US20260049443
2026-02-19
Textiles; paper
D06F58/38
The dryer described is designed to enhance drying efficiency and versatility by incorporating advanced dielectric heating technology. It features a cabinet with internal electrodes and a detachable third electrode, all powered by a radio frequency (RF) power supplier. This configuration allows the dryer to create multiple accommodation spaces within the cabinet, each capable of generating an electric field tailored to the specific drying needs of objects placed inside.
The system includes a processor that dynamically manages the RF power distribution to the electrodes, thus optimizing the drying process. The processor uses data collected from sensors within the cabinet to adjust the electric field generated in each accommodation space. This approach not only improves drying efficiency but also ensures that objects made of various materials can be dried simultaneously without damage.
By dividing the cabinet into distinct accommodation spaces, the dryer can independently dry different materials at the same time, optimizing energy use and preventing damage to sensitive items. This flexibility is achieved through the strategic placement and activation of the third electrode, which is attachable and detachable, allowing for customizable drying spaces.
The dryer provides detailed information about each accommodation space, enhancing user experience and control. This information is accessible through a user interface, which displays the status of each drying space and provides notifications throughout the drying process. Users can receive updates on drying progress and make adjustments as needed.
The control system of the dryer is robust, featuring a flowchart-guided method for adjusting RF power and managing drying operations. This system ensures that each material type is treated appropriately, with the ability to pause operations and provide notifications. The design also supports multiple operational modes, adapting to various drying requirements and user preferences.