High-brightness naked eye 3D display screen based on OLED-LED
Technical Field
The invention relates to the technical field of naked eye 3D display screens, in particular to a high-brightness naked eye 3D display screen based on an OLED-LED.
Background
The naked eye 3d display is a cross three-dimensional reality system integrating modern high-tech technologies such as optics, photography, an electronic computer, automatic control, software, 3d animation production and the like.
However, the naked-eye 3D range of the existing naked-eye 3D display screen is limited to the screen, and under the support of the surrounding frame, only the internal 3D effect can be achieved, and an outward 3D feeling cannot be provided for an external user, so that the display effect of the whole 3D display screen is general; therefore, the existing requirements are not met, and a high-brightness naked-eye 3D display screen based on OLED-LEDs is provided for the requirements.
Disclosure of Invention
The invention aims to provide a high-brightness naked eye 3D display screen based on an OLED-LED, and aims to solve the problems that the naked eye 3D range of the existing naked eye 3D display screen proposed in the background technology is limited to the screen, the internal 3D effect can be achieved only under the support of a surrounding frame, an outward 3D feeling cannot be provided for external users, and the display effect of the whole 3D display screen is general.
In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a high-brightness bore hole 3D display screen based on OLED-LED, includes bore hole 3D display screen body, the front end of bore hole D display screen body is provided with the support framework frame, support framework frame's intermediate position department is provided with main 3D display screen, the outer wall of main 3D display screen is provided with vice 3D display screen, the outer wall of vice 3D display screen is provided with screen external frame, and is adjacent be provided with controllable striation of becoming between main 3D display screen and the vice 3D display screen, the rear end of bore hole 3D display screen body is provided with the control chip layer, the inside of control chip layer is provided with the control chip group, the inside of control chip group is provided with the storage unit, and control chip group and storage unit, main 3D display screen and vice 3D display screen both way junction.
Preferably, the rear end of the screen external frame is provided with an external frame control layer, the outer wall of the front end of the screen external frame is provided with an electronic control color changing plate, and the output end of the external frame control layer is electrically connected with the input end of the electronic control color changing plate.
Preferably, a bending corner is arranged in the middle of the screen outer frame, and the bending corner and the screen outer frame are of an integrated structure.
Preferably, backlight modules are arranged inside the main 3D display screen and the auxiliary 3D display screen, a polaroid is arranged above the backlight modules, and a thin film transistor layer is arranged above the polaroid.
Preferably, the top on thin film transistor layer is provided with the liquid crystal layer, the top on liquid crystal layer is provided with the color filter layer, the top on color filter layer is provided with column perspective 3D grating layer.
Preferably, a framework frame platform is arranged above the support framework frame, a lower drainage port is arranged at one end of the framework frame platform, and a lower drainage pipe is arranged below the lower drainage port.
Preferably, the rear end of the control chip layer is provided with an installation supporting mechanism, one end of the installation supporting mechanism, which is close to the control chip layer, is provided with a control layer installation plate, and the rear end of the control layer installation plate is provided with an installation frame layer.
Preferably, the inside on mount frame layer is provided with U type metal side's pipe, and U type metal side's pipe is provided with a plurality ofly, and is a plurality of all be provided with alternately combination pipe between the U type metal side's pipe, the rear end on mount frame layer is provided with the connecting plate.
Preferably, the rear end of connecting plate is provided with the reinforcement sheet layer, the rear end of reinforcing sheet layer is provided with installation back sheet layer, the both sides of reinforcing sheet layer all are provided with the reinforcement connecting piece, and the reinforcement sheet layer is through reinforcing connecting piece and installation back sheet layer threaded connection.
Preferably, be provided with the through connection spare between installation rear plate layer and the reinforcement sheet layer, the one end that the through connection spare is close to the reinforcement sheet layer is provided with the retaining member, the both sides of installation rear plate layer all are provided with anchor assembly, and anchor assembly is provided with a plurality ofly, the intermediate position department of installation rear plate layer outer wall is provided with rearmounted installation notch.
Compared with the prior art, the invention has the beneficial effects that:
1. the invention has the effects of controlling the main 3D display screen and the auxiliary 3D display screen by utilizing the control chip set in the control chip layer, a user inputs a 3D image to be played in advance, the control chip set carries out simulation playing operation on the input 3D image, an image time axis extending from the main 3D display screen to the auxiliary 3D display screen in the picture is input and stored in the simulation playing process, the image time axis is marked as an edge-out time point A, B, C and the like, an edge-out area range point and a time axis are input correspondingly, a time axis image file containing the edge-out point and the area range point is formed after the input and stored in the storage unit, the control chip set controls the main 3D display screen to play the image during playing, the control chip set controls the controllable and variable light strip between the main 3D display screen and the auxiliary 3D display screen, so that the light strip can select the same color according to the color presented by following the image, when a user watches the main 3D display screen, the two eyes present a 3D visual angle due to the angle of the main 3D display screen and the grating, and the controllable light changing strip is regarded as the extension of a scene, which is similar to the design of a black edge in a movie, in the process, the auxiliary 3D display screen is always played as an analog outer frame image, so that a user observes the auxiliary 3D display screen and considers the auxiliary 3D display screen as an external frame body, after the image edge-out time point arrives, a part of the image is displayed on the auxiliary 3D display screen according to the edge-out time point and the edge-out area point, the edge-out point is a process of outward extension of the image, such as the image character extending outward, climbing outward, etc., so that the user can present 3D visual impact from inside to outside when observing, through the structure, the display effect of the whole naked eye 3D display screen is better, the 3D vision can be expanded outwards, and stronger visual impact is achieved.
2. The outer frame body control layer is used for controlling an electric control color changing plate at the position of an outer frame of the screen, the outer frame body control layer is controlled by the control chip layer, when the electric control color changing plate is played daily, the electric control color changing plate presents and fuses near-color-gamut colors in the environment, the appearance of the outer frame of the screen is faded, if no light bar exists at the periphery of the night, the electric control color changing plate can be in black display, a user can ignore the structure of the outer frame body when observing, the camouflage frame presented by the auxiliary 3D display screen is used as a real frame, the visual observation difference of an observer is provided in a visual deception mode, and the observer can be guided by the presentation effect of a subsequent 3D image.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of a partial structure of a main 3D display screen according to the present invention;
FIG. 3 is a partial structural diagram of a screen outer frame according to the present invention;
FIG. 4 is a schematic diagram of the present invention;
FIG. 5 is a partial structural view of the mounting support mechanism of the present invention;
in the figure: 1. the naked eye 3D display screen body; 2. a support frame; 3. a main 3D display screen; 4. a secondary 3D display screen; 5. a screen outer frame; 6. a control chip layer; 7. mounting a supporting mechanism; 8. a backlight module; 9. a polarizer; 10. a thin film transistor layer; 11. a liquid crystal layer; 12. a color filter layer; 13. a cylindrical perspective 3D grating layer; 14. an electrically controlled color changing plate; 15. an outer frame control layer; 16. bending corners; 17. a control chipset; 18. a storage unit; 19. a framework platform; 20. a lower drainage port; 21. a lower drainage pipe; 22. mounting a frame layer; 23. mounting a rear plate layer; 24. an anchoring member; 25. a rear mounting notch; 26. a through connection; 27. reinforcing the plate layer; 28. reinforcing the connecting piece; 29. a locking member; 30. a connecting plate; 31. a U-shaped metal square tube; 32. a cross-sectional tube; 33. and (5) mounting a control layer.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.
Referring to fig. 1-5, an embodiment of the present invention is shown: the utility model provides a high luminance bore hole 3D display screen based on OLED-LED, including bore hole 3D display screen body 1, the front end of bore hole 3D display screen body 1 is provided with support framework frame 2, the intermediate position department of support framework frame 2 is provided with main 3D display screen 3, the outer wall of main 3D display screen 3 is provided with vice 3D display screen 4, the outer wall of vice 3D display screen 4 is provided with screen external frame 5, be provided with controllable variable striation between adjacent main 3D display screen 3 and the vice 3D display screen 4, the rear end of bore hole 3D display screen body 1 is provided with control chip layer 6, the inside of control chip layer 6 is provided with control chip group 17, the inside of control chip group 17 is provided with storage unit 18, and control chip group 17 and storage unit 18, main 3D display screen 3 and vice 3D display screen 4 both way junction.
Further, an outer frame control layer 15 is arranged at the rear end of the screen outer frame 5, an electrically controlled color changing plate 14 is arranged on the outer wall of the front end of the screen outer frame 5, the output end of the outer frame control layer 15 is electrically connected with the input end of the electrically controlled color changing plate 14, the outer frame control layer 15 is used for controlling the electrically controlled color changing plate 14 at the position of the screen outer frame 5, the outer frame control layer 15 is controlled by the control chip layer 6, during daily playing, the electrically controlled color changing plate 14 presents and fuses the color of the near color gamut in the environment, so that the appearance of the external frame 5 of the screen is faded, if no lamp strip is around at night, the user can display black color, so that the user can ignore the structure of the outer frame body during observation, the camouflage frame presented by the secondary 3D display screen 4 is used as a real frame, and the visual observation difference is provided for the observer in a visual deception mode, so that the observer can be guided by the subsequent 3D image presentation effect.
Further, a bending corner 16 is arranged in the middle of the screen outer frame 5, the bending corner 16 and the screen outer frame 5 are of an integrated structure, and the bending corner 16 is used for allowing a user to observe images in different vision through two eyes.
Further, the main 3D display screen 3 and the auxiliary 3D display screen 4 are both provided with a backlight module 8, a polarizer 9 is arranged above the backlight module 8, a thin film transistor layer 10 is arranged above the polarizer 9, and the backlight module 8, the polarizer 9 and the thin film transistor layer 10 are all accessories required by the 3D display screen.
Further, a liquid crystal layer 11 is arranged above the thin film transistor layer 10, a color filter layer 12 is arranged above the liquid crystal layer 11, a cylindrical perspective 3D grating layer 13 is arranged above the color filter layer 12, and the cylindrical perspective 3D grating layer 13 enables a user to view the display screen at different angles with two eyes, so that the display screen presents different sub-pixels.
Further, a framework frame platform 19 is arranged above the supporting framework frame 2, a lower drainage port 20 is arranged at one end of the framework frame platform 19, a lower drainage pipe 21 is arranged below the lower drainage port 20, the lower drainage port 20 and the lower drainage pipe 21 are used for downwards draining water when the external open environment is used in a large screen, and the phenomenon that rainwater overflows to the screen to influence the 3D vision presentation is avoided.
Further, the rear end of the control chip layer 6 is provided with an installation supporting mechanism 7, one end of the installation supporting mechanism 7 close to the control chip layer 6 is provided with a control layer installation plate 33, the rear end of the control layer installation plate 33 is provided with an installation frame layer 22, and the installation supporting mechanism 7 is used for playing a role in rear end installation and support.
Further, the inside of installing frame layer 22 is provided with U type metal square pipe 31, and U type metal square pipe 31 is provided with a plurality ofly, all is provided with cross combination pipe 32 between a plurality of U type metal square pipes 31, and the rear end of installing frame layer 22 is provided with connecting plate 30, and U type metal square pipe 31 and cross combination pipe 32 of installing frame layer 22 department all are used for playing the effect that the rear end supported.
Further, the rear end of connecting plate 30 is provided with consolidates sheet layer 27, and the rear end of consolidating sheet layer 27 is provided with installation back sheet layer 23, and the both sides of consolidating sheet layer 27 all are provided with and consolidate connecting piece 28, and consolidate sheet layer 27 through consolidating connecting piece 28 and installation back sheet layer 23 threaded connection, consolidate sheet layer 27 and be used for playing the reinforced effect of rear end.
Further, be provided with through connection 26 between installation rear plate layer 23 and the reinforcement sheet layer 27, the one end that through connection 26 is close to reinforcement sheet layer 27 is provided with retaining member 29, the both sides of installation rear plate layer 23 all are provided with anchor assembly 24, and anchor assembly 24 is provided with a plurality ofly, and the intermediate position department of installation rear plate layer 23 outer wall is provided with rearmounted installation notch 25, and installation rear plate layer 23 and corresponding accessory are used and objects such as rear end wall body are used in combination.
The working principle is as follows: when the device is used, the control chip set 17 in the control chip layer 6 is utilized to control the main 3D display screen 3 and the auxiliary 3D display screen 4, a user inputs a 3D image to be played in advance, the control chip set 17 carries out simulation playing operation on the input 3D image, an image time axis extending from the main 3D display screen 3 to the auxiliary 3D display screen 4 in the picture is input and stored in the simulation playing process, the image time axis is marked as an edge-out time point A, B, C and the like, the edge-out area range point and the time axis are correspondingly input, a time axis image file containing the edge-out point and the area range point is formed after the input and stored in the storage unit 18, the control chip set 17 controls the main 3D display screen 3 to carry out image playing during playing, the control chip set 17 controls the controllable variable optical strip between the main 3D display screen 3 and the auxiliary 3D display screen 4, the same color is selected according to the color presented by the following image, when a user watches the main 3D display screen 3, two eyes present a 3D visual angle due to the angle of the main 3D display screen 3 and the grating, and the controllable light changing strip is regarded as the extension of a scene, which is similar to the design of a black edge in a movie, in the process, the auxiliary 3D display screen 4 is always played as a simulated outer frame image, the user watches the auxiliary 3D display screen 4 to regard the auxiliary 3D display screen as an outer frame body, after the edge-appearing time point of the image is reached, a part of the image is presented on the auxiliary 3D display screen 4 according to the edge-appearing time point and the edge-appearing area point, the edge-appearing point is a process that the image extends outwards, such as that image figures extend outwards and climb outwards, and the like, when the user watches, the visual impact from inside to outside is presented, and the whole naked eye 3D display screen can have better effect through the structure, the 3D vision can be expanded outwards, stronger visual impact is achieved, the outer frame control layer 15 is used for controlling the electronic control color changing plate 14 at the position of the screen outer frame 5, the outer frame control layer 15 is controlled by the control chip layer 6, during daily playing, the electronic control color changing plate 14 presents and fuses near-color-gamut colors in the environment, the appearance at the position of the screen outer frame 5 is faded, if no light bar is arranged around the night, the display black can be achieved, a user neglects the outer frame structure during observation, the camouflage frame presented by the auxiliary 3D display screen 4 is used as a real frame, the visual observation difference of an observer is provided in a visual deception mode, and the observer can be guided by the subsequent 3D image presentation effect.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.