WO2022254236A1

WO2022254236A1 - Solar electric vehicle cryptocurrency mining system

Info

Publication number: WO2022254236A1
Application number: PCT/IB2021/054770
Authority: WO
Inventors: Aldo Baiocchi
Original assignee: Daymak Inc.
Priority date: 2021-05-31
Filing date: 2021-05-31
Publication date: 2022-12-08

Abstract

The present invention is a system for mining cryptocurrency implemented within, and powered by, the subsystems present in an electric vehicle (EV) that utilizes both on-grid and off-grid power. The cryptocurrency mining system comprises of typical hardware found in a computer capable of said task, with the added functionality of being tethered to lithium-ion battery system within an EV. This battery system benefits from solar panel trickle-charging. In addition, the cryptocurrency mining system is integrated within the user interface of the EV, providing bolstered, biometric security measures to protect mining data, the user's wallet and their private keys. Its user will also have access to a digital exchange with the ability to trade, monitor, purchase and use cryptocurrencies as a form of payment. The present invention provides an infrastructure that turns the EV into an environmentally-friendly crypto miner node within the blockchain network that verifies and transfers digital payments.

Description

DESCRIPTION

TITLE OF INVENTION

[001] Solar Electric Vehicle Cryptocurrency Mining System

TECHNICAL FIELD

[002] The present invention is a solar electric vehicle (EV) with the capability of mining cryptocurrency, and an onboard online wallet platform.

BACKGROUND ART

[003] With the rise of cryptocurrency comes the need for a comprehensive and convenient infrastructure that allows users to constantly mine cryptocurrencies while also serving as a node for transaction data in a given blockchain. Typically, this process is accomplished through the procurement of proper hardware to be configured and implemented into a fixed location with on- grid power. The barriers to entry for cryptocurrency mining relate to system costs, the computational power and efficiency of their mining system, and electricity costs. Depending on geographic location, prices for on-grid electricity varies and can potentially nullify net profits achieved through mining.

[004] The present invention seeks to address this issue by implementing a system capable of mining cryptocurrency into an EV that utilizes both on-grid and off-grid power sources. Said EV serves the same function as a transport vehicle, but now acts as a mining node while providing a secure, closed source platform for cryptocurrency storage and exchange. Users registered to the platform will have access to a digital exchange, the ability to transfer cryptocurrencies to other accounts, and pay for any outstanding bills tied to a bank account and or companies that accept cryptocurrencies as payment, at a small cost in the form of transfer fees. This platform will feature an easy-to-use interface that is integrated with the EV’s subsystems, as it is also powered by the presumed lithium-ion battery system within. In addition to convenience of cryptocurrency mining capabilities, the present invention will introduce biometric security measures, i e., facial recognition and or fingerprint scanning technologies built into the interface to protect sensitive information relevant to the registered miner.

DESCRIPTION OF INVENTION

[005] With references to figures 1 & 2, the invention comprises of systems integrated within the EV to allow for the aforementioned features of mining cryptocurrency in a solar electric vehicle. The present invention will have the capability to be charged via an on-grid or off-grid power source. On-grid means of charging include a plugging the EV into standard wall outlet into a charger port. Off-grid means of charging include trickle charging via solar panels (101) and re purposed kinetic energy in regenerative braking (106). The invention is powered by the EV’s primary lithium-ion battery (107), which is trickle charged by a solar panel / PWM charge controller system (102) to top off voltage current and provide a float charge, regardless of whether the EV is stationary or in motion. Customized programming of the solar panel (101) will ensure maximum efficiency in energy harnessed with mitigated transfer losses, prioritizing energy gain to the battery (107). The addition of regenerative braking (106) in the EV adds another passive method of re-purposing kinetic energy in the electric motor to be converted into usable energy while the EV is in motion

[006] Regarding the crypto-mining computer system (103), which comprises of a motherboard, GPU, graphics card, storage memory and RAM, a power supply, and cooling fans. Because the crypto-mining computer systems are tied to the rest of the systems within the EV, cooling fans are turned on automatically as components begin to generate excess heat. Adversely, excess heat generated as a byproduct of operating the crypto-mining computer system can be redirected and used as residual heat to help with cabin climate control.

[007] Regarding user interface and security functions, the invention will utilize biometric authentication using facial recognition sensors (203) and or fingerprint sensors (202) to allow the user to access the onboard cryptocurrency wallet. Said sensors will be placed in unobstructed positions on the EV console (201) controls for accessibility. This added security will ensure only the intended user / miner with the registered account can have access to their wallet, while still allowing other users to drive the EV.

[008] The onboard online wallet system necessitates that the EV possesses the hardware to allow for LTE connectivity that in turn, will allow for cryptocurrency mining. The system within the EV will allow for a subscription-based-service to connect to 4G LTE wireless connectivity. This wallet system will store transaction history, private keys, mining addresses, account balances for a multitude of cryptocurrencies, and the accompanying built-in platform will allow access to a cryptocurrency exchange. This enables the EV user all functions to purchase, trade, store, monitor, and mine cryptocurrency while operating, idling, or even while the EV is parked.

DESCRIPTION OF DRAWINGS

FIGURE 1: a diagram of the subsystems comprising the solar EV cryptocurrency mining system

101. Solar Panel

102. PWM Charger Controller

103. Cryptocurrency Mining Computer

104. Console 105. Controller

106. Regenerative Brakes

107. Battery System

FIGURE 2: an interior view showing the EV console

201. Console

202. Fingerprint Scanner

203. Camera Sensor

Claims

CLAIMS CLAIMS The claims of the present invention are defined by the following:

1. An assembly of systems within an electric vehicle (EV) that provide a means of mining cryptocurrency

2. Said EV in claim 1 is powered by a lithium-ion battery system connected to a solar panel, PWM charge controller, EV controller, power converter, and electric motor

3. Said lithium-ion battery system in claim 2 provide current power to cryptocurrency mining system

4. Said cryptocurrency mining system in claim 3 provides an online platform user interface connected to an on-board LTE to allow data verification and currency transfers within specified blockchain servers

5. Said user interface in claim 4 utilizes a biometric security system to safeguard the user’s personal information, such as mining address, private keys, and account balances