CN108803132A - A kind of implementation method of bore hole 3D chromatic liquid crystal screens - Google Patents

Abstract

A kind of implementation method of bore hole 3D chromatic liquid crystal screens, this method include mainly that the light of control back light is the liquid crystal display panel 10 that no permeable liquid crystal display panel is shown, the transparent backlight module 20 of controllable backlight color, the composition of shading module 30；When showing picture, first close all backlight modules 20, again opening the corresponding 10 corresponding point of liquid crystal display panel of all the points of same color and same depth by picture requirement allows it that can penetrate the backlight that backlight module 20 generates, then the color of the backlight module 20 of corresponding depth on demand is lighted simultaneously suitable time-delay；Above step is repeated, has all been shown within the time of 1 nanosecond to 1 second all the points of a width picture are quickly unduplicated；Repeat all of above step.

Description

A kind of implementation method of bore hole 3D chromatic liquid crystal screens

Technical field

The invention belongs to display area, in particular to a kind of implementation methods of bore hole 3D colorful display screens.

Background technology

Existing chromatic liquid crystal screen generally uses TFT mode, an inseparable color point base of actual needs This independent red, green, blue（R,G,B）The color that the synthesis display of three colors needs, it is inseparable for one of this actual needs Color point, display when really be divided into red, green, blue（R,G,B）3 dots, then being synthesized by these three small color points need to The color wanted is shown；When producing liquid crystal display panel, for the pixel point value of actual needs display, liquid crystal surface when actual production Plate point value is 3 times of the pixel point value of actual needs display；The actual demand that picture is shown can increasingly pursue finer exquisiteness Display effect, it may be desirable to the size dimension of the point of display is become smaller, but existing TFT mode has to actual liquid crystal The size even smaller for being sized for needing the one third of pixel size to be shown of the point of panel, considerably increases production The precision and difficulty of liquid crystal display panel, or in the case of the production technology of identical liquid crystal display panel, show fine fine and smooth degree only Can reach needs the one third of the old size of point to be shown；And existing chromatic liquid crystal screen, all reality shown The inseparable color point needed, all on the same face of the liquid crystal display panel of liquid crystal display, therefore the picture that can show Be also plane 2D, therefore the realization of existing 3D display technology, be limited to existing display screen be only able to display plane 2D images and only 3D effect can be reached using different analog forms to show, the 3D effect that either the methods of polarized light type or time division type are realized Display mainly has a picture of nuance by that will show that the plane 2D pictures of performance are processed into back and forth or left and right, then by Human eye, which perceives these, the plane 2D pictures of nuance, and allow human brain foldover artifacts these have the plane 2D pictures of nuance Afterwards with for it is seen that the real 3D pictures of a width, substantially or are shown plane 2D pictures, and also need to wear 3D glasses could restore 3D picture effects well；In addition, the backlight color that existing chromatic liquid crystal screen uses is mostly white The single light source of system.

Invention content

To solve the above-mentioned problems, the present invention provides a kind of implementation methods of Naked 3D chromatic liquid crystal screen, use This method can will not only show the color that one display of performance of the liquid crystal display panel of the colour picture of identical fine exquisiteness needs One display of performance of the size of point compared to the liquid crystal display panel of existing chromatic liquid crystal screen needs the size of color point significantly It increases, reduces the production difficulty of color liquid crystal panel；It also proposes the backlight module of controllable backlight color being laminated for the first time, press The color of position and needs that backlight module after stacking is laminated by different spaces is lighted the backlight module of needs by picture demand, The back light that backlight module generates can be penetrated by recycling the point that the point on liquid crystal display panel control liquid crystal display panel makes needs, make display The picture gone out has space multistory 3D effect.

The specific technical solution of the present invention is：A kind of implementation method of bore hole 3D chromatic liquid crystal screens, this method are main Light including controlling back light is the liquid crystal display panel 10 that no permeable liquid crystal display panel is shown, the transparent back of the body of controllable backlight color Optical mode group 20, shading module 30 form.

Further, backlight module 20 can be single layer or two-layer laminate installation or multilayer laminated installation；According to need It wants that arbitrary multilayer can be arranged.

Further, the controllable back light color that backlight module 20 generates is by red, green, blue（R,G,B）Primitive colours lamp What source generated.

Further, the controllable back light color that backlight module 20 generates can also be that other colors are synthetically produced.

Further, all backlight modules 20 are first closed when showing picture, then by same color and together by picture requirement The corresponding liquid crystal display panel of a kind of all the points of depth 10 accordingly open and allow it that can penetrate the backlight that backlight module 20 generates by point, The color of the backlight module 20 of corresponding depth on demand is lighted again, and the appropriate time that is delayed；Above step is repeated, one The all the points of width picture are quickly unduplicated all have been shown within the time of 1 nanosecond to 1 second；Repeat all of above step Suddenly.

The beneficial effects of the present invention are：When using this method and using single layer backlight module, colour can be not only shown Plane 2D pictures, and liquid crystal display panel 10 is needed red, green, blue originally（R,G,B）The three of the color that the synthesis display of three colors needs A point, which changes into, only needs a color that is a little bigger and coordinating the backlight module 20 of controllable color that can show needs, is given birth in processing Difficulty of processing and precision are greatly reduced when producing liquid crystal display panel；Using when this method and backlight module 20 be two or more layers be laminated When installation, since just there is space multistory position when the backlight module 20 of stacking generates the colored back light needed for display It sets, so the picture bore hole shown can identify 3D effect.

Description of the drawings

Fig. 1 is the single layer embodiment positive structure schematic of the present invention；

Fig. 2 is the Section A-A figure of Fig. 1；

Fig. 3 is three layers of embodiment positive structure schematic of the present invention；

Fig. 4 is the Section A-A figure of Fig. 3.

In figure, the light of 10 back lights in order to control is the liquid crystal display panel that no permeable liquid crystal display panel is shown, 20 be controllable back The transparent backlight module of light color, 30 be shading module；100 power supply and data input and output for liquid crystal display panel 10,110 are The power supply of backlight module 20 and data input and output.

Specific implementation mode

Embodiment 1, referring to Fig.1, Fig. 2, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, the implementation method is main Light including controlling back light is the liquid crystal display panel 10 that no permeable liquid crystal display panel is shown, is had behind liquid crystal display panel 10 controllable The transparent single layer backlight module 20 of backlight color, there is shading module 30 behind backlight module 20；Only use single layer backlight mould When 20 display color plane picture of group, steps are as follows：The first step closes backlight module 20, then only pressing on liquid crystal display panel 10 The corresponding all the points of same color that picture requires open the back light for being generated through backlight module 20, other all the points Back light cannot be penetrated by closing, then the color of backlight module 20 on demand is lighted, at this point, screen can be the homochromy all the points Display is kept for the present condition minimum 1 second time of 1 nanosecond longest；Second step closes backlight module 20, then only liquid crystal display panel 10 On the corresponding all the points of another color by picture requirement open the back light for being generated through backlight module 20, The closing of its all the points cannot penetrate back light；The color of backlight module 20 on demand is lighted again, at this point, screen can be another kind Homochromy all the points are shown, are kept for the present condition minimum 1 second time of 1 nanosecond longest；Because visual information can be of short duration in human brain It stops, so the face that can be visually formed while be shown containing the first step and second step in being switched fast of the first step to second step The picture of color dot；Similarly, according to same method, all the points of a width picture quickly it is unduplicated in 1 nanosecond to 1 second It has all been shown in time；Repeat all of above step.

Embodiment 2, referring to Fig.1, Fig. 2, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, the implementation method is main Light including controlling back light is the liquid crystal display panel 10 that no permeable liquid crystal display panel is shown, is had behind liquid crystal display panel 10 controllable The transparent single layer backlight module 20 of backlight color, there is shading module 30 behind backlight module 20；Only use single layer backlight mould When 20 display color plane picture of group, steps are as follows：Point closing all on liquid crystal display panel 10 is unable to light transmission backlight by the first step The light source of generation, then the color of backlight module 20 on demand is lighted, then only on liquid crystal display panel 10 by the same of picture requirement The corresponding all the points of one color open the back light for being generated through backlight module 20, and other all the points closings cannot penetrate Back light is kept for the present condition minimum 1 second time of 1 nanosecond longest at this point, screen can show the homochromy all the points；Second Step, closes all points on liquid crystal display panel 10 light source for being unable to the generation of light transmission backlight, then on demand another of backlight module 20 A kind of color is lighted, then only the corresponding all the points of another same color by picture requirement on liquid crystal display panel 10 are opened and are used In the back light generated through backlight module 20, other all the points, which are closed, cannot penetrate back light, at this point, screen can be another The all the points that kind is homochromy are shown, are kept for the present condition minimum 1 second time of 1 nanosecond longest；Because visual information can be short in human brain Pause is stayed, so can visually be formed in being switched fast of the first step to second step while be shown containing the first step and second step The picture of color point；Similarly, according to same method, all the points of a width picture quickly it is unduplicated in 1 nanosecond to 1 second It has all been shown in time；Repeat all of above step.

Embodiment 3, referring to Fig.1, Fig. 2, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, the implementation method is main Light including controlling back light is the liquid crystal display panel 10 that no permeable liquid crystal display panel is shown, is had behind liquid crystal display panel 10 controllable The transparent single layer backlight module 20 of backlight color, there is shading module 30 behind backlight module 20；Only use single layer backlight mould When 20 display color plane picture of group, steps are as follows：The first step, only the same color by picture requirement on liquid crystal display panel 10 Corresponding all the points open the back light for being generated through backlight module 20, and other all the points closings cannot penetrate backlight light Source, then the color of backlight module 20 on demand is lighted, at this point, screen can show the homochromy all the points, keep present condition most Few 11 second time of longest nanosecond, then backlight module 20 is closed；Second step, only on liquid crystal display panel 10 by picture requirement The corresponding all the points of another color open the back light for being generated through backlight module 20, and other all the points closings cannot It is lighted through back light, then another color of backlight module 20 on demand, at this point, screen can be the institute of the another kind color It shows a little, is kept for the present condition minimum 1 second time of 1 nanosecond longest, then backlight module 20 is closed；Because visual information can be Short stay in human brain, so can visually be formed in being switched fast of the first step to second step while contain the first step and second Walk the picture of the color point of display；Similarly, it according to same method, is received 1 all the points of a width picture are quickly unduplicated It has all been shown in second to the 1 second time；Repeat all of above step.

Embodiment 4, referring to Fig.1, Fig. 2, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, the implementation method is main Light including controlling back light is the liquid crystal display panel 10 that no permeable liquid crystal display panel is shown, is had behind liquid crystal display panel 10 controllable The transparent single layer backlight module 20 of backlight color, there is shading module 30 behind backlight module 20；Only use single layer backlight mould When 20 display color plane picture of group, steps are as follows：The first step lights the color of backlight module 20 on demand, then only liquid The corresponding all the points of the same color by picture requirement in crystal panel 10 open the backlight for being generated through backlight module 20 Light source, other all the points, which are closed, cannot penetrate back light, at this point, screen can show the homochromy all the points, keep present condition The minimum 1 second time of 1 nanosecond longest, then backlight module 20 is closed, then cannot be saturating all the points closing on liquid crystal display panel 10 Cross back light；Second step lights another color of backlight module 20 on demand, then only on liquid crystal display panel 10 press picture The corresponding all the points of another color that face requires open the back light for being generated through backlight module 20, other all the points Radiant cannot be penetrated by closing, at this point, screen can show all the points of the another kind color, be kept for present condition minimum 1 nanosecond most Long 1 second time, then backlight module 20 is closed, then all the points closing on liquid crystal display panel 10 cannot be penetrated back light； Because visual information can the short stay in human brain, can visually be formed in being switched fast of the first step to second step same When the picture of color point that is shown containing the first step and second step；Similarly, according to same method, all the points a width picture are quick Unduplicated all shown within the time of 1 nanosecond to 1 second；Repeat all of above step.

Further, in conjunction with the embodiments 1 to embodiment 4, common ground is the same color that will need picture to be shown The back light display color information lighted using backlight module 20 of point, need to show the color using the control of liquid crystal display panel 10 Point colouring information can be kept visual through the back light of the generation of backlight module 20, and this visual state is made to protect Hold the minimum 1 second time of 1 nanosecond longest；The point on backlight module 20 or either on or off liquid crystal display panel 10 is lighted to be used to penetrate backlight The back light of the generation of module 20 or the sequencing that cannot penetrate the back light that backlight module 20 generates can be according to needs Arbitrary combination.

Further, if to show black color dots, all backlight modules 20 are closed, you can show the effect of black.

Further, the display screen made of the implementation method, original state can be 20 Close All of backlight module, liquid All the points Close All in crystal panel 10 cannot penetrate back light；Can also be as needed all to beat backlight module 20 On or off is closed, by all the points Close All on liquid crystal display panel 10 cannot penetrate the light source that generates of backlight module 20 or it is fully open can With the light source generated through backlight module 20.

Further, each component of aforementioned embodiments and extraneous connection communication mode are conductor connections, can also It is the conventional usual way such as FPC winding displacements, metal pins, zebra item；It its position for connecting out can also appointing in corresponding module Meaning position；The quantity of itself and external connection can also determine according to need.

Embodiment 5, with reference to Fig. 3, Fig. 4, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, the implementation method is main Light including controlling back light is the liquid crystal display panel 10 that no permeable liquid crystal display panel is shown, is had behind liquid crystal display panel 10 controllable 3 layers of transparent backlight module 20 of backlight color, have shading module 30 behind last layer of backlight module 20；Using two layers or Multilayer backlight module 20 can show color solid picture；It now first proposes a display demand, then illustrates that this method is realized and be somebody's turn to do The step of display requires：It needing to show three points, first point of Far Left in display screen is topmost and foremost is shown in red, The same a line of second point at first point, it is shown in green on the right of first point and behind first point, thirdly first point, Same a line of second point is shown as blue on the right of second point and behind second point；Following three step can use should The picture for the practical solid that method display needs：The first step：Close all backlight modules 20, then only on liquid crystal display panel 10 most The point of left side the top opens the back light for being generated through backlight module 20, and other all the points closings cannot penetrate backlight Light source, then the color red that the first layer backlight module 20 of foremost is needed by first point is lighted, at this point, screen display is shown as first It lights and is the red point that most preceding first layer backlight module 20 generates, and this visual state is made to be kept for minimum 1 nanosecond The 1 second time of longest；Similarly, second step：All backlight modules 20 are closed, then only first point of colleague's on liquid crystal display panel 10 The point on the right opens the back light for being generated through backlight module 20, and other all the points, which are closed, cannot penetrate back light, Second layer backlight module 20 is lighted by the colors green that second point needs again, when second layer backlight module 20 lights luminous, the One layer of backlight module 20 is that the non-luminous and backlight module 20 of closing is transparent, and such second layer backlight module 20 is lighted and is The back light of green initially passes through first layer backlight module 20, then the second point opened by liquid crystal display panel 10, at this point, screen second It lights and is the green point that second layer backlight module 20 generates, and this visual state is made to keep minimum 1 nanosecond longest 1 The time of second；Similarly, third walks：All backlight modules 20 are closed, then only the right of the second point colleague on liquid crystal display panel 10 Point open the back light for being generated through backlight module 20, other all the points, which are closed, cannot penetrate back light, then Third layer backlight module 20 is lighted by the color blue thirdly needed, when third layer backlight module lights luminous, first layer, Two layers of backlight module 20 be close non-luminous and backlight module 20 be it is transparent, such third layer backlight module 20 light and Back light for blue initially passes through the second layer, first layer backlight module 20, then is opened thirdly by liquid crystal display panel 10, this When, screen third is lighted and is the blue dot that third layer backlight module 20 generates, and this visual state is made to keep minimum 1 The 1 second time of longest nanosecond；Because visual information can the short stay in human brain, the first step to third walk quickly cut The picture of the spatial color point of display that can be visually formed in changing while be walked containing the first step, second step and third；Repeat with Upper all steps；Can will thus need three points to be shown be shown as Naked can distinguish before, during and after three stereo layers Secondary and different colours；Similarly, using this method by color expansion to displayable color gamut, display point, which expands to, entirely to be shielded Available point, you can with use this method display it is colored there is the identifiable 3D effect picture of bore hole.

Further, in conjunction with the embodiments 1 to embodiment 4 and embodiment 5, common ground is will need picture to be shown same The point of the same color of one level shows the colouring information of the level using the back light that the backlight module 20 of the level is lighted, It is controlled using liquid crystal display panel 10 and needs to show putting and capable of making this through the back light of the generation of backlight module 20 for the level color The colouring information of level is visual, and this visual state is made to be kept for the minimum 1 second time of 1 nanosecond longest；It lights The backlight light that the backlight module 20 of different levels or the point on either on or off liquid crystal display panel 10 are used to generate through backlight module 20 Source or the sequencing that cannot penetrate the back light that backlight module 20 generates can be according to the arbitrary combinations of needs.

Further, backlight module 20 can use plurality of layers and will produce same multi-level stereoscopic effect.

The present invention is described in detail above, described above, only the preferred embodiments of the invention, when cannot Limit the scope of the present invention, i.e., it is all according to the done equivalent changes and modifications of the application range, it all should still belong to covering scope of the present invention It is interior.

Claims (13)

1. a kind of implementation method of bore hole 3D chromatic liquid crystal screens, it is characterised in that：The implementation method includes mainly the control back of the body The light of radiant is the liquid crystal display panel 10 that no permeable liquid crystal display panel is shown, there is at least 1 layer of controllable back behind liquid crystal display panel 10 The transparent backlight module 20 of light color, has shading module 30 behind last layer of backlight module 20.

2. according to claim 1, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, it is characterised in that：Backlight module 20 Quantity only has 1 layer, successively by the light of control back light be no permeable liquid crystal display panel show liquid crystal display panel 10, controllable backlight Transparent backlight module 20, the shading module 30 of color form.

3. according to claim 1, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, it is characterised in that：Backlight module 20 Quantity have 2 layers and stacking assembly, successively by the light of control back light be no permeable liquid crystal display panel show liquid crystal display panel 10, The controllable transparent backlight module 20 of backlight color, the transparent backlight module 20 of controllable backlight color, shading module 30 form.

4. according to claim 1, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, it is characterised in that：Backlight module 20 Quantity haves three layers and assembly is laminated, successively by the light of control back light be no permeable liquid crystal display panel show liquid crystal display panel 10, The controllable transparent backlight module 20 of backlight color, the transparent backlight module 20 of controllable backlight color, controllable backlight color Transparent backlight module 20, shading module 30 form.

5. according to claim 1, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, it is characterised in that：Backlight module 20 Quantity has multilayer and stacking assembly, is successively liquid crystal display panel that no permeable liquid crystal display panel is shown by the light of control back light 10, the transparent backlight module 20 of the controllable backlight color of multilayer, shading module 30 form.

6. according to claim 2, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, it is characterised in that：Backlight module 20 Only 1 layer, for showing color plane picture；The display methods of the implementation method is：It will need the same of picture to be shown The back light display color that the point of color is lighted using transparent backlight module 20 color on demand of controllable backlight color Information is controlled using liquid crystal display panel 10 and needs to show that the point of the color can penetrate the back light that backlight module 20 generates and make color Information is visual, and this visual state is made to be kept for the minimum 1 second time of 1 nanosecond longest；And a width picture All the points method quickly unduplicated has all been shown within the time of 1 nanosecond to 1 second according to this；Repeat all of above step Suddenly.

7. according to claim 1 or 3 or 4 or 5, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, it is characterised in that：The back of the body Optical mode group 20 is multilayer, for showing color plane picture；The display methods of the implementation method is：It will need picture to be shown The point of same color utilizes at least 1 layer controllable backlight color in the transparent backlight module 20 of the controllable backlight color of multilayer The back light display color information that the identical color of transparent backlight module 20 on demand is lighted simultaneously, utilizes liquid crystal display panel 10 controls need to show that the point of the color can penetrate the back light that backlight module 20 generates and keep colouring information visual, and make This visual state is kept for the minimum 1 second time of 1 nanosecond longest；And method is fast according to this all the points of a width picture The unduplicated of speed has all shown within the time of 1 nanosecond to 1 second；Repeat all of above step.

8. according to claim 1 or 3 or 4 or 5, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, it is characterised in that：The back of the body Optical mode group 20 is multilayer, for showing colored 3D pictures；The display methods of the implementation method is：It will need the same of picture to be shown The point of the same color of one level utilizes the color point of the transparent backlight module 20 of the controllable backlight color of the level on demand Bright back light shows the colouring information of the level, and the point energy for needing to show the level color is controlled using liquid crystal display panel 10 The back light generated through backlight module 20 keeps the colouring information of the level visual, and makes this visual state Kept for the minimum 1 second time of 1 nanosecond longest；And method quickly unduplicated is received 1 according to this all the points of a width picture It has all been shown in second to the 1 second time；Repeat all of above step.

9. according to claim 8, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, it is characterised in that：It needs to be shown Image information includes at least the colouring information and spatial level information of all the points.

10. according to claims 1 or 2 or 3 or 4 or 5, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, feature exists In：Liquid crystal display panel 10 is that the light for the back light for controlling the generation of backlight module 20 is no permeable liquid crystal display panel 10.

11. according to claims 1 or 2 or 3 or 4 or 5, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, feature exists In：Backlight color caused by backlight module 20 is controllable.

12. according to claims 1 or 2 or 3 or 4 or 5, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, feature exists In：The back light of controllable color produced by backlight module 20 is by red, green, blue（R,G,B）What three primary colors lamp source generated.

13. according to claims 1 or 2 or 3 or 4 or 5, a kind of implementation method of bore hole 3D chromatic liquid crystal screens, feature exists In：Backlight module 20 is transparent.