JP6415769B1 - AI renewable energy generator assist system - Google Patents

Abstract

[PROBLEMS] To increase the power generation efficiency of solar power generation, it is desirable to increase the light receiving area and always face the sun. However, in order to withstand strong winds such as typhoons, it is necessary to be solid. There is a problem that a large installation area is required, and there is a problem that the weight and cost increase, and a photovoltaic power generation apparatus corresponding to them is provided.
SOLUTION: A solar power generator 3 having a variable light-receiving area of solar panels 9, 10, 11 is equipped with a communication chip 7 such as LoRaWAN and a wind speed / wind direction meter 8, and AI reproduction is possible with a computer equipped with AI. The energy assist center 1 is set to enable two-way communication. From the solar power generator 3 side, wind speed / wind direction, solar panel area information and angle information are transmitted to the AI renewable energy assist center 1, and the solar power generator 3 has strong winds. The light receiving areas of the solar panels 9, 10, and 11 are adjusted so as to generate power with the maximum efficiency while preventing them from being destroyed.
[Selection] Figure 1

Description

    In the present invention, a communication chip such as LoRaWAN is mounted on a renewable energy generator such as solar power generation or wind power generation, and the state of the renewable energy generator, power generation amount / charge amount, etc. are transmitted via a communication base station such as LoRaWAN. By sending it to the AI Renewable Energy Assist Center, AI (Artificial Intelligence) of the AI Renewable Energy Assist Center issues various operation instructions to the Renewable Energy Generator to increase the power generation efficiency or respond to strong winds in strong winds It is related to the system which performs.

Renewable energy such as photovoltaic power generation is currently less than 5% of the total amount of energy in Japan. Considering CO2 reduction and fossil fuel depletion as a measure against global warming, Since it is necessary to increase the power generation efficiency, it is thought that it will be necessary to increase the power generation efficiency and improve the safety measures of the solar tracking type solar power generation device so that it can be installed anywhere including the residential area. .
In order to increase the power generation efficiency of solar generators, it is desirable to increase the light receiving area and always face the sun, but in order to withstand strong winds such as typhoons, it is necessary to make it more robust However, there is a problem that a larger installation area is required and the weight and cost of the solar power generation device are increased.

JP 2017-11979

In consideration of wind intensity, wind direction and sun position, the light receiving area of the solar panel can be increased or decreased, and the LoRaWAN base is first constructed by a communication chip such as LoRaWAN built in the solar power generator. The current situation is communicated to the cloud-type AI (artificial intelligence) via the station, and an instruction to increase / decrease the light receiving area of the solar panel is sent from the AI to the solar power generator. At the angular position of the light panel, the light receiving area is expanded while preventing the solar panel from being destroyed by strong wind, and power generation is performed with maximum efficiency in the environment.

A solar power generator with a variable light-receiving area of the solar panel is equipped with a communication chip such as LoRaWAN, an anemometer, and an AI renewable energy assist center with a computer equipped with AI (artificial intelligence). Bidirectional communication is possible in 24 hours.
Via the communication base station such as LoRaWAN, the solar power generator transmits the wind speed / wind direction, solar panel area information and angle information to the AI renewable energy assist center, and the AI renewable energy assist. The center issues an instruction to adjust the light receiving area of the solar panel so as to generate power with maximum efficiency while preventing the solar power generator from being destroyed by strong winds.

According to the present invention, when the wind is weak, the light receiving area of the solar panel can be widened to increase the amount of power, and when the wind is strong, the light receiving area can be narrowed and kept from being destroyed. Because it is controlled by AI of time, it is controlled without human intervention, and the entire renewable energy machine such as solar power generation can be reduced in weight and the number of installable places increases, so the amount of power generation can be greatly increased. .
In addition, since a failure or accident of a renewable energy machine such as a solar power generation can be known in real time, there is an advantage that a repair response or the like can be performed quickly.

The outline | summary of this invention is shown.

Established AI Renewable Energy Assist Center, which is equipped with communication chips such as LoRaWAN and wind speed / wind direction meter in renewable energy machines such as solar power generation, and multiple computers equipped with AI (artificial intelligence). A renewable energy machine such as a solar power generator on the market and an AI renewable energy assist center enable two-way communication in 24 hours through a communication base station such as LoRaWAN.

In FIG. 1, by the LoRaWAN communication chip 7, the situation of the light receiving area variable solar power generator 3, that is, the angle information of the encoder of the motor directly connected to the light receiving surface rotating shaft 5 supported by the column rotating section 4 and the rotating bearing 6 And the information of the wind speed / direction meter 8 are transmitted to the AI renewable energy assist center 1 via the LoRaWAN communication base station 2, and the AI renewable energy assist center 1 takes into account the wind speed and wind direction. 9. Instructs how far the second-stage light receiving panel 10 and the third-stage light receiving panel 11 are to be exposed.
When the wind direction is perpendicular to the first-stage light receiving panel 9, the pressure received by the first-stage light receiving panel 9 tends to increase, so depending on the wind speed, the second-stage light receiving is performed for safety. The panel 10 and the third-stage light receiving panel 11 are oriented so as not to be exposed. Particularly in the case of strong winds such as typhoons, only the first-stage light receiving panel 9 is exposed, the first-stage light receiving panel 9 is set up vertically, the end face is directed to the windward, and it is set so as to be hidden by the column rotating unit 4. Thus, the wind pressure can be received with the minimum.
In the present embodiment, the light receiving panel has a three-stage structure, but it goes without saying that the number of stages can be further increased.
Further, in this embodiment, the wind power generator is not mounted, but it goes without saying that it can be mounted.

    In this way, if the light receiving area of the solar panel can be automatically changed according to the wind speed / direction and the tracking angle position of the solar light receiving panel, the overall weight of the device can be reduced, making transportation and installation easier. As a result, the number of installation locations and the like increase, leading to cost reduction, and it is possible to greatly increase the amount of power generated by renewable energy.

DESCRIPTION OF SYMBOLS 1 AI renewable energy assist center 2 LoRaWAN communication base station 3 Light-receiving area variable solar power generator 4 Strut rotating part 5 Light-receiving surface rotating shaft 6 Bearing 7 LoRaWAN communication chip 8 Wind speed / wind direction meter 9 First-stage light receiving panel
10 Second-stage light receiving panel
11 Third-stage light receiving panel

Claims (1)

It is possible to widen or narrow the exposed area of the light receiving panel , and in a solar tracking type solar power generator, a communication chip such as LoRaWAN is installed, and AI renewable energy installed with a computer with AI installed Enables real-time communication with the assist center, and via the communication base station such as LoRaWAN, the solar power generator side provides the wind speed / wind direction, solar panel area information and angle information to the AI renewable energy assist The AI Renewable Energy Assist Center sends an instruction to adjust the light receiving area of the solar panel to generate power with maximum efficiency while preventing the solar power generator from being destroyed by strong winds. Possible energy generator assist system.