A vacuum cleaner exhaust deodorizer that is configured to provide aromatic treatment of airflow exiting the exhaust of a vacuum cleaner. The present invention includes a housing wherein the housing includes a plurality of walls defining an interior volume and a shape of the housing. The walls of the housing have formed therein a multitude of apertures. The multitude of apertures permit airflow to penetrate into the interior volume of the housing and interact with a deodorizing compound disposed therein so as to provide aromatic treatment of the airflow as the airflow exits the vacuum exhaust outlet. The housing of the present invention is releasably secured to a door member that is hingedly secured to the vacuum cleaner adjacent the exhaust outlet. The body of the present invention is provided in a shape that is mateably to the shape of the exhaust outlet of the vacuum cleaner.

An autonomous robotic device capable of vacuum cleaning and purifying air includes an autonomous robotic vacuum cleaner for moving autonomously and vacuum cleaning, and an air purifier. The autonomous robotic vacuum cleaner has a power supply and a top surface provided with a plurality of positioning members. The air purifier has an air inlet, an air outlet, and a plurality of matching members at the bottom thereof. The air purifier is detachably disposed on the autonomous robotic vacuum cleaner in a way that the matching members are in contact with the positioning members to create a positioning relationship for positioning the air purifier on the autonomous robotic vacuum cleaner, and an electrical connection to enable the air purifier to receive electric power from the power supply of the autonomous robotic vacuum cleaner.

An autonomous robotic device capable of vacuum cleaning and purifying air includes an autonomous robotic vacuum cleaner for moving autonomously and vacuum cleaning, and an air purifier. The autonomous robotic vacuum cleaner has a power supply and a top surface provided with a plurality of positioning members. The air purifier has an air inlet, an air outlet, and a plurality of matching members at the bottom thereof. The air purifier is detachably disposed on the autonomous robotic vacuum cleaner in a way that the matching members are in contact with the positioning members to create a positioning relationship for positioning the air purifier on the autonomous robotic vacuum cleaner, and an electrical connection to enable the air purifier to receive electric power from the power supply of the autonomous robotic vacuum cleaner.

An air outlet structure of a vacuum cleaner with aroma generation includes an air duct, an airflow generating device, an air filtering device, and an aroma sheet. The airflow generating device is configured to generate airflow in the air duct, and the air filtering device and the aroma sheet are disposed in the air duct. The air filtering device is disposed at one end of each of air outlets of the air duct, and the air filtering device divides the air duct into an inner air duct and an outer air duct. The airflow flows from the inner air duct to the outer air duct under an action of the airflow generating device, and the aroma sheet is disposed in the air duct.

An autonomous robotic device capable of vacuum cleaning and purifying air includes an autonomous robotic vacuum cleaner for moving autonomously and vacuum cleaning, and an air purifier. The autonomous robotic vacuum cleaner has a power supply and a top surface provided with a plurality of positioning members. The air purifier has an air inlet, an air outlet, and a plurality of matching members at the bottom thereof. The air purifier is detachably disposed on the autonomous robotic vacuum cleaner in a way that the matching members are in contact with the positioning members to create a positioning relationship for positioning the air purifier on the autonomous robotic vacuum cleaner, and an electrical connection to enable the air purifier to receive electric power from the power supply of the autonomous robotic vacuum cleaner.

Systems and methods for providing an air agitator nozzle system are disclosed. In an exemplary embodiment, the system comprises a vacuum and a nozzle. The vacuum is configured to suck particles from a floor surface. The nozzle is configured to spray air at the floor surface to loosen the particles and to push the loosened particles toward the vacuum to be sucked from the floor surface.

Systems and methods for providing an air agitator nozzle system are disclosed. In an exemplary embodiment, the system comprises a vacuum and a nozzle. The vacuum is configured to suck particles from a floor surface. The nozzle is configured to spray air at the floor surface to loosen the particles and to push the loosened particles toward the vacuum to be sucked from the floor surface.

An allergen reduction device may include a body, a dust cup removably coupled to the body, a plurality of agitators rotatably coupled to the body and disposed within respective agitator cavities defined in the body, a suction motor disposed within the body and configured to cause air to flow along corresponding cleaning airflow paths from the agitator cavities into the dust cup, a hot air outlet fluidly coupled to the suction motor, the suction motor being configured to urge the air through the hot air outlet along a heated exhaust airflow path, and a heater positioned within the heated exhaust airflow path between the suction motor and the hot air outlet, the heater being configured to heat the air that is urged from the hot air outlet.

An allergen reduction device may include a body, a dust cup removably coupled to the body, a plurality of agitators rotatably coupled to the body and disposed within respective agitator cavities defined in the body, a suction motor disposed within the body and configured to cause air to flow along corresponding cleaning airflow paths from the agitator cavities into the dust cup, a hot air outlet fluidly coupled to the suction motor, the suction motor being configured to urge the air through the hot air outlet along a heated exhaust airflow path, and a heater positioned within the heated exhaust airflow path between the suction motor and the hot air outlet, the heater being configured to heat the air that is urged from the hot air outlet.

Systems and methods for providing an air agitator nozzle system are disclosed. In an exemplary embodiment, the system comprises a vacuum and a nozzle. The vacuum is configured to suck particles from a floor surface. The nozzle is configured to spray air at the floor surface to loosen the particles and to push the loosened particles toward the vacuum to be sucked from the floor surface.