Abstract: An atomizing assembly and an atomizing device are provided in the disclosure. The atomizing assembly is configured to atomize liquid to-be-atomized and includes an oil cup, an atomizer, an opening-closing member, and a suction nozzle. The oil cup is configured to store the liquid to-be-atomized. The atomizer is disposed in the oil cup and configured to atomize the liquid to-be-atomized. The atomizer includes an atomizing rod and an atomizing core disposed in the atomizing rod. The opening-closing member covers one end of the atomizing rod away from a bottom of the oil cup and has a closed state and an open state. The suction nozzle slidably covers the oil cup. The suction nozzle extends through the opening-closing member when the suction nozzle moves toward the oil cup, such that the opening-closing member is in the open state, and the suction nozzle communicates with the atomizing rod.
Abstract: The present disclosure provides a heating assembly and an atomization device. The atomization device includes an oil guiding member and a heating member. The oil guiding member has a through hole cutting through the oil guiding member. The through hole is configured to guide atomized gas generated on the oil guiding member out of the oil guiding member. The oil guiding member includes a connecting part. The connecting part is located in the through hole. The connecting part spans the through hole along a radial direction of the through hole. The heating member is embedded in one end of the oil guiding member. At least part of the heating member is located on the connecting part. The heating member is used for heating the oil guiding member, so that the liquid to be atomized is atomized on an end face of the oil guiding member close to the heating member.
Abstract: A communication and heating system for electronic nebulizer and related products are provided. The communication and heating system includes a battery circuit and a nebulizer circuit. The battery circuit is coupled with the nebulizer circuit through a first electrode and a second electrode which are movable. The battery circuit includes a first chip and a battery. The nebulizer circuit includes a second chip and a heating device. The first chip is configured to communicate with the second chip to perform identity authentication when the battery circuit is coupled with the nebulizer circuit. The first chip is configured to control the battery to supply power to the heating device when the identity authentication is successful. In this way, convenience of information exchange between the battery and the nebulizer can be improved.
Abstract: A communication and heating system for electronic nebulizer and related products are provided. The communication and heating system includes a battery circuit and a nebulizer circuit. The battery circuit is coupled with the nebulizer circuit through a first electrode and a second electrode which are movable. The battery circuit includes a first chip and a battery. The nebulizer circuit includes a second chip and a heating device. The first chip is configured to communicate with the second chip to perform identity authentication when the battery circuit is coupled with the nebulizer circuit. The first chip is configured to control the battery to supply power to the heating device when the identity authentication is successful. In this way, convenience of information exchange between the battery and the nebulizer can be improved.