A blasting or stripping booth is provided creating a generally downward flow for treatment of fluid and particle flow, which reduces operator exposure to potentially hazardous debris. The booth comprises an enclosure defining an upper region for a workpiece, a lower region, and a separator assembly. In some instances the separator assembly includes individual separator units which are discrete units, each having a generally square or rectangular plan view configuration which are arranged in an array for providing the required process flow capabilities. Further embodiments utilize structures forming the separator which have an elongated trough-like configuration. These embodiments find a particular application in large-scale stripping or blasting booth used in production environments where workpieces may flow through a treatment system in a serial manner. Other suitable applications include batch type processing of parts.

The invention relates to a method for operating a control logic of a blasting system (100), the blasting system (100) comprising at least one blasting nozzle (111) for blasting blasting material (91) into a process chamber (110) of the blasting system (100), wherein at least one component (90) can be arranged in the process chamber (110), wherein the blasting material (91) is supplied to the at least one blasting nozzle (111) from a blasting material exchange container (200) via a blasting material circuit (180, 181-185) of the blasting system (100), and wherein the method comprises: —receiving (3010) control data (70) from a logic element (201) of the blasting material exchange container (200) which is detachably arranged in the blasting material circuit (180, 181-185), and—operating (3015) the blasting system (100) on the basis of the control data (70).

Disclosed herein are components, systems, and methods of operating an abrasive fluid jet system that recycles and reuses abrasive particles for multiple cycles. The systems and methods include adjusting one or more operating parameters of the abrasive fluid jet system to compensate for a reduction in cutting power of the used abrasives as the used abrasive particles are continuously discharged from the outlet of the cutting head across multiple cycles. The one or more operating parameters include fluid pressure that forms the fluid jet, a cutting speed of the cutting head, and flow rate of abrasive particles, which are changeable while continuing to operate the abrasive fluid jet system. The one or more operating parameters include an orifice size through which a fluid passes to generate the second fluid jet, a mixing tube diameter through which the second abrasive fluid jet passes, and a length of the mixing tube.

A shot peening efficiency system for separating reusable abrasive media from non-reusable media includes a housing having an opening configured to receive an abrasive media inlet valve; and a separator assembly disposed within the housing, the separator assembly comprising at least one mesh screen and at least one vibratory motor. The housing includes a main channel having a first channel for reusable abrasive media and a second channel for non-reusable abrasive media. The separator assembly is configured to separate reusable abrasive media from non-reusable abrasive media by passing the reusable abrasive media via the first channel and by passing the non-reusable abrasive media via the second channel. The first channel terminates at a reusable abrasive media outlet valve connected to at least one first abrasive media hopper; the second channel terminates at an abrasive media discard outlet valve connected to at least one second abrasive media hopper.

A part processing assembly comprising including a media collection device that is adapted to receive used media from a media-blasting chamber. A transport mechanism, coupled to the media collection device, transports used media to a media reclaim system. A first separation device is used to perform a filtering process on the used media to create non-useable media and useable media. A second separation device is configured to apply a magnetic field to the useable media to create recycled media for use in the media-blasting chamber.

The temperature of the chamber housing a shot wheel of a shot blaster is controlled by positioning a fan exterior to the chamber that creates air flow across a mounting plate defining the chamber. The air flow created by the fan may also pass around the bearing surrounding the drive shaft that turns the shot wheel.

The temperature of the chamber housing a shot wheel of a shot blaster is controlled by positioning a fan exterior to the chamber that creates air flow across a mounting plate defining the chamber. The air flow created by the fan may also pass around the bearing surrounding the drive shaft that turns the shot wheel.

Disclosed herein are an apparatus and system for separating reusable abrasive media from non-reusable media. The system for separating reusable abrasive media from non-reusable media having a housing defining an enclosure and being configured for further separating previously sorted and discarded abrasive media, the shot peening efficiency system operating via the housing comprising: a symmetrically bisected housing having a left housing component and a right housing component having an angled opening configured to receive an abrasive media inlet valve wherein the left housing component and the right housing component are connected via one or more fasteners; wherein the symmetrically bisected housing is deep set at the left housing component and the right housing component in a manner configured to accept a separator assembly comprising at least one wire mesh screen, at least one vibratory motor, and one or more mounting hardware components. Also disclosed are methods of using apparatus and system.

The invention relates to a method and an apparatus for producing three-dimensional models by layering technology, using a core cleaning station.

An air wash abrasive particle separator apparatus which separates contaminants from previously-used abrasive particles contained in a contaminated abrasive particle mixture such that the abrasive particles may be re-used multiple times, the apparatus being in combination a contaminated abrasive particle mixture delivery device, an accumulator hopper assembly, a volume sensing device, an automatic flow control valve, a separator assembly and an air transfer device.