The present invention relates to a cooling system comprising a spray unit for spraying a coolant. The present invention further relates to a machining device which comprises a cooling system of this type. The spray unit comprises a flow guide which is coupled on one side to a chamber and is coupled on the other side to one or more channels, where the chamber, the flow guide and the plurality of channels form a closed system for spraying from the channels pressurized coolant fed to the chamber, where the flow guide, the plurality of elongated channels and the chamber are manufactured as an integral part.

The present invention relates to a cooling system comprising a spray unit for spraying a coolant. The present invention further relates to a machining device which comprises a cooling system of this type. The spray unit comprises a flow guide which is coupled on one side to a chamber and is coupled on the other side to one or more channels, where the chamber, the flow guide and the plurality of channels form a closed system for spraying from the channels pressurized coolant fed to the chamber, where the flow guide, the plurality of elongated channels and the chamber are manufactured as an integral part.

A wet media blasting system with a water injection system that provides more uniform distribution of the water, air and media components for achieving better application of the mixture while minimizing the amount of water required to contain and minimize or eliminate airborne particulate matter such as dust produced during the blasting operation. By more thoroughly mixing the water into the abrasive/water mix, the amount of water required is reduced. The abrasive feed is placed and shaped to optimize spray coverage and minimize abrasive flow into injection space thus mitigating water nozzle clogs. The abrasive flow is shaped as it is released from the metering valve in order to tighten the abrasive flow before it enters into the blast air stream. The shaped and tightened abrasive flow is maintained at the lower portion of the blast air stream. This positions the abrasive flow in optimum placement for spray wetting the abrasive as it flows into and through the nozzle. This also mitigates nozzle clogging by directing most of the abrasive flow away from the water spray nozzle port.

A wet media blasting system with a water injection system that provides more uniform distribution of the water, air and media components for achieving better application of the mixture while minimizing the amount of water required to contain and minimize or eliminate airborne particulate matter such as dust produced during the blasting operation. By more thoroughly mixing the water into the abrasive/water mix, the amount of water required is reduced. The abrasive feed is placed and shaped to optimize spray coverage and minimize abrasive flow into injection space thus mitigating water nozzle clogs. The abrasive flow is shaped as it is released from the metering valve in order to tighten the abrasive flow before it enters into the blast air stream. The shaped and tightened abrasive flow is maintained at the lower portion of the blast air stream. This positions the abrasive flow in optimum placement for spray wetting the abrasive as it flows into and through the nozzle. This also mitigates nozzle clogging by directing most of the abrasive flow away from the water spray nozzle port.

The inventive nozzle has a pair of detachably connected nozzle sections, each section having a channel formed such that when the two detachably connected nozzle sections are connected to one another, at least one through passageway is formed. A hollow insert is shaped to fit into the at least one through passageway. The two detachably connected nozzle sections are formed of aluminum while the hollow insert is formed of a metal selected from the group consisting of chrome plate, tungsten carbide and boron carbide. This allows the nozzle to be lightweight for ease of manual operation while also providing adequate wearability against the shot passing through the nozzle and the two nozzle sections allowing for ease of replacing the hollow insert.

The inventive nozzle has a pair of detachably connected nozzle sections, each section having a channel formed such that when the two detachably connected nozzle sections are connected to one another, at least one through passageway is formed. A hollow insert is shaped to fit into the at least one through passageway. The two detachably connected nozzle sections are formed of aluminum while the hollow insert is formed of a metal selected from the group consisting of chrome plate, tungsten carbide and boron carbide. This allows the nozzle to be lightweight for ease of manual operation while also providing adequate wearability against the shot passing through the nozzle and the two nozzle sections allowing for ease of replacing the hollow insert.

An abrasive head with inserted jet for cleaning/removing material surfaces and splitting/cutting materials by a liquid beam enriched with solid abrasive particles to extend the tool lifetime by eliminating damage to the liquid jet's aperture by the abrasive, avoid degrading the abrasive inside the tool and increase the cutting power and flow efficiency.

An abrasive head with inserted jet for cleaning/removing material surfaces and splitting/cutting materials by a liquid beam enriched with solid abrasive particles to extend the tool lifetime by eliminating damage to the liquid jet's aperture by the abrasive, avoid degrading the abrasive inside the tool and increase the cutting power and flow efficiency.

A shroud assembly fixed to an abrasive blasting nozzle provides acoustic dampening during operation of the blasting system to reduce damage to the hearing of the user. The shroud assembly additionally provides features that improve safety and reduce fatigue during use. A first embodiment includes an end closure made up of flat acoustic panels and an alternate embodiment includes an end opening having peripheral chevron shaped acoustic panel edges. The shroud assembly includes a mechanism for attachment of the shroud to the abrasive blasting nozzle, a cylindrical blast column positioned forward from and coaxial with the blast nozzle, a cylindrical cone shell with at least one layer of acoustic dampening material surrounding and coaxial with the cylindrical blast column, a dead man switch handle, a second extended handle, a peripheral air curtain generator at the forward opening, and nested layers of one or more types of acoustic material(s).

A shroud assembly fixed to an abrasive blasting nozzle provides acoustic dampening during operation of the blasting system to reduce damage to the hearing of the user. The shroud assembly additionally provides features that improve safety and reduce fatigue during use. A first embodiment includes an end closure made up of flat acoustic panels and an alternate embodiment includes an end opening having peripheral chevron shaped acoustic panel edges. The shroud assembly includes a mechanism for attachment of the shroud to the abrasive blasting nozzle, a cylindrical blast column positioned forward from and coaxial with the blast nozzle, a cylindrical cone shell with at least one layer of acoustic dampening material surrounding and coaxial with the cylindrical blast column, a dead man switch handle, a second extended handle, a peripheral air curtain generator at the forward opening, and nested layers of one or more types of acoustic material(s).