An attachment assembly to convert an existing leaf blower into a device for drying vehicles. The attachment assembly includes several interchangeable modular sections, including an adapter section configured to attach to the air outlet of an existing commercial leaf blower. Other sections include air outlet nozzle sections, an extender section, and a weighted section. The inlet side of the nozzle sections, extender section, and weighted section as well as the outlet sides of the adapter section, extender section, and weighted section are uniform so that any of the outlets may be mated with any of the inlets. This allows any configuration of sections desired to be achieved. The adapter section may have a filter placed in the air stream to prevent debris from being blown into the vehicle and damaging the exterior of the vehicle.

In order to provide a treatment installation for treating workpieces that is of simple construction and enables optimised workpiece treatment, it is proposed that the treatment installation should include a treatment chamber and a conveying device, by means of which the workpieces are suppliable to the treatment chamber, are removable from the treatment chamber, and/or are conveyable through the treatment chamber in a conveying direction.

The invention is directed at systems and methods which provide for effective cleaning and drying of vehicles of different shapes and sizes. The invention in one example includes a vehicle washing apparatus comprising a conveyor system to move a vehicle along a path, and a bridge assembly supported above a vehicle and moveable along the length thereof. At least one trolley assembly is operatively supported by the bridge assembly and is moveable in a direction generally transverse to the movement of the bridge assembly. At least one cleaning arm assembly for delivering cleaning fluid to or for brushing the surface of a vehicle is operatively supported by the at least one trolley assembly or bridge. The cleaning arm assembly is moveable with the bridge assembly along the length of the vehicle, and transversely with the at least one trolley assembly to adjust the location of the cleaning arm relative to the vehicle, wherein the bridge assembly moves in association with movement of the vehicle to position the cleaning arm assembly adjacent at least a portion of the front, sides and rear of the vehicle as it moves along the path. A variable impact or patterning spray arm or drying system is also provided.

A fan assembly, and associated methods are shown that may include tapering configurations in a nozzle assembly. Configurations are shown that are optimized for thrust. Examples of assemblies and methods are shown that include sound attenuating materials and jagged edges to reduce noise. Configurations are shown that provide a substantially constant or increasing air velocity. Configurations are also shown that provide a static pressure of 120 percent or less of a given dynamic pressure.

A transportable vehicle enclosure for inspecting vehicles is formed as a mono-block suitable for loading onto a transporter and unloading from a transporter. The enclosure includes side, front, rear, ceiling and floor portions, at least one of the portions being configured to allow vehicular assess whereby, in use, a vehicle maybe placed within the enclosure. The enclosure further includes a plurality of cameras integrated into or on a plurality of proportions for imaging each side of the vehicle when a vehicle is located in the enclosure.

In order to provide a treatment installation for treating workpieces that is of simple construction and enables optimised workpiece treatment, it is proposed that the treatment installation should include a treatment chamber and a conveying device, by means of which the workpieces are suppliable to the treatment chamber, are removable from the treatment chamber, and/or are conveyable through the treatment chamber in a conveying direction.

The invention is directed at systems and methods which provide for effective cleaning and drying of vehicles of different shapes and sizes. The invention in one example includes a vehicle washing apparatus comprising a conveyor system to move a vehicle along a path, and a bridge assembly supported above a vehicle and moveable along the length thereof. At least one trolley assembly is operatively supported by the bridge assembly and is moveable in a direction generally transverse to the movement of the bridge assembly. At least one cleaning arm assembly for delivering cleaning fluid to or for brushing the surface of a vehicle is operatively supported by the at least one trolley assembly or bridge. The cleaning arm assembly is moveable with the bridge assembly along the length of the vehicle, and transversely with the at least one trolley assembly to adjust the location of the cleaning arm relative to the vehicle, wherein the bridge assembly moves in association with movement of the vehicle to position the cleaning arm assembly adjacent at least a portion of the front, sides and rear of the vehicle as it moves along the path. A variable impact or patterning spray arm or drying system is also provided.

A lighted dryer assembly for a vehicle wash system including a housing portion, having a head portion, a body portion, and an outlet portion. The head portion includes an air inlet portion for drawing air into the head portion and an outlet for passing the air to the body portion. The outlet portion has a plurality of exit nozzles that are configured to emit high velocity air therefrom for removing water from an exterior surface of a vehicle while disposed in a vehicle treatment area. The body portion includes an upper portion where air is received from the head portion and a lower portion disposed remote from the upper portion. A light source is disposed within the housing portion and configured to emit light that can be seen by a vehicle disposed in the vehicle treatment area.

A dryer unit for a vehicle wash system including an upper head portion with an air inlet. An impeller having a plurality of vanes rotatably disposed adjacent the air inlet. The impeller configured to rotate in a predetermined direction about an axis of rotation to draw air into the upper head portion through the air inlet. A flow channel formed in the upper head portion around a periphery of the impeller. A cut-off portion located adjacent a discharge area of the flow channel. A body portion disposed generally beneath the upper head portion with respect to a direction of fluid flow through the dryer unit. A plurality of outlet nozzle portions integrally formed with the body portion and in fluid communication with the air inlet. The plurality of nozzle portions configured to direct high velocity air flow toward a vehicle treatment area. At least one of the plurality of nozzles being located above the cut-off portion.

A lighted dryer assembly for a vehicle wash system including a housing portion, having a head portion, a body portion, and an outlet portion. The head portion includes an air inlet portion for drawing air into the head portion and an outlet for passing the air to the body portion. The outlet portion has a plurality of exit nozzles that are configured to emit high velocity air therefrom for removing water from an exterior surface of a vehicle while disposed in a vehicle treatment area. The body portion includes an upper portion where air is received from the head portion and a lower portion disposed remote from the upper portion. A light source is disposed within the housing portion and configured to emit light that can be seen by a vehicle disposed in the vehicle treatment area.