CN117119282A

CN117119282A - Intelligent AR/VR dynamic capture lens

Info

Publication number: CN117119282A
Application number: CN202310996691.4A
Authority: CN
Inventors: 郭宇宁
Original assignee: Hongri Optical Technology Fujian Co ltd
Current assignee: Hongri Optical Technology Fujian Co ltd
Priority date: 2023-08-09
Filing date: 2023-08-09
Publication date: 2023-11-24

Abstract

The invention relates to the field of dynamic capturing lenses, in particular to an intelligent AR/VR dynamic capturing lens, wherein a horizontal angle adjuster is arranged at the top of a bracket, a vertical angle adjuster is arranged above the horizontal angle adjuster, a level gauge is arranged at the top of the vertical angle adjuster, two ends of the level gauge transversely extend out and are provided with cross beams, a support column is arranged above the level gauge, and a camera is arranged above the support column; the camera is rotatably provided with a first zoom and a second zoom, the rear of the camera is provided with a data analysis device and a power supply, and the front of the camera is provided with a camera. According to the invention, the camera can be used for shooting the dynamically captured actors, the data analysis module can be used for analyzing the data of the node receiving module and the angle detection module, and then the control module is used for controlling the motion module, the camera and the adjusting module, so that the angle and the focal length of the camera are automatically controlled, intelligent motion capture is realized, the labor cost is saved, and the efficiency is improved.

Description

Intelligent AR/VR dynamic capture lens

Technical Field

The invention relates to the technical field of dynamic capture lenses, in particular to an intelligent AR/VR dynamic capture lens.

Background

AR refers to augmented reality (Augmented Reality), a technique that combines computer-generated virtual information with real world scenes. By using AR technology, a user can see virtual elements in real scenes, for example, AR applications in fields of games, advertising, education, medical treatment, etc. AR technology typically requires the use of cameras and displays, etc. to present virtual information.

VR refers to Virtual Reality (Virtual Reality), which is a technology that creates a Virtual environment through computer simulation, so that a user feels to put himself in the Virtual environment. VR technology typically requires the use of head mounted displays, handles, and the like, as well as specialized virtual reality software to present the virtual environment. VR technology has applications in gaming, education, military, medical, etc.

In the application of AR/VR technology, a technology of dynamic capture is needed, but at present, the dynamic capture generally needs to be manually shot, and the purpose that the lens moves along with the action node through manual focusing and alignment of the lens is achieved, so that the purpose of capturing the action is achieved. However, the lens is manually moved, so that the time of a user is wasted, the cost of motion capture is increased, and the efficiency is not particularly high.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides an intelligent AR/VR dynamic capture lens.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the intelligent AR/VR dynamic capturing lens comprises a support, wherein a horizontal angle adjuster is arranged at the top of the support, a vertical angle adjuster is arranged above the horizontal angle adjuster, a level gauge is arranged at the top of the vertical angle adjuster, two ends of the level gauge transversely extend out to be provided with a cross beam, a supporting column is arranged above the level gauge, and a camera is arranged above the supporting column; the camera is provided with a first zoom and a second zoom in a rotating way, a data analysis device and a power supply are arranged at the rear of the camera, a camera is arranged in front of the camera, and a lens sleeve is arranged on the camera.

Preferably, a node receiver is arranged below the camera in front of the cross beam, and a node receiving module is arranged inside the node receiver.

Preferably, an adjusting column is arranged at the rear of the node receiver, the adjusting column is located below the first zoom lens and the second zoom lens, and a first adjusting ring and a second adjusting ring are respectively arranged on two sides of the adjusting column in a rotating mode corresponding to the first zoom lens and the second zoom lens.

Preferably, the rotation shafts are inserted in the first adjusting ring and the second adjusting ring, the first adjusting ring and the second adjusting ring rotate through the rotation shafts, the outer sides of the first adjusting ring and the second adjusting ring are sleeved with anti-skidding sleeves, and the anti-skidding sleeves are contacted with the first zoom head and the second zoom head.

Preferably, the internally mounted of node receiver has node receiving module, and the internally mounted of data analysis device has data installation module, and the internally mounted of level has angle detection module, and the inside of horizontal angle regulator and vertical angle regulator all is provided with the motion module, and the inside of first regulation circle and second regulation circle all is provided with adjustment module.

Preferably, the data analysis module and the control module are both connected with an external operation terminal through WIFI/Bluetooth signals, the node transmitter is internally provided with a node transmitting module, and the node transmitter is located outside and connected with the node receiver through the WIFI/Bluetooth signals.

Preferably, the node transmitting module is connected with the node receiving module through WIFI/Bluetooth signals, the node receiving module and the angle detecting module are connected with the data analyzing module through electric signals, the data analyzing module is connected with the control module through electric signals, the data analyzing module and the control module are connected with an external operation terminal through WIFI/Bluetooth signals, and the control module is connected with the movement module, the camera and the adjusting module through electric signals.

The beneficial effects of the invention are as follows: the camera can be used for shooting the dynamically captured actors, the data analysis module can be used for analyzing the data of the node receiving module and the angle detection module, and then the control module is used for controlling the motion module, the camera and the adjusting module, so that the angle and the focal length of the camera are automatically controlled, intelligent motion capture is realized, the labor cost is saved, and the efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of a front view of an intelligent AR/VR dynamic capture lens in accordance with the present invention;

FIG. 2 is a schematic side view of an intelligent AR/VR dynamic capture lens according to the present invention;

FIG. 3 is a schematic diagram of a camera with an intelligent AR/VR dynamic capture lens according to the present invention;

FIG. 4 is a schematic block diagram of an intelligent AR/VR dynamic capture lens in accordance with the present invention.

In the figure: 1 support, 2 horizontal angle regulators, 3 vertical angle regulators, 4 level, 5 crossbeams, 6 node receivers, 7 adjusting columns, 71 first adjusting rings, 72 second adjusting rings, 8 supporting columns, 9 cameras, 10 first zoom heads, 11 second zoom heads, 12 lens sleeves, 13 cameras, 14 data analysis devices and 15 power supplies.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-4, an intelligent AR/VR dynamic capturing lens comprises a bracket 1, wherein a horizontal angle adjuster 2 is arranged at the top of the bracket 1, a vertical angle adjuster 3 is arranged above the horizontal angle adjuster 2, a level 4 is arranged at the top of the vertical angle adjuster 3, two ends of the level 4 transversely extend out and are provided with a cross beam 5, a support column 8 is arranged above the level 4, and a camera 9 is arranged above the support column 8; the camera 9 is rotatably provided with a first zoom lens 10 and a second zoom lens 11, the rear of the camera 9 is provided with a data analysis device 14 and a power supply 15, and the front of the camera 9 is provided with a camera 13, and the camera 13 is provided with a lens cover 12.

The power supply 15 can supply power to the device, so that the device can normally operate.

Wherein, the front of the beam 5 is provided with a node receiver 6 below the camera 13, and the inside of the node receiver 6 is provided with a node receiving module. The signal transmitted by the node transmitting module in the node transmitter can be received by the node receiving module in the node receiver 6, so that the signal received by the node receiving module can be transmitted to the data analyzing module for automatic analysis. And the node transmitting module is connected with the node receiving module through WIFI/Bluetooth signals.

Wherein, the rear of the node receiver 6 is provided with an adjusting column 7, the adjusting column 7 is located below the first zoom lens 10 and the second zoom lens 11, and two sides of the adjusting column 7 are respectively provided with a first adjusting ring 71 and a second adjusting ring 72 corresponding to the first zoom lens 10 and the second zoom lens 11 in a rotating way. The first adjusting ring 71 and the second adjusting ring 72 are internally provided with adjusting modules, and the first adjusting ring 71 and the second adjusting ring 72 can be controlled through the adjusting modules, so that the first zoom lens 10 and the second zoom lens 11 can be rotated through the first adjusting ring 71 and the second adjusting ring 72, and the focal length of the lens can be automatically adjusted.

Wherein, the rotation axis is all inserted to the inside of first regulation circle 71 and second regulation circle 72, and first regulation circle 71 and second regulation circle 72 pass through the rotation axis and rotate, and the outside of first regulation circle 71 and second regulation circle 72 all overlaps and is equipped with the antiskid cover to the antiskid cover all contacts with first zoom 10 and second zoom 11.

Wherein, the internally mounted of node receiver 6 has the node receiving module, and the internally mounted of data analysis device 14 has the data installation module, and the internally mounted of water level 4 has the angle detection module, and the inside of horizontal angle regulator 2 and vertical angle regulator 3 all is provided with the motion module, and the inside of first regulation circle 71 and second regulation circle 72 all is provided with the regulation module. The current horizontal and vertical angles of the camera 13 can be detected by the angle detection module installed inside the level 4.

The level detection module and the node receiving module are connected with the data analysis module through electric signals, so that various data can be analyzed through the data analysis module, then the data analysis module transmits analysis results to the control module, and the control module is used for controlling the motion module, the camera and the adjusting module, so that the intellectualization of the dynamic capture lens is realized.

The data analysis module and the control module are connected with an external operation terminal through WIFI/Bluetooth signals, the node transmitter is internally provided with a node transmitting module, and the node transmitter is located outside and connected with the node receiver through the WIFI/Bluetooth signals. The analysis result of the data analysis module is directly transmitted to the operation terminal through the WIFI/Bluetooth signal, a user can directly control the operation terminal, and the control signal is also transmitted to the control module through the WIFI/Bluetooth signal.

The node transmitting module is connected with the node receiving module through WIFI/Bluetooth signals, the node receiving module and the angle detecting module are connected with the data analyzing module through electric signals, the data analyzing module is connected with the control module through electric signals, the data analyzing module and the control module are connected with an external operation terminal through WIFI/Bluetooth signals, and the control module is connected with the movement module, the camera and the adjusting module through electric signals.

In the invention, the node transmitter is arranged at each part of the body of the motion capture actor, and then the signal transmitted by the node transmitting module in the node transmitter can be received by the node receiving module in the node receiver 6, so that the signal received by the node receiving module can be transmitted to the data analysis module for automatic analysis. And the current horizontal and vertical angles of the camera 13 can be detected by the angle detection module internally installed in the level 4. The angle detection result is also connected with the data analysis module through the electric signal, and the data analysis module can analyze the data transmitted from the node receiving module and the angle detection module.

Further, after the analysis of the data analysis module is completed, the analysis result is transmitted to the control module, and the motion module, the camera and the adjustment module are controlled by the control module, so that the horizontal angle adjuster 2, the vertical angle adjuster 3, the first adjustment ring 71 and the second adjustment ring 72 can be controlled. The camera 13 can rotate in self angle through the horizontal angle regulator 2 and the vertical angle regulator 3, so that the camera 13 always shoots against the node emitter. The first zoom lens 10 and the second zoom lens 11 can be controlled by the first adjusting ring 71 and the second adjusting ring 72, so that the focal length of the camera 13 can be adjusted to always take a clear picture.

Further, the analysis result of the data analysis module is directly transmitted to the operation terminal through the WIFI/Bluetooth signal, the user can directly control the operation terminal, and the control signal is also transmitted to the control module through the WIFI/Bluetooth signal.

Further, the first adjusting ring 71 and the second adjusting ring 72 can be controlled by the adjusting module, so that the first adjusting ring 71 and the second adjusting ring 72 rotate. Because the first and second adjustment rings 71, 72 and the first and second zoom heads 10, 11. The first zoom lens 10 and the second zoom lens 11 can rotate through friction force, so that the focal length of the lens can be automatically adjusted.

In the invention, the camera 13 can be used for shooting the dynamically captured actors, the data analysis module can be used for analyzing the data of the node receiving module and the angle detection module, and then the control module is used for controlling the motion module, the camera and the adjusting module, so that the angle and the focal length of the camera 13 are automatically controlled, intelligent motion capture is realized, the labor cost is saved, and the efficiency is improved.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides an intelligent AR/VR dynamic capture camera lens, includes support (1), its characterized in that, the top of support (1) is provided with horizontal angle regulator (2), and vertical angle regulator (3) are installed to the top of horizontal angle regulator (2), and the top of vertical angle regulator (3) is provided with spirit level (4), and both ends of spirit level (4) all transversely stretch out and are provided with crossbeam (5) to the top of spirit level (4) is provided with support column (8), and camera (9) are installed to the top of support column (8);

the camera (9) is rotatably provided with a first zoom (10) and a second zoom (11), a data analysis device (14) and a power supply (15) are arranged at the rear of the camera (9), a camera (13) is arranged at the front of the camera (9), and a lens sleeve (12) is arranged on the camera (13).

2. The intelligent AR/VR dynamic capture lens of claim 1, wherein a node receiver (6) is disposed below the camera (13) in front of the beam (5), and a node receiving module is disposed inside the node receiver (6).

3. The intelligent AR/VR dynamic capturing lens according to claim 2, wherein an adjusting post (7) is disposed at the rear of the node receiver (6), the adjusting post (7) is located below the first zoom (10) and the second zoom (11), and a first adjusting ring (71) and a second adjusting ring (72) are rotatably disposed on two sides of the adjusting post (7) corresponding to the first zoom (10) and the second zoom (11), respectively.

4. The intelligent AR/VR dynamic capture lens according to claim 3, wherein the first adjusting ring (71) and the second adjusting ring (72) are provided with rotating shafts in an inserted manner, the first adjusting ring (71) and the second adjusting ring (72) rotate through the rotating shafts, anti-slip sleeves are sleeved on the outer sides of the first adjusting ring (71) and the second adjusting ring (72), and the anti-slip sleeves are in contact with the first zoom lens (10) and the second zoom lens (11).

5. The intelligent AR/VR dynamic capturing lens according to claim 4, wherein the node receiver (6) has a node receiving module, the data analyzing device (14) has a data installing module, the level (4) has an angle detecting module, the horizontal angle adjuster (2) and the vertical angle adjuster (3) have moving modules, and the first adjusting ring (71) and the second adjusting ring (72) have adjusting modules.

6. The intelligent AR/VR dynamic capture lens according to claim 5, wherein the data analysis module and the control module are both connected to an external operating terminal via WIFI/Bluetooth signals, and the node transmitters are both provided with node transmitting modules, and the node transmitters are located outside and connected to the node receiver via WIFI/Bluetooth signals.

7. The intelligent AR/VR dynamic capture lens according to claim 6, wherein the node transmitting module is connected to the node receiving module via WIFI/Bluetooth signals, the node receiving module and the angle detecting module are both connected to the data analyzing module via electrical signals, the data analyzing module is connected to the control module via electrical signals, and the data analyzing module and the control module are both connected to an external operating terminal via WIFI/Bluetooth signals, and the control module is connected to the movement module, the camera and the adjustment module via electrical signals.