Data transmission system for virtual reality diving experience
Technical field
The utility model is related to technical field of virtual reality, the data transfer for experience of more particularly to being dived under water for virtual reality
System.
Background technology
As the improvement of people's living standards, people, which are expected that by various modes, comes more preferable experience nature, diving
It is both one of which.However, most of diving famous scenic spot is all the ground such as the island away from city, for most people, if
Diving is experienced, then needs long-distance hurry back and forth to tourist attractions to realize, and existing diving sight spot is numerous, if will body one by one
The different diving scenes at these different sight spots are tested, then need to different places to be dived under water, this explicit costs is high, is unfavorable for
Masses' popularization.Then people turn one's attention to virtual reality technology, it is desirable to move virtual reality technology under water to so that Ren Men
While diving, it is possible to use the interactive Three-Dimensional Dynamic what comes into a driver's of the Multi-source Information Fusion of virtual reality technology and entity behavior
System emulation simulate different underwater scenes, so as to allow people just can experience different diving scenes in same place.So
And, how virtual reality technology to be applied under water, wait to need research.
The content of the invention
The purpose of this utility model is to avoid above-mentioned weak point of the prior art and provide a kind of be used for virtually now
The data transmission system of real diving experience, virtual reality technology is applied under water.
The purpose of this utility model is achieved through the following technical solutions:
The data transmission system for experience of being dived under water for virtual reality is provided, including positioned at master server on the bank and at least one
The Head protective devices dressed during individual diving, each Head protective devices of correspondence are provided with a processing on the bank being located on the bank
Device, the Head protective devices include luntttes or diver's helmet, also include on Head protective devices control device and respectively with
PORT COM, the virtual reality device of control device communication connection, the control device is connected to through PORT COM to be handled on the bank
Device, the processor on the bank obtains corresponding image data from master server and is sent to control device, and control device is according to shadow
The display data for virtual reality device is generated as data.
Wherein, the Head protective devices also include Help Point, and the control module is triggered in the Help Point
When through PORT COM, ashore processor sends an SOS.
Wherein, the Head protective devices connect processor on the bank through connection cables, and the connection cables include outer cable and set
The interior cable being placed in outer cable inner chamber, the outer cable is that intensity is enough to carry the traction cable of experiencer, and interior cable includes the communications cable,
One end of the communications cable connects the COM1, and the other end connects processor on the bank.
Wherein, the interior cable also includes oxygen supply pipeline, and the front end of the oxygen supply pipeline is connected to the confession of head diving outfit
Oxygen mouthful.
Wherein, the communications cable inner hollow is to form the oxygen supply pipeline.
Processor on the bank of the present utility model obtains corresponding image data from master server, and by image data through communication
Port is sent to the control device of Head protective devices, and then control device generates display data according to image data and passed through
Virtual reality device is shown in scuba diver's eye, so that virtual reality technology be applied under water, allow people in same place just
Can the different diving scenes of experience.
Brief description of the drawings
Using accompanying drawing, the utility model is described in further detail, but the embodiment in accompanying drawing is not constituted to of the present utility model
Any limitation, on the premise of not paying creative work, can also be according to following attached for one of ordinary skill in the art
Figure obtains other accompanying drawings.
Fig. 1 is used for the system block diagram for the data transmission system that virtual reality diving is experienced to be of the present utility model.
Fig. 2 is the use schematic diagram of embodiment of the present utility model.
Fig. 3 is the structural representation of Head protective devices of the present utility model.
Fig. 4 is the profile of connection cables of the present utility model.
Reference:1 --- --- control device, 12 --- locating module, 13 --- gyro of Head protective devices, 11
Instrument module, 14 --- display module, 15 --- communication interface, 16 --- depth of water detection means, 17 --- Help Point, 18 ---
Otica earphone, 2 --- master server, 3 --- on the bank processor, 4 --- rhythm of the heart monitoring device, 51 --- oxygen supply pipeline,
Draw cable in 52 --- communications cable, 53 ---.
Embodiment
The utility model is further described with the following Examples.The Head protective devices include luntttes or latent
Helmet with water, luntttes or diver's helmet are provided with
The data transmission system of experience of the present utility model of being dived under water for virtual reality, including positioned at master server on the bank
2 dress Head protective devices 1 when being dived under water with least one, each Head protective devices 1 of correspondence are provided with one and are located on the bank
Processor 3 on the bank, wherein Head protective devices 1 include luntttes or diver's helmet, and Head protective devices 1 also include by display mould
The virtual reality device that block 14, locating module 12 and gyro module 13 are combined, virtual reality device located at head with preventing
The communication connection of control device 11 on protection unit 1, control device 11 is connected with PORT COM communication, display module 14, positioning mould
Block 12 and gyro module 13 carry out cable data by communication interface 15 with being arranged at the processor on the bank 3 on the bank/pond side
Communication, specifically, locating module 12 and gyro module 13 send the data to control device 11, and control device 11 is by data
It is transmitted to after processor 3 on the bank, processor 3 adjusts the image data to be shown in real time according to the data received on the bank, and by image
Data are sent to control device 11, then are sent to display module 14 by control device 11 and are shown.Handled on the bank by setting up
Device 3, the high data processing work of requirement of real time is responsible for processor 3 on the bank, by control device 11 from huge data processing
Freed in task, realize that the reaction speed of Head protective devices 1 is improved, give preferably virtual reality experience under water.
Processor 3 is also connected with the communication of master server 2 on the bank, and processor 3 obtains corresponding image from master server 2 on the bank
Data, so, processor 3 only carries out data processing and forwarding on the bank, without storage, therefore need not be many processor 3 on the bank
The larger memory space of configuration, it is only necessary to 2 one configuration memories of master server, so as to reduce cost.
Specifically, locating module 12 is made up of GPRS inductors, and position data is transferred to control device by GPRS inductors
11;Display module 14 is constituted by display screen and located at the optics of display screen surface, and optics is by the display of display screen
Image is transferred to human eye, so as to form 3D rendering in human eye.The system is additionally provided with the depth of water positioned at the outer wall of Head protective devices 1
Detection means 16, depth of water detection means 16 includes pressure sensor, and the input connection control device 11 of pressure sensor is inputted
End.When wearing the system move about under water, GPRS inductors position the horizontal level of experiencer in real time(Hereinafter referred positioning letter
Number)And processor 3 on the bank are issued through control device 11, gyro module 13 detects the head inclination situation of experiencer in real time(Under
Literary abbreviation gyroscope signal)And processor 3 on the bank are issued through control device 11, while pressure sensor detects the water received in real time
Lower pressure(Hereinafter referred water signal)And issue processor 3 on the bank through control device 11.Processor 3 is according to water signal on the bank
After the diving depth for calculating experiencer, according to Bu Tong adjusting in real time from master for diving depth, positioning signal and gyroscope signal
Server 2 obtains phase image data, and is transferred to display module 14 and is shown.
The system is additionally provided with the Help Point 17 electrically connected with control device 11 on the outer wall of Head protective devices 1, experience
Person in case of emergency presses Help Point 17, and making control module, ashore processor 3 sends distress signal through PORT COM.This
System is on the water across being additionally provided with horizontal aisle and longitudinal aisle, and place is divided into multiple divings by horizontal aisle and longitudinal aisle
Connection cables are connected with above area, each Sub-aqua area, connection cables include outer cable and the interior cable being arranged in outer cable inner chamber, its
China and foreign countries' cable is that intensity is enough to carry the traction cable 53 of experiencer, and interior cable includes the communications cable 52 and oxygen supply pipeline 51, specifically,
The inner hollow of the communications cable 52 is to form the oxygen supply pipeline 51, and the communications cable 52, the communications cable are wrapped up in the outside of oxygen supply pipeline 51
52 outside parcel traction cables 53.Tracting cable is connected with the interface rings above diving dress, the communications cable inside tracting cable
52 by interface rings and the communication interface 15 of Head protective devices 1 it is pluggable electrically connect so that realize communication interface 15 with
The data communication of processor 3 on the bank, oxygen supply pipeline 51 extend into the oxygen supply port of Head protective devices 1, in Head protective devices 1
Portion's oxygen supply.On the bank/pond side is provided with hauling machine, and hauling machine is connected with tracting cable, and processor 3 is receiving distress signal on the coast
Afterwards, processor 3 controls hauling machine pull-up tracting cable that experiencer is pulled out into the water surface on the bank.In addition, Head protective devices 1 and body
The rhythm of the heart monitoring device 4 electrically connected with control device 11 is additionally provided between the temple for the person of testing, the rhythm of the heart monitoring device 4 is supervised in real time
The rhythm of the heart of experiencer is surveyed, distress signal is sent automatically in rhythm abnormality.
The system is additionally provided with otica earphone 18, in human ear of the otica earphone 18 located at Head protective devices 1 with experiencer
Between, and wired data communication is carried out with the processor on the bank 3 located on the bank/pond side by communication interface 15.In experiencer's water
During moving about down, processor 3 plays back audio signal by otica earphone 18 on the bank.
Processor on the bank 3 of the present utility model obtains corresponding image data from master server 2, and by image data through logical
News port is sent to the control device 11 of Head protective devices 1, and then control device 11 generates display number according to image data
It is shown according to and by virtual reality device in scuba diver's eye, so that virtual reality technology be applied under water, allows people same
Individual place just can experience different diving scenes.
Finally it should be noted that above example is only illustrating the technical solution of the utility model, rather than to this reality
With the limitation of novel protected scope, although being explained with reference to preferred embodiment to the utility model, this area it is general
Lead to it will be appreciated by the skilled person that can be modified to the technical solution of the utility model or equivalent substitution, without departing from this
The spirit and scope of utility model technical scheme.