WO2024016063A1

WO2024016063A1 - Energy system for electric vehicle battery packs

Info

Publication number: WO2024016063A1
Application number: PCT/BR2023/000002
Authority: WO
Inventors: Jesus de Andrade BARRETO
Original assignee: Barreto Jesus De Andrade
Priority date: 2022-07-19
Filing date: 2023-07-13
Publication date: 2024-01-25
Also published as: BR102022014274A2

Abstract

The present patent of invention relates to an energy system for electric vehicle battery packs, pertaining to the technical domain of electromechanics applicable to the automotive industry; more specifically, it relates to a system that uses solar energy to power the battery packs of electric vehicles such as trucks (semi-trailers). The energy system for electric vehicle battery packs and for the electrical system thereof comprises solar panels (1) installed on the top and on at least one side of the body (Ca) of the truck (C), said solar panels receiving direct energy from the sun and sending it to the solar controller (2) that regulates the voltage between 12v and 127v or other values as necessary, in turn charging the battery pack (3) and/or powering the drive system (4) of the truck (C) or refrigerated body.

Description

POWER SYSTEM FOR ELECTRIC VEHICLE BATTERY BANK

[001] This invention patent is about an energy system for electric vehicle battery banks, belonging to the technical area of electromechanics with application in the automobile sector, more particularly it is a system using solar energy for power supply. of battery banks for electric vehicles such as trucks (semi-trailers).

STATE OF THE TECHNIQUE

[062] With the advent of electric vehicles, a major problem also arose, which is the charging of such batteries, and the problem becomes worse when it comes to trucks that travel long distances and often without finding a place to recharge the batteries. Furthermore, charging takes time and can cause damage due to the time taken to charge the batteries.

OBJECTIVES OF THE INVENTION

[003] With these problems in mind, one of the objectives of the energy system for an electric vehicle battery bank is to use the sun during journeys (see Figure 5) to charge the battery bank, without wasting time or running the risk of running out of power. electrical energy on the road, thus solving the problems of the prior art, in addition to providing other advantages arising from its design.

[004] Still according to figure 5, the System basically works with two sides of contact with solar capture regardless of the time of day, with two capture points the sun will always be radiating on two sides.

BRIEF DESCRIPTION OF THE INVENTION [005] The power system for an electric vehicle battery bank comprises solar panels that capture energy from the sun and supply it to the controller that distributes the energy evenly to the battery bank and to the electrical control system of the vehicle. vehicle. It keeps the battery bank charge stable at the pre-programmed voltage from I2v to 127v or another as needed.

DESCRIPTION OF FIGURES

[006] The power system for electric vehicle battery banks will be better understood through the figures that schematically represent:

Figure I - schematic view of the power system for electric vehicle battery banks;

Figure 2 - perspective view of the solar energy board;

Figure 3 • front view of the solar power controller,

Figure 4 - perspective view of an example of a truck application; and Figure 5 - perspective view of an example of sunlight on truck bodies.

DETAILED DESCRIPTION OF THE INVENTION

[007] According to figures 1 to 4, the energy system for the battery bank of electric vehicles and the electrical system thereof, which comprises solar panels (1), installed in the upper part and in at least one of the sides of the body (Ca) of the truck (C), which receive direct energy from the sun and send it to the solar controller (2) which regulates the voltage between I2v and I27v or another as needed, which in turn charges the battery bank. batteries (3) and/or powers the traction system (4) of the truck (C) or refrigerated bodies.

[008] The plates can also be removed and allocated to another location through cables, they can also be flexible in the necessary format for the best performance in capturing solar rays.

[009] The plates must fill the entire upper part of the vehicle and its sides, positioned in this way, the part facing the sun will always have two points for capturing the sun's rays.

WORKING EXAMPLE

[010] According to figure 4, in an application example, a 1:32 scale truck model was used, with 7 dc boards 1.5 whatts and 0.200ma totaling 10.5 watts with 1.4 amps, arranged on the face top of the body.

[011] The vehicle used in the example has a consumption of 7.5v at 800ma, that is, there is a surplus in energy production, not requiring, in this case, the arrangement of plates on its side.

[012] The 1:32 scale project above behaved in such a way that its energy production was much higher than its consumption and could therefore remain in constant movement when in sunlight, thus keeping the charge of its battery bank intact , which allowed us to conclude that if there is integration and projected energy projection (consumption x production) we can have constant movement of the vehicle without the need for any external charger.

[013] For example, a body measuring 6.00 meters long by 3.00 meters wide and 2.00 meters high could be arranged with plates of 550 watts of power where with a total of 15 plates you would get 8250 watts of power production, remembering that only the upper part and one side of the vehicle are being considered, therefore, the larger the semi-trailer platform, the greater the energy production and greater autonomy of the vehicle.

ADVANTAGES OF THE INVENTION [014] The power system for electric vehicle battery banks, designed in this way, provides several advantages, including:

- Allows greater vehicle autonomy;

- Allows you to charge not only the battery bank, but also other systems that require energy, such as a traction system or refrigerated body;

- Allows voltage control according to need; It is

- Contributes to the preservation of the environment with the use of solar energy.

[015] The scope of the present invention patent should not be limited to the operating example, but rather to the terms defined in the claim and their equivalents.

Claims

1 POWER SYSTEM FOR ELECTRIC VEHICLE BATTERY BANK, characterized by comprising solar panels (1), installed on the top and on at least one side of the truck body (Ca) (C), which receive direct energy from the sun and sends it to the solar controller (2) which regulates the voltage between 12v and 127v or another as needed, which in turn charges the battery bank (3) and/or powers the traction system (4) of the truck (C) or refrigerated bodies.

2 - POWER SYSTEM FOR ELECTRIC VEHICLE BATTERY BANK, according to claim 1, characterized in that plates are optionally removed and allocated to another location using cables.

3 - POWER SYSTEM FOR ELECTRIC VEHICLE BATTERY BANK, according to claim 1, characterized in that the plates are optionally flexible in the format necessary for the best performance in capturing solar rays.

4 - POWER SYSTEM FOR ELECTRIC VEHICLE BATTERY BANK, according to claim 1, characterized in that plates fill the entire upper part of the vehicle and at least one of the sides.