CN110706611A - Stereoscopic display screen, display method of stereoscopic display screen and storage medium - Google Patents

Abstract

The invention discloses a three-dimensional display screen, a display method of the three-dimensional display screen and a storage medium. The stereoscopic display screen comprises a surface layer, a connecting piece and a driving device; the surface layer comprises a plurality of display units; each display unit is connected with one end of the connecting piece, and the other end of the connecting piece is connected with a driving device for driving the display units to ascend or descend. According to the invention, the display height of each display unit in the display screen is controlled by the driving device by improving the structure of the display screen, so that the three-dimensional display requirement of a user is met.

Description

Stereoscopic display screen, display method of stereoscopic display screen and storage medium

Technical Field

The invention relates to the technical field of LED display screens, in particular to a three-dimensional display screen, a display method of the three-dimensional display screen and a storage medium.

Background

In the information-based modern day, people have higher and higher requirements on visual media, and the indexes such as resolution, color, brightness and the like of a display screen are optimized by reducing the size of a display point, replacing a lamp bead of the display screen and the like so as to meet the display requirements of users. However, the existing display screen is limited by its structure and function as a flat panel display, and can only perform two-dimensional display, and most of the existing display screens are fixedly installed, so that the application of the change of the viewing angle and the display screen itself is rigid, and the stereoscopic display requirements of users are difficult to meet.

Disclosure of Invention

The invention provides a three-dimensional display screen, a display method of the three-dimensional display screen and a storage medium, which can realize that the display height of each display unit in the display screen is controlled by a driving device by improving the structure of the display screen, thereby meeting the three-dimensional display requirements of users.

In order to solve the above technical problem, in a first aspect, the present invention provides a stereoscopic display panel, including a surface layer, a connecting member, and a driving device;

the surface layer comprises a plurality of display units;

each display unit is connected with one end of the connecting piece, and the other end of the connecting piece is connected with a driving device for driving the display units to ascend or descend.

Further, the display unit includes a full-color LED lamp.

Further, the connecting piece comprises one or more combinations of a sleeve thimble, a lifting rod and an elastic structure.

Further, the driving device comprises one or more combinations of a pneumatic driving device, a hydraulic driving device and an electric driving device.

In a second aspect, the present invention provides a display method for a stereoscopic display screen, including:

acquiring coordinate data of content to be displayed;

determining a target display unit and the ascending or descending height of the target display unit according to the coordinate data;

and controlling a driving device to drive the target display unit to ascend or descend according to the ascending or descending height of the target display unit.

Further, the coordinate data comprises three-dimensional coordinate data; the X-axis coordinate and the Y-axis coordinate of the three-dimensional coordinate data are used for determining the plane position of the target display unit, and the Z-axis coordinate of the three-dimensional coordinate data is used for determining the ascending or descending height of the target display unit.

Further, the target display unit includes a full-color LED lamp.

Further, the controlling and driving device to drive the target display unit to ascend or descend according to the ascending or descending height of the target display unit includes:

and controlling a driving device to drive the target display unit to ascend or descend once, continuously ascend or descend and ascend or descend intermittently.

Further, the driving device comprises one or more combinations of a pneumatic driving device, a hydraulic driving device and an electric driving device.

In a third aspect, the present invention provides a computer-readable storage medium, where the computer-readable storage medium includes a stored computer program, where when the computer program runs, the apparatus where the computer-readable storage medium is located is controlled to execute the stereoscopic display screen display method described above.

The embodiment of the invention has the following beneficial effects:

through the structure of improving the display screen, set up a plurality of display element promptly on the display screen superficial layer, each display element is connected with the one end of a connecting piece, and the other end and the drive arrangement that drives display element and rise or descend of connecting piece are connected for can be by the ascending or decline of each display element of drive arrangement control, realize by the display height of each display element in the drive arrangement control display screen, thereby satisfy user's three-dimensional show demand.

Drawings

Fig. 1 is a schematic structural diagram of a stereoscopic display screen according to a first embodiment of the invention;

FIG. 2 is a schematic structural view of a thimble of the sleeve according to the first embodiment of the present invention;

fig. 3 is a flowchart illustrating a method for displaying a stereoscopic display screen according to a second embodiment of the invention.

Detailed Description

The technical solutions in the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, the step numbers in the text are only for convenience of explanation of the specific embodiments, and do not serve to limit the execution sequence of the steps. The method provided by the present embodiment may be executed by a related server, and the server is taken as an example for explanation below.

Please refer to fig. 1-2.

As shown in fig. 1, the first embodiment provides a stereoscopic display screen, which includes a surface layer 1, a connecting member 2, and a driving device 3; the surface layer 1 comprises a number of display cells 11; each display unit 11 is connected with one end of the connecting piece 2, and the other end of the connecting piece 2 is connected with the driving device 3 for driving the display unit 11 to ascend or descend.

It should be noted that the connection mode of the display unit 11 and one end of the connecting member 2 includes fixed connection modes such as bonding, pressing, embedding, and the like.

It can be understood that, by improving the structure of the display screen, that is, arranging a plurality of display units 11 on the surface layer 1 of the display screen, each display unit 11 is connected with one end of one connecting piece 2, and the other end of the connecting piece 2 is connected with the driving device 3 for driving the display unit 11 to ascend or descend, so that the driving device 3 can control each display unit 11 to ascend or descend, the driving device 3 can control the display height of each display unit 11 in the display screen, and the three-dimensional display requirement of a user can be met.

In a preferred embodiment, the display unit 11 comprises a full-color LED lamp.

Note that the display unit 11 includes at least one full-color LED lamp.

It can be understood that, through selecting full-color LED lamp for use as the display element 11 of stereoscopic display screen, can guarantee the demonstration color and the demonstration luminance of stereoscopic display screen, realize optimizing display effect. When selecting for use a full-color LED lamp as the display element 11 of stereoscopic display screen, through being connected to a connecting piece 2 with each full-color LED lamp to be connected to drive arrangement 3, can be when moulding the stereoscopic display effect, through arbitrary display element 11 of drive arrangement 3 adaptability drive, single full-color LED lamp rises or descends promptly, has the characteristics of high accuracy control and high resolution display, realizes optimizing the stereoscopic display effect.

In a preferred embodiment, the connecting member 2 comprises one or more of a thimble, a lifting rod and a resilient structure.

In a preferred embodiment of this embodiment, the connecting element 2 is a thimble. The structure of the thimble of the sleeve is shown in figure 2. The sleeve thimble comprises a display unit connection end 201, a hollow chamber 202 and a driving device connection end 203.

It is understood that the display unit connection terminal 201 is used for connecting the display unit 11, the hollow chamber 202 is used for protecting the wires of the display unit 11 (e.g., full-color LED lamp), and the driving device connection terminal 203 is used for connecting the driving device 3.

In a preferred embodiment, the driving means comprises one or more combinations of pneumatic, hydraulic and electric driving means.

Please refer to fig. 3.

As shown in fig. 3, a second embodiment provides a method for displaying a stereoscopic display screen, which includes steps S1 to S3:

and S1, acquiring the coordinate data of the content to be displayed.

And S2, determining a target display unit and the ascending or descending height of the target display unit according to the coordinate data.

And S3, controlling a driving device to drive the target display unit to ascend or descend according to the ascending or descending height of the target display unit.

It should be noted that the coordinate data of the content to be displayed may be acquired through a control terminal, where the control terminal includes a mobile phone, a computer, a tablet and other communication devices that may be connected to a server.

For example, the user may upload the acquired content to be displayed to a computer, and convert the content to be displayed into coordinate data by coordinate conversion software. According to the coordinate data of the content to be displayed sent by the computer, the content to be displayed is appointed to the stereoscopic display screen for displaying, and meanwhile, a target display unit and the ascending or descending height of the target display unit in the stereoscopic display screen are determined so as to control the driving device to drive the target display unit to ascend or descend and enable the target display unit to be located on the plane with the appointed height.

It can be understood that the target display unit and the ascending or descending height thereof are determined from all the display units of the stereoscopic display screen according to the coordinate data by acquiring the coordinate data of the content to be displayed, so as to control the driving device in the stereoscopic display screen to drive the target display unit to ascend or descend, and the driving device is used for controlling the display height of the target display unit in the stereoscopic display screen, thereby meeting the stereoscopic display requirements of users.

In a preferred embodiment, the coordinate data comprises three-dimensional coordinate data; the X-axis coordinate and the Y-axis coordinate of the three-dimensional coordinate data are used for determining the plane position of the target display unit, and the Z-axis coordinate of the three-dimensional coordinate data is used for determining the ascending or descending height of the target display unit.

For example, three-dimensional coordinate data in which a Z-axis coordinate value is not 0 in the three-dimensional coordinate data is used as target three-dimensional coordinate data to determine a planar position of a target display unit from all display units of a stereoscopic display screen according to an X-axis coordinate value and a Y-axis coordinate value in the target three-dimensional data, and a driving device is controlled to drive the target display unit to ascend or descend according to a corresponding Z-axis coordinate value in the target three-dimensional data, that is, when the Z-axis coordinate value is greater than 0, the target display unit is driven to ascend by Z unit length, and conversely, the target display unit is driven to descend by | Z | unit length.

In a preferred embodiment, the target display unit comprises a full-color LED lamp.

It should be noted that the target display unit includes at least one full-color LED lamp.

It is understood that all display units of the stereoscopic display screen comprise at least one full-color LED lamp. Through selecting full-color LED lamp for use as the display element of stereoscopic display screen, can guarantee the demonstration color and the demonstration luminance of stereoscopic display screen, realize optimizing display effect. When chooseing for use a full-color LED lamp as the display element of three-dimensional display screen, through being connected to a connecting piece with each full-color LED lamp to be connected to drive arrangement, can be when moulding three-dimensional display effect, through drive arrangement adaptability ground drive target display element, single full-color LED lamp rises or descends promptly, has the characteristics that high accuracy control and high resolution show, realizes optimizing three-dimensional display effect.

In a preferred embodiment, the step S3 includes: and controlling a driving device to drive the target display unit to ascend or descend once, continuously ascend or descend and ascend or descend intermittently.

It can be understood that, by adopting various control modes of single lifting, continuous lifting and intermittent lifting, the lifting or descending height of the target display unit can be accurately controlled, so that the target display unit is positioned on a plane with a specified height.

In a preferred embodiment, the driving device comprises one or more of a pneumatic driving device, a hydraulic driving device and an electric driving device.

A third embodiment provides a computer-readable storage medium, where the computer-readable storage medium includes a stored computer program, where when the computer program runs, the apparatus where the computer-readable storage medium is located is controlled to execute the stereoscopic display screen display method described above, and the same beneficial effects are achieved.

In summary, the embodiments of the present invention have the following advantages:

by improving the structure of the display screen, namely arranging a plurality of display units 11 on the surface layer 1 of the display screen, each display unit 11 is connected with one end of one connecting piece 2, and the other end of each connecting piece 2 is connected with a driving device 3 for driving the display unit 11 to ascend or descend, the ascending or descending of each display unit 11 can be controlled by the driving device 3. In addition, by utilizing the stereoscopic display screen, the target display unit and the ascending or descending height thereof are determined from all the display units of the stereoscopic display screen according to the coordinate data by acquiring the coordinate data of the content to be displayed, so that the driving device in the stereoscopic display screen is controlled to drive the target display unit to ascend or descend, the display height of the target display unit in the stereoscopic display screen is controlled by the driving device, and the stereoscopic display requirement of a user is met.

It will be understood by those skilled in the art that all or part of the processes of the above embodiments may be implemented by hardware related to instructions of a computer program, and the computer program may be stored in a computer readable storage medium, and when executed, may include the processes of the above embodiments. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (10)

1. A stereoscopic display screen is characterized by comprising a surface layer, a connecting piece and a driving device;

the surface layer comprises a plurality of display units;

each display unit is connected with one end of the connecting piece, and the other end of the connecting piece is connected with a driving device for driving the display units to ascend or descend.

2. The stereoscopic display screen of claim 1 wherein the display unit comprises a full color LED light.

3. The stereoscopic display screen of claim 1, wherein the connector comprises one or more of a set of thimble sleeves, a lifting rod, and a resilient structure.

4. The stereoscopic display screen of claim 1 wherein the driving means comprises one or more of a combination of pneumatic, hydraulic and electric driving means.

5. A display method of a stereoscopic display screen is characterized by comprising the following steps:

acquiring coordinate data of content to be displayed;

determining a target display unit and the ascending or descending height of the target display unit according to the coordinate data;

and controlling a driving device to drive the target display unit to ascend or descend according to the ascending or descending height of the target display unit.

6. The stereoscopic display screen display method of claim 5, wherein the coordinate data comprises three-dimensional coordinate data; the X-axis coordinate and the Y-axis coordinate of the three-dimensional coordinate data are used for determining the plane position of the target display unit, and the Z-axis coordinate of the three-dimensional coordinate data is used for determining the ascending or descending height of the target display unit.

7. The method of displaying on a stereoscopic display screen of claim 5 wherein the target display unit comprises a full color LED lamp.

8. The method for displaying on a stereoscopic display screen according to claim 5, wherein the controlling a driving device to drive the target display unit to ascend or descend according to the ascending or descending height of the target display unit comprises:

and controlling a driving device to drive the target display unit to ascend or descend once, continuously ascend or descend and ascend or descend intermittently.

9. The method for displaying a stereoscopic display screen according to claim 5, wherein the driving device comprises one or more combinations of a pneumatic driving device, a hydraulic driving device and an electric driving device.

10. A computer-readable storage medium, comprising a stored computer program, wherein when the computer program runs, the computer-readable storage medium is controlled by a device to execute the stereoscopic display screen display method according to claims 5 to 9.

Images