CN206039110U - 3D liquid crystal display panel and 3D display device - Google Patents

Abstract

The utility model provides a 3D liquid crystal display panel and 3D display device, wherein, this 3D the liquid crystal display panel includes: the 2D display screen with set up in the liquid crystal grating of the light -emitting of this 2D display screen side, this 2D display screen is including relative first base plate and the second base plate that sets up, above -mentioned liquid crystal grating and the above -mentioned 2D display screen above -mentioned first base plate that shares. The embodiment of the utility model provides a through adopting the mode with liquid crystal grating's infrabasal plate with the same block base board of upper substrate sharing of 2D display screen, 3D the liquid crystal display panel's structure has been simplified, 2D display screen and liquid crystal grating's laminating work step need not to carry on, whole 3D the liquid crystal display panel's preparation process flow has been simplified, and improves the production efficiency, the labor cost is also reduced, and reduced by a block base board, thereby 3D the liquid crystal display panel's cost of manufacture has not only been reduced, 3D the liquid crystal display panel's thickness has still been reduced.

Description

A kind of 3D display panels and 3D display devices

Technical field

This utility model is related to 3D display technology fields, shows in particular to a kind of 3D display panels and 3D Device.

Background technology

At present, dimension display technologies are based on existing flat panel display systems, by the visual disparity with reference to level and motion Parallax, and increase what some optic modulating devices were realized outside existing flat panel display systems, so that beholder is not wearing The effect of stereoscopic vision can be just experienced in the case of glasses.At present, relatively ripe dimension display technologies mainly include barrier Grating or lens pillar formula stereo display technique, the electric optical grating construction using liquid crystal panel realization is used as a kind of typical barrier formula 3 d display device structure, possessing carries out the advantage of free switching between two dimensional mode and three-dimensional display mode.Specifically Implementation is：Liquid crystal electrooptical grid module is fitted on traditional display panels, electric light grid are controlled according to display pattern The working condition of screen.

Currently, a kind of 3D display panels are provided in correlation technique, and the display floater includes backlight module, liquid crystal Show module and liquid crystal grating module, the LCD MODULE is traditional display panels, using attaching process by liquid crystal Grating module is fitted in LCD MODULE, wherein, the LCD MODULE include lower substrate, lower electrode layer, lower alignment films, Liquid crystal layer, upper alignment films, upper electrode layer, colored filter, upper substrate, upper polarizer；The structure and liquid crystal of liquid crystal electrooptical grid Show that the structure of module is essentially identical, only one layer of polaroid and colored filter less, concrete structure includes：Lower substrate, bottom electrode Layer, lower alignment films, liquid crystal layer, upper alignment films, upper electrode layer, upper substrate, upper polarizer.In the 2 d display mode, liquid crystal light Grid do not form any state blocked, be all-transparent, and left eye and the right eye of beholder receive that image is identical, and display is common The two dimensional mode of display；Under three-dimensional display mode, the liquid crystal layer in liquid crystal grating module coordinates inclined under electric field action Shake the operation principle of piece, can form the vertical impermeable bright fringe that width is tens microns, shield portions view, that is, forming grating will On panel, right and left eye view is separated, so that beholder experiences the effect of three dimensional display.

During this utility model is realized, it is found by the applicant that at least there is problems with correlation technique：Related skill 3D display panels in art include two-layer liquid crystal layer, four-layer glass substrate, and need liquid crystal grating using attaching process Module is fitted in LCD MODULE, there is complex structure, quality weight, high cost, so as to limit the 3D liquid crystal Being widely popularized in the follow-up actual application of display floater.

Utility model content

In view of this, the purpose of this utility model embodiment is to provide a kind of 3D display panels and 3D display dresses Put, there is complex structure, quality weight, high cost with the 3D display panels solved the problems, such as in correlation technique.

In a first aspect, this utility model embodiment provides a kind of 3D display panels, including 2D display screens and setting In the liquid crystal grating of the light emission side of the 2D display screens, the 2D display screens include the first substrate being oppositely arranged and the second base Plate, the liquid crystal grating share the first substrate with the 2D display screens.

With reference in a first aspect, this utility model embodiment provide first aspect the first possible embodiment, its In, the liquid crystal grating includes the 3rd substrate being oppositely arranged with the first substrate, is arranged at the 3rd substrate towards institute State the first grating electrode of first substrate side and the first substrate is arranged at towards the second light of the 3rd substrate side Gate electrode, and the liquid crystal layer being arranged between first grating electrode and second grating electrode.

With reference to the first possible embodiment of first aspect, this utility model embodiment provides the of first aspect Two kinds of possible embodiments, wherein, the liquid crystal grating also includes being arranged at first grating electrode towards described second The first orientation film layer of grating electrode side, and second grating electrode is arranged at towards the first grating electrode side Second orientation film layer.

With reference to the first possible embodiment of first aspect, this utility model embodiment provides the of first aspect Three kinds of possible embodiments, wherein, the material of first grating electrode is organic transparent conductive material and first light Gate electrode is overall electrode, and first grating electrode is used for connecing public voltage signal and as orientation film layer, the liquid crystal Grating also includes being arranged at second grating electrode towards the orientation film layer of the first grating electrode side；Or,

The material of second grating electrode is for organic transparent conductive material and second grating electrode is overall electrode, Second grating electrode is used for connecing public voltage signal and as orientation film layer, and the liquid crystal grating also includes being arranged at institute The first grating electrode is stated towards the orientation film layer of the second grating electrode side.

With reference to the third possible embodiment of first aspect, this utility model embodiment provides the of first aspect Four kinds of possible embodiments, wherein, organic transparent conductive material include it is following in one or more：Acrylic acid tree Fat is mixed with the mixing material of nano-silver thread, acrylic resin and CNT mixing material, polyimide resin and CNT Condensation material, acrylic resin and CNT mixing material.

With reference to the 4th kind of possible embodiment of the first possible embodiment to first aspect of first aspect, this Utility model embodiment provides the 5th kind of possible embodiment of first aspect, and wherein, the liquid crystal grating also includes the One polaroid and the second polaroid, first polaroid are arranged at the 3rd substrate dorsad first grating electrode one Side, second polaroid are arranged between second grating electrode and the first substrate.

With reference in a first aspect, this utility model embodiment provide first aspect the 6th kind of possible embodiment, its In, the 2D display screens are LCDs, and the 3D display panels also include that be arranged at the 2D display screens enters light The backlight module of side；Or,

The 2D display screens are organic electroluminescent LED display screen.

With reference to the 6th kind of possible embodiment of first aspect, this utility model embodiment provides the of first aspect Seven kinds of possible embodiments, wherein, the 2D display screens are LCDs, and the first substrate is color membrane substrates or encapsulation Substrate, the second substrate are array base palte.

With reference to the 6th kind of possible embodiment of first aspect, this utility model embodiment provides the of first aspect Eight kinds of possible embodiments, wherein, the 2D display screens are organic electroluminescent LED display screen, and the first substrate is Base plate for packaging or protective substrate, the second substrate are array base palte.

Second aspect, this utility model embodiment additionally provide a kind of 3D display devices, and the device includes first aspect extremely 3D display panels described in any one of the 8th kind of possible embodiment of first aspect.

The 3D display panels provided in this utility model embodiment and 3D display devices, wherein, the 3D liquid crystal displays Panel includes：2D display screens and be arranged at the 2D display screens light emission side liquid crystal grating, the 2D display screens include being oppositely arranged First substrate and second substrate, above-mentioned liquid crystal grating shares above-mentioned first substrate with above-mentioned 2D display screens.This utility model reality Example is applied by way of adopting and for the upper substrate of the infrabasal plate of liquid crystal grating and 2D display screens sharing same substrate, 3D is simplified The structure of display panels, need not carry out the work step of fitting of 2D display screens and liquid crystal grating, simplify whole 3D liquid crystal displays The fabrication processing of panel, improves production efficiency, reduces cost of labor, and reduces one piece of substrate, so as to not only drop The low cost of manufacture of 3D display panels, also reduces the thickness of 3D display panels.

For enabling above-mentioned purpose of the present utility model, feature and advantage to become apparent, preferred embodiment cited below particularly, and Accompanying drawing appended by coordinating, is described in detail below.

Description of the drawings

In order to be illustrated more clearly that the technical scheme of this utility model embodiment, below will be to using needed for embodiment Accompanying drawing be briefly described, it will be appreciated that the following drawings illustrate only some embodiments of the present utility model, therefore should not be by Regard the restriction to scope as, for those of ordinary skill in the art, on the premise of not paying creative work, may be used also To obtain other related accompanying drawings according to these accompanying drawings.

Fig. 1 shows the structural representation of the first 3D display panels that this utility model embodiment is provided；

Fig. 2 shows the structural representation of second 3D display panels that this utility model embodiment is provided；

Fig. 3 shows the structural representation of the third 3D display panels that this utility model embodiment is provided；

Fig. 4 a show the structural representation of the 4th kind of 3D display panels provided by this utility model embodiment；

Fig. 4 b show the structural representation of the 5th kind of 3D display panels provided by this utility model embodiment；

Fig. 5 shows the structural representation of the 6th kind of 3D display panels provided by this utility model embodiment；

Fig. 6 shows a kind of structural representation of 3D display devices that this utility model embodiment is provided.

Specific embodiment

It is for making purpose, technical scheme and the advantage of this utility model embodiment clearer, new below in conjunction with this practicality Accompanying drawing in type embodiment, is clearly and completely described to the technical scheme in this utility model embodiment, it is clear that described Embodiment be only a part of embodiment of this utility model, rather than the embodiment of whole.Generally described in accompanying drawing herein Can arrange and design with a variety of configurations with the component of this utility model embodiment for illustrating.Therefore, below to The detailed description of the embodiment of the present utility model provided in accompanying drawing is not intended to limit claimed model of the present utility model Enclose, but be merely representative of selected embodiment of the present utility model.Based on embodiment of the present utility model, those skilled in the art exist The every other embodiment obtained on the premise of not making creative work, belongs to the scope of this utility model protection.

There is complex structure, quality weight, high cost in view of the 3D display panels in correlation technique.It is based on This, this utility model embodiment provides a kind of 3D display panels and 3D display devices, is retouched below by embodiment State.

The structural representation of 3D display panels as shown in Figure 1, the 3D display panels 10 include 2D display screens 101 and be arranged at the 2D display screens 101 light emission side liquid crystal grating 102；

Above-mentioned 2D display screens 101 include the first substrate 1011 being oppositely arranged and second substrate 1012, above-mentioned liquid crystal grating 102 share above-mentioned first substrate 1011 with above-mentioned 2D display screens 101.

Specifically, screen size one of the screen size of liquid crystal grating 102 typically with matching used 2D display screens 101 Cause, the liquid crystal grating 102, and the infrabasal plate and 2D display screens 101 of liquid crystal grating 102 are set in the light emission side of 2D display screens 101 Upper substrate share same substrate.

In the 3D display panels 10 that this utility model embodiment is provided, by adopting under liquid crystal grating 102 Substrate and the mode of the shared same substrate of the upper substrate of 2D display screens 101, simplify the structure of 3D display panels 10, nothing The work step of fitting of 2D display screens 101 and liquid crystal grating 102 need to be carried out, the processing technology of whole 3D display panels 10 is simplified Flow process, improves production efficiency, reduces cost of labor, and reduces one piece of substrate, so as to not only reduce 3D liquid crystal displays The cost of manufacture of panel 10, also reduces the thickness of 3D display panels 10.

Further, as shown in Fig. 2 above-mentioned liquid crystal grating 102 includes be oppositely arranged with above-mentioned first substrate 1011 Three substrates 1021, are arranged at the 3rd substrate 1021 towards the first grating electrode 1022 of 1011 side of above-mentioned first substrate and set Be placed in second grating electrode 1024 of the above-mentioned first substrate 1011 towards 1021 side of the 3rd substrate, and be arranged at this first Liquid crystal layer 1023 between grating electrode 1022 and second grating electrode 1024.

Specifically, above-mentioned liquid crystal grating 102 includes the 3rd substrate 1021 (upper substrate) being oppositely arranged and first substrate 1011 (infrabasal plate, the substrate are shared with 2D display screens 101), and the shape on the 3rd substrate 1021 and first substrate 1011 respectively Appoint into having in the first grating electrode 1022 and the second grating electrode 1024, the first grating electrode 1022 and the second grating electrode 1024 Meaning one is upper with electrode pattern, and the electrode pattern determines the shape of slit grating, corresponding, and another grating electrode is overall Transparency electrode, the grating electrode can be grounded GND, and wherein, the first grating electrode 1022 and the second grating electrode 1024 are usually Transparent conductive material ITO (Indium Tin Oxide, stannum indium metal oxide).

Wherein, deposit in the case of electric fields between the anelectrode and negative electrode in liquid crystal grating 102 so that liquid crystal layer 1023 form multiple light and dark and width identical striped, so as to realize bore hole barrier fence type 3D display effects.

Further, as shown in figure 3, above-mentioned liquid crystal grating 102 also includes being arranged at above-mentioned first grating electrode, 1022 court To the first orientation film layer 1025 of above-mentioned second grating electrode, 1024 side, and it is arranged at above-mentioned second grating electrode, 1024 court To the second orientation film layer 1026 of above-mentioned first grating electrode, 1022 side.

Wherein, above-mentioned first orientation film layer 1025 and above-mentioned second orientation film layer 1026 are close to liquid crystal layer 1023, and first Orientation film layer 1025 is arranged between the first grating electrode 1022 and liquid crystal layer 1023, and second orientation film layer 1026 is arranged at second Between grating electrode 1024 and liquid crystal layer 1023, i.e. the both sides of liquid crystal layer 1023 are provided with orientation film layer, have can liquid crystal Sequence is arranged and is uniformly distributed.

Further, it is contemplated that grating electrode and orientation film layer occur and adjacent setting in pairs, orientation film layer is general For organic transparent conductive material that full substrate is covered, grating electrode can also select organic transparent conductive material, and work as grating When electrode is the overall electrode that full substrate is covered, grating electrode and the alignment films adjacent with the grating electrode can be merged into together One film layer, using the technique for growing grating electrode and alignment films simultaneously, further simplifies the making work of liquid crystal grating 102 Skill, improves the make efficiency of liquid crystal grating 102, and then improves the make efficiency of 3D display panels 10, in this practicality In the embodiment of new offer, the grating electrode with overall electrode structure can be arranged at the 3rd substrate 1021, i.e., and first Grating electrode 1022 is overall electrode, it is also possible to be arranged at first substrate 1011, i.e., the second grating electrode 1024 is overall electricity Pole, thus, the 3D display panels 10 with following two different 102 structures of liquid crystal grating, specially：

The first：When the first grating electrode 1022 has overall electrode structure, by the first grating electrode 1022 and with this The adjacent alignment films of first grating electrode 1022 merge into same film layer, using the first grating electrode 1022 and first of growth simultaneously The technique of orientation film layer 1025, as shown in fig. 4 a, the material of above-mentioned first grating electrode 1022 be organic transparent conductive material and Above-mentioned first grating electrode 1022 be overall electrode, above-mentioned first grating electrode 1022 be used for connect public voltage signal and conduct Orientation film layer, above-mentioned liquid crystal grating 102 also include being arranged at above-mentioned second grating electrode 1024 towards above-mentioned first grating electrode The orientation film layer of 1022 sides, the orientation film layer are above-mentioned second orientation film layer 1026；

Second：When the second grating electrode 1024 has overall electrode structure, by the second grating electrode 1024 and with this The adjacent alignment films of second grating electrode 1024 merge into same film layer, using the second grating electrode 1024 and second of growth simultaneously The technique of orientation film layer 1026, as shown in Figure 4 b, the material of above-mentioned second grating electrode 1024 be organic transparent conductive material and Above-mentioned second grating electrode 1024 be overall electrode, above-mentioned second grating electrode 1024 be used for connect public voltage signal and conduct Orientation film layer, above-mentioned liquid crystal grating 102 also include being arranged at above-mentioned first grating electrode 1022 towards above-mentioned second grating electrode The orientation film layer of 1024 sides, the orientation film layer are above-mentioned first orientation film layer 1025.

This utility model provide embodiment in, by adopt by the grating electrode with overall electrode structure and with this The adjacent alignment films of grating electrode merge into same film layer, adopt the technique for growing grating electrode and alignment films simultaneously, further The processing technology for simplifying liquid crystal grating 102, improve the make efficiency of liquid crystal grating 102, and then improve 3D liquid crystals Show the make efficiency of panel 10.

Specifically, above-mentioned organic transparent conductive material include it is following in one or more：Acrylic resin and nanometer The mixing material of silver wire, acrylic resin and CNT mixing material, polyimide resin and CNT mixing material, third Olefin(e) acid resin and CNT mixing material.

Further, as shown in figure 5, above-mentioned liquid crystal grating 102 also includes the first polaroid 1027 and the second polaroid 1028, first polaroid 1027 is arranged at above-mentioned 3rd substrate 1021 dorsad above-mentioned first grating electrode, 1022 side, and this Two polaroids 1028 are arranged between above-mentioned second grating electrode 1024 and above-mentioned first substrate 1011.

Wherein, above-mentioned first polaroid 1027 and above-mentioned second polaroid 1028 can be filtered to the light for passing through, Form polarized light.

Specifically, 2D display screens 101 can select various types of display screens, and for different 2D display screens 101 Speech, the overall structure of 3D display panels 10 and each substrate are also different, and based on this, above-mentioned 2D display screens 101 are liquid Crystal display screen, above-mentioned 3D display panels 10 also include the backlight module of the incident side for being arranged at above-mentioned 2D display screens 101 103；Or, above-mentioned 2D display screens 101 are organic electroluminescent LED display screen.

Wherein, when above-mentioned 2D display screens 101 are LCDs, above-mentioned first substrate 1011 is color membrane substrates or encapsulation base Plate, above-mentioned second substrate 1012 are array base palte.

Wherein, when above-mentioned 2D display screens 101 are organic electroluminescent LED display screen, above-mentioned first substrate 1011 is envelope Dress substrate or protective substrate, above-mentioned second substrate 1012 are array base palte.

Specifically, in the embodiment that this utility model is provided, the overall structure of 3D display panels 10 is：By backlight Module 103 to human eye side be disposed with the 3rd polaroid, second substrate 1012, the first show electrode, the 3rd orientation film layer, Liquid crystal, the 4th orientation film layer, the second show electrode, colored filter 1013, first substrate 1011, the second polaroid 1028, Two grating electrodes 1024, second orientation film layer 1026, liquid crystal layer 1023, first orientation film layer 1025, the first grating electrode 1022, 3rd substrate 1021, the first polaroid 1027.

In the 3D display panels 10 that this utility model embodiment is provided, the 3D display panels 10 include：2D Display screen 101 and be arranged at the 2D display screens 101 light emission side liquid crystal grating 102, the 2D display screens 101 include being oppositely arranged First substrate 1011 and second substrate 1012, above-mentioned liquid crystal grating 102 shares above-mentioned first substrate with above-mentioned 2D display screens 101 1011.This utility model embodiment is by same using the infrabasal plate of liquid crystal grating 102 and the upper substrate of 2D display screens 101 are shared The mode of one piece of substrate, simplifies the structure of 3D display panels 10, need not carry out 2D display screens 101 and liquid crystal grating 102 Laminating work step, simplify the fabrication processing of whole 3D display panels 10, improve production efficiency, reduce artificial Cost, and one piece of substrate is reduced, so as to not only reduce the cost of manufacture of 3D display panels 10, also reduce 3D liquid crystal The thickness of display floater 10；Further, by adopt by the grating electrode with overall electrode structure and with the grating electrode Adjacent alignment films merge into same film layer, using the technique for growing grating electrode and alignment films simultaneously, further simplify The processing technology of liquid crystal grating 102, improves the make efficiency of liquid crystal grating 102, and then improves 3D display panels 10 Make efficiency.

This utility model embodiment also provides a kind of 3D display devices, as shown in fig. 6, the 3D display devices 1 include it is above-mentioned 3D display panels 10, the 3D display panels 10 include：2D display screens 101 and it is arranged at going out for the 2D display screens 101 The liquid crystal grating 102 of light side, the 2D display screens 101 include the first substrate 1011 being oppositely arranged and second substrate 1012, above-mentioned Liquid crystal grating 102 shares above-mentioned first substrate 1011 with above-mentioned 2D display screens 101.

Specifically, above-mentioned 3D display devices 1 can be display, by above-mentioned 3D display panels 10 by specific electricity Road annexation is arranged in the housing of display, wherein, the screen size of the liquid crystal grating 102 that 10 kinds of 3D display panels It is typically consistent with the screen size of matching used 2D display screens 101, in the light emission side of 2D display screens 101, the liquid crystal grating is set 102, and the upper substrate of the infrabasal plate and 2D display screens 101 of liquid crystal grating 102 shares same substrate.

This utility model embodiment provide 3D display devices 1 in, by adopt by the infrabasal plate of liquid crystal grating 102 with The upper substrate of 2D display screens 101 shares the mode of same substrate, simplifies the structure of 3D display panels 10, need not carry out 2D display screens 101 and the work step of fitting of liquid crystal grating 102, simplify the fabrication processing of whole 3D display panels 10, Production efficiency is improve, cost of labor is reduced, and is reduced one piece of substrate, so as to not only reduce 3D display panels 10 Cost of manufacture, also reduce the thickness of 3D display panels 10；Further, will be with overall electrode structure by employing Grating electrode and the alignment films adjacent with the grating electrode merge into same film layer, using growing grating electrode and orientation simultaneously The technique of film, further simplifies the processing technology of liquid crystal grating 102, improves the make efficiency of liquid crystal grating 102, and then Improve the make efficiency of 3D display panels 10.

It should be noted that：Similar label and letter represent similar terms in following accompanying drawing, therefore, once a certain Xiang Yi It is defined in individual accompanying drawing, then in subsequent accompanying drawing which further need not be defined and is explained.

In description of the present utility model, it should be noted that term " " center ", " on ", D score, "left", "right", " perpendicular Directly ", the orientation of the instruction such as " level ", " interior ", " outward " or position relationship be based on orientation shown in the drawings or position relationship, or The utility model product using when the orientation usually put or position relationship, be for only for ease of description this utility model and letter Change description, rather than indicate or imply indication device or element must have specific orientation, with specific azimuth configuration and Operation, therefore it is not intended that to restriction of the present utility model.Additionally, term " first ", " second ", " the 3rd " etc. are only used for area Divide description, and it is not intended that indicating or implying relative importance.

In description of the present utility model, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " sets Put ", " installation ", should be interpreted broadly " being connected ", " connection ", for example, it may be fixedly connected, or be detachably connected, Or be integrally connected；Can be mechanically connected, or electrically connect；Can be joined directly together, it is also possible to by intermediary It is indirectly connected to, can is the connection of two element internals.For the ordinary skill in the art, can be managed with concrete condition Solve concrete meaning of the above-mentioned term in this utility model.

Finally it should be noted that：Embodiment described above, specific embodiment only of the present utility model, to illustrate this The technical scheme of utility model, rather than a limitation, protection domain of the present utility model is not limited thereto, although with reference to aforementioned Embodiment has been described in detail to this utility model, it will be understood by those within the art that：It is any to be familiar with this skill , in the technical scope that this utility model is disclosed, which still can be to the skill described in previous embodiment for the technical staff in art field Art scheme is modified or can readily occur in change, or carries out equivalent to which part technical characteristic；And these modifications, Change is replaced, and does not make the essence of appropriate technical solution depart from spirit and the model of this utility model embodiment technical scheme Enclose.Should all cover within protection domain of the present utility model.Therefore, protection domain of the present utility model described should be wanted with right The protection domain asked is defined.

Claims (10)

1. a kind of 3D display panels, including 2D display screens and the liquid crystal grating of the light emission side for being arranged at the 2D display screens, The 2D display screens include first substrate and the second substrate being oppositely arranged, it is characterised in that the liquid crystal grating and the 2D Display screen shares the first substrate.

2. 3D display panels according to claim 1, it is characterised in that the liquid crystal grating includes and described first The 3rd substrate that substrate is oppositely arranged, be arranged at the 3rd substrate towards the first substrate side the first grating electrode and The first substrate is arranged at towards the second grating electrode of the 3rd substrate side, and is arranged at the first grating electricity Liquid crystal layer between pole and second grating electrode.

3. 3D display panels according to claim 2, it is characterised in that the liquid crystal grating also includes being arranged at institute The first grating electrode is stated towards the first orientation film layer of the second grating electrode side, and is arranged at the second grating electricity Second orientation film layer of the pole towards the first grating electrode side.

4. 3D display panels according to claim 2, it is characterised in that the material of first grating electrode is for having Machine transparent conductive material and first grating electrode are overall electrode, and first grating electrode is used for connecing public voltage signal And used as orientation film layer, the liquid crystal grating also includes being arranged at second grating electrode towards first grating electrode The orientation film layer of side；Or,

The material of second grating electrode is for organic transparent conductive material and second grating electrode is overall electrode, described Second grating electrode is used for connecing public voltage signal and as orientation film layer, and the liquid crystal grating also includes being arranged at described the Orientation film layer of one grating electrode towards the second grating electrode side.

5. 3D display panels according to claim 4, it is characterised in that organic transparent conductive material include with One or more in lower：The mixing material of acrylic resin and nano-silver thread, acrylic resin and CNT mixing material Material, polyimide resin and CNT mixing material, acrylic resin and CNT mixing material.

6. 3D display panels according to any one of claim 2 to 5, it is characterised in that the liquid crystal grating is also wrapped The first polaroid and the second polaroid is included, first polaroid is arranged at the 3rd substrate dorsad first grating electrode Side, second polaroid are arranged between second grating electrode and the first substrate.

7. 3D display panels according to claim 1, it is characterised in that the 2D display screens are LCDs, The 3D display panels also include the backlight module of the incident side for being arranged at the 2D display screens；Or,

The 2D display screens are organic electroluminescent LED display screen.

8. 3D display panels according to claim 7, it is characterised in that the 2D display screens are LCDs, The first substrate is color membrane substrates or base plate for packaging, and the second substrate is array base palte.

9. 3D display panels according to claim 7, it is characterised in that the 2D display screens are organic electroluminescent Diode (OLED) display screen, the first substrate are base plate for packaging or protective substrate, and the second substrate is array base palte.

10. a kind of 3D display devices, it is characterised in that described device includes the 3D liquid crystal as described in any one of claim 1 to 9 Display floater.