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Virtual Reality Operation Platform Structure
| Content Provider | The Lens |
|---|---|
| Abstract | A virtual reality operation platform structure comprises a main virtual frame, a virtual reality operation processing module, a menu module, an output checking module, a clearing module, and an accounting module. The menu module is built-in the main virtual frame and includes a housing menu defaulted a plurality of housings, a motherboard menu defaulted a plurality of motherboards, and a heat dissipation assembly menu defaulted a plurality of elements. Each element is virtually electrically coupled to the motherboard with the virtual reality operation processing module. The output checking module is connected to the menu module for checking an output performance of the motherboard and then generating a performance form. The clearing module is connected to the menu module for processing the re-selection of the menu module. The accounting module is connected to the menu module and generates a list. |
| Related Links | https://www.lens.org/lens/patent/009-769-728-309-722/frontpage |
| Language | English |
| Publisher Date | 2017-11-23 |
| Access Restriction | Open |
| Content Type | Text |
| Resource Type | Patent |
| Jurisdiction | United States of America |
| Date Applied | 2016-05-18 |
| Applicant | Bitspower Int Co Ltd |
| Application No. | 201615158563 |
| Claim | A virtual reality operation platform structure, built-in a virtual reality device, the structure comprising: a main virtual frame; a virtual reality operation processing module, built-in the main virtual frame; a menu module, built-in the main virtual frame, the menu module has a housing menu, a motherboard menu, and a heat dissipation assembly menu, the housing menu is defaulted a plurality of housings with various scales, the motherboard menu is defaulted a plurality of motherboards with various brands, the heat dissipation assembly menu is defaulted a plurality of elements, the elements are virtually electrically coupled to the motherboards and assembled to the motherboards and the housings via the virtual reality operation processing module; an output checking module, built-in the main virtual frame and connected with the menu module for checking an output performance of the motherboards while being coupled to the elements and further generating a performance form; a clearing module, built-in the main virtual frame and connected to the menu module for clearing the selections of the housings, the motherboards, and the elements to re-select with the menu module; and an accounting module, built-in the main virtual frame and connected to the menu module, the accounting module is made a list according to the selected housings, the motherboards, and the elements; wherein in the main virtual frame, the arrangement of the virtual reality operation processing module makes a user be capable for virtually operating the assembly and coupling of the housings, the motherboards, and the elements, and further checking their performances so as to buy the real housings, motherboards, and the elements according to the list after making sure the performances are what the user wants; if the performances of the selected housings, motherboards, and the elements are not what the user wants, the clearing module is cleared the selection of the housings, the motherboards, and the elements to re-select so as to save time and prevent from errors. The virtual reality operation platform structure as claimed in claim 1 , further comprising a debug module which is built-in the main virtual frame, the debug module is debugged the assembly, position, and connection of the housings, the motherboards, and the elements whether is correct or not. The virtual reality operation platform structure as claimed in claim 2 , wherein a suggesting form is outputted after the debug module is finished debugging, and the suggested form is listed at least one collocation of the suitable housings, the suitable motherboards, and the suitable elements according to a debug result of the debug module. The virtual reality operation platform structure as claimed in claim 1 , further comprising a customizing module which is built-in the main virtual frame, and the customizing module is capable for modifying a size of each element listed in the heat dissipation module. The virtual reality operation platform structure as claimed in claim 4 , further comprising a setting module which is built-in the virtual frame, a raw material stocking data unit is built-in the setting module, the raw material stocking data unit saves detail data of each housing, each motherboard, and each element, and each menu of the menu module is read the data of each housing, each motherboard, and each element from the raw material stocking data unit to select and view. The virtual reality operation platform structure as claimed in claim 5 , wherein the setting module includes a receiving/transmitting module for wirelessly or wired electrically connected to as mobile device, the mobile device which is computer, cell phone, or tablet may transmits new data of each hosing, each motherboard, and each element to the receiving/transmitting module so as to store in the raw material stocking data unit and outputs the list of the housings, the motherboards, and the elements after assembling and coupling. The virtual reality operation platform structure as claimed in claim 5 , wherein the setting module includes a receiving/transmitting module for wirelessly connecting to a store and transmitting the list, and the store may takes the housings, the motherboards, and the elements according to the list. The virtual reality operation platform structure as claimed in claim 6 , further comprising a linking module which is built-in the main virtual frame, and the linking module may be wirelessly connected to other virtual device to process in the same main virtual frame. The virtual reality operation platform structure as claimed in claim 7 , further comprising a linking module which is built-in the main virtual frame, and the linking module may be wirelessly connected to other virtual device to process in the same main virtual frame. The virtual reality operation platform structure as claimed in claim 1 , further comprising a tour module which is built-in the main virtual frame, and the tour module is explained by audio, video, text, and figure. |
| CPC Classification | INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE; COMMERCIAL; FINANCIAL; MANAGERIAL OR SUPERVISORY PURPOSES;SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE; COMMERCIAL; FINANCIAL; MANAGERIAL OR SUPERVISORY PURPOSES; NOT OTHERWISE PROVIDED FOR IMAGE DATA PROCESSING OR GENERATION; IN GENERAL ELECTRIC DIGITAL DATA PROCESSING |
| Extended Family | 051-374-842-556-002 009-769-728-309-722 |
| Patent ID | 20170337620 |
| Inventor/Author | Yu Vincent |
| IPC | G06Q30/06 G06F3/0482 G06T1/20 G06T19/00 G06T19/20 |
| Status | Active |
| Owner | Bitspower International Co. Ltd |
| Simple Family | 051-374-842-556-002 009-769-728-309-722 |
| CPC (with Group) | G06Q30/0643 G06T1/20 G06T19/20 G06T2219/2008 G06F3/0482 |
| Issuing Authority | United States Patent and Trademark Office (USPTO) |
| Kind | Patent Application Publication |
