A method for operating a vehicle treatment system, in particular a vehicle washing system, includes treating at least one vehicle surface with at least one rotating brush with a brush material at an immersion depth of the brush, and controlling during the treatment of the vehicle surface, the rotating brush based on a setpoint value for the friction of the brush material on the vehicle surface, the immersion depth of the rotating brush on the vehicle surfaces treated therewith being monitored at the setpoint value during the treatment of the vehicle surface in order to determine the state of the brush material. In addition, a vehicle treatment apparatus, a use thereof, and a computer program product are provided.

Embodiments include a vehicle side washer assembly, a shaft assembly, and horizontal cloth brush panels. The side washer assembly includes a retractable angled primary arm, a retractable secondary arm, a shaft assembly having an upright shaft, and horizontal cloth brush panels. The upright shaft is disposed through a shaft attachment region of each of the horizontal cloth brush panels. The shaft assembly includes an upright shaft including notches and protrusions, and retrofit discs each including a shaft opening that matches contours of the upright shaft. Each of the retrofit discs includes rotary notches. The horizontal cloth brush panels each include flat fingers, a contiguous central region, and a brush shaft opening cut to match contours of the upright shaft. The horizontal cloth brush panels rotate in a reverse rotation with a direction of travel of a vehicle, and can be mixed and matches with various sizes and shapes.

An apparatus for cleaning a vehicle having at least one outer surface which is inclined by an inclination angle with respect to the vertical, includes a device for detecting the inclination angle of the at least one outer surface, a cleaning brush which can be passed along the at least one outer surface, a device for setting an inclination angle of the cleaning brush with respect to the vertical corresponding to the inclination angle of the at least one outer surface, a device 20 for monitoring the inclination angle of the cleaning brush, and a device for regulating the inclination angle of the cleaning brush for adjusting to the inclination angle of the at least one outer surface. A method for cleaning a vehicle having at least one outer surface which is inclined by an inclination angle with respect to the vertical is also provided.

A plastic clip core assembly is disclosed for use in a rotary brush in a carwash. The plastic clip core is comprised of a plastic clip core, a plurality of longitudinal washing elements (“LWE”) and an equal plurality of plastic clips. The plastic clip core assembly is mated to a rotational hub, creating a rotary brush. The plastic clip core has a plurality of semi-cylindrical void cavities, each with an adjoining cylindrical void cavity. Each plastic clip has two parallel members, a first member and a second member. Each LWE has an upper edge, lower edge, free edge, and a cylindrical mount. A first member of a plastic clip fits into the cylindrical mount of the LWE and the semi-cylindrical void cavity. The second member of the plastic clip fits into the cylindrical void cavity, thus securing the LWE to the plastic clip core. The plastic clip core mates with the rotational hub in a no-slip condition.

A plastic clip core assembly is disclosed for use in a rotary brush in a carwash. The plastic clip core is comprised of a plastic clip core, a plurality of longitudinal washing elements (“LWE”) and an equal plurality of plastic clips. The plastic clip core assembly is mated to a rotational hub, creating a rotary brush. The plastic clip core has a plurality of semi-cylindrical void cavities, each with an adjoining cylindrical void cavity. Each plastic clip has two parallel members, a first member and a second member. Each LWE has an upper edge, lower edge, free edge, and a cylindrical mount. A first member of a plastic clip fits into the cylindrical mount of the LWE and the semi-cylindrical void cavity. The second member of the plastic clip fits into the cylindrical void cavity, thus securing the LWE to the plastic clip core. The plastic clip core mates with the rotational hub in a no-slip condition.

A wash equipment assembly for a car wash and method of operating the equipment are described. For example, the assembly includes a cleaning element configured to clean a vehicle, an arm assembly operably attached to the cleaning element and configured to move the cleaning element to a vehicle cleaning position, the arm movably fixed to a support at a first end and the cleaning element mounted on the arm at a second end, a controlled locator for positioning the arm relative to the support such that the cleaning equipment is moved to the vehicle cleaning position, and a sensor for evaluating an actual orientation of the cleaning element relative to a default orientation of the cleaning element. In certain implementations, the controlled locator can modify the position of the arm in response to a signal from the sensor, thereby providing a closed loop control system.

A wash equipment assembly for a car wash and method of operating the equipment are described. For example, the assembly includes a cleaning element configured to clean a vehicle, an arm assembly operably attached to the cleaning element and configured to move the cleaning element to a vehicle cleaning position, the arm movably fixed to a support at a first end and the cleaning element mounted on the arm at a second end, a controlled locator for positioning the arm relative to the support such that the cleaning equipment is moved to the vehicle cleaning position, and a sensor for evaluating an actual orientation of the cleaning element relative to a default orientation of the cleaning element. In certain implementations, the controlled locator can modify the position of the arm in response to a signal from the sensor, thereby providing a closed loop control system.

A vehicle wash system includes a vehicle treatment area and an overhead frame portion supporting a pair of side brushes. The side brushes are configured to treat the lateral sides of the vehicle and may also treat the front and back of the vehicle. The side brushes are configured to pivot between a vertical position, an outwardly angled position, and inwardly angled position. The side brushes may travel along the side of the vehicle in both the vertical and pivoted orientations. The side brushes may make multiple passes along the side of the vehicle, and the side brushes may change orientation during or between passes to treat different segments of the vehicle. The side brushes may be actively pivoted or may pivot in response to contacting the vehicle when shifted laterally into contact with the vehicle.

A vehicle wash system includes a vehicle treatment area and an overhead frame portion supporting a pair of side brushes. The side brushes are configured to treat the lateral sides of the vehicle and may also treat the front and back of the vehicle. The side brushes are configured to pivot between a vertical position, an outwardly angled position, and inwardly angled position. The side brushes may travel along the side of the vehicle in both the vertical and pivoted orientations. The side brushes may make multiple passes along the side of the vehicle, and the side brushes may change orientation during or between passes to treat different segments of the vehicle. The side brushes may be actively pivoted or may pivot in response to contacting the vehicle when shifted laterally into contact with the vehicle.

A component for a vehicle wash system includes a rotatable stem portion and a backing member in communication with the rotatable stem portion. The backing member is configured to rotate with the stem portion about an axis of rotation defined by the centerline of the stem portion. A plurality of media elements are secured to the backing member with the plurality of media elements being constructed of a generally self-supporting, non-marring material and wherein the plurality of media elements are oriented generally perpendicular to the backing member. The plurality of media elements configured to rotate in a working plane defined by the backing member and the working plane is oriented generally perpendicularly to the axis of rotation. Additionally, the plurality of media elements are configured during a wash process to contact at least an exterior painted surface of a vehicle to effectuate cleaning thereof.