An automobile vehicle self-cleaning modular floor system includes a self-cleaning modular assembly positioned in a passenger compartment of an automobile vehicle and including a tread portion, the tread portion having a first face and an oppositely directed second face. The first face of the tread portion when upwardly directed defines a first position of the tread portion, with a waste item collecting onto the first face in the first position during operation of the automobile vehicle. The tread portion is selectively moved from the first position to a second position having the first face downwardly directed and the second face upwardly directed. A waste collection tray is positioned below the tread portion to receive the waste item when the tread portion is in the second position.

Vacuum cleaners to be mounted in a vehicle are disclosed. Some of the vacuum cleaners have a modular design that allow the vacuum cleaners to be arranged, assembled, and/or installed in different configurations and to fit in different spaces within the vehicle. Vacuum cleaners may include a vacuum module, a collector module, and/or a hose storage module. An interconnecting duct is configured to operatively couple the vacuum module and the collector module in any one of a plurality of different predefined assembly configurations. The collector module may have a debris canister that may be lifted straight out of a collector housing. The vacuum cleaner may be installed in a vehicle in a manner to allow easy removal of the debris canister without disconnecting and/or removing other portions of the vacuum cleaner.

Vacuum cleaners to be mounted in a vehicle are disclosed. Some of the vacuum cleaners have a modular design that allow the vacuum cleaners to be arranged, assembled, and/or installed in different configurations and to fit in different spaces within the vehicle. Vacuum cleaners may include a vacuum module, a collector module, and/or a hose storage module. An interconnecting duct is configured to operatively couple the vacuum module and the collector module in any one of a plurality of different predefined assembly configurations. The collector module may have a debris canister that may be lifted straight out of a collector housing. The vacuum cleaner may be installed in a vehicle in a manner to allow easy removal of the debris canister without disconnecting and/or removing other portions of the vacuum cleaner.

An automated cleaning system is disclosed having a track or rail, and a body having a cylindrical or capsule configuration. The cleaning system further includes a cleaning or disinfectant solution disposed within the body and one or more nozzles secured to one or more sides of the body for dispensing the cleaning solution. The cleaning system also includes one or more wheels or bearings secured to the body, wherein the wheels or bearings are at least partially received within the track. Further, the track can be suspended from overhead within a structure. Here, the cleaning system can be automated and programmed to operate during predefined schedules with little to no human intervention, thereby minimizing the risk associated with cleaning surfaces and open areas, among other advantages.

An automated cleaning system is disclosed having a track or rail, and a body having a cylindrical or capsule configuration. The cleaning system further includes a cleaning or disinfectant solution disposed within the body and one or more nozzles secured to one or more sides of the body for dispensing the cleaning solution. The cleaning system also includes one or more wheels or bearings secured to the body, wherein the wheels or bearings are at least partially received within the track. Further, the track can be suspended from overhead within a structure. Here, the cleaning system can be automated and programmed to operate during predefined schedules with little to no human intervention, thereby minimizing the risk associated with cleaning surfaces and open areas, among other advantages.

A system for dislodging debris from one or more surfaces includes an air inlet, an air outlet fluidly coupled with the air inlet, an air jet forming a trainable air stream between the air inlet and the air outlet, and a vibration device comprising a vibration controller, and one or more vibrators. The vibration device creates vibrations such that debris on the one or more surfaces is dislodged such that debris is captured in the trainable air stream, and the air stream carries the dislodged debris to the air outlet.

A system for dislodging debris from one or more surfaces includes an air inlet, an air outlet fluidly coupled with the air inlet, an air jet forming a trainable air stream between the air inlet and the air outlet, and a vibration device comprising a vibration controller, and one or more vibrators. The vibration device creates vibrations such that debris on the one or more surfaces is dislodged such that debris is captured in the trainable air stream, and the air stream carries the dislodged debris to the air outlet.

A retractable sanitizing apparatus for a vehicle including a return station, a sanitizing mechanism positionable between a first sanitizing position, a second sanitizing position, and a stowed position, the sanitizing mechanism positioned at the return station when in the stowed position, and a linkage member connecting the sanitizing mechanism to the return station and positioning the sanitizing mechanism between the first sanitizing position and the second sanitizing position, wherein the sanitizing mechanism sanitizes a surface of the vehicle as the sanitizing mechanism moves from the first sanitizing position to the second sanitizing position and across the surface of the vehicle.

A retractable sanitizing apparatus for a vehicle including a return station, a sanitizing mechanism positionable between a first sanitizing position, a second sanitizing position, and a stowed position, the sanitizing mechanism positioned at the return station when in the stowed position, and a linkage member connecting the sanitizing mechanism to the return station and positioning the sanitizing mechanism between the first sanitizing position and the second sanitizing position, wherein the sanitizing mechanism sanitizes a surface of the vehicle as the sanitizing mechanism moves from the first sanitizing position to the second sanitizing position and across the surface of the vehicle.

A vehicle sanitizer system includes a sanitizer emitter member, selectively moveable between a stowed position in a compartment of a vehicle cabin and a deployed position out of the compartment; a sensor module to detect an interior of a vehicle cabin as sensor data; and a vehicle sanitizer module, that includes one or more processors to execute a set of instructions that cause the vehicle sanitizer module to: conduct, in response to the detection, an analysis of the sensor data; identify, in response to the analysis, one or more target interior surfaces in the vehicle cabin to be sanitized; and cause, via the sanitizer emitter member and in response to the identification, generation of water vapor content into the vehicle cabin, one or more sanitizer streams directed at the identified one or more target interior surfaces.