An apparatus for treating a surface of an object is disclosed, including a carrier configured to transport the object through a treatment zone and an array of nozzle devices, each nozzle device positioned to deliver a cavitating jet into the treatment zone. The apparatus further includes a fluid source, a pump connected to the fluid source, and a hose configured to carry fluid under high pressure generated by the pump from the fluid source to the array of nozzle devices.

A thrust management system for use with a pressurized hose in order to dissipate or distribute forces incurred by a user from handling the hose. The thrust management system includes a pad mount or bracket having a first elongated portion, a second elongated portion, and one or more support members disposed therebetween. The pad mount has a pad associated therewith.

A thrust management system for use with a pressurized hose in order to dissipate or distribute forces incurred by a user from handling the hose. The thrust management system includes a pad mount or bracket having a first elongated portion, a second elongated portion, and one or more support members disposed therebetween. The pad mount has a pad associated therewith.

A cavitation peening system is disclosed, including a tank containing a fluid, a carrier, and an array of cavitation nozzles. The carrier is configured to deliver a workpiece to a treatment zone in the tank, and the array of cavitation nozzles are collectively configured to generate a cavitation induced whirlpool in the treatment zone.

A cavitation peening system is disclosed, including a tank containing a fluid, a carrier, and an array of cavitation nozzles. The carrier is configured to deliver a workpiece to a treatment zone in the tank, and the array of cavitation nozzles are collectively configured to generate a cavitation induced whirlpool in the treatment zone.

A compensating flow control assembly for a solid material separator such as a magnetic separator or air wash separator. The compensating flow control assembly automatically controls or adjusts the amount of contaminated shot blast media flowing from a hopper to a rotary magnetic drum, in the case where the solid material separator is a magnetic separator, or to an air chamber in the case where the solid material separator is an air wash separator, based upon the amount of contaminated shot blast media being fed to and held by the hopper.

A peening device for treating a component includes a shot media propulsion source configured to propel a quantity of shot media. The device also includes a plurality of treatment enclosures each selectively coupleable to the shot media propulsion source. Each of the treatment enclosures has a shape complementary to a corresponding one of a plurality of portions of the component, such that each treatment enclosure and the corresponding portion cooperate to enclose the shot media.

A plurality of rotatable small table are disposed on a rotatable large table, and a workpiece is mounted on the small tables. Above a projection range in the large table, a pressing part is provided. The pressing part is elevated and lowered by an elevating/lowering mechanism between a withdrawn position spaced above the workpiece on the small table and a pressing position for pressing the workpiece on the small table from above. Also, the pressing part is rotationally driven coaxially with a rotary shaft of the small table and in the same rotating direction and at the same rotating speed as the small table, by a third drive mechanism.

A plurality of rotatable small table are disposed on a rotatable large table, and a workpiece is mounted on the small tables. Above a projection range in the large table, a pressing part is provided. The pressing part is elevated and lowered by an elevating/lowering mechanism between a withdrawn position spaced above the workpiece on the small table and a pressing position for pressing the workpiece on the small table from above. Also, the pressing part is rotationally driven coaxially with a rotary shaft of the small table and in the same rotating direction and at the same rotating speed as the small table, by a third drive mechanism.

The apparatus for cleaning surfaces comprises a body (1) comprising a tank (2) for containing an abrasive material and a first duct (19) for a flow of compressed air which extends adjacent to said tank (2) along the whole length of said tank (2). The apparatus comprises as well a mixing valve (31), associated with said tank (2), for mixing said abrasive material with said compressed air.