CN104213678A - Flexible solar intelligent sunshade system - Google Patents

Abstract

The invention provides a flexible solar intelligent sunshade system. The flexible solar intelligent sunshade system comprises a sunshade, a solar cell, a solar controller, an energy storage battery, a power supply management part, a sunshade controller, a motor drive and transmission part, a sensor and a remote controller. The flexible solar intelligent sunshade system is high in illumination utilization rate, electricity generating efficiency and intelligent degree; existing natural conditions are fully used, and the flexible solar intelligent sunshade system is capable of saving energy, environmentally friendly, attractive in appearance, convenient to install, low in system cost and suitable for rapid and large-area popularization. The intelligent building integrated photovoltaic technology is adopted, solar energy, the sunshade and an illumination regulation system are integrated, a household system which is free of external power supplying, intelligent and environmentally friendly is composed, and the flexible solar intelligent sunshade system has good market application prospects.

Description

A flexible solar intelligent sunshade system

technical field

The patent of the present invention relates to a solar intelligent awning system, in particular to the design of a solar power generation system and an intelligent control system.

Background technique

With economic development, social progress and improvement of living standards, people put forward higher requirements for smart homes and low-carbon environmentally friendly buildings. BIPV emerges in response to the situation. Most of the existing smart homes use 220VAC as the power supply. There are two disadvantages in using this power supply mode: one is to provide a separate external power supply for each independent smart home system. The wiring is cumbersome; the second is that this power supply mode has potential safety hazards, and once the electricity leaks, it will cause electric shock to the user.

The power required by the solar intelligent awning system of the present invention is completely provided by its own solar system without external power supply. The whole system works in a low-voltage direct current state, eliminating hidden dangers of electric shock. It is a real smart home system. This technology is an intelligent photovoltaic building integration technology, which integrates solar energy, awnings, light adjustment and intelligent control systems to form an intelligent, green and environmentally friendly home system, which has a good market application prospect.

Contents of the invention

The patent of the present invention provides a design scheme of a solar intelligent awning system and an intelligent control system.

The patented technical solution of the present invention is characterized in that the power demand is completely provided by the solar system, and the low-voltage direct current solution is adopted, which is convenient for installation and good in safety; the dual sensor structure is adopted, and the detection of the external environment is more accurate; the dual control mode is adopted, and the remote controller has Higher priority, convenient for customers to use; the operation of the entire system is coordinated by the intelligent control system.

Preferably, the intelligent control system adopts dual control modes to provide users with more choices.

Preferably, the remote controller of the intelligent control system has a higher priority, which is convenient for users to adjust and control.

Preferably, the flexible solar cells are any one or a combination of flexible solar cells such as amorphous silicon thin film flexible solar cells, CIGS flexible solar cells, and organic flexible solar cells.

Preferably, the flexible solar cells can be installed on the awning or independent from the awning.

Preferably, the energy storage battery is a lithium ion battery, which has the characteristics of light weight, high specific capacity, long cycle life and maintenance-free.

Preferably, the sensor adopts a double-sensor structure, which is respectively placed at the left and right ends of the awning. Only when the light intensity at both ends increases or decreases to a certain extent at the same time, the awning will be opened or closed. This structure effectively avoids blocking False operation caused by objects blocking one of the sensors.

The intelligent sunshade system of the present invention is easy to install, low-carbon and energy-saving, and truly realizes complete automation and independent control of photovoltaic buildings. It has high social, economic and environmental benefits.

Description of drawings

Fig. 1 is a functional flow diagram of the present invention

Fig. 2 is a structural representation of an engineering example of the present invention

Detailed ways

In order to enable those skilled in the art to better understand the technical solution of the present invention, and to make the above-mentioned purpose, features and advantages of the present invention more obvious and understandable, the present invention will be further described in detail below in conjunction with the schematic structural diagram.

The intelligent sunshade system of the present invention adopts a sunshade with a width of 1.8m and an extension length of 1.2m. Two light intensity sensors are placed at both ends of the mounting bracket. The whole system is powered by 12VDC. 3 Ah. The flexible solar cells are made of amorphous silicon thin-film solar cells, which are installed at the front end of the awning.

The open circuit voltage of this type of battery: Voc=2.25V, the maximum power output working voltage Vpm=1.67V.

This system uses 8-string structure, the maximum output power Pmax=5W, and the maximum power output working voltage Vpmax=13.36V. In good weather, the electricity generated by the solar battery can fully charge the energy storage battery. The electricity generated by the solar panel charges the lithium-ion battery through the solar controller, and then provides power to all parts of the system through the power management part. The solar controller, energy storage battery, power management part, and awning controller are integrated in a box to prevent them from being outside the awning. The motor drive and transmission parts are built-in and placed inside the awning reel.

Claims (7)

1. A solar intelligent awning system, including flexible solar cells, solar controllers, energy storage batteries, power management parts, awnings, awning controllers, motor drive and transmission parts, sensors, remote controls, and solar cells The energy storage battery is connected through the solar controller, and the energy storage battery is connected with the awning controller, motor drive and transmission part and the sensor through the power management part. The awning controller receives the instructions sent by the sensor and the remote control, and is driven by the motor according to the instructions. And the transmission part drives the awning to open and close. 2. The intelligent control system is characterized in that it adopts a dual control mode, and the remote control has a higher priority. 3. The solar energy intelligent awning system according to claim 1, wherein the flexible solar cells adopt any flexible solar cells such as amorphous silicon thin film flexible solar cells, CIGS flexible solar cells, organic flexible solar cells, etc. one or a combination of several. 4. The solar intelligent awning system according to claim 1, characterized in that the energy storage battery is a lithium-ion battery. 5. The solar intelligent awning system according to claim 1, characterized in that it adopts a double sensor structure, which is respectively placed at the left and right ends of the awning. 6. The solar intelligent awning system according to claim 1, characterized in that the entire system is powered by solar energy. 7. The solar intelligent awning system according to claim 1, characterized in that the entire system adopts a low-voltage direct current working mode.