CN111405065A - Mobile control device and system for VR equipment and application method - Google Patents

Abstract

The invention provides a movement control device, a system and an application method for VR equipment, wherein the device comprises a box body, a containing frame and a cover body, wherein the containing frame is positioned in the box body, and the cover body is rotatably connected with the containing frame; the containing frame comprises a first side plate, a second side plate, a third side plate, a fourth side plate, a first partition plate, a second partition plate, a third partition plate, a back plate and an end plate, the mobile control device further comprises a computer host, a projector, a first cavity and a second cavity, the computer host is located in the first cavity, and the projector is located in the second cavity. The system comprises the device. The method of the invention adopts the system to perform VR experience. The box body is beneficial to a user to carry the mobile control device, does not need the user to additionally build a training field, is convenient for the user to use and reduces the cost.

Description

Mobile control device and system for VR equipment and application method

Technical Field

The invention belongs to the technical field of VR equipment, and particularly relates to a mobile control system for VR equipment, a mobile control device applied to the system and an application method of the system.

Background

At present, in the field of building safety training, the mode of training constructor is mainly in the space of dozens of to hundreds of squareness in the area, builds safety belt use experience, entrance to a cave fall experience, electric shock experience, balance beam experience, the foot rest topples over a plurality of items of needs a plurality of large-scale material object equipment of experience and make up a safety training center of accomplishing, and its defect is: the multiple entity experience platforms with huge volumes need heavy installation and deployment work in special scenes, and experience equipment moving in each experience place is a small project, so that the experience equipment can be completed only by spending a large amount of manpower and material resources, and if the field conditions for installation and safety experience cannot reach the required area, more safety experience projects cannot be implemented. The disadvantages that arise from this are: firstly, a special site needs to be vacated for installation; secondly, because the huge reason of volume, in case the place installation is successful, if need change experience place, at first cause the waste to the place, secondly the dismouting need pay out high time, manpower, the cost of money.

Disclosure of Invention

A first object of the present invention is to provide a movement control apparatus for a VR device that is convenient to use and reduces cost.

It is a second object of the invention to provide a movement control system for VR devices that is easy to use and reduces costs.

A third object of the present invention is to provide a method for applying a mobile control system for a VR device, which is convenient to use and reduces cost.

In order to achieve the first object, the movement control device for VR equipment provided by the present invention includes a box, a receiving rack, and a cover, wherein the receiving rack is located in the box, and the cover is rotatably connected to the receiving rack; the containing frame comprises a first side plate, a second side plate, a third side plate, a fourth side plate, a first partition plate, a second partition plate, a third partition plate, a back plate and an end plate, wherein the first partition plate is connected with the first side plate and the second side plate, the second partition plate is connected with the first side plate and the third side plate, the third partition plate is connected with the third side plate and the fourth side plate, the first partition plate, the second partition plate, the third partition plate and the back plate are sequentially arranged, the third side plate and the fourth side plate are both connected with the first partition plate and the back plate, and the end plate is connected with the first side plate, the second side plate, the third side plate, the fourth side plate, the first partition plate, the second partition plate, the; the mobile control device further comprises a computer host, a projector, a first cavity and a second cavity, the computer host is located in the first cavity, the projector is located in the second cavity, the first cavity is communicated with the first through hole of the end plate, the first cavity is formed by surrounding of a first inner wall of the box body, a bottom wall of the box body, a first side plate, a second side plate and a first partition plate, the second cavity is communicated with the second through hole of the end plate, and the second cavity is formed by surrounding of a first partition plate, a third side plate, a fourth side plate and a bottom wall.

The mobile control device comprises a first radiator and a second radiator, wherein the first radiator is positioned in a first radiating hole of the accommodating frame, and the second radiator is positioned in a second radiating hole of the accommodating frame; the first partition board is provided with two first heat dissipation holes, and the first side board and the second side board are respectively provided with a second heat dissipation hole.

In a further scheme, the mobile control device further comprises a video wireless transmitter and a third cavity, wherein the video wireless transmitter is positioned in the third cavity, and the third cavity is communicated with a third through hole of the end plate; the third cavity is enclosed by the first baffle, the second lateral plate, the third lateral plate and the bottom wall.

According to a further scheme, the mobile control device further comprises a power supply and a fourth cavity, wherein the power supply is positioned in the fourth cavity, and the fourth cavity is communicated with a fourth through hole of the end plate; the fourth cavity is enclosed by the second clapboard, the back plate, the second side plate, the third side plate and the bottom wall.

According to a further scheme, the mobile control device further comprises a base station positioner and a fifth cavity, the base station positioner is positioned in the fifth cavity, and the fifth cavity is communicated with a fifth through hole of the end plate; the fifth cavity is enclosed by the first clapboard, the back plate, the second side plate, the fourth side plate and the bottom wall.

According to a further scheme, the mobile control device further comprises a wireless router, and the wireless router is assembled on the outer wall of the second side plate; the mobile control device further comprises a host start key, a power supply control key and a network interface, wherein the host start key, the power supply control key and the network interface are all arranged on the end plate, and the end plate is further provided with a plurality of auxiliary heat dissipation holes.

In order to achieve the second objective, the invention provides a mobile control system for a VR device, which includes a mobile terminal, a cloud management system and a mobile control device, wherein the mobile terminal sends a connection request, an experience item mode selection and a command for controlling the mobile control device to the cloud management system, the cloud management system is configured to make a corresponding command according to the request of the mobile terminal, the cloud management system includes a communication module, an information processing module and a storage module, a binding module, the communication module is configured to transmit data with the mobile terminal and the mobile control device, the binding module is configured to bind the mobile terminal with a plurality of mobile control devices, the information processing module is configured to make a corresponding feedback command according to the connection request of the mobile terminal, the storage module is configured to store mobile terminal registration information, an identification code of the mobile control device, information of the binding of the mobile terminal with the mobile control device, and data of the control command, the mobile control device is used for executing the control instruction.

To achieve the third objective, the present invention provides an application method of a mobile control system for a VR device, which includes the following steps: setting a projection scene at a proper line-of-sight distance of the mobile control device, sending a connection request to a cloud management system through the mobile terminal, wherein the connection request comprises equipment identification information of the mobile control device to be connected, establishing an information control path with a target mobile control device according to connection configuration information returned by the cloud management system, and communicating the mobile terminal and the target mobile control device through the information control path; the method comprises the following steps: the mobile terminal is obtained to enter an operation page to select experience items, the video wireless transmitter is connected with the computer host and provides signal data for the wireless VR glasses, the computer host is used for controlling the wireless VR glasses and the wireless VR handle, the computer host receives experience item information transmitted by the cloud management system or stored inside, the experience item information is analyzed, converted and transmitted to the projector in the second cavity to be displayed, and the pictures are projected on the wall surface to be projected and played.

Further, the application method further comprises a registration step: the cloud management system acquires a registration request of the mobile terminal and feeds a registration mode back to the mobile terminal; acquiring and storing registration information of the mobile terminal; acquiring a request of a mobile terminal for binding a mobile control device; inquiring whether the mobile control device is bound or not according to the identification code of the mobile control device, if the inquiry result is unbound, sending unbound information to the mobile terminal, and if the inquiry result is bound, sending bound information to the mobile terminal; acquiring information that the mobile terminal determines to bind the mobile control device, and sending the information that the binding is successful to the mobile terminal; and acquiring identification codes and control instructions of the plurality of mobile control devices selected and bound by the mobile terminal, and respectively sending the control instructions to the plurality of bound mobile control devices.

The method comprises the following steps that a computer host chip stores an identification code of a mobile control device, and the mobile terminal and the mobile control device establish a connection mode including entering an operation page by scanning a two-dimensional code; the method for establishing the connection between the mobile terminal and the mobile control device further comprises the steps of installing an operation end on the mobile terminal to enter an operation page, and setting an identification code for controlling the mobile control device on the operation end to enable the mobile terminal and the mobile control device to be matched and controlled.

By above-mentioned scheme, the computer is used for controlling wireless VR glasses and wireless VR handle, and the projector is used for controlling the projection, and computer and projector are located and hold the frame, hold the frame and are located the box, and the box does benefit to the user and carries mobile control device, need not the user and additionally builds the training place, and the user of being convenient for uses and reduce cost.

In addition, the interconnection of the VR all-in-one machine and peripheral equipment is added, VR running content is shared in real time, the provided experience modes are various, and the VR running content is suitable for different requirements of consumers. The mobile terminal operates and controls the VR all-in-one machine through the cloud management system, sharing of the VR all-in-one machine is achieved, popularization of the VR all-in-one machine is promoted, and people can acquire high-quality VR training content more conveniently and at low cost. The unique identification code is arranged in the VR all-in-one machine, so that inquiry and management are facilitated, the VR all-in-one machines with different quantities can be controlled according to actual application scenes, control is flexible and changeable, and the application range is wide.

Drawings

The invention is further illustrated by means of the attached drawings, but the embodiments in the drawings do not constitute any limitation to the invention, and for a person skilled in the art, other drawings can be derived on the basis of the following drawings without inventive effort.

Fig. 1 is an exploded view of an embodiment of a movement control apparatus for a VR device according to the present invention.

Fig. 2 is a block diagram of an embodiment of a movement control apparatus for a VR device according to the present invention.

Fig. 3 is a schematic diagram of an embodiment of a mobility control system for a VR device according to the present invention.

Fig. 4 is a block flow diagram of an embodiment of an application method of a mobile control system for a VR device according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

An embodiment of a movement control device for a VR equipment comprises:

referring to fig. 1 and 2, a mobile control device 100 for VR equipment provided in this embodiment includes a case 1, a receiving frame 2 and a cover 3, the receiving frame 2 is located in the case 1, the cover 3 is rotatably connected to the receiving frame 2, the receiving frame 2 includes a first side plate 5, a second side plate 6, a third side plate 7, a fourth side plate 8, a first partition plate 9, a second partition plate 10, a third partition plate 11, a back plate 12 and an end plate 13, the first partition plate 9 connects the first side plate 5 and the second side plate 6, the second partition plate 10 connects the first side plate 5 and the third side plate 7, the third partition plate 11 connects the first side plate 5 and the fourth side plate 12, the third side plate 7 and the fourth side plate 8 both connect the first partition plate 9 and the back plate 12, the end plate 13 connects the first side plate 5, the second side plate 6, the third side plate 7, the fourth side plate 8, the first partition plate 9, the second partition plate 10, the third partition plate 11 and the back plate 12, the end plate 13 connects the first side plate 5, the second side plate 6, the third partition plate 7, the third partition plate 11 and the fourth side plate 8, the inner wall 13 are connected to the first partition plate 15, the receiving frame 15, the first partition plate 15 and the inner wall 17 are formed by a PVC housing 16, the first partition plate 17 is a pc case 2 is a pc case, the housing 17 is a pc case, the housing 17, the second housing 17 is a pc case, the second housing 17 is a housing 17, the housing 17 is a pc case, the housing 17.

The mobile control device 100 includes a first heat sink 19 and a second heat sink 20, the first heat sink 19 is located in the first heat dissipation hole of the accommodating frame 2, and the second heat sink 20 is located in the second heat dissipation hole of the accommodating frame 2. The first partition 9 is provided with two first heat dissipation holes, the first radiators 19 are 12 CM-diameter radiators and the number is two, the second radiators 20 are 8 CM-diameter radiators and the number is two, the first radiators 19 and the second radiators 20 all dissipate heat through fans, and the first side plate 5 and the second side plate 6 are respectively provided with one second heat dissipation hole.

The mobile control device 100 further comprises a video wireless transmitter 21 and a third cavity 22, wherein the video wireless transmitter 21 is connected with the computer host 15 and provides signal data for the wireless VR glasses. The video wireless transmitter 21 is located in the third cavity 22, and the third cavity 22 is communicated with the third through hole of the end plate 13. The third chamber 22 is enclosed by the first partition 9, the second partition 10, the second side panel 6, the third side panel 7 and the bottom wall 23.

The mobile control device 100 further comprises a power supply 24 and a fourth cavity 25, wherein the power supply 24 is located in the fourth cavity 25, and the fourth cavity 25 is communicated with the fourth through hole of the end plate 13. The fourth cavity 25 is enclosed by the second partition 10, the back plate 12, the second side plate 6, the third side plate 7 and the bottom wall 23.

The mobile control device 100 further comprises a base station locator 26 and a fifth cavity 27, the base station locator 26 is located in the fifth cavity 27, and the fifth cavity 27 is communicated with the fifth through hole of the end plate 13. The fifth cavity 27 is enclosed by the first partition 9, the back plate 12, the second side plate 6, the fourth side plate 8 and the bottom wall 23.

The mobile control device 100 further comprises a wireless router 28, the wireless router 28 being mounted to an outer wall of the second side panel 6.

The mobile control device 100 further includes a host start key 29, a power control key 30 and a network interface 31, the host start key 29, the power control key 30 and the network interface 31 are all disposed on the end plate 13, the end plate 13 is further provided with a plurality of auxiliary heat dissipation holes 32, and the network interface 31 is an RJ45 network interface.

VR glasses in the user's accessible VR equipment carry out the training of virtual scene, computer 15 is used for controlling wireless VR glasses and wireless VR handle, projector 16 is used for controlling the projection, computer 15, projector 16, video wireless transmitter 21, power 24, base station locator 26, controlgear such as wireless route 28 all is located and holds frame 2, it is located box 1 to hold frame 2, box 1 does benefit to the user and carries mobile control device 100, need not the user and additionally builds the training place, convenient to use of user and reduce cost.

An embodiment of a movement control system for a VR device:

as shown in fig. 3, the mobile control system for a VR device provided by the present invention includes a mobile terminal 200, a cloud management system 300, and mobile control devices 100, where the mobile terminal 200 sends a connection request, an experience item mode selection instruction, and an instruction for controlling the mobile control device 100 to the cloud management system 300, the cloud management system 300 is configured to make a corresponding instruction according to the request of the mobile terminal 200, the cloud management system 300 includes a communication module 301, an information processing module 302, and a storage module 303, the binding module 304, the communication module 301 is configured to transmit data with the mobile terminal 200 and the mobile control devices 100, the binding module 304 is configured to bind the mobile terminal 200 with the mobile control devices 100, the information processing module 302 is configured to make a corresponding feedback instruction according to the connection request of the mobile terminal 200, the storage module 303 is configured to store registration information of the mobile terminal 200, and the mobile control devices 100, The identification code of the mobile control device 100, information that the mobile terminal 200 is bound to the mobile control device 100, and data of a control command, the mobile control device 100 being configured to execute the control command.

The mobile terminal 200 of the present embodiment includes, but is not limited to, a computer, a smart phone, a PDA, and the like; the Cloud management system 300 includes, but is not limited to, a single web server, a server group consisting of a plurality of web servers, or a Cloud Computing (Cloud Computing) based Cloud consisting of a large number of computers or web servers, wherein Cloud Computing is one of distributed Computing, a super virtual computer consisting of a collection of loosely coupled computers. Wherein the computer device can be operated alone to implement the invention, or can be accessed to a network and implement the invention through interoperation with other computer devices in the network. The network in which the computer device is located includes, but is not limited to, the internet, a wide area network, a metropolitan area network, a local area network, a VPN network, and the like.

An embodiment of an application method of a mobile control system for VR equipment comprises the following steps:

the application method provided by the invention comprises the following steps:

connection step S2: setting a projection scene at a proper line-of-sight distance of the mobile control device 100, sending a connection request to the cloud management system 300 through the mobile terminal 200, wherein the connection request comprises equipment identification information of the mobile control device 100 to be connected, establishing an information control path with the target mobile control device 100 according to connection configuration information returned by the cloud management system 300, and communicating between the mobile terminal 200 and the target mobile control device 100 through the information control path. The connection request includes device identification information of the mobile control apparatus 100. Here, the device identification information means information that can uniquely identify a device, including but not limited to a MAC address, an IP address, a production serial number, and the like.

It should be understood by those skilled in the art that the above-mentioned device identification information is only an example, and other existing or future device identification information, as may be applicable to the present invention, should be included within the scope of the present invention and is hereby incorporated by reference.

Here, the connection between the mobile terminal 200 and the mobile control device 100 includes, but is not limited to, physical connection of WIFI, Bluetooth (Bluetooth), and USB, etc. (which may be realized by the internal network interface 31).

Using step S3: the mobile terminal 200 is obtained to enter an operation page to select experience items, the video wireless transmitter is connected with the computer host and provides signal data for the wireless VR glasses, the computer host is used for controlling the wireless VR glasses and the wireless VR handle, the computer host receives experience item information transmitted by the cloud management system 300 or stored inside, the experience item information is analyzed, converted and transmitted to the projector in the second cavity to be displayed, and pictures are projected on the wall surface to be projected and played.

Through the above-described information control path, information such as video, audio, operation authority, and the like is shared between the mobile terminal 200 and the mobile control device 100. The mobile control device 100 performs screen projection playing on the playable file therein.

Further, the application method further includes a registration step S1: the cloud management system 300 acquires a registration request of the mobile terminal 200 and feeds a registration mode back to the mobile terminal 200; acquiring and storing registration information of the mobile terminal 200; acquiring a request for binding the mobile terminal 200 to the mobile control device 100; inquiring whether the mobile control device 100 is bound according to the identification code of the mobile control device 100, transmitting unbound information to the mobile terminal 200 if the inquiry result is unbound, and transmitting bound information to the mobile terminal 200 if the inquiry result is bound; acquiring information that the mobile terminal 200 determines to bind the mobile control device 100, and sending information that the binding is successful to the mobile terminal 200; the identification codes and the control instructions of the plurality of mobile control devices 100 selected to control the binding by the mobile terminal 200 are acquired, and the control instructions are transmitted to the plurality of bound mobile control devices 100, respectively.

Further, the identification code of the mobile control device 100 is stored in the computer host chip, and the connection between the mobile terminal 200 and the mobile control device 100 includes entering an operation page by scanning a two-dimensional code; the method for establishing the connection between the mobile terminal 200 and the mobile control device 100 further includes installing an operation end on the mobile terminal 200 to enter an operation page, and setting an identification code for controlling the mobile control device 100 on the operation end, so that the mobile terminal 200 and the mobile control device 100 are controlled in a matching manner.

In practical application, 7 large-scale 36 potential safety hazard identification items are arranged in the experience process.

(1) First, the experiencer enters the main interface UI to select an experience item (a safety education scoring mode and a safety experience mode).

(2) VR experience personnel are drawn in through a gate of a construction site according to the scheme. The method comprises the steps of firstly, distributing corresponding safety helmets for five types of personnel (visitors, full-time security officers, managers, special operating personnel and general workers) entering a construction site, and experiencing iris entrance guard according to the requirement of the built stock CI. After entering a construction site, the project roaming experience (including air roaming) is carried out on the overall development condition of the project from multiple angles, and the basic project overview and the overall image (BIM modeling) of the project are displayed.

(3) And returning to a gate of a construction site, enabling VR experience personnel to move to the position below a tower crane of T2 (i.e. the scene is pushed, and the VR experience personnel does not need to walk when standing in place) along a construction channel in the site by holding a trigger according to the prompt, and lifting the materials by the tower crane of the T2 in the high-altitude operation mode. The staff is located the tower crane operation radius respectively in the scene, except this, electrician maintains the inspection to tertiary electronic box. And identifying the potential safety hazard by the VR experience personnel at a third visual angle, continuing to experience after successful identification, switching the first visual angle to experience the safety accident after failed identification, and enhancing safety awareness after 2-4 seconds of experience time.

(4) VR experience personnel enter the first floor secondary decoration operation surface of the tower of T2 according to the suggestion. And (3) carrying out cable trough installation work on the aerial operation platform by hydropower installers in the operation surface, carrying out masonry work by masonry workers at the adjacent sides, and carrying out protection on the four five adjacent sides of the site according to the standard drawing set for safety protection of the Chinese building construction site. The VR experience personnel identify the potential safety hazard with the third visual angle, the experience is continued even if the identification is successful, and the safety accident is experienced by switching the first visual angle if the identification is failed, so that the safety consciousness is enhanced.

(5) VR experience personnel take construction elevator to top layer construction operation face by the first floor secondary fitment operation face according to the suggestion. Carpenters in the construction operation surface perform installation operation on vertical templates of an elevator shaft, gas welders perform cutting operation, curtain wall workers perform electric welding embedded part operation, steel bar workers perform stirrup hoisting operation, and external scaffolding workers perform external scaffolding erection operation. The VR experience personnel identify the potential safety hazard with the third visual angle, the experience is continued even if the identification is successful, and the safety accident is experienced by switching the first visual angle if the identification is failed, so that the safety consciousness is enhanced.

(6) After the safety education scoring mode is selected for experience, the experienced potential safety hazard identification results are scored, and meanwhile, the grades are divided according to the scores (the grades are 3: 1, potential safety hazard identification experts 2, field qualified safety managers 3 and little safety knowledge).

2. Detailed description of the protocol:

after the VR experiencer enters a construction site, the experience route is as follows: A. and (4) finishing VR safety experience according to prompts by using a field plane working face → B. a secondary decoration working face → C. a top layer construction working face. A. The situation of the ground plane operation surface is as follows:

(1) VR experience personnel are located the construction site gate, and building a door building CI (including nine cards one picture etc.) camera lens in the show is as shown in picture A-1-1, and the gate has five kinds of personnel of visitor's honored guest, security officer, managers, special type operating personnel and constructor respectively, and towards VR experience personnel, with reflecting the clothing and having personnel classification on one's body, if visit honored guest, security officer, managers, special type operating personnel and constructor, 2 red safety helmets, 1 white safety helmet, 1 blue safety helmet and 1 yellow safety helmet pop out in the camera lens upper right side. VR experience personnel according to the corresponding safety helmet of directional light beam selection wear to five types entering on-the-spot personnel overhead, after the selection finishes [ camera lens characters: finish ], finally, the screen pops up an explanation dialog box [ shot text + voice over: 1. the superior leader and visiting guests wear red safety helmets; 2. a field security officer wears a red safety helmet; 3. a field manager wears a white safety helmet; 4, special workers wear blue safety helmets; 5. the field constructor wears the yellow safety helmet. [ MEANS FOR solving PROBLEMS ] is provided.

Subsequently, experience personnel experience entrance guard's system identification [ camera lens characters + side white according to the suggestion line to entrance guard's department: you are about to enter a construction site and ask for identification of an access control system. Then, the purpose of real-name management regulation of the practitioner is needed according to the prompt of entering the construction site: 1. dynamically monitoring the labor employment condition of the engineering; 2. upgrading the labor management mode of the construction industry; 3. the labor staff wage dispute is prevented, and the legal rights and interests of all parties are guaranteed; 4. promote the industrialization of construction workers and improve the quality safety level of the construction industry.

(2) Entering a construction site, performing VR project roaming experience at different angles, performing plane roaming, then pulling up a lens to perform aerial VR project roaming experience, wherein the aerial VR project roaming experience comprises a T1 tower, a T2 tower, a north-south skirt building, a project department, a staff dormitory, a construction enclosure and the like, and a VR project roaming experience person holds a handle to view the safe production standardized construction condition and the plane arrangement condition of a project at will and needs a VR company to model the whole condition of the project.

(3) And cutting the lens to the gate which just enters the construction site after the VR project roaming experience is finished.

According to the scheme, VR glasses in the user's accessible VR equipment carry out the training of virtual scene, computer 15 is used for controlling wireless VR glasses and wireless VR handle, projector 16 is used for controlling the projection, computer 15, projector 16, video wireless transmitter 21, power supply 24, basic station locator 26, controlgear such as wireless route 28 all is located and holds frame 2, it is located box 1 to hold frame 2, box 1 does benefit to the user and carries mobile control device 100, need not the user and additionally builds the training place, convenient to use user uses and reduce cost.

Finally, it should be emphasized that the present invention is not limited to the above-described embodiments, but only the preferred embodiments of the invention have been described above, and the present invention is not limited to the above-described embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A movement control device for VR equipment is characterized by comprising a box body, a containing frame and a cover body, wherein the containing frame is positioned in the box body, and the cover body is rotatably connected to the containing frame;

the accommodating frame comprises a first side plate, a second side plate, a third side plate, a fourth side plate, a first partition plate, a second partition plate, a third partition plate, a back plate and an end plate, wherein the first partition plate is connected with the first side plate and the second side plate, the second partition plate is connected with the first side plate and the third side plate, the third partition plate is connected with the third side plate and the fourth side plate, the first partition plate, the second partition plate, the third partition plate and the back plate are sequentially arranged, the third side plate and the fourth side plate are both connected with the first partition plate and the back plate, and the end plate is connected with the first side plate, the second side plate, the third side plate, the fourth side plate, the first partition plate, the second partition plate, the third partition plate and the back plate;

the mobile control device further comprises a computer host, a projector, a first cavity and a second cavity, the computer host is located in the first cavity, the projector is located in the second cavity, the first cavity is communicated with the first through hole of the end plate, the first cavity is formed by enclosing the first inner wall of the box body, the bottom wall of the box body, the first side plate, the second side plate and the first partition plate, the second cavity is communicated with the second through hole of the end plate, and the second cavity is formed by enclosing the first partition plate, the third side plate, the fourth side plate and the bottom wall.

2. A movement control device according to claim 1, characterized in that:

the mobile control device comprises a first radiator and a second radiator, the first radiator is positioned in a first radiating hole of the accommodating frame, and the second radiator is positioned in a second radiating hole of the accommodating frame; the first partition is provided with two first heat dissipation holes, and the first side plate and the second side plate are respectively provided with one second heat dissipation hole.

3. A movement control device according to claim 1, characterized in that:

the mobile control device further comprises a video wireless transmitter and a third cavity, the video wireless transmitter is located in the third cavity, and the third cavity is communicated with a third through hole of the end plate; the third cavity is enclosed by the first partition plate, the second side plate, the third side plate and the bottom wall.

4. A movement control device according to claim 1, characterized in that:

the mobile control device further comprises a power supply and a fourth cavity, the power supply is located in the fourth cavity, and the fourth cavity is communicated with a fourth through hole of the end plate; the fourth cavity is enclosed by the second partition board, the back board, the second side board, the third side board and the bottom wall.

5. A movement control device according to claim 1, characterized in that:

the mobile control device further comprises a base station locator and a fifth cavity, the base station locator is located in the fifth cavity, and the fifth cavity is communicated with a fifth through hole of the end plate; the fifth cavity is enclosed by the first partition plate, the back plate, the second side plate, the fourth side plate and the bottom wall.

6. A movement control device according to any of claims 1 to 5, characterized by:

the mobile control device further comprises a wireless router, and the wireless router is assembled on the outer wall of the second side plate; the mobile control device further comprises a host start key, a power control key and a network interface, wherein the host start key, the power control key and the network interface are arranged on the end plate, and the end plate is further provided with a plurality of auxiliary radiating holes.

7. A mobile control system for VR equipment, comprising a mobile terminal, a cloud management system and a mobile control device, wherein the mobile control device is the mobile control device of any one of claims 1 to 6, the mobile terminal sends a connection request, an experience item mode selection and an instruction for controlling the mobile control device to the cloud management system, the cloud management system is used for making corresponding instructions according to the request of the mobile terminal, the cloud management system comprises a communication module, an information processing module, a storage module and a binding module, the communication module is used for data transmission with the mobile terminal and the mobile control device, the binding module is used for binding the mobile terminal and a plurality of mobile control devices, the information processing module is used for making corresponding feedback instructions according to the connection request of the mobile terminal, the storage module is used for storing mobile terminal registration information, an identification code of the mobile control device, information of binding between the mobile terminal and the mobile control device and data of a control instruction, and the mobile control device is used for executing the control instruction.

8. An application method of a mobile control system for a VR device, wherein the mobile control system is the mobile control system of claim 7, the application method comprising:

a connection step: setting a projection scene at a proper line-of-sight distance of a mobile control device, sending a connection request to a cloud management system through a mobile terminal, wherein the connection request comprises equipment identification information of the mobile control device to be connected, establishing an information control path with a target mobile control device according to connection configuration information returned by the cloud management system, and communicating the mobile terminal and the target mobile control device through the information control path;

the method comprises the following steps: the mobile terminal is obtained to enter an operation page to select experience items, the video wireless transmitter is connected with the computer host and provides signal data for the wireless VR glasses, the computer host is used for controlling the wireless VR glasses and the wireless VR handle, the computer host receives experience item information transmitted by the cloud management system or stored inside, the experience item information is analyzed, converted and transmitted to the projector in the second cavity to be displayed, and pictures are projected on the wall surface to be projected and played.

9. The method of application according to claim 8, characterized in that:

the application method also comprises a registration step: the cloud management system acquires a registration request of the mobile terminal and feeds a registration mode back to the mobile terminal; acquiring and storing registration information of the mobile terminal; acquiring a request of the mobile terminal for binding the mobile control device; inquiring whether the mobile control device is bound according to the identification code of the mobile control device, if the inquiry result is unbound, sending unbound information to the mobile terminal, and if the inquiry result is bound, sending bound information to the mobile terminal; acquiring information that the mobile terminal determines to bind the mobile control device, and sending the information that the binding is successful to the mobile terminal; and acquiring identification codes and control instructions of a plurality of mobile control devices selected and bound by the mobile terminal, and respectively sending the control instructions to the plurality of bound mobile control devices.

10. The method of application according to claim 8, characterized in that:

the computer host chip stores an identification code of the mobile control device, and the connection between the mobile terminal and the mobile control device is established by scanning a two-dimensional code to enter an operation page;

the method for establishing the connection between the mobile terminal and the mobile control device further comprises the steps of installing an operation end on the mobile terminal to enter an operation page, and setting an identification code for controlling the mobile control device on the operation end to enable the mobile terminal and the mobile control device to be matched and controlled.

Images