CN204442580U - A kind of wear-type virtual reality device and comprise the virtual reality system of this equipment - Google Patents

A kind of wear-type virtual reality device and comprise the virtual reality system of this equipment Download PDF

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Publication number
CN204442580U
CN204442580U CN201520109271.0U CN201520109271U CN204442580U CN 204442580 U CN204442580 U CN 204442580U CN 201520109271 U CN201520109271 U CN 201520109271U CN 204442580 U CN204442580 U CN 204442580U
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China
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virtual reality
module
display
wear
interface
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CN201520109271.0U
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Chinese (zh)
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张书宾
冯伟东
罗齐琦
刘文帅
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北京维阿时代科技有限公司
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Abstract

The utility model discloses a kind of wear-type virtual reality device, comprise display system and connected virtual reality engine.Described virtual reality engine comprises virtual reality core circuit plate, and described virtual reality core circuit plate comprises: core processor module and connected power management module, wireless communication module, inertial posture measuring module, audio decoder module, for providing the button of instruction and for charging or transmitting the interface of data.The invention also discloses a kind of virtual reality system comprising this equipment.Virtual reality engine and display system are integrated into an independently wear-type virtual reality device by the utility model virtual reality system, and be wirelessly connected with interactive device, also by immersion 3D operating system, present better 3D scene effect to user, allow experiencer have on the spot in person, fine virtual reality experience sensation.And the utility model structure is simple, easy to use, utilize popularization.

Description

A kind of wear-type virtual reality device and comprise the virtual reality system of this equipment
Technical field
The utility model relates to technical field of virtual reality, particularly relates to a kind of wear-type virtual reality device and comprises the virtual reality system of this equipment.
Background technology
Along with improving constantly of software and hardware technology level, virtual reality becomes popular high-tech technology in recent years.Existing virtual reality system is by going out a virtual three-dimensional world with the high performance computation system simulation of central processing unit, be aided with display system and interactive system again, the pseudo-experience of the sense organs such as vision, the sense of hearing, sense of touch is provided to user, allow user as stayed wherein, things in picture real world overview virtual world, and carry out interaction with it.Virtual reality is a comprehensive very strong technology, covers and comprises real-time graphics modeling technique, wide viewing angle stereo display technique, the real time technique for tracking of head movement, eye motion and limb motion to user, haptic feedback technology, sterophonic technique and high speed data transfer and treatment technology etc.Multiple fields such as current virtual reality technology is applied in medical science widely, Architectural exhibition, military.
More common virtual reality device mainly contains two kinds at present, one is virtual reality display system, its chief component is optical texture and display system, display system needs to be connected with outside virtual reality engine by communication interface, in order to receive the displaying contents after the process of external Virtual Reality-Engine, be that user presents a virtual three-dimensional environment by optical texture.This kind of simple in equipment, but because the virtual reality engine as core component is in outside, so it must be connected could work with external Virtual Reality-Engine by communication interface, and the transmission of virtual reality content is very high to the bandwidth requirement of communication interface, at present also mainly to transmit in wired mode.This just makes this kind equipment must connection data line, due to the limited length of connecting line, can cause restriction, have impact on experience effect to the motion of head, and can cause and wear the problems such as uncomfortable.In addition, because virtual reality engine is in outside, general controller carries out alternately with virtual reality engine, and after wearing virtual reality display device, user can't see external environment condition, and this also limits the use of interactive system to a certain extent.Another kind of virtual reality device is a kind of optical texture, and its display system and virtual reality engine all need external equipment to provide, as smart mobile phone.Content after external device processes, by this virtual reality optical texture, presents a virtual three-dimensional environment to user.This equipment merely provides a kind of optical texture and makes content three-dimensional, and is limited by the performance of external equipment, the factors such as size, and whole structure is difficult to improve.In the process of software, because general external equipment is not specially for virtual reality designs, for optimization and the interfere information of software, the process as the incoming call, notice, note etc. of smart mobile phone has very large difficulty, so cannot reach good effect.
As can be seen here, above-mentioned existing virtual reality device and virtual reality system, in structure, method and use, obviously still have inconvenience and defect, and are urgently further improved.How to found the simple and new wear-type virtual reality device that stereoeffect is good of a kind of easy to use, result and comprise the virtual reality system of this equipment, become the target that current industry pole need be improved.
Utility model content
The technical problems to be solved in the utility model is to provide a kind of easy to use, simple wear-type virtual reality device of result, makes user depart from the constraint of line, more freely comfortable experiencing virtual environment, thus overcomes the deficiency of existing virtual reality device.
For solving the problems of the technologies described above, the utility model provides a kind of wear-type virtual reality device, comprises display system, also comprises the virtual reality engine be connected with described display system.
Improve as one of the present utility model, described virtual reality engine comprises virtual reality core circuit plate, and described virtual reality core circuit plate comprises: core processor module and connected power management module, wireless communication module, inertial posture measuring module, audio decoder module, for providing the button of instruction and for charging or transmitting the interface of data.
Further improvement, described core processor module comprises the core of 4 ARM CORTEX A15 and the core of 4 ARM CORTEX A7.
Further improvement, described power management module is powered by battery or externally fed equipment, described power management module also comprises power-supply management system, and described power-supply management system energy Real-Time Monitoring electricity also controls the operation of described virtual reality engine according to the electric quantity data monitored.
Further improvement, described wireless communication module comprises WIFI communication module and bluetooth communication module, and the operating frequency of WIFI communication module is 2.4-2.4835GHz, and the operating frequency of bluetooth communication module is 2.4-2.45GHz.
Further improvement, described inertial posture measuring module is made up of one or more in 3-axis acceleration sensor, three-axis gyroscope transducer and three axle geomagnetic sensors.
Further improvement, described display system comprises display and the optical treatment component between display and human eye, and described optical treatment component is made up of the optical mirror slip of two groups of corresponding right and left eyes respectively, and described optical mirror slip is adjustable; Described display comprises LCD display panels and backlight, and described LCD display panels resolution is 1080x1920, and the connecting interface of described display floater and described virtual reality core circuit plate adopts MIPI DSI interface.
The technical problem that the utility model also will solve is to provide a kind of easy to use, simple virtual reality system of result, makes user depart from the constraint of line, more freely comfortable experiencing virtual environment, thus overcomes the deficiency of existing virtual reality system.
For solving the problems of the technologies described above, the utility model also provides a kind of virtual reality system comprising above-mentioned wear-type virtual reality device, this virtual reality system also comprises interactive device, described interactive device comprises wireless controller and wireless receiver, described wireless receiver is connected with described virtual reality engine, and wirelessly receives the command information of wireless controller transmission.
Further improvement, described wireless controller comprises wireless controller core circuit plate and connected for providing button and the rocking bar of instruction.
Further improvement, the operating system of described virtual reality system is 3D operating system.
Adopt above-mentioned technical scheme, the utility model at least has the following advantages:
1, virtual reality engine is combined with display system by the utility model wear-type virtual reality device, avoid in prior art and need the very high communication interface of bandwidth requirement to the content delivery of the virtual reality engine and display system that complete peripheral hardware, and departed from the constraint restriction of connecting line, make user can more freely, comfortable experiencing virtual actual environment.
2, virtual reality engine and display system are integrated into an independently wear-type virtual reality device by the utility model virtual reality system, and be wirelessly connected with interactive device, also by immersion 3D operating system, present better 3D scene effect to user, allow experiencer have on the spot in person, untrammeled, fine virtual reality experience sensation.
3, the utility model virtual reality system structure simple, easy to use, utilize promote.
Accompanying drawing explanation
Above-mentioned is only the general introduction of technical solutions of the utility model, and in order to better understand technological means of the present utility model, below in conjunction with accompanying drawing and embodiment, the utility model is described in further detail.
Fig. 1 is the structural representation of the utility model virtual reality system;
Fig. 2 is the principle schematic that the utility model wear-type virtual reality device coordinates with human eye;
Fig. 3 is the structural representation of the utility model wear-type virtual reality device;
Fig. 4 is the structural representation of core circuit plate in the utility model wear-type virtual reality device;
Fig. 5 is the structural representation of wireless controller in the utility model virtual reality system.
Embodiment
With reference to shown in accompanying drawing 1, the utility model virtual reality system comprises wear-type virtual reality device and interactive device.
With reference to shown in accompanying drawing 2, wear-type virtual reality device is worn on head and uses, and itself and people's face-contacting portion are arranged to comfortable bonding structure, and are furnished with the binding mechanism being bundled in head, and this binding mechanism is not shown in the drawings.
With reference to shown in accompanying drawing 3 and 4, wear-type virtual reality device comprises display system and virtual reality engine.This display system comprises optical treatment component 100 and display 101.Optical treatment component 100 is arranged between display 101 and human eye by structure member, by the content of optimised parameter processing from display 101.In the present embodiment, optical treatment component 100 is made up of two groups of optical mirror slips, and the corresponding eyes of every arrangement of mirrors sheet, are responsible for processing the image entering eyes, make it can present image clearly in human eye.Because the eyesight level of different human eye is different, so the structure member installing this eyeglass takes the mode of adjustable object distance can myopia user about adaptive 0-600 degree, everyone eye pupil is not apart from identical yet simultaneously, according to the binocular imaging principle of human eye, the image that every eye receive needs to be fused into 3-D view by brain with interpupillary distance coupling, therefore, this structure member also adopts adjustable interpupillary distance to design, and adjustable range can adaptive most of human eye.
Display 101 is connected with virtual reality engine by inner high speed communication interface 126, to receive the content of virtual reality, presents a virtual three-dimensional environment to user.In the present embodiment, display 101 comprises integrated LCD display panels and backlight, and LCD display panels resolution is 1080x1920, is of a size of 5.7 cun, is fixed on the correct position of this virtual reality device inside.Display 101 is when displaying contents, two pictures are divided into show by vertical direction common image frame by software, respectively two eyes of corresponding people, after two pictures enter the eyes of people respectively, brain can be fused into three-dimensional picture, presents virtual environment.In the present embodiment, the content of each picture display can pass through the image acquisition device collection of simulation human eye, as dual camera etc.Certainly, also binocular process can be carried out by software to the content that existing single camera gathers.And above-mentioned image acquisition device includes but not limited to camera, camera apparatus etc., it can also be the Software tool of making image content.
Virtual reality engine is independently high-performance calculation storage platform, and it runs the operating system for virtual reality experience, for display system provides virtual reality content.
The present embodiment virtual reality engine comprises virtual reality core circuit plate 118, this core circuit plate 118 is integrated with: power management module 121, core processor module 122, wireless communication module 123, inertial posture measuring module 124, audio decoder module 125, high speed display interface 126, in order to place the external interface 103 of storage card, in order to connect and the external interface 104 of the external equipment of its compatibility and external interface 105, button 106, button 107, button 108, button 109, external audio output interface 110, virtual reality engine status indicator lamp 119 and battery interface 127.
This power management module 121 provides electric energy for whole system, is integrated with multi-channel switch power and linear stabilized power supply, is its power supply by battery or external power source.Battery is connected with power management module 121 by battery interface 127; External power source is connected with power management module 121 by external interface 105, and external interface 105 adopts USB2.0 standard, all meet this standard and reach power supply capacity power supply and can power to virtual reality core circuit plate 118.
Preferably this power management module 121 is also configured with power-supply management system, and this power-supply management system can identify that externally fed power supply is battery or is powered by external interface 105 automatically.For powered battery, power-supply management system can be real-time the state of detection battery, as parameters such as temperature, electric current, dump energies, open or closed portion device according to the data detected, to control the ruuning situation of virtual reality engine, reach the effect of saving battery power, taking into account performance and power consumption.During as battery dump energy detected less than 20% when power-supply management system, power management module 121 this information transmission to core processor module 122, can be reduced the brightness of display 101 by this module, to reach the object of saving electric energy; When power-supply management system detects that the temperature of battery is too high, power-supply management system can cut off the connection being input to output automatically, and virtual reality core circuit plate 118 can quit work.When being charged to it by external equipment by external interface 105 for power management module 121, power-supply management system can detect battery status in real time, as parameters such as temperature, electric current, dump energies, with compromise between security and charging rate.
The central processing unit of core processor module 122 comprises 4 cores based on ARM CORTEX A15 and 4 cores based on ARM CORTEX A7.For reaching the balance of performance and power consumption, this core processor module 122 can decide according to the task quantity of current system and task type the core processor kind and the quantity that need unlatching.When processing high definition video playing task as needed when core processor module 122,4 A15 cores can all be opened, the work such as video decode are used for, and only open 2 A7 cores and be used for processing simple control and task scheduling work, the module of this composition is particularly suitable for needing battery powered virtual reality device.
This core processor module 122 is integrated with the interface controller that 1 meets USB2.0 otg standard, this controller is connected with external interface 105, after the USB SLAVE external equipment meeting USB2.0 otg standard is connected with external interface 105, power management module 121 can be controlled and power to this external equipment and carry out communication with it; After the USB HOST external equipment meeting USB2.0 standard is connected with external interface 105, can the battery of control USB HOST external equipment to virtual reality core circuit plate 118 carry out charging and and core processor module 122 carry out data communication.
This core processor module 122 is integrated with the interface controller that 1 meets USB2.0 HOST standard, this controller is connected with external interface 104, after the USB SLAVE external equipment meeting USB2.0 standard is connected with external interface 104, power management module 121 can be controlled and power to this external equipment and carry out communication with it.With the external equipment of external interface 104 compatibility as wired/wireless controller controller, memory etc.
This core processor module 122 is integrated with 1 TF card controller, and it controls external interface 103 and carries out data communication with TF card.This TF card is internal storage, in order to storing virtual real content and other data.
This core processor module 122 is integrated with I2S interface controller, and it is connected with audio decoder module 125, is used for carrying out the Communication processing of voice data.Audio decoder module 125 inside is also integrated with power amplifying device, the digital information that core processor module 122 sends can be converted to the audio signal of simulation, output on connected outside audible device, as earphone by external audio output interface 110 again.
This core processor module 122 is integrated with 1 MIPI DSI high speed display interface controller, and it is connected with high speed display interface 126, is used for carrying out the Communication processing of video data.Virtual reality core circuit plate 118 is connected with display 101 by high speed display interface 126, and high speed display interface 126 adopts up-to-date MIPI DSI interfacing, the image frame showing 2560x1440 with the speed of 60 frames that can be stable.
This core processor module 122 is integrated with SPI serial bus interface, and this interface is connected with wireless communication module 123, is used for carrying out data communication with it.Wireless communication module 123 receives outside data by the mode of wireless transmission, its inside is integrated with WIFI communication module and bluetooth communication module, the operating frequency of WIFI is 2.4-2.4835GHz, Bluetooth operating frequency is 2.4-2.45GHz, two modules share an integrated pasted sheet type antenna in a time multiplexed manner, are switched by the switch of wireless communication module 123 inside.Preferred WIFI module wirelessly connecting Internet; Bluetooth module is man-to-man to be connected with other bluetooth equipments, as bluetooth earphone.
This core processor module 122 is integrated with I2C serial bus interface, and this interface is connected with inertial posture measuring module 124, is used for carrying out data communication with it.By 3-axis acceleration sensor, three-axis gyroscope transducer and three axle geomagnetic sensors, one or more forms inertial posture measuring module 124, in order to detect the rotation of virtual reality core circuit plate 118.When user brings this equipment, the rotation of head and the rotational synchronization of virtual reality core circuit plate 118, get final product the rotation of head by inertial posture measuring module 124.Although technically, 3-axis acceleration sensor and the data measured by three-axis gyroscope transducer can convert required Eulerian angles or quaternion algebra certificate to by mathematical algorithm, thus the attitude of determination testee that can be unique, this testee refers to the head of user.But the instantaneous error of acceleration transducer is comparatively large at present, and gyro sensor has the accumulated error by Time dependent, and the time is longer, and error is larger, this error can cause the skew of measuring attitude.So optimum embodiment forms inertial posture measuring module 124 jointly for using 3-axis acceleration sensor, three-axis gyroscope transducer and three axle geomagnetic sensors, by the blending algorithm optimized, the angular speed change of wear-type virtual reality device three axle can be measured accurately, draw the attitude data of low delay accurately.When this equipment is worn on the head use, just can by the motion of inertial posture measuring module 124 head.
This core processor module 122 is also integrated with some input/output interfaces, and it is connected with button 106 to 109, is used for receiving push button signalling, and carries out respective handling.
Virtual reality engine status indicator lamp 119 is also connected with an input/output interface, can be a RGB tri coloured lantern, the combination of a kind of color or multiple color can be shown, as being redefined for: when core processor module 122 normally works, green light is bright simultaneously; When battery electric quantity lower than 20% time, red colored lamp is bright; When battery charges, green light is glimmered; When battery is full of, blue lamp is bright.
The button 106 of virtual reality engine configuration and button 107 can control rising and the reduction of volume; Button 108 can control the machine open/close of virtual reality engine and the ON/OFF of display system; Button 109 can control the partial function of virtual reality engine operating system, and the operating system as controlled virtual reality engine returns to main interface.
With reference to shown in accompanying drawing 5, interactive device comprises wireless controller 111 and wireless receiver 112.
Wireless receiver 112 connects external interface 104 or the external interface 105 of virtual reality engine, wirelessly carries out man-to-man connection with wireless controller 111.Be provided with receiver core circuit plate 129 in wireless receiver 112 in the present embodiment, receiver core circuit plate 129 comprises radio receiving transmitting module and USB connector, and radio receiving transmitting module is integrated with wireless transceiver and USB controller.If when USB interface is Micro USB model, can be connected with external interface 105; If when USB interface is USB A model, be connected with external interface 104.The wireless transceiver of this wireless receiver 112 is configured to receiving mode, by carrying out code with the wireless transceiver of wireless controller 111, man-to-manly carries out one-way data transfer.The data-signal received is transferred to virtual reality core circuit plate 118 by external interface 105 or external interface 104 by wireless receiver 112, in order to respond the control information of wireless controller 111.
Wireless controller 111 comprises wireless controller core circuit plate 128, rocking bar 113, handle status indicator lamp 120 and various button.Wherein, rocking bar 113 is in order to provide continuous print direction controlling, button 114 and button 115 are respectively in order to control rising and the reduction of volume, button 116 is in order to the Kai Heguan of joystick, button 117 is used for controlling the partial function of virtual reality engine, and the operating system as controlled virtual reality engine returns to main interface.
Wireless controller core circuit plate 128 comprises radio receiving transmitting module and battery.This radio receiving transmitting module is integrated with simplifies Single Chip Microcomputer (SCM) system and wireless transceiver.This Single Chip Microcomputer (SCM) system is integrated with some input/output interfaces, connects rocking bar 113 and various button respectively, is used for receiving its control information transmitted.This wireless transceiver is configured to emission mode, carries out code, above-mentioned control information is sent to wireless receiver 112 with the wireless transceiver of wireless receiver 112.
Preferred wireless transceiver module adopts 2.4GHz band transmissions data, because the agreement used is all different with bluetooth communication module from WIFI communication module with transmission means, so mutually can not cause interference.
The operating system of the utility model virtual reality system can be existing any operating system, as android 4.2, also can for carrying out the immersion 3D operating system of secondary development based on existing operating system, 3D desktop and interface is all become by the desktop of original system and operation interface, represent in front of the user in the 3D mode of immersion, as shown in the mode of 3D scene or in other modes possessing 3D effect, place oneself in the midst of the sensation among operating system to user.In this case, can shield the various information such as incoming call, note, prompting that interference immersion is experienced, exit after complete immersion state just can view these information until user, the same user of permission arranges the restriction that some information is not subject to complete immersion state.
This immersion 3D operating system, by rotating and pitching head, can see whole complete 3D operation interface, and realizes the selection such as control, the window operation of this operating system by the focal position following the tracks of eyeball.The position of ocular focusing can show the icon that 2D picture or 3D model etc. can play the various shapes of suggesting effect, and then points out user intuitively.When focusing on certain position, various 2D or 3D effect can be shown, to strengthen selecting operating effect simultaneously.The object selected can be all various controls, window, model etc. that can carry out operating, responding all 2D or 3D choosing function.Certainly, this operating system also supports that the data of other input equipments input, as conventional mouse, game paddle, various customization handles etc. are used as the equipment of data input.
The interpupillary distance of this operating system automatically testing user, and according to the interpupillary distance of user, virtual reality left and right display screen displaying contents is adjusted.Can eye position be obtained by hardware component and automatically calculate interpupillary distance in test process.If user does not feel like oneself, interpupillary distance test related software can be started, under the cooperation of user, automatically identify and measure interpupillary distance value, and come into force in real time and then correspondingly adjust the content of left and right shuangping san on display.
This operating system also has the function of anti-distortion and inverse difference, after making the light scioptics arrival human eye on display, forms correct and content that is undistorted, no color differnece.Also the related software of anti-distortion, inverse difference can be adopted, the acquisition of anti-distortion parameter, anti-Chromaticity parameters has been coordinated by user, and anti-distortion and anti-Chromaticity parameters can come into force in real time to set this, and then the displaying contents of left and right double screen on adjustment display, reach the effect of anti-distortion and inverse difference.
This operating system also supports that run user carries out the function of individual character configuration to oneself feature, such as: height, 3D model, hair style, face, clothes etc., the scene of this operating system itself can adjust accordingly according to these personal characteristics.And the software run in this operating system also can obtain the parameter of above-mentioned user's unique characteristics and be applied in the software of oneself, these features all can be modified simultaneously.
This operating system can be upgraded by the Internet itself, according to the difference of more fresh content, determines the need of restarting.
This operating system supports checking of video (2D, 3D, panorama) and picture (2D, 3D, panorama), and video and picture can come from this locality, also can be obtained by wired, wireless or relevant interface.When showing 2D video and picture, it is consistent that displaying contents is shielded in the left and right two of display; When showing 3D video and picture, the left and right two of display is shielded and is shown different effects respectively, for user presents strong 3D effect; When showing panoramic video and picture, user both can experience 3D effect, and all right rotatable head, sees the different content of video and picture from different directions.
This operating system also supports that user sets the function of oneself account on the server, can carry out various interactive operation between all users with oneself account, and as added as a friend, paying close attention to, delete, chat, many people the associative operation such as to chat.
Each user with oneself account can set up oneself virtual home, Zhong You garden, home, automobile, study, bedroom etc.After this virtual reality system starts user can on the bed of oneself or other carry out associative operation Anywhere, and no matter wherein, master operating system can be recalled or start any program.User also can invite in other users to oneself home, plays, see the article of oneself together with oneself in virtual home, as software, film, virtual objects etc., and also can be interactive together in oneself home.Further, the screen of oneself can be shared with other users by user, directly to the screen of other user live broadcasts oneself, or is recorded by screen, allows other user's program requests.
The utility model virtual reality system also comprises server, and the information such as various softwares, local data of the operating system relevant parameter in this virtual reality system, installation all can upload on this server, for storing and backup.If device losses or after damaging, buy new equipment after binding the account of oneself, all data can be recovered.
Virtual reality engine is combined with display system by the utility model virtual reality system, wirelessly be connected with interactive device, and by immersion 3D operating system, present better 3D scene effect to user, make experiencer on the spot in person, there is good virtual reality experience sensation.This virtual reality system is simple and convenient, not by the restriction of data bus connection, make user can more freely, comfortable experiencing virtual actual environment.
The above; it is only preferred embodiment of the present utility model; not do any pro forma restriction to the utility model, those skilled in the art utilize the technology contents of above-mentioned announcement to make a little simple modification, equivalent variations or modification, all drop in protection range of the present utility model.

Claims (10)

1. a wear-type virtual reality device, comprises display system, it is characterized in that, also comprises the virtual reality engine be connected with described display system.
2. wear-type virtual reality device according to claim 1, it is characterized in that, described virtual reality engine comprises virtual reality core circuit plate, and described virtual reality core circuit plate comprises: core processor module and connected power management module, wireless communication module, inertial posture measuring module, audio decoder module, for providing the button of instruction and for charging or transmitting the interface of data.
3. wear-type virtual reality device according to claim 2, is characterized in that, described core processor module comprises the core of 4 ARM CORTEX A15 and the core of 4 ARM CORTEX A7.
4. wear-type virtual reality device according to claim 2, it is characterized in that, described power management module is powered by battery or externally fed equipment, described power management module also comprises power-supply management system, and described power-supply management system energy Real-Time Monitoring electricity also controls the operation of described virtual reality engine according to the electric quantity data monitored.
5. wear-type virtual reality device according to claim 2, it is characterized in that, described wireless communication module comprises WIFI communication module and bluetooth communication module, and the operating frequency of WIFI communication module is 2.4-2.4835GHz, and the operating frequency of bluetooth communication module is 2.4-2.45GHz.
6. wear-type virtual reality device according to claim 2, is characterized in that, described inertial posture measuring module is made up of one or more in 3-axis acceleration sensor, three-axis gyroscope transducer and three axle geomagnetic sensors.
7. wear-type virtual reality device according to claim 2, it is characterized in that, described display system comprises display and the optical treatment component between display and human eye, described optical treatment component is made up of the optical mirror slip of two groups of corresponding right and left eyes respectively, and described optical mirror slip is adjustable; Described display comprises LCD display panels and backlight, and described LCD display panels resolution is 1080x1920, and the connecting interface of described display floater and described virtual reality core circuit plate adopts MIPI DSI interface.
8. one kind comprises the virtual reality system of the wear-type virtual reality device described in any one of claim 1-7, it is characterized in that, also comprise interactive device, described interactive device comprises wireless controller and wireless receiver, described wireless receiver is connected with described virtual reality engine, and wirelessly receives the command information of wireless controller transmission.
9. virtual reality system according to claim 8, is characterized in that, described wireless controller comprises wireless controller core circuit plate and connected for providing button and the rocking bar of instruction.
10. virtual reality system according to claim 8, is characterized in that, the operating system of described virtual reality system is 3D operating system.
CN201520109271.0U 2015-02-13 2015-02-13 A kind of wear-type virtual reality device and comprise the virtual reality system of this equipment CN204442580U (en)

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CN105183168A (en) * 2015-09-17 2015-12-23 惠州Tcl移动通信有限公司 Head-wearing type virtual reality device based on mobile terminal and starting method thereof
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CN106249886A (en) * 2016-07-27 2016-12-21 广东欧珀移动通信有限公司 The display packing of menu and device
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CN105224079A (en) * 2015-09-17 2016-01-06 惠州Tcl移动通信有限公司 Based on wear-type virtual reality device and the control method thereof of mobile terminal
CN105183168B (en) * 2015-09-17 2019-02-26 惠州Tcl移动通信有限公司 Wear-type virtual reality device and its starting method based on mobile terminal
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CN108141559A (en) * 2015-09-18 2018-06-08 Fove股份有限公司 Image system
CN108141559B (en) * 2015-09-18 2020-11-06 Fove股份有限公司 Image system, image generation method and computer readable medium
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