CN204945947U - Realize the device of virtual reality technology - Google Patents

Realize the device of virtual reality technology Download PDF

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Publication number
CN204945947U
CN204945947U CN201520762259.XU CN201520762259U CN204945947U CN 204945947 U CN204945947 U CN 204945947U CN 201520762259 U CN201520762259 U CN 201520762259U CN 204945947 U CN204945947 U CN 204945947U
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module
apparatus casing
numerical control
virtual reality
display screen
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CN201520762259.XU
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刘念
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Sichuan You Lian Information Technology Co Ltd
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Abstract

The utility model discloses the device realizing virtual reality technology, comprise real time three-dimensional imaging module, numerical control Focussing module, volume coordinate induction module, 3D digitizer, described three-dimensional imaging module rear is designed with described numerical control Focussing module, described numerical control Focussing module rear is provided with single display screen, described single display screen is arranged on apparatus casing inside surface, described apparatus casing side has data transmission terminal, described data transmission terminal side is provided with control panel, described control panel is connected internally to anaglyph spectacles, described volume coordinate induction module is installed in the middle part of described anaglyph spectacles, described volume coordinate induction module rear is provided with speech recognition device, oscillating contact is provided with above institute's speech recognizer, three-dimensional sound generation module is provided with above described oscillating contact.Each module division of labor is clear and definite, and achieve successively by virtual scenario simulation out, volume is little, lightweight, easy to use.

Description

Realize the device of virtual reality technology
Technical field
The utility model relates to virtual reality simulation equipment de-sign field, particularly relates to the device realizing virtual reality technology.
Background technology
Virtual reality technology a kind ofly can create with the computer simulation system in the experiencing virtual world that it utilizes a kind of simulated environment of Practical computer teaching to be that a kind of interactively Three-Dimensional Dynamic what comes into a driver's of Multi-source Information Fusion and the system emulation of entity behavior make user be immersed in this environment.The set of virtual reality technology to be an important directions of emulation technology be multiple technologies such as emulation technology and computer graphics human-machine interface technology multimedia technology sensing technology network technology is a challenging interleaving techniques front subject and research field.Rich simulated environment, perception, natural technical ability and the sensing of will comprising of virtual reality technology establishes the aspects such as each.Simulated environment is by Practical computer teaching, in real time dynamic 3 D stereo photorealism.Perception refers to the perception that desirable VR should have all people and has.Except the visually-perceptible that computer graphics techniques generates, also have the perception such as the sense of hearing, sense of touch, power feel, motion, even also comprise sense of smell and the sense of taste etc., also referred to as many perception.Virtual reality technology has been used in many fields, improves work quality and efficiency, but does not really enter the method for virtual world and lack unified standard.
Utility model content
The purpose of this utility model is just to provide the device realizing virtual reality technology to solve the problem.
The utility model is achieved through the following technical solutions above-mentioned purpose:
Realize the device of virtual reality technology, comprise real time three-dimensional imaging module, numerical control Focussing module, volume coordinate induction module, 3D digitizer, described three-dimensional imaging module rear is designed with described numerical control Focussing module, described numerical control Focussing module rear is provided with single display screen, described single display screen is arranged on apparatus casing inside surface, described apparatus casing side has data transmission terminal, described data transmission terminal side is provided with control panel, described control panel is connected internally to anaglyph spectacles, described volume coordinate induction module is installed in the middle part of described anaglyph spectacles, described volume coordinate induction module rear is provided with speech recognition device, oscillating contact is provided with above institute's speech recognizer, three-dimensional sound generation module is provided with above described oscillating contact, described 3D digitizer is provided with above described three-dimensional sound generation module, bottom described apparatus casing, built-in power is installed, the outside rear of described apparatus casing is tied with equipment and wears rope band.
In said structure, described real time three-dimensional imaging module shows out the content of the data of storage, numerical control Focussing mould adjusts its sharpness, finally show on described single display screen, human eye is entered after anaglyph spectacles described in light therethrough, during user's rotary head, described 3D digitizer is with described volume coordinate induction module for transformation of criterion presentation content, so just achieves the simulation of virtual reality.
In order to improve operation technique further, described three-dimensional imaging module and described numerical control Focussing module pass through Fiber connection, described single display screen data line is connected to described numerical control Focussing module, and described single display screen is arranged on standby shell inner surface by screw fastening.
In order to improve operation technique further, described data transmission terminal designs in described apparatus casing side with opening mode, described control panel links described anaglyph spectacles by Data Control line, and institute's speech recognizer and described oscillating contact are wired to described built-in power.
In order to improve operation technique further, described anaglyph spectacles is by Fiber connection to described volume coordinate induction module, and described real time three-dimensional imaging module is connected by signal cable with described three-dimensional sound generation module.
In order to improve operation technique further, be connected with signal wire between described real time three-dimensional imaging module and described 3D digitizer, it is inner that described built-in power is embedded in described apparatus casing, and described equipment is worn rope band and is fastenedly connected described apparatus casing.
Beneficial effect is: each module division of labor is clear and definite, and achieve successively by virtual scenario simulation out, volume is little, lightweight, easy to use.
Accompanying drawing explanation
Fig. 1 is the space multistory view realizing the device of virtual reality technology described in the utility model;
Fig. 2 is the inner structure view realizing the device of virtual reality technology described in the utility model.
1, apparatus casing; 2, data transmission terminal; 3, control panel; 4, real time three-dimensional imaging module; 5, numerical control Focussing module; 6, single display screen; 7, anaglyph spectacles; 8, volume coordinate induction module; 9,3D digitizer; 10, three-dimensional sound generation module; 11, oscillating contact; 12, speech recognition device; 13, built-in power; 14, equipment wears rope band.
Embodiment
Below in conjunction with accompanying drawing, the utility model is described in further detail:
As Figure 1-Figure 2, realize the device of virtual reality technology, comprise real time three-dimensional imaging module 4, numerical control Focussing module 5, volume coordinate induction module 8, 3D digitizer 9, described three-dimensional imaging module rear is designed with numerical control Focussing module 5, in order to adjust lens focus, user is allowed to see picture clearly, numerical control Focussing module 5 rear is provided with single display screen 6, in order to show presentation content, single display screen 6 is arranged on apparatus casing 1 inside surface, apparatus casing 1 side has data transmission terminal 2, virtual data can be inputted from the external world, data transmission terminal 2 side is provided with control panel 3, user can from then on parameters, control panel 3 is connected internally to anaglyph spectacles 7, convert two-dimensional picture to three-dimensional, volume coordinate induction module 8 is installed in the middle part of anaglyph spectacles 7, set up Virtual Space coordinate system, for direction discernment provides benchmark, volume coordinate induction module 8 rear is provided with speech recognition device 12, in order to obtain artificial voice, oscillating contact 11 is provided with above speech recognition device 12, the contact of simulation virtual scene, three-dimensional sound generation module 10 is provided with above oscillating contact 11, make the broadcasting of sound truer, 3D digitizer 9 is provided with above three-dimensional sound generation module 10, in order to control the direction transformation of virtual scene, built-in power 13 is installed bottom apparatus casing 1, for consuming parts provides electric energy, the outside rear of apparatus casing 1 is tied with equipment and wears rope band 14, in order to user's wearable device.
In said structure, real time three-dimensional imaging module 4 shows out the content of the data of storage, numerical control Focussing mould adjusts its sharpness, finally show on single display screen 6, human eye is entered after light therethrough anaglyph spectacles 7, during user's rotary head, 3D digitizer 9 is transformation of criterion presentation content with volume coordinate induction module 8, so just achieves the simulation of virtual reality.
In order to improve operation technique further, described three-dimensional imaging module and numerical control Focussing module 5 pass through Fiber connection, single display screen 6 data line is connected to numerical control Focussing module 5, single display screen 6 is arranged on standby shell inner surface by screw fastening, data transmission terminal 2 designs in apparatus casing 1 side with opening mode, control panel 3 links anaglyph spectacles 7 by Data Control line, speech recognition device 12 and oscillating contact 11 are wired to built-in power 13, anaglyph spectacles 7 by Fiber connection to volume coordinate induction module 8, real time three-dimensional imaging module 4 is connected by signal cable with three-dimensional sound generation module 10, signal wire is connected with between real time three-dimensional imaging module 4 and 3D digitizer 9, it is inner that built-in power 13 is embedded in apparatus casing 1, equipment is worn rope band 14 and is fastenedly connected apparatus casing 1.
More than show and describe ultimate principle of the present utility model, principal character and advantage.The technician of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and instructions just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and effect thing thereof.

Claims (5)

1. realize the device of virtual reality technology, it is characterized in that: comprise real time three-dimensional imaging module, numerical control Focussing module, volume coordinate induction module, 3D digitizer, described three-dimensional imaging module rear is designed with described numerical control Focussing module, described numerical control Focussing module rear is provided with single display screen, described single display screen is arranged on apparatus casing inside surface, described apparatus casing side has data transmission terminal, described data transmission terminal side is provided with control panel, described control panel is connected internally to anaglyph spectacles, described volume coordinate induction module is installed in the middle part of described anaglyph spectacles, described volume coordinate induction module rear is provided with speech recognition device, oscillating contact is provided with above institute's speech recognizer, three-dimensional sound generation module is provided with above described oscillating contact, described 3D digitizer is provided with above described three-dimensional sound generation module, bottom described apparatus casing, built-in power is installed, the outside rear of described apparatus casing is tied with equipment and wears rope band.
2. the device realizing virtual reality technology according to claim 1, it is characterized in that: described three-dimensional imaging module and described numerical control Focussing module pass through Fiber connection, described single display screen data line is connected to described numerical control Focussing module, and described single display screen is arranged on standby shell inner surface by screw fastening.
3. the device realizing virtual reality technology according to claim 1, it is characterized in that: described data transmission terminal designs in described apparatus casing side with opening mode, described control panel links described anaglyph spectacles by Data Control line, and institute's speech recognizer and described oscillating contact are wired to described built-in power.
4. the device realizing virtual reality technology according to claim 1, it is characterized in that: described anaglyph spectacles is by Fiber connection to described volume coordinate induction module, and described real time three-dimensional imaging module is connected by signal cable with described three-dimensional sound generation module.
5. the device realizing virtual reality technology according to claim 1, it is characterized in that: between described real time three-dimensional imaging module and described 3D digitizer, be connected with signal wire, it is inner that described built-in power is embedded in described apparatus casing, and described equipment is worn rope band and is fastenedly connected described apparatus casing.
CN201520762259.XU 2015-09-29 2015-09-29 Realize the device of virtual reality technology Active CN204945947U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520762259.XU CN204945947U (en) 2015-09-29 2015-09-29 Realize the device of virtual reality technology

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520762259.XU CN204945947U (en) 2015-09-29 2015-09-29 Realize the device of virtual reality technology

Publications (1)

Publication Number Publication Date
CN204945947U true CN204945947U (en) 2016-01-06

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Country Status (1)

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Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
TR01 Transfer of patent right
TR01 Transfer of patent right

Effective date of registration: 20200806

Address after: No.26 Xinkai South Street, Wucun, liujiabao Township, Xiaodian District, Taiyuan City, Shanxi Province

Patentee after: Liu Jinbin

Address before: High tech Zone Gaopeng road in Chengdu city of Sichuan province 610093 5 Building No. 1 No. 205

Patentee before: SICHUAN YOULIAN INFORMATION TECHNOLOGY Co.,Ltd.