Description:Technical Field of the Invention:
[001] The present invention pertains to the field of renewable energy technologies, specifically focusing on advanced photovoltaic (PV) systems. It addresses the design and development of ultra-thin, rollable solar panels that incorporate wireless charging capabilities.
[002] These innovations aim to enhance the portability, efficiency, and versatility of solar energy solutions, making them suitable for a wide range of applications.
[003] The invention leverages cutting-edge materials and manufacturing techniques to produce solar panels that are highly flexible and lightweight, without compromising on energy conversion efficiency.
[004] By integrating wireless charging technology, the invention facilitates seamless energy transfer to compatible devices, thereby eliminating the need for physical connectors and improving user convenience.
[005] The invention's applications extend to various domains, including consumer electronics, where the panels can provide portable power for smartphones, tablets, and other gadgets; emergency power supplies, where they can serve as a reliable source of energy in remote or disaster-stricken areas; and remote installations, where they can be deployed in off-grid locations for sustainable energy generation.
Background of the invention:
[006] The increasing demand for renewable energy solutions has driven significant advancements in photovoltaic (PV) technology. Solar energy, being abundant and sustainable, has emerged as a key player in the transition towards clean energy.
[007] Traditional solar panels, however, face several limitations that hinder their widespread adoption. These limitations include bulkiness, rigidity, and the need for fixed installations, which restrict their portability and versatility.
[008] In recent years, efforts have been made to develop flexible and lightweight solar panels that can be easily transported and deployed in various environments. These advancements have led to the creation of thin-film solar cells, which offer greater flexibility compared to conventional silicon-based panels.
[009] Despite these improvements, there is still a need for further innovation to enhance the portability and efficiency of solar energy solutions.
[0010] One area that remains relatively unexplored is the integration of wireless charging capabilities into solar panels. Wireless charging technology has gained popularity in the consumer electronics industry due to its convenience and ease of use.
[0011] By incorporating wireless charging into solar panels, it is possible to create a more seamless and user-friendly experience for energy transfer, eliminating the need for physical connectors.
[0012] The present invention addresses these challenges by introducing ultra-thin, rollable solar panels with integrated wireless charging capabilities. These panels are designed to be highly portable, efficient, and versatile, making them suitable for a wide range of applications.
[0013] The innovative combination of advanced PV materials and wireless charging technology aims to provide a novel solution that meets the growing demand for flexible and convenient renewable energy sources.
Summary of the invention:
[0014] The present invention relates to the development of ultra-thin, rollable solar panels integrated with wireless charging capabilities. The primary objective of this invention is to provide a highly portable, efficient, and versatile solar energy solution that addresses the limitations of traditional rigid solar panels.
[0015] The solar panels are designed to be exceptionally thin, utilizing advanced photovoltaic materials that ensure high energy conversion efficiency despite the reduced thickness. This design allows for easy storage, transportation, and deployment in various environments.
[0016] The panels are highly flexible and can be rolled up for convenient transportation and storage. This rollable structure makes them ideal for use in portable applications, emergency power supplies, and remote installations where traditional rigid panels would be impractical.
[0017] The integration of wireless charging technology enables seamless energy transfer to compatible devices. This feature eliminates the need for physical connectors, enhancing user convenience and reducing the risk of connector damage.
[0018] The use of cutting-edge materials, such as perovskite or organic photovoltaic compounds, ensures high efficiency and durability. These materials maintain their performance even when the panels are bent or rolled, providing reliable energy generation in various conditions.
[0019] The invention is designed to cater to a wide range of applications, including consumer electronics, portable power supplies, emergency response scenarios, and remote installations.
[0020] The flexibility and efficiency of the panels make them suitable for diverse use cases, offering a practical and sustainable energy solution.
A detailed description of the invention:
[0021] The present invention provides an advanced photovoltaic (PV) system in the form of ultra-thin, rollable solar panels integrated with wireless charging capabilities.
[0022] The invention is designed to enhance portability, efficiency, and user convenience, making solar energy more accessible and versatile for a wide range of applications.
[0023] The solar panels are designed to be exceptionally thin, using advanced photovoltaic materials such as perovskite or organic photovoltaic compounds. These materials offer high energy conversion efficiency while maintaining flexibility and durability. The panels have a multi-layered structure, comprising the following layers:
[0024] Top Protective Layer is made of a transparent, durable material that protects the underlying photovoltaic cells from environmental factors such as dust, moisture, and UV radiation.
[0025] Photovoltaic Layer contains the advanced photovoltaic materials that convert sunlight into electrical energy. The materials are chosen for their high efficiency and flexibility, allowing the panels to be rolled or bent without compromising performance.
[0026] Substrate Layer provides mechanical support to the photovoltaic layer. It is made of a flexible, lightweight material that enables the rollable nature of the panels.
[0027] Back Protective Layer shields the back of the panels from environmental factors and mechanical damage.
[0028] The invention's rollable structure is a key aspect that enhances its portability and ease of use. The panels can be rolled up into a compact form, allowing for convenient transportation and storage.
[0029] The rollable design is achieved through the use of flexible materials and a unique manufacturing process that ensures the panels maintain their structural integrity when rolled or bent.
[0030] Wireless Charging Integration is one of the novel features of this invention is the integration of wireless charging technology. The solar panels are equipped with wireless charging modules that enable seamless energy transfer to compatible devices.
Brief description of drawings:
[0031] The figures illustrate the schematic diagram of the wireless charging system integrated within the solar panel, including the transmitter coil, control circuitry, and power management system.
[0032] Fig. 1 Wireless Energy Transfer Process Between Solar Panel and Compatible Device
[0033] Fig. 2 Schematic Diagram of Integrated Wireless Charging System
, Claims:Claim-1: An ultra-thin, rollable solar panel designed for easy transportation and storage, comprising a transparent, durable top protective layer, a flexible, lightweight substrate layer providing mechanical support, and a back protective layer that shields the photovoltaic layer from environmental factors and mechanical damage.
Claim-2: The solar panel of claim 1, further comprising wireless charging modules integrated within the panel.
Claim-3: A transmitter coil embedded within the panel that generates an electromagnetic field when powered by the photovoltaic cells.
Claim-4: The solar panel of claim 2, wherein the transmitter coil is configured to transfer energy wirelessly to a compatible device equipped with a receiver coil.
Claim-5: The solar panel of claim 1, wherein the photovoltaic materials maintain high energy conversion efficiency when the panel is bent or rolled.
Claim-6: The solar panel of claim 1, further comprising a power management system that optimizes energy generation and storage.
Claim-7: The solar panel of claim 1, wherein the panel is designed for use in consumer electronics, portable power supplies, emergency power supplies, and remote installations.