The present disclosure involves systems for applying finishing treatment to balls. The system includes an arm that transports at least one ball through a plurality of stations. A first station includes a first actuator, which permits introduction of a ball into the arm. A second station includes a buffer, which buffs the surface of the ball and rotates the ball in place relative to the arm, a spray nozzle configured to apply treatment to the ball, and a camera configured to capture images of the ball. A third station includes an inspection camera that captures inspection images of the ball and a rotating plate configured to rotate the ball in place relative to the arm. A fourth station includes a second actuator, which ejects the ball from the arm.

An apparatus for painting articles comprises a painting booth delimited by side walls and having at least one inlet opening and an outlet opening reciprocally aligned on two of said respectively opposite side walls. A transport assembly moves a plurality of articles being processed respectively aligned along a movement path extending through the painting booth, to lead the articles being processed therein through the inlet opening and to extract said articles through the outlet opening. The delivery nozzles operatively arranged inside the painting booth deliver atomised paint against the articles transported along the movement path. Adjustment devices comprising adjustment knobs positioned externally of the painting booth and manually accessible by an operator operate on each delivery nozzle to modify its positioning with respect to the articles being processed.

The present invention relates to a painting booth having a structure which sprays a paint in a painting booth, and is capable of reutilizing by withdrawing a used paint, and preventing atmospheric pollution and surrounding contamination, and is configured to include: an exhaust duct installed in an upper part of a booth; a filter plate configured by a metal net, which is installed on a front wall of the booth; a bottom filter plate installed on a bottom of the booth, and a collector collecting paint sludge which falls to the bottom.

A next generation painting robot with advanced fluid delivery system, enhanced kinematics and a service airlock compartment. The painting robot includes a fluid delivery system which places color changing valves and pumping hardware on the back side of the robot's mounting pedestal, where it can be serviced without a technician having to enter the spray booth. Additionally, the robot enables routine cleaning and maintenance to be performed without personnel entering the spray booth and without stopping the vehicle conveyor, due to simplified outer arm design, improved home positioning and an airlock booth adjacent to the robot pedestal. Service personnel can clean and service the applicator and other components on the outer arm from the airlock booth, while other robots continue painting parts moving on the conveyor, without allowing fume-laden vapors into the operator aisle.

The present invention relates to a painting booth having a structure which sprays a paint in a painting booth, and is capable of reutilizing by withdrawing a used paint, and preventing atmospheric pollution and surrounding contamination, and is configured to include: an exhaust duct installed in an upper part of a booth; a filter plate configured by a metal net, which is installed on a front wall of the booth; a bottom filter plate installed on a bottom of the booth, and a collector collecting paint sludge which falls to the bottom.

A plurality of workpiece-holding spindles is arranged, each engaging an article being processed, and a plurality of trays, each removably engaging a plurality of said spindles. The trays are moved along a feeding line extending along a feeding path passing near a decoration module. By a transfer assembly, the spindles carrying the articles are transferred from the trays on the feeding path, to the decoration module. A decorative treatment is applied to the articles carried by the spindles, in correspondence with at least one treatment unit (40, 41, 42) operating along the decoration module. In correspondence with a painting module operatively connected with the feeding line, the articles carried by the spindles are painted.

A modular apparatus for coating glass articles with a chemical compound includes a coating hood section (10a) including a series of interconnected walls (12) defining an interior chamber (18, 20a, 20b) having an inlet (32) and an outlet (44), a blower (24) positioned at least partially in the interior chamber (18, 20a, 20b) to carry air from the inlet (32) towards the outlet (44); and a connector (50) for connecting the coating hood section (10a) to an identical coating hood section (10b). The connector (50) for connecting being defined on at least one of the interconnected walls (12) of the coating hood section (10a).

A coating booth (101) for elements to be coated. The coating booth (101) comprises a passage between opposing vertical sides (107a, 107b, 108a, 108b) through which elements to be coated are conveyed. There is an entrance (105) at one end of the passage and an exit (106) at the other end of the passage. The coating booth (101) comprises a conveyor line (102) for supporting said elements to be coated and configured to convey said elements from the entrance (105) to the exit (106) along a straight pathway, and, a suction system. The opposing sides of the channel are symmetrical about the pathway. Sets of spray guns (103a, 104a, 103b, 104b) for spraying coating powder at the elements are positioned symmetrically either side of the straight pathway. The suction system comprises vertical suction inlets (109a, 109b) mounted opposite one another on each opposing vertical side of the passage, the suction system being configured to provide equal amounts of suction through each of the opposing vertical suction inlets (109a, 109b).

A recirculating powder applicator includes an applicator body having an inlet on an upstream surface and an outlet on a downstream surface, wherein the inlet and outlet define a passage that extends transversely through the thickness of the applicator body, a powder conduit, an air inlet, an exhaust aperture located on one of the upstream or downstream surfaces, and a circulation chamber located on the interior of the applicator body. The powder conduit and air inlet are in fluid communication with the passage and the passage is in fluid communication with the circulation chamber. A method of applying powder to a substrate during a continuous process includes using a recirculating powder applicator.

A spray booth for spraying pieces to be painted with a painting product includes a system that conveys the pieces to be painted inside the booth, a supplying circuit that supplies a painting product or solvent to painting tools, a plenum, a mobile wall providing access to the inside of the spray booth, optionally a reading system for the pieces to be painted, optionally a filtering system, a plurality of spraying tools that include one or more a spray guns each placed on an independent arm moving on a plane and optionally in a vertical direction, one or more cleaning stations, placed in correspondence of the mobile wall and provided with a drawer that is mobile between rest and a cleaning positions and that includes a painting product or solvent draining tube having a mouth, a slot for supplying compressed air, and a brush for brushing the spray guns.