned at least one fringe region of described liquid crystal panel;

Prism, is attached on described the first pixel region, and the first image forming for the pixel reflecting by described the first pixel region, obtains the enlarged image corresponding with described the first image;

Described liquid crystal panel also comprises display layer, is positioned at described prism top, for showing by described enlarged image and the display frame that consists of the second image that the pixel of described the second pixel region forms.

Optionally, described the first pixel region comprises at least one subpixel area, and sub-pixel density corresponding to described at least one subpixel area is identical or different.

Optionally, the pixel of described the second pixel region has the second picture element density, and described the second picture element density is less than described all sub-pixel density corresponding at least one subpixel area.

Optionally, described display device also comprises backlight, and described backlight is positioned at described liquid crystal panel below, and the luminous energy that described backlight is sent projects described the first image and described the second image in described display layer.

Optionally, described prism has at least one plane of refraction, and described at least one plane of refraction, for receiving the incident light corresponding with described the first image from described backlight, obtains described enlarged image with the refraction by described prism.

An electronic equipment, comprising:

Main body;

Display device, is connected with described main body; Described display device comprises liquid crystal panel and prism; Described liquid crystal panel comprise the first pixel region and with nonoverlapping the second pixel region of described the first pixel region, described the first pixel region is different from the picture element density of described the second pixel region, and described the first pixel region is positioned at least one fringe region of described liquid crystal panel, the first image that the pixel of described the first pixel region forms is processed and can be obtained the enlarged image corresponding with described the first image through the refraction of described prism; Wherein, described liquid crystal panel also comprises display layer, is positioned at described prism top, for showing by described enlarged image and the display frame that consists of the second image that the pixel of described the second pixel region forms.

Optionally, described the first pixel region comprises at least one subpixel area, and sub-pixel density corresponding to described at least one subpixel area is identical or different; The pixel of described the second pixel region has the second picture element density, and described the second picture element density is less than described all sub-pixel density corresponding at least one subpixel area.

Optionally, described display device also comprises backlight, and described backlight is positioned at the below of described liquid crystal panel, and the luminous energy that described backlight is sent projects described the first image and described the second image in described display layer.

Optionally, the prism of described display device has at least one plane of refraction, the incident light corresponding with described the first image from described backlight receiving by described at least one plane of refraction, and the refraction to described incident light of described prism, can obtain described enlarged image.

Optionally, described display device has the width identical with described main body.

In the embodiment of the present invention, because described display device comprises described liquid crystal panel and described prism, and described liquid crystal panel comprises that described the first pixel region has different picture element densities from described the second pixel region, when described prism is attached on described the first pixel region, described first image that the pixel in described the first pixel region can be formed by described prism reflects, thereby make display frame described in the enlarged image corresponding with described the first image and described the second image construction after refraction, and be presented in described display layer.Therefore,, by the refraction to described the first image to the adjustment of the picture element density of the pixel of the first pixel region described in described liquid crystal panel and described prism, make the described enlarged image after refraction can enough keep the display effect identical with described the second image.Further, because described the first pixel region is positioned at least one fringe region of described liquid crystal panel, therefore the refraction by described prism amplifies described the first image and is finally presented at the upper of described display layer, avoided sacrificing display screen fringe region because blocking frame circuit, thereby can realize the display effect of described display device Rimless, improve the display effect of electronic equipment.

Accompanying drawing explanation

Fig. 1 is the primary structure figure of display device in the embodiment of the present invention;

Fig. 2 A-Fig. 2 B is the schematic diagram of the first sub-pixel density in the embodiment of the present invention;

Fig. 3 A-Fig. 3 B is the not identical schematic diagram of the first sub-pixel density in the embodiment of the present invention;

Fig. 4 is the structural representation of electronic equipment in the embodiment of the present invention.

Embodiment

The embodiment of the present invention provides a kind of display device, comprises liquid crystal panel and prism; Described liquid crystal panel comprise the first pixel region and with nonoverlapping the second pixel region of described the first pixel region; Wherein, described the first pixel region is different from the picture element density of described the second pixel region, and described the first pixel region is positioned at least one fringe region of described liquid crystal panel; Prism, is attached on described the first pixel region, and the first image forming for the pixel reflecting by described the first pixel region, obtains the enlarged image corresponding with described the first image; Described liquid crystal panel also comprises display layer, is positioned at described prism top, for showing by described enlarged image and the display frame that consists of the second image that the pixel of described the second pixel region forms.

In the embodiment of the present invention, because described display device comprises described liquid crystal panel and described prism, and described liquid crystal panel comprises that described the first pixel region has different picture element densities from described the second pixel region, when described prism is attached on described the first pixel region, described first image that the pixel in described the first pixel region can be formed by described prism reflects, thereby make display frame described in the enlarged image corresponding with described the first image and described the second image construction after refraction, and be presented in described display layer.Therefore,, by the refraction to described the first image to the adjustment of the picture element density of the pixel of the first pixel region described in described liquid crystal panel and described prism, make the described enlarged image after refraction can enough keep the display effect identical with described the second image.Further, because described the first pixel region is positioned at least one fringe region of described liquid crystal panel, therefore the refraction by described prism amplifies described the first image and is finally presented at the upper of described display layer, avoided sacrificing display screen fringe region because blocking frame circuit, thereby can realize the display effect of described display device Rimless, improve the display effect of electronic equipment.

For making object, technical scheme and the advantage of the embodiment of the present invention clearer, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, rather than whole embodiment.Embodiment based in the present invention, those of ordinary skills, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.

In the embodiment of the present invention, described electronic equipment can be PC (personal computer), notebook, PAD (panel computer), mobile phone etc. different electronic equipment, and the present invention is not restricted this.

In addition, term "and/or", is only a kind of incidence relation of describing affiliated partner herein, and expression can exist three kinds of relations, and for example, A and/or B, can represent: individualism A exists A and B, these three kinds of situations of individualism B simultaneously.In addition, character "/", generally represents that forward-backward correlation is to liking a kind of relation of "or" herein.

Below in conjunction with accompanying drawing, the preferred embodiment of the present invention is elaborated.

Refer to Fig. 1, the embodiment of the present invention provides a kind of display device, and described display device can comprise liquid crystal panel 1, prism 2 and display layer 3, wherein, numeral 11 represents described display device, and described liquid crystal panel 1 and described prism 2 all, in described display device, are expressed as dotted line in figure.Described liquid crystal panel 1 comprise the first pixel region and with nonoverlapping the second pixel region of described the first pixel region, the alphabetical A illustrating in figure represents described the first pixel region, letter b represents described the second pixel region, and described the first pixel region is different from the picture element density of described the second pixel region, and described the first pixel region is positioned at least one fringe region of described liquid crystal panel 1, arrow in figure represents the light that sends in described the first pixel region corresponding refracted ray in described prism 2, the image reflecting by described refracted ray is finally presented in described display layer 3.

In the embodiment of the present invention, described the first pixel region can be near the place at its edge in described liquid crystal panel 1, and described the second pixel region can be the pixel region in being close central area in liquid crystal panel 1.

For example, in the distributed areas of the pixel of described liquid crystal panel 1, using the distributed areas near side as described the first pixel region, using the distributed areas in central area as the second pixel region, described the first pixel region can be close to described the second pixel region.

In the embodiment of the present invention, described display device can refer to liquid crystal display.Conventionally, the display device that liquid crystal display is thin plane, is comprised of colour or the monochrome pixels of some, is positioned over light source or reflecting surface the place ahead.

First the quality of a liquid crystal display will see its panel, because the quality of panel directly has influence on the viewing effect of picture, and liquid crystal television panel has accounted for the over half of complete machine cost, it is the principal element that affects the cost of LCD TV, so select a good liquid crystal display, first will choose its panel.And liquid crystal panel can determine the very important parameters such as the brightness, contrast, color, visible angle of liquid crystal display to a great extent.Common liquid crystal panel type has: VA class panel, IPS panel and the CPA panels such as TN panel, MVA and PVA.

Conventionally, liquid crystal display must first utilize backlight to project light source, and these light sources can be first through a Polarizer and then through liquid crystal.At this moment the arrangement mode of liquid crystal molecule will change the polarization angle that penetrates the light of propagating in liquid crystal, and then these light also must be through colored filter coating and another piece Polarizer in the place ahead.Therefore we,, as long as change light intensity and the color that the magnitude of voltage being added on liquid crystal just can be controlled last appearance, so just can change and to have had the color combination of different tones on liquid crystal panel 1.

In the embodiment of the present invention, described the first pixel region has different picture element densities from described the second pixel region, owing to may having the circuit that is arranged in fringe region in described display device, therefore can described liquid crystal panel 1 in picture element density corresponding to part pixel region be set to larger picture element density.For example, picture element density corresponding to described the first pixel region is set and is greater than picture element density corresponding to described the second pixel region.

In the embodiment of the present invention, described the first pixel region can comprise at least one subpixel area, and sub-pixel density corresponding to described at least one subpixel area is identical or different.Meanwhile, the pixel of described the second pixel region has the second picture element density, and described the second picture element density is less than described all sub-pixel density corresponding at least one subpixel area.

Be in described liquid crystal panel 1, when corresponding picture element density being set for described the first pixel region and described the second pixel region, first to meet the first picture element density that described the first pixel region is corresponding to be greater than the second picture element density that described the second pixel region is corresponding; Secondly, in the situation that meeting above-mentioned condition, can in described the first pixel region, divide described at least one subpixel area, if described sub-pixel density corresponding to described at least one subpixel area is not identical, at described the first pixel region, can be set to the sub-pixel density of gradual change, if described sub-pixel density is identical, can think the first picture element density that described the first pixel region is corresponding, and described the first picture element density is greater than described the second picture element density.

For example, refer to Fig. 2 A, described in described liquid crystal panel 1, described in the first pixel region, at least one subpixel area has identical sub-pixel density, i.e. described the first picture element density; And described the second pixel region has the second picture element density that is less than described the first picture element density; Wherein, letter A represents described the first pixel region and the first corresponding picture element density thereof comprising in described liquid crystal panel 1, letter b represents described the second pixel region and corresponding picture element density thereof, the size of the lattice in figure can represent the picture element density between pixel, grid is larger, represents that picture element density is less; Otherwise picture element density is larger.

In like manner, refer to Fig. 2 B, sub-pixel density corresponding to described at least one subpixel area of the first pixel region described in described liquid crystal panel 1 is not identical, the picture element density of the first pixel region described in figure has the trend increasing gradually, and is all greater than described the second picture element density that described the second pixel region is corresponding.

Due to generally, the visible angle of display device is symmetrical, and upper next not necessarily symmetrical, therefore, when a present invention's picture element density corresponding to pixel region in to described liquid crystal panel 1 arranges, mainly picture element density corresponding to the pixel region of the left and right sides adjusted.

In the embodiment of the present invention, the first image that described prism 2 can form for the pixel reflecting in described the first pixel region, obtains the described enlarged image corresponding with described the first image.Described prism 2 can be to be attached on described the first pixel region and/or described the second pixel region.

For example, the first of described prism 2 can be the part for reflecting, second portion can be for fixing part, described first can be placed in described the first pixel region top, so that reflect described the first image, and described second portion can, for having the part of flat surface, can be attached on described the second pixel region, thereby be fixed, to preferably described the first image is reflected.Or described prism 2 also can only be attached on described the first pixel region.

In the embodiment of the present invention, described liquid crystal panel 1 can also comprise display layer 3, described display layer 3 can be positioned at described prism 2 tops, for showing by described enlarged image and the display frame that consists of the second image that the pixel of described the second pixel region forms.For example, when described the first image through being refracted to of described prism 2 on described display layer 3 after, in described display layer 3, can show described enlarged image corresponding to it.

In the embodiment of the present invention, described display device also comprises backlight, and described backlight can be positioned at described liquid crystal panel 1 below, and the luminous energy that described backlight is sent projects described the first image and described the second image in described display layer 3.

Optionally, in the embodiment of the present invention, described backlight can refer in described display device that image for described liquid crystal panel 1 pixel is formed, by the light source sending, forms the backlight of incident light.By described backlight, the image that pixel in described liquid crystal panel 1 can be formed directly or project in described display layer 3 by described prism 2.

Conventionally, backlight can be to be positioned at liquid crystal display a kind of light source behind, and its illumination effect will directly have influence on LCD MODULE visual effect.In the design of backlight, selecting of light source used is very important.Light source used has determined the photoelectric parameters such as the power consumption, brightness, color of backlight, has also determined the characteristics such as its service condition and serviceable life.

In the embodiment of the present invention, described prism 2 can have at least one plane of refraction, and described at least one plane of refraction, for receiving the incident light corresponding with described the first image from described backlight, obtains described enlarged image with the refraction by described prism 2.

Wherein, described at least one plane of refraction can refer in described prism 2 for reflecting the plane of refraction of described the first image, and each plane of refraction in described at least one plane of refraction can have with respect to described liquid crystal panel 1 accordingly

For example, when sub-pixel density that described at least one sub-pixel in described the first pixel region is corresponding is identical, for example, be described the first picture element density.Can determine described in described prism 2 that plane of refraction is with respect to the angle of inclination of described liquid crystal panel 1 according to described the first picture element density, so that in refracting process, refractive index according to described prism 2, determine the angle of suitable incident light, so that final refract light has comparatively ideal refraction effect.

Refer to Fig. 3 A, numeral 31 represents described backlight, and it is positioned at described liquid crystal panel 1 below; First refractive face in described at least one plane of refraction of numeral 32 representative, the second plane of refraction in described at least one plane of refraction of numeral 33 representative, described first refractive face is for reflecting the image corresponding to first region of described the first pixel region, described the second plane of refraction is for reflecting the image corresponding to second portion region of described the first pixel region, described the first pixel region has the first picture element density, and described first refractive face and described the second plane of refraction form identical angle respectively with between described liquid crystal panel 1.In figure, the straight line with arrow represents refracting process that send by described backlight and the corresponding light of the image subregional pixel formation of described First, and described refracted ray can be refracted on described display layer 3.

When sub-pixel density corresponding to described at least one subpixel area of comprising when described the first pixel region is different, according to the different sub-pixel density of each subpixel area, can design in advance described each self-corresponding angle of at least one plane of refraction.For example, the first subpixel area corresponding first sub-pixel density, corresponding the second sub-pixel density of the second subpixel area, because the image after needs refraction need to have identical display effect with described the second image, therefore according to the ratio of each sub-pixel density and described the second picture element density, and the refractive index of described prism 2, can determine corresponding incident angle and emergence angle ratio, thereby determine that described at least one plane of refraction is with respect to the relative angle between described liquid crystal panel 1.

Refer to Fig. 3 B, numeral 31 represents described backlight, first refractive face in described at least one plane of refraction of 32 representative, the second plane of refraction in described at least one plane of refraction of numeral 33 representative, described first refractive face is corresponding with described the first subpixel area, described the second plane of refraction is corresponding with described the second subpixel area, and the corresponding sub-density pixel of described the first subpixel area is greater than sub-pixel density corresponding to described the second subpixel area.Arrow straight line represents respectively the incident ray a corresponding with described the first subpixel area and is refracted on described display layer 3 with incident ray b corresponding to the second subpixel area.

In the embodiment of the present invention, due to the corresponding picture element density of pixel in the first pixel region can be set described in described liquid crystal panel 1 as required, thereby by the refraction of described prism 2, can be so that the image finally projecting on described display layer 3 at least can fill up the viewing area in the left and right edges region of described display layer 3, thus can realize the effect of display device Rimless.

Refer to Fig. 4, the embodiment of the present invention also discloses a kind of electronic equipment, comprises main body 41, display device 42, and described display device 42 is connected with described main body 41; Described display device 42 comprises liquid crystal panel 1 and prism 2; Described liquid crystal panel 1 comprise the first pixel region and with nonoverlapping the second pixel region of described the first pixel region, described the first pixel region is different from the picture element density of described the second pixel region, and described the first pixel region is positioned at least one fringe region of described liquid crystal panel 1, the first image that the pixel of described the first pixel region forms is processed and can be obtained the enlarged image corresponding with described the first image through the refraction of described prism 2; Wherein, described liquid crystal panel 1 also comprises display layer 3, is positioned at described prism 2 tops, for showing by described enlarged image and the display frame that consists of the second image that the pixel of described the second pixel region forms.

In the embodiment of the present invention, described the first pixel region comprises at least one subpixel area, and sub-pixel density corresponding to described at least one subpixel area is identical or different; The pixel of described the second pixel region has the second picture element density, and described the second picture element density is less than described all sub-pixel density corresponding at least one subpixel area.

In the embodiment of the present invention, described display device 42 also comprises backlight, and described backlight is positioned at the below of described liquid crystal panel 1, and the luminous energy that described backlight is sent projects described the first image and described the second image in described display layer 3.

In the embodiment of the present invention, the prism 2 of described display device 42 has at least one plane of refraction, the incident light corresponding with described the first image from described backlight receiving by described at least one plane of refraction, and the refraction to described incident light of described prism 2, can obtain described enlarged image.

In the embodiment of the present invention, described display device 42 has the width identical with described main body 41.

The embodiment of the present invention provides a kind of display device, comprises liquid crystal panel 1 and prism 2; Described liquid crystal panel 1 comprise the first pixel region and with nonoverlapping the second pixel region of described the first pixel region; Wherein, described the first pixel region is different from the picture element density of described the second pixel region, and described the first pixel region is positioned at least one fringe region of described liquid crystal panel 1; Prism 2, is attached on described the first pixel region, and the first image forming for the pixel reflecting by described the first pixel region, obtains the enlarged image corresponding with described the first image; Described liquid crystal panel 1 also comprises display layer 3, is positioned at described prism 2 tops, for showing by described enlarged image and the display frame that consists of the second image that the pixel of described the second pixel region forms.

In the embodiment of the present invention, because described display device comprises described liquid crystal panel 1 and described prism 2, and described liquid crystal panel 1 comprises that described the first pixel region has different picture element densities from described the second pixel region, when described prism 2 is attached on described the first pixel region, described first image that the pixel in described the first pixel region can be formed by described prism 2 reflects, thereby make display frame described in the enlarged image corresponding with described the first image and described the second image construction after refraction, and be presented in described display layer 3.Therefore, by the refraction to the adjustment of the picture element density of the pixel of the first pixel region described in described liquid crystal panel 1 and 2 pairs of described the first images of described prism, make the described enlarged image after refraction can enough keep the display effect identical with described the second image.Further, because described the first pixel region is positioned at least one fringe region of described liquid crystal panel 1, therefore the refraction by described prism 2 amplifies described the first image and is finally presented at the upper of described display layer 3, avoided sacrificing display screen fringe region because blocking frame circuit, thereby can realize the display effect of described display device Rimless, improve the display effect of electronic equipment.

Obviously, those skilled in the art can carry out various changes and modification and not depart from the spirit and scope of the present invention the present invention.Like this, if within of the present invention these are revised and modification belongs to the scope of the claims in the present invention and equivalent technologies thereof, the present invention is also intended to comprise these changes and modification interior.

Claims (10)

1. a display device, comprises liquid crystal panel and prism;

Described liquid crystal panel comprise the first pixel region and with nonoverlapping the second pixel region of described the first pixel region; Wherein, described the first pixel region is different from the picture element density of described the second pixel region, and described the first pixel region is positioned at least one fringe region of described liquid crystal panel;

Prism, is attached on described the first pixel region, and the first image forming for the pixel reflecting by described the first pixel region, obtains the enlarged image corresponding with described the first image;

Described liquid crystal panel also comprises display layer, is positioned at described prism top, for showing by described enlarged image and the display frame that consists of the second image that the pixel of described the second pixel region forms.

2. display device as claimed in claim 1, is characterized in that, described the first pixel region comprises at least one subpixel area, and sub-pixel density corresponding to described at least one subpixel area is identical or different.

3. display device as claimed in claim 2, is characterized in that, the pixel of described the second pixel region has the second picture element density, and described the second picture element density is less than described all sub-pixel density corresponding at least one subpixel area.

4. display device as claimed in claim 3, it is characterized in that, described display device also comprises backlight, and described backlight is positioned at described liquid crystal panel below, and the luminous energy that described backlight is sent projects described the first image and described the second image in described display layer.

5. display device as claimed in claim 4, it is characterized in that, described prism has at least one plane of refraction, and described at least one plane of refraction, for receiving the incident light corresponding with described the first image from described backlight, obtains described enlarged image with the refraction by described prism.

6. an electronic equipment, comprising:

Main body;

Display device, is connected with described main body; Described display device comprises liquid crystal panel and prism; Described liquid crystal panel comprise the first pixel region and with nonoverlapping the second pixel region of described the first pixel region, described the first pixel region is different from the picture element density of described the second pixel region, and described the first pixel region is positioned at least one fringe region of described liquid crystal panel, the first image that the pixel of described the first pixel region forms is processed and can be obtained the enlarged image corresponding with described the first image through the refraction of described prism; Wherein, described liquid crystal panel also comprises display layer, is positioned at described prism top, for showing by described enlarged image and the display frame that consists of the second image that the pixel of described the second pixel region forms.

7. electronic equipment as claimed in claim 6, is characterized in that, described the first pixel region comprises at least one subpixel area, and sub-pixel density corresponding to described at least one subpixel area is identical or different; The pixel of described the second pixel region has the second picture element density, and described the second picture element density is less than described all sub-pixel density corresponding at least one subpixel area.

8. electronic equipment as claimed in claim 7, it is characterized in that, described display device also comprises backlight, and described backlight is positioned at the below of described liquid crystal panel, and the luminous energy that described backlight is sent projects described the first image and described the second image in described display layer.

9. electronic equipment as claimed in claim 8, it is characterized in that, the prism of described display device has at least one plane of refraction, the incident light corresponding with described the first image from described backlight receiving by described at least one plane of refraction, and the refraction to described incident light of described prism, can obtain described enlarged image.

10. the electronic equipment as described in claim as arbitrary in claim 6-9, is characterized in that, described display device has the width identical with described main body.