AN OPTIMIZED PORTABLE INTEGRATED NEBULIZER WITH AUTOMATIC OVERHEAT SHUTDOWN AND TIME-SPECIFIC APPLICATION CONTROL ENHANCING LONG-TERM PATIENT CARE

Compressor nebulizers play a crucial role in treating respiratory conditions by facilitating the effective delivery of medications to the lungs. However, prolonged usage necessitates careful management to prevent overheating, which can compromise both device performance and patient safety. This study investigates the integration of an automated temperature controller into compressor nebulizers to address this issue along with its specific time of application to prevent excess use. Existing nebulizers on the market often lack overheating prevention mechanisms, requiring manual intervention to avoid damage. Leveraging the LM-35 temperature sensor, this research proposes a system that automatically shuts off the nebulizer when specific time of use is over or overheating is detected, subsequently resuming operation once temperatures have stabilized. By ensuring optimal device performance and patient support over extended periods, this innovation represents a significant advancement in respiratory care technology. KEYWORDS: Compressor, Nebulizer, Temperature, Prevention, Overheating, LM-35, Care, Technology.