Abstract: An aerosol generation device includes a removable pod that may include a solution to be atomized by the aerosol generation device. The pod includes a valve assembly that actuates once inserted into a corresponding aerosol generation device to place a solution contained within a reservoir of the pod in direct communication with a reservoir or an atomizer of the aerosol generation device without the need for wicking or capillary action. A mesh of the atomizer includes apertures that create a surface tension of the solution to prevent the solution from entering the airway of the aerosol generation device when not in use while facilitating atomization of the solution into the airway during use. The pod includes a security mechanism that authenticates to a corresponding aerosol generation device to preclude unauthorized use of the pod.
Abstract: An aerosol generation device includes an ergonomically correct unibody within which an aerosol generation device is enclosed. The unibody integrates components of the aerosol generation device into a sleek form factor designed for portability, whereby each component blends into the aesthetics defined by the unibody while providing reusable functionality. Airflow detection is used to activate aerosol generation and spacial orientation detection is used to activate status updates such as battery charge level and solution fill level. A user may define a rate of atomized solution that may be produced by the aerosol generation device through external control of the frequency of operation of the aerosol generation device. Use of medical-grade stainless steel and other hygienically correct components contribute to reusability and, therefore, the reduction of non-biodegradeable waste.