A holding table for holding a wafer includes plural pins, and a wafer holding surface includes the tips of the plural pins. Therefore, small dust enters between the pins and thus is less readily left between the wafer holding surface and the wafer. Therefore, when the wafer is sucked and held, a gap is less readily made between the wafer holding surface and the wafer. Thus, the occurrence of the situation in which the wafer is held in a waving state is suppressed. For this reason, when a liquid resin is pushed to spread over the lower surface of the wafer, an air bubble enters less readily between the liquid resin and the wafer. This can suppress entry of the air bubble in a protective member obtained by curing the liquid resin.

A holding table for holding a wafer includes plural pins, and a wafer holding surface includes the tips of the plural pins. Therefore, small dust enters between the pins and thus is less readily left between the wafer holding surface and the wafer. Therefore, when the wafer is sucked and held, a gap is less readily made between the wafer holding surface and the wafer. Thus, the occurrence of the situation in which the wafer is held in a waving state is suppressed. For this reason, when a liquid resin is pushed to spread over the lower surface of the wafer, an air bubble enters less readily between the liquid resin and the wafer. This can suppress entry of the air bubble in a protective member obtained by curing the liquid resin.

A coating composition for imparting a hydrophobic film on a target surface is provided that includes a quaternary ammonium silane, a polyalkylene glycol, and an optional solid lubricant. A kit is also provided that includes an applicator having the above composition applied and instructions for the composition to a blade of a windshield wiper of a vehicle to impart the hydrophobic film to the vehicle windshield contacted by the blade.

A coating composition for imparting a hydrophobic film on a target surface is provided that includes a quaternary ammonium silane, a polyalkylene glycol, and an optional solid lubricant. A kit is also provided that includes an applicator having the above composition applied and instructions for the composition to a blade of a windshield wiper of a vehicle to impart the hydrophobic film to the vehicle windshield contacted by the blade.

An optical device coating assembly is provided. The optical device coating assembly includes a substrate support operable to retain an optical device substrate. The coating assembly further includes a first actuator connected to the substrate support. The first actuator is configured to rotate the substrate support. The coating assembly includes a holder configured to hold a coating applicator against an edge of the optical device substrate when the optical device substrate is rotated on the substrate support and a second actuator operable to apply a force on the holder in a direction towards the substrate support. The second actuator is a constant force actuator.

Provided are a coating apparatus and a coating system, where the coating apparatus includes: a coating module, the coating module including a coating roller and a coating die, where the coating roller is configured to drive, when rotating, a substrate to move toward the coating die, and the coating die is configured to apply a coating onto the substrate; an error acquisition module having a predetermined distance to the coating roller and configured to acquire a circular run-out error of rotation of the coating roller and transmit the circular run-out error to a linkage module; and the linkage module configured to adjust position of the coating die in real time according to the circular run-out error transmitted to the linkage module, so as to keep a distance between the coating roller and the coating die unchanged.

Provided are a coating apparatus and a coating system, where the coating apparatus includes: a coating module, the coating module including a coating roller and a coating die, where the coating roller is configured to drive, when rotating, a substrate to move toward the coating die, and the coating die is configured to apply a coating onto the substrate; an error acquisition module having a predetermined distance to the coating roller and configured to acquire a circular run-out error of rotation of the coating roller and transmit the circular run-out error to a linkage module; and the linkage module configured to adjust position of the coating die in real time according to the circular run-out error transmitted to the linkage module, so as to keep a distance between the coating roller and the coating die unchanged.

The present disclosure provides a coating method for suppressing variations in a coating amount, a coating apparatus and a method for manufacturing a component. A coating method is employed, which includes: discharging a coating needle adhering to an adhesive from a nozzle; separating the adhesive into the tip of the coating needle and the nozzle; and adhering the adhesive to a first member. A coating apparatus is employed, which includes: a nozzle which holds the adhesive; a coating needle which is discharged from the nozzle in a state where the adhesive is adhered to the tip; and a control unit which controls moving speed of the coating needle to separate the adhesive into the tip of the coating needle and the nozzle.

A device for treating substrates by a treating liquid has at least one rotatably supported support roller which a substrate to be treated rests on during operation. The support roller has a hollow cylinder having a porous rigid material which the substrate to be treated rests on during operation. The device is configured to deliver, during operation, treating liquid via the interior of the hollow cylinder of the at least one support roller through the porous rigid material to the external surface of the hollow cylinder in order to treat at least one surface of the substrate by the treating liquid. The device is configured to treat several substrates in the form of plate-shaped separate wafers arranged one behind the other and/or next to one another in the device, by the treating liquid and to transport the substrates in a transport plane during the treatment.

Coating apparatus for coating cylindrical hollow bodies, having a machine frame and a workpiece rotary table which is equipped with a plurality of holding mandrels mounted rotatably on the workpiece rotary table, and having a coating station arranged on the machine frame, wherein the coating station includes a rotatably mounted coating roller, wherein axes of rotation of the holding mandrels and an axis of rotation of the coating roller are aligned parallel to one another, wherein the coating roller has a coating region and a free-wheeling region on a circumferential surface, the coating region being designed as a circular cylinder segment with a constant circular radius coaxial with the axis of rotation of the coating roller, and the free-wheeling region being formed from surface sections which each have a distance from the axis of rotation of the coating roller which is smaller than the circular radius.