US20250126191
2025-04-17
Electricity
H04M1/0222
An innovative electronic device is described that features a foldable design with multiple housings and a flexible display. The device comprises three housings connected by hinge structures, each equipped with actuators to facilitate movement. The flexible display spans across the surfaces of these housings, allowing for a seamless transition between folded and unfolded states. This design aims to enhance usability by providing a large-screen experience while maintaining portability.
The device incorporates sensors and processors that work together to manage the folding mechanisms. Upon receiving user input, the system identifies the current posture of the device using sensor data. It then selects an appropriate driving scheme from a set of predefined options to control the actuators. This coordinated approach ensures smooth transitions between states, minimizing the risk of damage from improper handling.
The electronic device includes several critical components: a first housing with two surfaces, a second housing with opposing surfaces, and a third housing similarly configured. Hinge structures and actuators connect these housings, allowing them to rotate and change angles up to 180 degrees. A flexible display covers specific areas on each housing surface, creating a continuous screen when unfolded. The device also features memory storage for computer programs and processors that execute instructions for state changes.
This foldable device enhances user convenience by providing an automated folding and unfolding sequence. By utilizing actuators to perform these operations, users can enjoy a hassle-free experience that reduces potential damage from manual manipulation. The system's ability to adaptively manage state changes based on sensor feedback further improves reliability and user satisfaction.
The patent outlines how non-transitory computer-readable storage media can store programs that execute the necessary operations for state transitions. These programs enable the device to respond accurately to user inputs by leveraging sensor data and predefined postures. This sophisticated control mechanism not only protects the device but also offers an intuitive interface for users seeking a versatile and portable electronic solution.