CN110111688A - A kind of display panel, display methods and display system - Google Patents

Abstract

The embodiment of the invention discloses a kind of display panel, display methods and display system, display panel includes: the first light emitting region and at least one reflecting mirror；Wherein, the first light emitting region includes at least one vector pixel；At least one vector pixel includes at least one vector sub-pixel, and vector sub-pixel issues the incident ray of at least one angle；The edge of the first light emitting region is arranged at least one reflecting mirror, for projecting the incident ray of vector sub-pixel emissive according to preset path after the reflection of at least one reflecting mirror, forms the virtual image corresponding with vector sub-pixel.The technical solution of the embodiment of the present invention, it solves in the prior art when large-size screen monitors display, need to be arranged in the display interface more vector pixel, lead to that there are higher costs, the technical issues of wasting of resources, it realizes and not only increases display interface area, but also reduce production cost, and reduce the effect of occupied space.

Description

A kind of display panel, display methods and display system

Technical field

The present embodiments relate to image display technology field more particularly to a kind of display panels, display methods and display System.

Background technique

It is both provided with display screen in many museums and building hall at present, when the display area of needs is larger, is led to At least one mirror can be often installed at the position except display screen, will show the content mirrors of screen lines by mirror-reflection It is shown in mirror, plays the effect that display screen picture replicates display in mirror, do not solve the effect for expanding large display screen. Currently, in order to improve the area of display screen, it will usually the area for increasing large display screen, during increasing display area, In the presence of there is technical issues that.

Summary of the invention

The present invention provides a kind of display panel, display methods and display system, expands display area to realize, increases display The number of plies, to improve the technical effect of user experience.

In a first aspect, the embodiment of the invention provides a kind of display panel, the display panel include: the first light emitting region with And at least one reflecting mirror；

Wherein, first light emitting region includes at least one vector pixel；

At least one described vector pixel includes at least one vector sub-pixel, and the vector sub-pixel issues at least one The incident ray of angle；

At least one described reflecting mirror is arranged at the first edge of first light emitting region, for the vector is sub The incident ray of pixel emission projects after at least one reflecting mirror reflection according to preset path, is formed and the vector The corresponding virtual image of sub-pixel.

Second aspect, the embodiment of the present invention also provide a kind of display methods, this method comprises:

The pupil position of user is obtained based on human eye tracing module, and determines the coordinate of the pupil position；

According to the size and setting position of the coordinate of the pupil position and at least one reflecting mirror, determine each At least one in vector pixel waits for luminous vector sub-pixel, determining sub with the target vector as target vector sub-pixel The corresponding target vector sub-pixel coordinate of pixel；

Control signal is sent to the target vector sub-pixel, so that the target vector sub-pixel issues predetermined angle Light.

The third aspect, the embodiment of the invention also provides a kind of display system, which includes the embodiment of the present invention Display panel shown in any embodiment.

The technical solution of the embodiment of the present invention, by the side that at least one reflecting mirror is arranged in first light emitting region At edge, for by the incident ray of the vector sub-pixel emissive after at least one reflecting mirror reflection according to preset road Diameter projects, and forms corresponding with the vector sub-pixel virtual image, solves in the prior art for the area for improving display screen, The area that usually will increase display screen curtain, during increasing display area, there are higher costs, the technology of the wasting of resources Problem, both being realized using the technical program reduces production cost, increases display interface area and improves user's body The technical effect tested.

Detailed description of the invention

In order to more clearly illustrate the technical scheme of the exemplary embodiment of the present invention, below to required in description embodiment The attached drawing to be used does a simple introduction.Obviously, the attached drawing introduced is present invention a part of the embodiment to be described Attached drawing, rather than whole attached drawings without creative efforts, may be used also for those of ordinary skill in the art To obtain other attached drawings according to these attached drawings.

Fig. 1 is a kind of display panel structure schematic diagram provided by the embodiment of the present invention one；

Fig. 2 is a kind of vector dot structure schematic diagram provided by the embodiment of the present invention one；

Fig. 3 is a kind of vector dot structure schematic diagram provided by the embodiment of the present invention one；

Fig. 4 is structural schematic diagram of the vector pixel through plane mirror imaging provided by the embodiment of the present invention one；

Fig. 5 is the structural schematic diagram that first light emitting region is plane provided by the embodiment of the present invention one；

Fig. 6 is a kind of display panel structure schematic diagram provided by the embodiment of the present invention two；

Fig. 7 is a kind of display panel structure schematic diagram provided by the embodiment of the present invention two；

Fig. 8 is a kind of display methods flow diagram provided by the embodiment of the present invention three；

Fig. 9 is a kind of display methods flow diagram provided by the embodiment of the present invention three.

Specific embodiment

The present invention is described in further detail with reference to the accompanying drawings and examples.It is understood that this place is retouched The specific embodiment stated is used only for explaining the present invention rather than limiting the invention.It also should be noted that in order to just Only the parts related to the present invention are shown in description, attached drawing rather than entire infrastructure.

Embodiment one

Fig. 1 is a kind of structural schematic diagram of display panel provided by the embodiment of the present invention one.As shown in Figure 1, Figure 2 and Fig. 3 Shown, a kind of display panel includes: the first light emitting region 101 and at least one reflecting mirror；Wherein, the first light emitting region 101 Including at least one vector pixel 102；At least one vector pixel 102 includes at least one vector sub-pixel, vector sub-pixel Issue the incident ray of at least one angle；At least one reflecting mirror is arranged at the first edge of display area, for that will swear The incident ray of quantum pixel emission projects after the reflection of at least one reflecting mirror according to preset path, is formed and arrow Quantum Image The corresponding virtual image of element.

Vector is first introduced before introducing technical solution of the embodiment of the present invention with continued reference to Fig. 1, Fig. 2 and Fig. 3 Pixel 102.Vector pixel 102 is the optical device for meeting preset condition.Preset condition may is that first, and vector sub-pixel is narrow Light, that is to say, that relative to biggish display area, 102 approximation of vector pixel can be regarded as by the light to shine one by one Source is constituted；Vector pixel 102 has following features at least Ray Of Light of spatial emission: the light that vector pixel issues can be managed Solution is using light source as the cone in the center of circle, referring to fig. 2；If dropping to 50 the percent of this light with light intensity as the light side Boundary can include the minimum space steradian on all boundaries less than 10 degree using light source as the center of circle；Second, vector pixel 102 can be with It is projected at least 100 directions that can be distinguished；Third, vector pixel 102 can be simultaneously to two or more Direction on emit light, that is to say, that in vector pixel 102 there may be two or more sub-pixel simultaneously work Make；4th, the light luminance of vector pixel 102 is adjustable, i.e. each vector emission of light in a vector pixel 102 The brightness of line is adjustable.

It is to be understood that vector pixel 102 is made of intensive display device and optical module, the base of intensive display device Plinth luminescence unit is known as vector sub-pixel, and the light that each vector sub-pixel issues can after the modulation of the optical module of vector pixel To form the light of pointing space specific direction, reference can be made to Fig. 3.Due to the usual very little of the ray angles of vector sub-pixel, work as utilization After the human eye tracing module being arranged in display system determines the pupil position of user, so that it may determine one be lit or more A vector sub-pixel.In short, vector pixel 102 is made of at least one vector sub-pixel, each vector sub-pixel emissive Light out has certain directive property.

Wherein it is possible to which the interface that video playing in display device or image are shown is known as display interface, that is, this The first light emitting region 101 in embodiment.The size and shape of first light emitting region 101, user can be according to actual needs It is configured.Optionally, the first light emitting region 101 is arc, plane or is curved face type etc..First light emitting region 101 is aobvious The picture shown can be realized by being laid on the vector pixel 102 of the first light emitting region 101.Simply describe vector above Pixel 102, it was determined that vector pixel 102 is made of at least one vector sub-pixel, i.e., swears Quantum Image by least one Element is constituted, each vector sub-pixel can emit beam to different angles, and human eye can be set in a display device Tracing module can determine the vector sub-pixel for emitting light in which vector pixel according to the pupil position of user.

In order to expand the display area of display interface, can be arranged at least in the predetermined position of the first light emitting region 101 One reflecting mirror.Reflecting mirror is a kind of optical component to be worked using reflection law.It is anti-that reflecting mirror by shape can be divided into plane Penetrate mirror, spherical reflector and three kinds of non-spherical reflector；By degree of reflection, be all-trans reflecting mirror and semi-transparent semi-reflecting reflecting mirror can be divided into (also known as beam splitter).In the present embodiment, plane, total reflection mirror can be used.The quantity of at least one reflecting mirror can be one, Two or multiple, user can according to need widened display area the quantity of reflecting mirror is arranged.

Set-up mode of the reflecting mirror in display panel may is that can be at least one edge of the first light emitting region It is equal with the edge of display panel that length is set, width minimum needs to meet, and reflecting mirror can receive to the first light emitting region side The light beam for the vector pixel outgoing being arranged at edge.

In order to more clearly introduce the technical solution of the embodiment of the present invention, each vector in vector pixel is first introduced Principle of the sub-pixel through plane mirror catoptric imaging, that is, in the first light emitting region vector pixel operation principle.When user is straight It connects on viewing display screen, the vector pixel being laid in the display interface can be lit and be seen by the user.Referring to fig. 4, Illustratively, the light that vector sub-pixel 1021 issues in the vector pixel 102 being lit can be directly entered the eyes of user, I.e. user is observed that in this vector pixel 102 that vector sub-pixel 1021 is lit.Correspondingly, selecting suitable vector pixel Vector sub-pixel 1022 is lit in 102, i.e., after the user's pupil position determined according to human eye follow-up mechanism, corresponding processing dress Suitable vector sub-pixel 1022 can be determined by setting, and the light of vector sub-pixel 1022 changes after the reflection of plane mirror 1024 to be propagated Direction enters the eyes of user, and user is it is seen that vector sub-pixel 1022 is lit in vector pixel 102.Vector sub-pixel The light of 1023 transmittings can not be seen by the user.Due to can individually control the bright dark state of vector sub-pixel in vector pixel 102, It can be considered that vector sub-pixel 102 and with vector as the corresponding virtual image of sub-pixel is two independent pixels.Due to arrow The ray angles very little of quantum pixel, plane mirror size is limited, and distance of the observer away from the first light emitting region 101 is limited, institute Can be seen by the user according to some sub-pixel in the confirmable vector pixel of eye tracking device.If being computed vector picture For the emergent ray of some sub-pixel emissive after mirror-reflection, reflection light can inject the eyes of user in element, then the arrow The light that quantum pixel is directly emitted is necessarily referred to mirror surface rather than the direction of user, the true display screen that such user sees It is independent from each other with the virtual image display screen after mirror image, the display pixel of the two will not influence each other, to realize Extend the technical effect of display area.

Based on the above technical solution, reflecting mirror can be applied in vector pixel display screen, is expanded to realize The technical effect of display area.

For the more detailed technical solution for introducing the embodiment of the present invention, by taking the first light emitting region 101 is curved surface as an example The program is introduced, in conjunction with Fig. 1 to Fig. 4, vector pixel 102 is provided on Curved screen, two reflecting mirrors are separately positioned on curved surface At the curved edge of type light emitting region, correspondingly, first edge can be understood as the curved edge of curve light emitting region.Display system The pupil position of the available user of human eye tracing module in system, and be to being sent in display system by the pupil of user Processing unit, processing unit can determine arrow Quantum Image to be shone on vector pixel display screen according to the pupil position of user Element forms void corresponding with segment vector sub-pixel after the plane mirror reflection that segment vector sub-pixel can be arranged through top edge Picture obtains the first virtual image face 1011, correspondingly, there are also the plane mirrors that point vector sub-pixel in part can be arranged through lower edge to reflect The virtual image corresponding with vector sub-pixel is formed afterwards, obtains the second virtual image face 1012, the display area obtained at this time can be aobvious Three times of display screen area.

It should also be noted that, even if to show that picture is same sub-picture, it, may when the location of user difference The vector sub-pixel possibility being lit is identical may also be different.Specifically which vector sub-pixel is lit mainly by being arranged in The parameter information of processing unit in display device, the pupil position get to personnel's tracing module and display device carries out It calculates, determines which the vector sub-pixel being lit is.

Flat display panel can be arranged in reflecting mirror 103 if the first light emitting region 101 is plane referring to Fig. 5 The left and right sides.Due to the location of user difference, the human eye tracing module being arranged in display device can determine the pupil of user Hole site, and determine that vector sub-pixel corresponding thereto is lit according to the pupil position of user.That is, can basis The location of user selects suitable sub-pixel to light the pupil that the light for reflecting it through plane mirror 103 enters user Hole can also see vector pixel through void formed by plane mirror while user watches vector pixel display screen through plane mirror Picture thus can achieve and expand wide-field effect, i.e., display area at this time is three times of display screen display area.

It should be noted that installing in the display device of display panel provided in this embodiment further includes human eye tracking mould Block and processing unit.Wherein, human eye tracing module is used to obtain the pupil position of user, and processing unit is according to the pupil of user Hole site determines target vector sub-pixel to be shone in the first light emitting region.

The principle that the first light emitting region edge expansion display area is arranged at least one reflecting mirror is: when arrow Quantum Image Element issues transmitting light and between reflecting mirror there are when angle, and transmitting light can reflect the pupil of laggard access customer through reflecting mirror Hole, and the virtual image corresponding with the transmitting vector sub-pixel of light is formed in mirror surface, to expand display area.

Based on the above technical solution, it is also necessary to explanation, due to reflecting laggard access customer pupil through reflecting mirror Light there may be the loss of luminous energy, so needing to carry out the vector sub-pixel that user watches after reflecting mirror reflects bright Degree compensation.At this point, the human eye tracing module being arranged in display device can be according to the pupil position information navigated to, it can also be really Determine the vector sub-pixel for compensating optical energy loss, and then according to the content shown on display screen to luminous vector sub-pixel Carry out the compensation of brightness.

The technical solution of the embodiment of the present invention, by the side that at least one reflecting mirror is arranged in first light emitting region At edge, for by the incident ray of the vector sub-pixel emissive after at least one reflecting mirror reflection according to preset road Diameter projects, and forms corresponding with the vector sub-pixel virtual image, solves in the prior art when large-size screen monitors display, needs showing Show and more vector pixel be set on interface, cause there are higher cost, the technical issues of the wasting of resources, realize both increase it is aobvious Show interfacial area, and reduce production cost, and improves the technical effect of user experience.

Embodiment two

Based on the above technical solution, at least two light emitting regions can also be spelled to expand display area It connects, in the present embodiment by taking two light emitting regions are spliced as an example.

Fig. 6 is a kind of display panel structure schematic diagram provided by the embodiment of the present invention two.Referring to Fig. 6 and Fig. 3 or figure 4, in the interface panel further include: the second light emitting region 201, the setting of at least one reflecting mirror 103 the first light emitting region 101 with And second light emitting region 201 second edge at, the incident ray for issuing at least one vector sub-pixel reflects It is emitted to the pupil of user.It should be noted that the first light emitting region, the second luminous zone mentioned in the embodiment of the present invention Domain is the region for installing vector pixel, is only the different set-up modes for plane mirror in the present embodiment, by display panel Light emitting region divided.

In order to expand the area of vector pixel display screen, in addition to may be used also using the technical solution arrived mentioned by embodiment one To be to be combined at least two vector pixel display screens, that is, two light emitting regions are combined.

Combination, which can be, is encapsulated in same water for two vector pixel display screens or multi-panel vector pixel display screen In plane, it can also be and be encapsulated on different horizontal planes.During practical application, two vector pixel display screens are sealed Dress be only ideal state in the same plane, be largely two or more face vector pixel display screens are encapsulated in it is more In a plane.Optionally, on two planar by two vector pixel display screen encapsulation.That is, the first light emitting region 101 When with the splicing of the second light emitting region 201, it is encapsulated in Different Plane.With continued reference to Fig. 7, optionally, the second light emitting region 201 is set It sets in the second plane, the setting of the first light emitting region 101 is mutually equal on the first plane, between the first plane and the second plane Row.There are certain difference in height between first plane and the second plane, the vertical height that can be the first plane is flat higher than second The vertical height of face or the second plane is higher than the first plane.In the present embodiment, it can be the vertical height of the second plane Degree is higher than the vertical height of the first plane, it is also understood that be to be subject to viewing location locating for user, first level face closely from Viewing is surveyed, and the second horizontal plane is surveyed far from viewing.During splicing, as long as the first light emitting region and the second light emitting region do not exist In same level, regardless of being placed between the first light emitting region 101 and the second light emitting region 201 using what kind of setting, the There is gap in one light emitting region 101 and the second light emitting region 201.

When user is during watching display interface, in fact it could happen that due to user and vector pixel display screen normal direction Between angle it is larger, cause to see the gap between vector pixel the second light emitting region 201 and the first light emitting region 101, from And keep display interface imperfect, lead to there is a problem of that user experience is poor.Illustratively, referring to Fig. 7, the first light emitting region 101 and the second set-up mode between light emitting region 201 as shown, when user is when A viewpoint is watched, user can see Beauty display screen, when user B viewpoint watch when, may can be appreciated that between the second light emitting region 201 and the first light emitting region 101 Gap, display effect is poor.Can based on the above technical solution, it can be in the second light emitting region 201 and the first hair At gap between light region 101, at least one reflecting mirror 103 is set, with continued reference to Fig. 6, that is to say, that in first level face A plane mirror 103 is vertically arranged with the gap location of the second plane.When the human eye tracing module in display system, user is detected Pupil position after, the processing unit in display system can determine in the second light emitting region 201 according to the pupil position of user, Which vector sub-pixel can enter the pupil of user, to avoid seeing the second light emitting region after the effect of reflecting mirror 103 201 and the first gap between light emitting region 101.That is, on the second light emitting region 201 vector sub-pixel emissive light It is emitted to reflecting mirror 103, the pupil of laggard access customer can be acted on through reflecting mirror 103, and due to the invertibity of light, it can be with shape At the virtual image corresponding with luminous vector sub-pixel, the advantages of this arrangement are as follows effectively having blocked the second light emitting region 201 With the gap of the first light emitting region 101, no matter and realize user can see in which position it is perfect aobvious Display screen curtain.

It include human eye follow-up mechanism, processing unit in display system the embodiment of the invention also provides a kind of display system And display panel provided by the embodiment of the present invention, it is that may be implemented to expand when using display panel provided by the present embodiment Big display surface display area, square naked eye 3D display and the technical effect for improving user experience.

The technical solution of the embodiment of the present invention, by the seam that at least one reflecting mirror is placed on at least two light emitting regions At gap, for the incident light of the sending of at least one vector sub-pixel to be carried out the pupil that reflection is emitted to user, solve existing Have when being spliced at least two light emitting regions to expand display surface in technology, if the location of user compares calculating When, the ineffective technical problem of the display interface watched is realized and had both been expanded by the way that the reflecting mirror at gap is arranged in Display area, and reached the integrality of display interface, to improve the technical effect of user experience.

Embodiment three

Fig. 8 is a kind of display methods flow diagram described in the embodiment of the present invention.This method, which can be applied, to be provided with On the display screen of vector pixel, this method can be realized by way of software and/or hardware, can integrate in electronic equipment In, optionally, terminal, end PC etc..

As described in Figure 8, which comprises

S801, the pupil position that user is obtained based on human eye tracing module, and determine the coordinate of pupil position.

Wherein, human eye tracing module can integrate in a display device, which includes embodiment one and implement Display panel disclosed in example two.Human eye tracing module can obtain in preset range in real time, the pupil position of user.Pupil position Coordinate is set it is to be understood that determining the coordinate information of pupil according to space coordinates are pre-established.

S802, the size of coordinate depending on pupil position and at least one reflecting mirror and setting position, determine each At least one in vector pixel waits for luminous vector sub-pixel coordinate, as target vector sub-pixel.

Wherein, the quantity of at least one reflecting mirror can be one, two or multiple, and user can be according to practical need Ask determining.Predefine the position of at least one reflecting mirror setting and the size of reflecting mirror.It include multiple arrows in vector pixel Quantum pixel.Therefore it needs to be determined that needing luminous vector sub-pixel in vector pixel.By according to the pupil position coordinate of user, Determine luminous vector sub-pixel.Using luminous vector sub-pixel as target vector sub-pixel.Driving in display device is soft Part can be sat with the coordinate in target vector sub-pixel using coordinate determining at this time as target vector sub-pixel in determination respectively Mark.

Specifically, can be calculated according to the position of the size and setting of the coordinate of pupil and at least one reflecting mirror The light beam of which vector sub-pixel emissive in each vector pixel is obtained, the pupil of user can be directly reached through display screen.When So, the light beam which vector sub-pixel emissive can also be calculated can act on the pupil of laggard access customer through reflecting mirror.

Optionally, before determining target vector sub-pixel, further includes: determine at least one arrow Quantum Image on display panel Element, the virtual image coordinate formed by least one reflecting mirror；It wherein, include at least two vector sub-pixels in vector pixel.

After the predeterminated position of display panel installs reflecting mirror, can determine each vector pixel on display panel about The virtual image formed by reflecting mirror, and available virtual image coordinate corresponding with each vector pixel.According to vector pixel coordinate, with And the virtual image corresponding with vector pixel is it was determined that the light of which vector sub-pixel emissive can directly reach the pupil of user Hole.It according to the calculation method, can determine on display panel, which vector sub-pixel can enter and use after mirror-reflection Family pupil, to obtain target vector sub-pixel.

It should also be noted that, can also precalculate in display panel, each vector sub-pixel in each vector pixel Opticpath, and stored.After getting the pupil position coordinate of user, opticpath according to the pre-stored data, really Surely target vector sub-pixel is needed.

Determine that target vector sub-pixel may also is that the size according at least one reflecting mirror and the position of setting, really Determine coordinate pupil virtual image coordinate formed by least one reflecting mirror of pupil position；According to pupil virtual image coordinate, at least one Vector pixel coordinate in the size of a reflecting mirror and the position of setting and display panel, determines target vector sub-pixel Coordinate.

Wherein, behind the position of the size and setting that determine reflecting mirror, it can determine that the pupil position coordinate of user closes The pupil virtual image coordinate formed by the reflecting mirror can determine in vector pixel which swears Quantum Image according to pupil virtual image coordinate The light beam of element transmitting, can enter the virtual image of pupil through pupil, also regard the vector sub-pixel for entering the virtual image of user's pupil as mesh Mark vector sub-pixel.It should be noted that the light imaging of the vector sub-pixel emissive obtained at this time is denoted as the virtual image.

It in the present embodiment, include multiple vector sub-pixels in vector pixel, each vector sub-pixel can emit in advance The light beam in direction.When the light beam of vector sub-pixel emissive, when can be directly entered the pupil of user, picture that user at this time is seen Referred to as real image；There are also the light beam of segment vector sub-pixel emissive, need just to can enter the pupil of user after mirror surface emits, it will The picture referred to as virtual image that user sees in such cases.

Specifically, the vector sub-pixel that user's pupil will be entered through display screen, as the first vector sub-pixel, described first Vector sub-pixel imaging is real image；, into the vector sub-pixel of user's pupil, it will make after the effect of at least one reflecting mirror For the second vector sub-pixel, the second vector sub-pixel imaging is the virtual image；The seat of the first vector sub-pixel is determined respectively The coordinate of mark and the second vector sub-pixel；By the first vector sub-pixel coordinate and the second vector sub-pixel Coordinate is as target vector sub-pixel coordinate.

S803, control signal is sent to target vector sub-pixel, so that target vector sub-pixel issues the light of predetermined angle Line.

Display device can send control signal to target vector sub-pixel, so that target vector sub-pixel issues preset angle The light of degree.

In the present embodiment, when the location of user difference, luminous vector sub-pixel is not also identical, therefore different User at position, even if it is seen that same display picture, the vector sub-pixel that may be shone are different.

The technical solution of the embodiment of the present invention, by the side that at least one reflecting mirror is arranged in first light emitting region At edge, for by the incident ray of the vector sub-pixel emissive after at least one reflecting mirror reflection according to preset road Diameter projects, and forms corresponding with the vector sub-pixel virtual image, solves in the prior art when large-size screen monitors display, needs showing Show and more vector pixel be set on interface, cause there are higher cost, the technical issues of the wasting of resources, realize both increase it is aobvious Show interfacial area, and reduce production cost, and improves the technical effect of user experience.

As a preferred embodiment of above-described embodiment, Fig. 9 is a kind of display methods provided by the embodiment of the present invention three Flow diagram, as shown in Figure 9, which comprises

Pupil coordinate, the size of vector pixel space coordinate and reflecting mirror and the position of setting of user are obtained respectively It sets, each coordinate is calculated according to optical principle, determine vector that can directly reach user's pupil on display panel Pixel A, and determine that segment vector sub-pixel can reach the vector sub-pixel of user's pupil after reflecting mirror on display panel B.Vector sub-pixel A is formed into picture referred to as real image, vector sub-pixel B imaging is known as the virtual image.

Wherein it is determined that the method for vector sub-pixel B is: first determining that vector pixel is sat about the virtual image of mirror surface on display panel Mark, determines that the emergent ray of which vector pixel in the virtual image can reach user's pupil, according to optical law, optionally, hair Law is penetrated, can determine that the light of which vector sub-pixel emissive in the virtual image can enter the pupil of user, that is, determine in the virtual image Vector sub-pixel B '.According to the emergent ray and reflection law of B ', incident light corresponding with emergent ray can be determined Line can determine the coordinate B of the vector pixel on a display panel according to incident ray, and vector sub-pixel determining at this time is made For target vector sub-pixel B.

The method for determining vector sub-pixel B, it may also is that according to the size of the coordinate of user's pupil and reflecting mirror It is set mode, determines pupil coordinate virtual image formed by reflecting mirror, which vector sub-pixel emissive in vector pixel determined Light beam can enter user the pupil virtual image, using the light of sending can enter the virtual image of user's pupil vector sub-pixel as mesh Mark vector sub-pixel B.

Light the vector sub-pixel A and vector sub-pixel B on display panel, so that it may so that target user watches display The picture shown on panel.

It should be noted that vector sub-pixel A and vector sub-pixel B are the vector pixels being arranged on display panel, only It is that determining mode is different.When vector pixel A is that the vector sub-pixel being arranged on display panel is emitted according to default emergent ray, The pupil of user can be directly entered；Vector sub-pixel B is emitted according to default opticpath, after mirror-reflection, Ke Yijin The target vector sub-pixel of access customer pupil.

Note that the above is only a better embodiment of the present invention and the applied technical principle.It will be appreciated by those skilled in the art that The invention is not limited to the specific embodiments described herein, be able to carry out for a person skilled in the art it is various it is apparent variation, It readjusts and substitutes without departing from protection scope of the present invention.Therefore, although being carried out by above embodiments to the present invention It is described in further detail, but the present invention is not limited to the above embodiments only, without departing from the inventive concept, also It may include more other equivalent embodiments, and the scope of the invention is determined by the scope of the appended claims.

Claims (10)

1. a kind of display panel characterized by comprising the first light emitting region and at least one reflecting mirror；

Wherein, first light emitting region includes at least one vector pixel；

At least one described vector pixel includes at least two vector sub-pixels, and the vector sub-pixel issues entering for predetermined angle Penetrate light；

At least one described reflecting mirror is arranged at the first edge of first light emitting region, is used for the vector sub-pixel The incident ray of transmitting projects after at least one reflecting mirror reflection according to preset path, is formed and the vector sub-pixel The corresponding mirror surface virtual image.

2. display panel according to claim 1, which is characterized in that first light emitting region is curved face type or plane Type.

3. display panel according to claim 2, which is characterized in that at least one described reflecting mirror is separately positioned on described At the curved edge of curved face type light emitting region.

4. display panel according to claim 1, which is characterized in that at least one shown reflecting mirror shines with described first Angulation is within the scope of predetermined angle between region.

5. a kind of display methods characterized by comprising

The pupil position of user is obtained based on human eye tracing module, and determines the coordinate of the pupil position；

According to the size and setting position of the coordinate of the pupil position and at least one reflecting mirror, each vector is determined At least one in pixel waits for luminous vector sub-pixel, as target vector sub-pixel, the determining and target vector sub-pixel Corresponding target vector sub-pixel coordinate；

Control signal is sent to the target vector sub-pixel, so that the target vector sub-pixel issues the light of predetermined angle Line.

6. according to the method described in claim 5, its feature exists, according to the coordinate of the pupil position and at least one The size of reflecting mirror and setting position, determine that at least one in each vector pixel waits for luminous vector sub-pixel coordinate, make Before target vector sub-pixel coordinate, further includes: at least one vector pixel on display panel is determined, about described at least one Virtual image coordinate formed by a reflecting mirror；

It wherein, include at least two vector sub-pixels in the vector pixel.

7. according to the method described in claim 6, it is characterized in that, the coordinate according to the pupil position, and at least The size of one reflecting mirror and the position of setting determine that at least one in each vector pixel waits for that luminous vector sub-pixel is sat Mark, as target vector sub-pixel, comprising:

According to the pupil position coordinate, the position of the size of at least one reflecting mirror and setting, the virtual image coordinate, and The coordinate of the vector pixel on the display panel, determines the target vector sub-pixel coordinate.

8. display methods according to claim 5, which is characterized in that the pupil for obtaining user based on human eye tracing module Hole site, and after the coordinate of the determining pupil position, further includes:

According to the size of at least one reflecting mirror and the position of setting, determine the pupil position coordinate about it is described extremely Pupil virtual image coordinate formed by a few reflecting mirror；

According on the pupil virtual image coordinate, the size of at least one reflecting mirror and the position of setting and display panel Vector pixel coordinate determines the target vector sub-pixel coordinate.

9. method according to claim 7 or 8, which is characterized in that the determination target vector sub-pixel coordinate, packet It includes:

The vector sub-pixel of user's pupil will be entered through display screen, as the first vector sub-pixel, the first vector sub-pixel Imaging is real image；

It will be described as the second vector sub-pixel into the vector sub-pixel of user's pupil after the effect of at least one reflecting mirror Second vector sub-pixel imaging is the virtual image；

The coordinate of the first vector sub-pixel and the coordinate of the second vector sub-pixel are determined respectively；

It is sat the coordinate of the first vector sub-pixel coordinate and the second vector sub-pixel as target vector sub-pixel Mark.

10. a kind of display system, which is characterized in that including the display panel as described in any in claim 1-4.