CN205812280U - A kind of virtual implementing helmet - Google Patents

Abstract

The utility model discloses a kind of virtual implementing helmet, virtual implementing helmet has two kinds of optional play mode, play the VR video of storage in described memory module, or when having detected that video input apparatus accesses, play the VR video of described video input apparatus input, the function of the wired input video of conventional helmet can be met, can play again the video being stored in advance in this locality, when playing local video, user can not be limited by wired input and arbitrarily be walked about, and greatly improves comfortableness and the Consumer's Experience of the helmet.In preferred version, virtual implementing helmet is by being positioned proximate to sensor for monitoring the wearing state of user, standby mode is entered when user takes the helmet detecting, and close display module to reduce the power consumption of the helmet, the standby mode exiting low-power consumption when user wears the helmet being detected, and open display module, thus strengthen Consumer's Experience.

Description

A kind of virtual implementing helmet

Technical field

This utility model relates to field of virtual reality, particularly to a kind of virtual implementing helmet.

Background technology

Virtual reality (Virtual Reality is called for short VR) is the high-tech technology occurred in recent years.Virtual Reality is to utilize computer simulation to produce a three-dimensional virtual world, and the vision of analog subscriber, listens Feel, sense of touch etc., make user produce sensation on the spot in person.In the scene of virtual reality applications, generally User, by wearing virtual implementing helmet, utilizes various sensor to follow the tracks of the various motions of head, passes through Behavior explanation device produces behavioral data, is then input in virtual environment, interacts with user.

Major part virtual implementing helmet is required for external video input apparatus at present, and connected mode is mostly adopted With wired mode, but wired mode connects and there is the short slab that can not arbitrarily walk about, and significantly limit virtual Comfortableness required by reality and actual experience sense.And part be wirelessly transferred the scheme of video relatively costly and Technology is the most ripe.

Utility model content

In view of the above problems, this utility model provides a kind of virtual implementing helmet, existing virtual to solve The reality helmet can only play out by external video input apparatus, there are the single of play mode, and a lot of feelings Connected arbitrarily to walk about by wired mode under condition and limited.

For reaching above-mentioned purpose, the technical solution of the utility model is achieved in that this utility model carries Supply a kind of virtual implementing helmet, including: application processor, display module, it is connected with application processor Power management module, memory modules, video interface modular converter and motion sensor, described display module Application processor is connected by described video interface modular converter；Described virtual implementing helmet also includes storage Module, described memory module storage has VR video, described application processor is provided with for video defeated Enter the interface that equipment accesses；

Described virtual implementing helmet has two kinds of play mode: plays the VR of storage in described memory module and regards Frequently, or when having detected that video input apparatus accesses, the input of described video input apparatus is play VR video.

Alternatively, described application processor is defeated by HDMI input interface and USB interface connection video Enter equipment；In VR video display process, described motion sensor senses user's head movement, and will The cpu chip of the exercise data transmission extremely described application processor detected；

When playing the VR video of storage in described memory module, described cpu chip resolves this motion number According to obtaining interactive information, and by described cpu chip, corresponding video information is passed through described video interface Modular converter transmission is to described display module；When playing the VR video of described video input apparatus input, This exercise data is not resolved and is forwarded to described video input by USB interface by described cpu chip Equipment, is resolved described exercise data by described video input apparatus and obtains interactive information, and by described video Corresponding video information is forwarded to described video interface modulus of conversion by described cpu chip by input equipment Block, then by the transmission of described video interface modular converter to described display module.

Alternatively, described display module includes left eye display screen and the right eye display screen of symmetry；

Described video interface modular converter includes two-way MIPI-DSI interface, is connect by every road MIPI-DSI Mouth connects left eye display screen and the right eye display screen of described display module respectively；

Described application processor also includes GPU chip, in described memory module storage VR video or The VR video of described video input apparatus input carries out figure through the GPU chip of described application processor After distortion of image processes, it is transmitted separately to described left eye display screen and the right side by described video interface modular converter Eye display screen is play.

Alternatively, described motion sensor is nine axle sensors, including: gyro sensor, earth magnetism pass Sensor, acceleration transducer；

Described application processor connects described motion sensor by SPI interface, is connect by HDMI output Mouth connects described video interface modular converter.

Alternatively, described virtual implementing helmet also includes: proximity transducer, and described proximity transducer passes through IIC interface is connected with described application processor；

When user wears described virtual implementing helmet, the detection numerical value of described proximity transducer becomes big, institute State application processor and exit the standby mode of low-power consumption, and open described display module；

When user takes described virtual implementing helmet, the detection numerical value of described proximity transducer diminishes, institute State application processor and close described display module, and enter the standby mode of low-power consumption.

The beneficial effects of the utility model are: this utility model provides a kind of virtual implementing helmet, virtual existing The real helmet has two kinds of optional play mode, plays the VR video of storage in described memory module, or When having detected that video input apparatus accesses, play the VR video of described video input apparatus input, The function of the wired input video of conventional helmet can be met, can play again the video being stored in advance in this locality, When playing local video, user can not be limited by wired input and arbitrarily be walked about, and greatly improves the helmet Comfortableness and Consumer's Experience.

In preferred version, virtual implementing helmet wears shape by being positioned proximate to sensor for monitor user State, enters standby mode detecting when user takes the helmet, and closes display module to reduce the helmet Power consumption, the standby mode exiting low-power consumption when user wears the helmet being detected, and opens display module, Thus strengthen Consumer's Experience.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the virtual implementing helmet of this utility model embodiment.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing pair This utility model embodiment is described in further detail.

As it is shown in figure 1, this utility model embodiment provides a kind of virtual implementing helmet, including: answer use Reason device 110, power management module 120, memory module 160, memory modules 150, video interface conversion Module 170, motion sensor and display module 180；Power management module 120, memory module 160, Memory modules 150, video interface modular converter 170, motion sensor respectively with application processor 110 Connecting, display module 180 is connected with video interface modular converter 170.Memory modules 150 is the most permissible Being DDR (Double Data Rate, double-speed internal memory), memory module 160 can be such as SD card Or eMMC (Embedded Multi Media Card, embedded memory).

In embodiment of the present utility model, application processor 110 includes cpu chip, GPU chip And some peripheral interfaces；Wherein GPU is the abbreviation of Graphics Processing Unit, i.e. figure Processor, be a kind of special in PC, work station, game machine and some mobile devices (such as flat board Computer, smart mobile phone etc.) on carry out the microprocessor of image operation work.Power management module 120, Memory module 160, memory modules 150, video interface modular converter 170, motion sensor pass through phase The peripheral interface answered connects application processor 110 respectively；Display module 180 uses convex lens, including right The left eye display screen claimed and right eye display screen；Video interface modular converter 170 connects left eye display screen respectively With right eye display screen.The VR video that application processor 110 will be play carries out figure through GPU chip After distortion of image processes, it is transmitted separately to left eye display screen by video interface modular converter 170 and right eye shows Display screen is play, and makes user see the video of 3D stereoeffect.

In embodiment of the present utility model, the peripheral interface that application processor 110 includes includes HDMI Input interface, HDMI output interface, USB interface, SPI interface；Application processor 110 passes through SPI interface connects motion sensor, connects video interface modular converter 170 by HDMI output interface； Video input apparatus 190 is connected by HDMI input interface and USB interface；Wherein, video input The video signal of equipment 190 is transmitted by HDMI.Video interface modular converter 170 is by HDMI Interface conversion is MIPI-DSI interface, and video interface modular converter 170 includes that two-way MIPI-DSI connects Mouth (Display Serial Interface, display serial line interface), two-way MIPI-DSI interface connects respectively Connect left eye display screen and the right eye display screen of display module 180.

In embodiment of the present utility model, virtual implementing helmet runs both of which: a kind of pattern is The helmet, when having detected that video input apparatus 190 accesses, plays video input apparatus 190 input VR video.Another kind of pattern is to play the VR video prestored in memory module 160.Thus may be used Seeing, the helmet of this utility model embodiment can meet the function of the wired input video of conventional helmet, again may be used Playing the video being stored in advance in this locality, user is not limited by wired input can wear virtual implementing helmet Arbitrarily walk about, greatly improve comfortableness and the Consumer's Experience of the helmet.

Virtual implementing helmet in VR video display process, motion sensor senses user's head movement, And the exercise data detected is transmitted to application processor 110, store when playing in memory module 160 VR video time, cpu chip resolve this exercise data obtain interactive information, and by cpu chip will Corresponding video information is by video interface modular converter 170 transmission extremely display module 180；When broadcasting regards During the VR video that input equipment 190 inputs frequently, this exercise data is not resolved and leads to by cpu chip Cross USB interface and be forwarded to video input apparatus 190, video input apparatus 190 resolve this motion number According to obtaining interactive information, and by video input apparatus 190, corresponding video information is passed through cpu chip It is forwarded to video interface modular converter 170, then is transmitted to showing mould by video interface modular converter 170 Group 180, meets the virtual reality experience of user greatly.

In preferred embodiment of the present utility model, motion sensor is nine axle sensors 140, including: Gyro sensor, geomagnetic sensor, acceleration transducer.Gyro sensor be used for detecting deflection, The change of rotational angular velocity during inclination.Acceleration transducer is for detecting axial line movement.Earth magnetism Sensor is for detecting the changes of magnetic field that user movement produces, thus passes acceleration transducer or angular velocity Sensor carries out skew and corrects, so that the result of sensing is the most accurate.The letter of nine axle sensor 140 detections The exercise data detected is transmitted to application processor 110 by number motion sensor by SPI interface Cpu chip；Application processor 110 is resolved exercise data and is set to video input by USB interface transmission Standby 190 carry out resolving and obtain interactive information and export corresponding video signal, and the video making display can be with Change with the motion of user's head.

In preferred embodiment of the present utility model, virtual implementing helmet also includes: proximity transducer 130, Proximity transducer 130 is connected with application processor 110 by IIC interface；When user wears virtual reality During the helmet, the detection numerical value of proximity transducer 130 becomes big, and application processor 110 exits treating of low-power consumption Machine pattern, and open display module 180；When user takes virtual implementing helmet, proximity transducer 130 Detection numerical value diminish, application processor 110 closes display module 180, and enters the standby of low-power consumption Pattern, to reduce the power consumption of the helmet.

In sum, this utility model embodiment provides the benefit that: this utility model embodiment provides one Planting virtual implementing helmet, virtual implementing helmet has two kinds of optional play mode, plays described memory module The VR video of middle storage, or when having detected that video input apparatus accesses, play described video defeated Enter the VR video of equipment input, the function of the wired input video of conventional helmet can be met, can play again Being stored in advance in the video of this locality, when playing local video, user can not be limited arbitrarily to walk by wired input Dynamic, greatly improve comfortableness and the Consumer's Experience of the helmet.

In preferred version, virtual implementing helmet wears shape by being positioned proximate to sensor for monitor user State, enters standby mode detecting when user takes the helmet, and closes display module to reduce the helmet Power consumption, the standby mode exiting low-power consumption when user wears the helmet being detected, and opens display module, Thus strengthen Consumer's Experience.The foregoing is only preferred embodiment of the present utility model, be not intended to Limit protection domain of the present utility model.All made within spirit of the present utility model and principle any Amendment, equivalent, improvement etc., be all contained in protection domain of the present utility model.

Claims (5)

1. a virtual implementing helmet, including: application processor, display module, with application processor even Power management module, memory modules, video interface modular converter and the motion sensor connect, described display Module connects application processor by described video interface modular converter；It is characterized in that, described virtual existing The real helmet also includes memory module, and described memory module storage has VR video, on described application processor It is provided with the interface accessed for video input apparatus；

Described virtual implementing helmet has two kinds of play mode: plays the VR of storage in described memory module and regards Frequently, or when having detected that video input apparatus accesses, the input of described video input apparatus is play VR video.

Virtual implementing helmet the most according to claim 1, it is characterised in that described application processor Video input apparatus is connected by HDMI input interface and USB interface；

In VR video display process, described motion sensor senses user's head movement, and will detection The cpu chip of the exercise data transmission extremely described application processor arrived；

When playing the VR video of storage in described memory module, described cpu chip resolves this motion number According to obtaining interactive information, and by described cpu chip, corresponding video information is passed through described video interface Modular converter transmission is to described display module；When playing the VR video of described video input apparatus input, This exercise data is not resolved and is forwarded to described video input by USB interface by described cpu chip Equipment, is resolved described exercise data by described video input apparatus and obtains interactive information, and by described video Corresponding video information is forwarded to described video interface modulus of conversion by described cpu chip by input equipment Block, then by the transmission of described video interface modular converter to described display module.

Virtual implementing helmet the most according to claim 2, it is characterised in that

Described display module includes left eye display screen and the right eye display screen of symmetry；

Described video interface modular converter includes two-way MIPI-DSI interface, is connect by every road MIPI-DSI Mouth connects left eye display screen and the right eye display screen of described display module respectively；

Described application processor also includes GPU chip, in described memory module storage VR video or The VR video of described video input apparatus input carries out figure through the GPU chip of described application processor After distortion of image processes, it is transmitted separately to described left eye display screen and the right side by described video interface modular converter Eye display screen is play.

Virtual implementing helmet the most according to claim 1, it is characterised in that described motion sensor It is nine axle sensors, including: gyro sensor, geomagnetic sensor, acceleration transducer；

Described application processor connects described motion sensor by SPI interface, is connect by HDMI output Mouth connects described video interface modular converter.

5. according to the virtual implementing helmet described in any one of claim 1-4, it is characterised in that described void Intending the reality helmet also to include: proximity transducer, described proximity transducer is by IIC interface and described application Processor connects；

When user wears described virtual implementing helmet, the detection numerical value of described proximity transducer becomes big, institute State application processor and exit the standby mode of low-power consumption, and open described display module；

When user takes described virtual implementing helmet, the detection numerical value of described proximity transducer diminishes, institute State application processor and close described display module, and enter the standby mode of low-power consumption.