An ultrasonic atomization material applicator includes a material applicator with at least one transducer and an array plate with an array of micro-applicators. Each of the micro-applicators has a material inlet, a reservoir, and a micro-applicator plate with a plurality of apertures. At least one supply line is in communication with the micro-applicators and configured to supply at least one material to each of the micro-applicators. The at least one ultrasonic transducer is mechanically coupled to the at least one array of micro-applicators and configured to vibrate the at least one array of micro-applicators such that atomized droplets of the at least one material are ejected from each of the micro-applicators. A movement device configured to cyclically move the at least one array of micro-applicators back and forth about at least one axis of the at least one array of micro-applicators can be included.

An ultrasonic atomization material applicator includes a material applicator with at least one transducer and an array plate with an array of micro-applicators. Each of the micro-applicators has a material inlet, a reservoir, and a micro-applicator plate with a plurality of apertures. At least one supply line is in communication with the micro-applicators and configured to supply at least one material to each of the micro-applicators. The at least one ultrasonic transducer is mechanically coupled to the at least one array of micro-applicators and configured to vibrate the at least one array of micro-applicators such that atomized droplets of the at least one material are ejected from each of the micro-applicators. A movement device configured to cyclically move the at least one array of micro-applicators back and forth about at least one axis of the at least one array of micro-applicators can be included.

An organic layer deposition assembly for depositing a deposition material on a substrate includes a deposition source configured to spray the deposition material, a deposition source nozzle arranged in one side of the deposition source and including deposition source nozzles arranged in a first direction, a patterning slit sheet arranged to face the deposition source nozzle and having patterning slits in a second direction that crosses the first direction, and a correction sheet arranged between the deposition source nozzle and the patterning slit sheet and configured to block at least a part of the deposition material sprayed from the deposition source.

A masking shield for shielding a surface during a traffic surface treatment process during which a mechanical sprayer having a spray wand is used to spray a protective sealant on the traffic surface, the masking shield having a frame with a generally rectangular shape and having a first side and a second side. The masking shield further having a thin, flexible liner in the form of a sleeve, the sleeve configured to completely receive the frame, and a runner removably coupled to a bottom edge of the frame.

A masking shield for shielding a surface during a traffic surface treatment process during which a mechanical sprayer having a spray wand is used to spray a protective sealant on the traffic surface, the masking shield having a frame with a generally rectangular shape and having a first side and a second side. The masking shield further having a thin, flexible liner in the form of a sleeve, the sleeve configured to completely receive the frame, and a runner removably coupled to a bottom edge of the frame.

A mobile cabin, application of the cabin, and a method for spot processing of a smaller area of a surface, on a car or other object is provided. The mobile cabin includes a first side open along an outlined edge area. Towards the open side, a covering sheet made from a flexible material can be can be brought against the surface which undergoes spot processing. The covering sheet is supplied with sealing compounds. The cabin further cabin air inlet and extraction, wheels, and one or more windows, provided for visual insight into the cabin, as well as arm access holes, supplied with flexible material for a tight fit around a person's arms. The mobile cabin takes up little space and is easy to transport and facilitates a spot processing, without a person being required to stay inside the cabin itself during performance of the work.

Disclosed herein are fluid deflection devices and methods for deflecting fluid from a fluid distributor outlet. The fluid deflection device includes a body forming an enclosure, the enclosure having a first end and a second end, a first opening formed in the first end of the enclosure, a second opening formed in the second end of the enclosure, and the first opening configured to be placed around a fluid distributor outlet. The method for deflecting a fluid includes the steps of: placing a fluid deflecting device around a fluid distributor outlet; and latching the fluid deflecting device to the outlet of the fluid distribution system.

Disclosed herein are fluid deflection devices and methods for deflecting fluid from a fluid distributor outlet. The fluid deflection device includes a body forming an enclosure, the enclosure having a first end and a second end, a first opening formed in the first end of the enclosure, a second opening formed in the second end of the enclosure, and the first opening configured to be placed around a fluid distributor outlet. The method for deflecting a fluid includes the steps of: placing a fluid deflecting device around a fluid distributor outlet; and latching the fluid deflecting device to the outlet of the fluid distribution system.

The disclosure relates to an electrode arrangement for the electrostatic external charging of paint on a rotary atomizer, which has an atomizer housing with an end-face tu-bus which preferably extends coaxially with the rotation axis of the rotary atomizer towards a bell cup. The electrode arrangement has a mounting ring for mounting the electrode arrangement on the atomizer housing of the rotary atomizer, as well as at least one charging electrode for the electrostatic external charging of the paint sprayed off by the rotary atomizer, the at least one charging electrode preferably projecting from the electrode arrangement. The disclosure additionally provides a closed tube shield projecting from the end face of the mounting ring, which in the mounted state extends along the rotation axis of the rotary atomizer as far as the tube of the rotary atomizer in order to shield at least part of the tube of the rotary atomizer on its outside from overspray.

The disclosure relates to an electrode arrangement for the electrostatic external charging of paint on a rotary atomizer, which has an atomizer housing with an end-face tu-bus which preferably extends coaxially with the rotation axis of the rotary atomizer towards a bell cup. The electrode arrangement has a mounting ring for mounting the electrode arrangement on the atomizer housing of the rotary atomizer, as well as at least one charging electrode for the electrostatic external charging of the paint sprayed off by the rotary atomizer, the at least one charging electrode preferably projecting from the electrode arrangement. The disclosure additionally provides a closed tube shield projecting from the end face of the mounting ring, which in the mounted state extends along the rotation axis of the rotary atomizer as far as the tube of the rotary atomizer in order to shield at least part of the tube of the rotary atomizer on its outside from overspray.