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BLOCKCHAIN MINING PLATFORM

20220253402 ยท 2022-08-11

    Inventors

    Cpc classification

    International classification

    Abstract

    A blockchain mining platform that comprises an airship utilizing an innovative lift mechanism featuring dynamic and static vacuum chambers. Solar panels power the vast array of computers required for efficient and cost effective blockchain mining. Internet connectivity would be accomplished by communication with satellites or by microwave transmission to ground station. In alternate modes, different types of airships with the ability to stay aloft for extended periods of time could be used.

    Claims

    1. A blockchain mining platform comprising an airborne vehicle designed to stay aloft above the troposphere for extended periods of time, further comprising: a. An array of personal computers or similar devices sufficient to mine blockchains, b. An array of solar panels exterior to the airborne vehicle that produce electricity, c. A second array of solar panels interior to the vehicle that may be stationed next to windows or translucent structures such that sunlight will impinge on the interior solar panels thereby producing an alternate source of electricity. d. A means for communicating with extra-terrestrial satellites that allow connectivity to the internet.

    2. A blockchain mining platform as in claim 1 wherein the airborne vehicle is an airship.

    3. A blockchain mining platform as in claim 1 wherein the airborne vehicle is a vacuum airship.

    4. A blockchain mining platform as in claim 1 wherein the exterior solar panels are mounted on the sides of said airborne vehicle.

    5. A blockchain mining platform as in claim 1 wherein the interior solar panels are placed next to windows or translucent structures allowing sunlight to impinge on the panels.

    6. A blockchain mining platform as in claim 1 wherein the electricity produced by the solar panels powers the array of blockchain mining computers.

    7. A blockchain mining platform as in claim 1 wherein some of the solar panels are mounted on motorized platforms allowing said panels to move to optimal direction of the sun.

    8. A blockchain mining platform as in claim 1 wherein internet communication is established with satellites or via microwave transmission to earth based internet connections.

    9. An apparatus and method for mining blockchains comprising: a. an airborne vehicle designed to stay aloft for extended periods of time, further comprising: b. An array of personal computers or similar devices sufficient to mine blockchains, c. An array of solar panels exterior to the airborne vehicle that produce electricity sufficient to operate the array of computers engaged in the blockchain mining process, d. A second array of solar panels interior to the vehicle that may be stationed next to windows or translucent structures such that sunlight will impinge on the interior solar panels thereby producing an alternate source of electricity. e. A means for communicating with extra-terrestrial satellites that allow connectivity to the internet. f. A further means for communicating with land based internet systems via microwave transmission.

    10. A blockchain mining platform as in claim 9 wherein the airborne vehicle is an airship.

    11. A blockchain mining platform as in claim 9 wherein the airborne vehicle is a vacuum airship.

    12. A blockchain mining platform as in claim 9 wherein the exterior solar panels are mounted on the sides of said airborne vehicle.

    13. A blockchain mining platform as in claim 9 wherein the interior solar panels are placed next to windows or translucent structures allowing sunlight to impinge on the panels.

    14. A blockchain mining platform as in claim 9 wherein the electricity produced by the solar panels powers the array of blockchain mining computers.

    15. A blockchain mining platform as in claim 9 wherein some of the solar panels are mounted on motorized platforms allowing said panels to move to optimal direction of the sun.

    16. A blockchain mining platform as in claim 9 wherein internet communication is established with satellites or via microwave transmission to earth based internet connections.

    17. A blockchain mining platform as in claim 9 wherein residual heat from the blockchain mining computers heats living and storage compartments of the airborne vehicle.

    18. A blockchain mining platform as in claim 9 wherein excess electricity generated by the solar panels would charge backup batteries.

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    [0024] Further aspects of the instant invention will be more readily appreciated upon review of the detailed description of the preferred embodiments included below when taken in conjunction with the accompanying drawings, of which:

    [0025] FIG. 1A is a perspective view of the Blockchain Mining Platform airship 10 showing positioning of the dynamic and/or static chambers within the airframe. The blockchain mining operation can be located in any interior space. This figure also shows the thrusters 20 which can position the airship to capture maximum solar power.

    [0026] FIG. 1B is an exploded view of the Blockchain Mining Platform airship.

    [0027] FIGS. 2A and 2B show the dynamic chambers in the collapsed and expanded positions.

    [0028] FIG. 3 shows a typical blockchain mining setup with multiple stacks of computers engaging in the mining operation.