A washer for a work piece includes a spray nozzle and plunger useful to activate the spray nozzle. The spray nozzle is configured and positioned to remove very small debris and can be positioned within a housing to accommodate different types of work pieces. The plunger can include a recess for receipt and centering of the work piece. A position of the plunger can activate a switch useful to control the introduction of fluid to the spray nozzle. The plunger can be coupled with an elastic device useful to return the plunger to a home position after insertion of the work piece.

A curved substrate with a film includes a substrate having a first main surface, a second main surface and an end surface, and an antiglare film provided on the first main surface. The substrate has a flat portion and a bent portion. A value obtained by dividing a reflected-image diffusibility index value R of the bent portion by the sum of the reflected-image diffusibility index value R of the bent portion and a reflected-image diffusibility index value R of the flat portion is 0.3 or higher and 0.8 or less.

A curved substrate with a film includes a substrate having a first main surface, a second main surface and an end surface, and an antiglare film provided on the first main surface. The substrate has a flat portion and a bent portion. A value obtained by dividing a reflected-image diffusibility index value R of the bent portion by the sum of the reflected-image diffusibility index value R of the bent portion and a reflected-image diffusibility index value R of the flat portion is 0.3 or higher and 0.8 or less.

A substrate processing apparatus includes a processing liquid supply mechanism 70 configured to supply a SPM liquid to a substrate; a temperature adjusting unit (heater) 303 configured to adjust a temperature of the SPM liquid at a time when the SPM liquid is supplied to the substrate from the processing liquid supply mechanism 70; an acquisition unit (temperature sensor) 80 configured to acquire temperature information of the SPM liquid on a surface of the substrate; and a control unit 18 configured to set an adjustment amount of the temperature adjusting unit (heater) 303 based on the temperature information of the SPM liquid acquired by the acquisition unit (temperature sensor) 80. The temperature adjusting unit (heater) 303 adjusts, based on the adjustment amount set by the control unit 18, the temperature of the SPM liquid at the time when the SPM liquid is supplied to the substrate.

A substrate processing apparatus includes a processing liquid supply mechanism 70 configured to supply a SPM liquid to a substrate; a temperature adjusting unit (heater) 303 configured to adjust a temperature of the SPM liquid at a time when the SPM liquid is supplied to the substrate from the processing liquid supply mechanism 70; an acquisition unit (temperature sensor) 80 configured to acquire temperature information of the SPM liquid on a surface of the substrate; and a control unit 18 configured to set an adjustment amount of the temperature adjusting unit (heater) 303 based on the temperature information of the SPM liquid acquired by the acquisition unit (temperature sensor) 80. The temperature adjusting unit (heater) 303 adjusts, based on the adjustment amount set by the control unit 18, the temperature of the SPM liquid at the time when the SPM liquid is supplied to the substrate.

The disclosure relates to an operating method for a coating system, in particular for a painting system, for coating components (2), in particular motor vehicle body components (2), having the following steps: conveying, by means of a conveying device (3), the components (2) to be coated in a conveying direction through a coating booth (1), coating the components (2) in the coating booth (1) with a coating product by means of an application device (17-19) which applies a spray jet of the coating product, a portion of the applied coating product being deposited on the components (2) to be coated while another portion of the applied coating product floats into the interior of the coating booth (1) as an excess coating product mist (21), and reducing the excess coating product mist (21) from the interior of the booth by means in addition to or other than the downwardly directed air flow generated by a filter ceiling. In addition, the disclosure includes a correspondingly designed coating system.

The disclosure relates to an operating method for a coating system, in particular for a painting system, for coating components (2), in particular motor vehicle body components (2), having the following steps: conveying, by means of a conveying device (3), the components (2) to be coated in a conveying direction through a coating booth (1), coating the components (2) in the coating booth (1) with a coating product by means of an application device (17-19) which applies a spray jet of the coating product, a portion of the applied coating product being deposited on the components (2) to be coated while another portion of the applied coating product floats into the interior of the coating booth (1) as an excess coating product mist (21), and reducing the excess coating product mist (21) from the interior of the booth by means in addition to or other than the downwardly directed air flow generated by a filter ceiling. In addition, the disclosure includes a correspondingly designed coating system.

A paint removal apparatus for cleaning paint from masking devices includes a support base having a plurality of engagement features that are each configured to securely engage at least one paint masking device. A spray nozzle is aimed in a fixed direction toward the support base and configured for spraying a pressurized stream of water at a desired velocity that removes paint from an exterior surface of at least one of the masking devices engaged at the support base. The support base is configured to successively move the masking devices engaged at the engagement features into the pressurized stream of water, such as to provide a generally continuous cleaning operation of masking devices. During movement or rotation of the support base, an exposed portion of the support base may extend from a spray enclosure for removing cleaned plugs from and loading painted plugs onto such an exposed portion.

A paint removal apparatus for cleaning paint from masking devices includes a support base having a plurality of engagement features that are each configured to securely engage at least one paint masking device. A spray nozzle is aimed in a fixed direction toward the support base and configured for spraying a pressurized stream of water at a desired velocity that removes paint from an exterior surface of at least one of the masking devices engaged at the support base. The support base is configured to successively move the masking devices engaged at the engagement features into the pressurized stream of water, such as to provide a generally continuous cleaning operation of masking devices. During movement or rotation of the support base, an exposed portion of the support base may extend from a spray enclosure for removing cleaned plugs from and loading painted plugs onto such an exposed portion.

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).