A modular mobile vehicle washing and servicing facility for washing, vacuuming, and performing other vehicle servicing functions. The modular facility includes automated car wash equipment housed in mobile containers designed for easy transport and quick set up to serve as a functionally and visually integrated facility. The facility includes a car wash bay housing the car wash equipment and first and second bay modules positioned adjacent the car wash bay and housing additional equipment to support the washing features of the car wash bay. A canopy extends over the car wash bay to provide cover and protect the car wash equipment.

A vehicle wash system includes a wash package selection zone where a vehicle operator is presented with a plurality of different vehicle wash packages. Each of the vehicle wash packages has an associated unique color identifier. The system includes a controller configured to receive a selection from the vehicle operator of one of the plurality of different vehicle wash packages. The system includes a vehicle treatment zone, including at least one illumination element associated therewith. The at least one illumination element is in communication with the controller. The controller is configured to emit light from the at least one illumination element in a color that corresponds to the color identifier of the vehicle package selected by the vehicle operator.

A vehicle wash component for a vehicle wash system including a base portion, a rotatable stem portion in communication with the base portion, and a backing member in communication with the rotatable stem portion, which is configured to rotate about an axis of rotation. The backing member is linearly moveable with respect to the base portion between a first position away from a vehicle treatment area and a second position adjacent a vehicle treatment area. A plurality of media elements are secured to the backing member and configured to engage an exterior surface of a vehicle as the stem portion rotates. The plurality of media elements are constructed of a foam material that is configured to contact an exterior surface of a vehicle. The backing member is configured to linearly reciprocate with respect to the vehicle exterior during the vehicle wash process.

A vehicle wash component for a vehicle wash system including a base portion, a rotatable stem portion in communication with the base portion, and a backing member in communication with the rotatable stem portion, which is configured to rotate about an axis of rotation. The backing member is linearly moveable with respect to the base portion between a first position away from a vehicle treatment area and a second position adjacent a vehicle treatment area. A plurality of media elements are secured to the backing member and configured to engage an exterior surface of a vehicle as the stem portion rotates. The plurality of media elements are constructed of a foam material that is configured to contact an exterior surface of a vehicle. The backing member is configured to linearly reciprocate with respect to the vehicle exterior during the vehicle wash process.

Systems and methods are provided for automatically cleaning the exterior surfaces of a vehicle. The systems can include a motorized robot, cleaning element, and camera all communicatively linked to a processor. The processor can receive CAD information regarding the shape and size of the exterior surfaces of the vehicle to be cleaned along with information regarding the position of the motorized robot on the vehicle. The processor can then determine an efficient path for the motorized robot to travel across the vehicle surfaces. Along the course of its travel, the motorized robot can employ the cleaning element to remove dirt or other debris from the vehicle surface.

Systems and methods are provided for automatically cleaning the exterior surfaces of a vehicle. The systems can include a motorized robot, cleaning element, and camera all communicatively linked to a processor. The processor can receive CAD information regarding the shape and size of the exterior surfaces of the vehicle to be cleaned along with information regarding the position of the motorized robot on the vehicle. The processor can then determine an efficient path for the motorized robot to travel across the vehicle surfaces. Along the course of its travel, the motorized robot can employ the cleaning element to remove dirt or other debris from the vehicle surface.

A method and apparatus for cleaning surfaces of an object. A platform may be moved along a path relative to the object using a robotic device. A liquid may be applied onto the plurality of surfaces of the object using an applicator associated with the platform. The liquid may be worked into the plurality of surfaces using a plurality of cleaning elements associated with the platform to dislodge undesired material from the plurality of surfaces. A plurality of flexible members may be moved along the plurality of surfaces to dry the plurality of surfaces and remove the undesired material from the plurality of surfaces. An airflow may be generated that moves the undesired material into a vacuum duct in a vacuum system.

A method and apparatus for cleaning surfaces of an object. A platform may be moved along a path relative to the object using a robotic device. A liquid may be applied onto the plurality of surfaces of the object using an applicator associated with the platform. The liquid may be worked into the plurality of surfaces using a plurality of cleaning elements associated with the platform to dislodge undesired material from the plurality of surfaces. A plurality of flexible members may be moved along the plurality of surfaces to dry the plurality of surfaces and remove the undesired material from the plurality of surfaces. An airflow may be generated that moves the undesired material into a vacuum duct in a vacuum system.

A rotary brush for automatic vehicle washing systems, said brush comprising a central unit (2) and a plurality of cleaning elements (3), operatively supported by and coupled to said central unit (2) through removable coupling means (7); the cleaning elements (3) being removable from said central unit (2) and it being possible to replace and/or remove them without requiring the removal of said central unit from the rotary structure; said central unit (2) comprises a rigid shaft (4) that supports a plurality of supporting elements (5) comprising a plurality of lugs (53) to which the cleaning elements (3) are fastened; the rotary brush is characterized in that said cleaning elements (3) comprise bands (33), fringed and fringeless, helically arranged on said central unit (2) in such a way that each band (33) is coupled to a plurality of supporting elements (5).

A rotary brush for automatic vehicle washing systems, said brush comprising a central unit (2) and a plurality of cleaning elements (3), operatively supported by and coupled to said central unit (2) through removable coupling means (7); the cleaning elements (3) being removable from said central unit (2) and it being possible to replace and/or remove them without requiring the removal of said central unit from the rotary structure; said central unit (2) comprises a rigid shaft (4) that supports a plurality of supporting elements (5) comprising a plurality of lugs (53) to which the cleaning elements (3) are fastened; the rotary brush is characterized in that said cleaning elements (3) comprise bands (33), fringed and fringeless, helically arranged on said central unit (2) in such a way that each band (33) is coupled to a plurality of supporting elements (5).