The present invention provides a rotary spraying coating system, configured to evenly form a paint on a surface of a chip connecting plate. The system includes: a plurality of fixtures, where each has a pedestal, an abutting piece, and a rotating axis, and the abutting piece is configured to abut and fix the chip connecting plate to the pedestal, to avoid warping of the chip connecting plate; a conveyor belt, configured to convey the fixtures, wherein the fixtures are connected to the conveyor belt by using the rotating axis and rotate with the rotating axis as an axis center; at least one spraying coating apparatus, configured to spray and coat the paint on the surface of the chip connecting plate; and a control module, configured to control a rotational speed of the fixtures, a movement speed of the conveyor belt, and a spraying coating amount of the at least one spraying coating apparatus.

A drench system includes a rotating mount to rotate a workpiece, a showerhead to dispense a fluid onto the workpiece; and a tray to collect the fluid and recirculate the fluid to the shower. A method of repairing or remanufacturing a coating includes abrading a surface to at least partially remove a portion of a coating to leave an abraded surface; applying a sol-gel over the abraded surface; applying a corrosion resistant primer onto the sol-gel; and applying an erosion coating onto the corrosion resistant primer.

A sprayer system including a wand, a rotary arm, a motor, a housing, a support, and a controller or control panel. The wand has a nozzle at one end. The rotary arm rotates around a first axle, and is connected at a distal end through a bearing to an opposite end of the wand. The housing covers or encloses a part of the wand, the rotary arm, and a rotatable ring through which the wand passes. The motor drives rotation of the rotary arm. The support mechanically supports the housing. The controller/control panel controls rotation of the rotary arm. The wand, the rotary arm and the ring are configured so that rotation of the rotary arm causes the nozzle to move in a circular, elliptical and/or oval pattern. Methods of making and using the sprayer system and software for controlling the system are also disclosed.

An apparatus (200) for smoothing a surface of an object (100). The apparatus includes a chamber (210), a reservoir (324) configured to hold a liquid (322), and a nebulizer assembly (212) configured to generate a mist (104) from the liquid into the chamber. The nebulizer assembly includes a mesh (732), a vibrating element (731), and a wick (736). The object is received in the chamber and the mist is configured to surround the object.

Insulated packaging is provided including an inner substrate and an outer substrate attached to the inner substrate to form an air gap therebetween. An expandable material including expandable microspheres is provided with the expandable material disposed between the inner substrate and the outer substrate. An adhesive material different than the expandable material is disposed between the inner substrate and the outer substrate to attach the inner substrate to the outer substrate. A method for forming the insulated packaging is also provided.

The invention relates to an installation and a method for the metallic coating of a workpiece using a coating device, said coating device comprising a displaceable coating lance, by which a metal plasma jet can be generated to create a coating of metal particles. According to the invention, it is provided that the coating device with the coating lance and a measuring device for measuring the coating thickness are jointly integrated in the installation, and that the coating device with the coating lance as well as the measuring device are enclosed by a housing.

A can coating machine control system includes a coating control signal that functions as a go/no-go signal based on a plurality of monitored conditions such as can in position, vacuum pressure, gun in position, guard in position and speed condition. Local pressure regulation of the coating material in the spray gun is provided along with optional control of the material temperature. Local pressure regulation allows for optional spray weight control based on a wrap number derived from speed and gun spray durations. A CAN to CAN network buffer is provided as well for primary network isolation. A gun control circuit may be used to select specific gun drive signals and to adjust gun drive signals based on real-time feedback of the actual spray duration.

A coating apparatus includes a jig supporting a guide vane equipped with a metal sheath covering a leading edge portion; a nozzle spraying paint onto a vane body; a robot moving the nozzle; and a control unit controlling a spraying operation of the nozzle and robot. The jig includes a movable covering body adapted separably covering the metal sheath and covering an exposed portion of adhesive between a lateral edge portion of the metal sheath and the vane surface of the vane body, and a covering body drive unit moving the movable covering body between a state in which the movable covering body covers the metal sheath and a state in which the movable covering body is separated from the metal sheath while covering the metal sheath. The control unit performs control to make transition from a sheath cladding coating mode to a finish coating mode.

Articles being processed are engaged on respective piece-holder members and moved along a transfer line. A metallization station operating along the transfer line deposits a surface metallization layer on each of the articles carried by the piece-holder members. A lacquering station operating along the transfer line downstream of the metallization station deposits a transparent protective layer on the metallization layer of each article carried by the respective piece-holder member. At least one printing station operatively located downstream of the metallization station applies at least one graphic pattern printed on each article carried by the respective piece-holder member. The printed graphic pattern is covered by the protective layer, or printed on it.

A plasma spray system including a temperature sensor operable to determine a temperature of the workpiece at a measurement zone; a heater operable to selectively heat the workpiece at a heating zone downstream of the measurement zone; a plasma spray subsystem operable to plasma spray a workpiece, the plasma spray defines an application zone on the workpiece downstream of the heating zone and a control in communication with the plasma spray subsystem, the temperature sensor, and the heater, the control operable to control the heater to heat the workpiece in the heating zone to a desired temperature in response to a temperature determined by the temperature sensor.