A contact nozzle for simultaneously coating a plurality of elastic strands moving in a machine direction with an adhesive is described. The contact nozzle includes a single fluid inlet for receiving the adhesive from a fluid module, a first inverted V-shaped notch, a second inverted V-shaped notch, a third inverted V-shaped notch, and a mounting surface configured to abut the fluid module when the contact nozzle is coupled to the fluid module. Each inverted V-shaped notch extends along the contact nozzle in the machine direction, has an open bottom end, a circular closed top end. Each inverted V-shaped notch includes an adhesive orifice in fluid communication with the single fluid inlet for receiving the adhesive for directing the adhesive into contact with an upper surface of an elastic strand.

A contact nozzle for simultaneously coating a plurality of elastic strands moving in a machine direction with an adhesive is described. The contact nozzle includes a single fluid inlet for receiving the adhesive from a fluid module, a first inverted V-shaped notch, a second inverted V-shaped notch, a third inverted V-shaped notch, and a mounting surface configured to abut the fluid module when the contact nozzle is coupled to the fluid module. Each inverted V-shaped notch extends along the contact nozzle in the machine direction, has an open bottom end, a circular closed top end. Each inverted V-shaped notch includes an adhesive orifice in fluid communication with the single fluid inlet for receiving the adhesive for directing the adhesive into contact with an upper surface of an elastic strand.

A roll to roll fabrication apparatus includes an injection plate for injecting a chemical treatment liquid on a film transferred from a supplying roll to a collecting roll; and liquid blocking rolls disposed between the supplying roll and the collecting roll, and configured to prevent the chemical treatment liquid injected from the injection plate from being introduced to another process region.

A roll to roll fabrication apparatus includes an injection plate for injecting a chemical treatment liquid on a film transferred from a supplying roll to a collecting roll; and liquid blocking rolls disposed between the supplying roll and the collecting roll, and configured to prevent the chemical treatment liquid injected from the injection plate from being introduced to another process region.

A semiconductor processing station includes first and second chambers, and a cooling stage. The second chamber includes a cooling pipe disposed inside the second chamber, and an external pipe. The cooling pipe includes a first segment disposed along a sidewall of the second chamber, and a second segment disposed perpendicular to the first segment and located above a wafer carrier in the second chamber. An end of the second segment is connected to an end of the first segment. The external pipe is connected to the second segment distal from the end of the second segment to provide a fluid to flow through the cooling pipe from an exterior to an interior of the second chamber. The fluid discharges toward the wafer carrier through the first segment. The first chamber is surrounded by the second chamber and the cooling stage, and communicates between the cooling stage and the second chamber.

A semiconductor processing station includes first and second chambers, and a cooling stage. The second chamber includes a cooling pipe disposed inside the second chamber, and an external pipe. The cooling pipe includes a first segment disposed along a sidewall of the second chamber, and a second segment disposed perpendicular to the first segment and located above a wafer carrier in the second chamber. An end of the second segment is connected to an end of the first segment. The external pipe is connected to the second segment distal from the end of the second segment to provide a fluid to flow through the cooling pipe from an exterior to an interior of the second chamber. The fluid discharges toward the wafer carrier through the first segment. The first chamber is surrounded by the second chamber and the cooling stage, and communicates between the cooling stage and the second chamber.

A method of applying a corrosion-resistant coating to a fastener that includes preheating an area of the fastener to be coated to elevate a temperature of the area and spraying the preheated area of the fastener with a molten or semi-molten metal. In one embodiment, a corrosion-resistant coating applicator includes a support structure, a rotatable slotted fastener conveyer supported by the support structure, a feeder configured to feed fasteners to the rotatable slotted fastener conveyer, a fastener aligner configured to make head portions of the fasteners aligned with each other, a heater configured to heat head portions of the fasteners as the fasteners are being conveyed by the slotted fastener conveyer, and a sprayer configured to apply a corrosion-resistant coating to the heated head portions of the fasteners being conveyed by the slotted fastener conveyer. The present disclosure also provides corrosion-resistant coated fasteners made using the coating methods and/or coating apparatus.

A method of applying a corrosion-resistant coating to a fastener that includes preheating an area of the fastener to be coated to elevate a temperature of the area and spraying the preheated area of the fastener with a molten or semi-molten metal. In one embodiment, a corrosion-resistant coating applicator includes a support structure, a rotatable slotted fastener conveyer supported by the support structure, a feeder configured to feed fasteners to the rotatable slotted fastener conveyer, a fastener aligner configured to make head portions of the fasteners aligned with each other, a heater configured to heat head portions of the fasteners as the fasteners are being conveyed by the slotted fastener conveyer, and a sprayer configured to apply a corrosion-resistant coating to the heated head portions of the fasteners being conveyed by the slotted fastener conveyer. The present disclosure also provides corrosion-resistant coated fasteners made using the coating methods and/or coating apparatus.

The present disclosure relates to a substrate processing apparatus, and more specifically, to a substrate processing apparatus capable of blocking the introduction of external air and external particles into a chamber by forming an air curtain at a loading/unloading part when the chamber is open.

The substrate processing apparatus of the present disclosure includes a chamber in which a space is formed, and a fluid injection part configured to inject a fluid from an outer side of a substrate loading/unloading part of the chamber through which a substrate is loaded and unloaded.

A fluid for application onto a substrate is provided in a cavity of a hollow cylindrical application roller that has porous roller wall. Before reaching the transfer point to the substrate, fluid is regionally selectively pushed back away from the outer shell surface of the application roller, into the porous roller wall, by a knockback pressure, in order to regionally selectively produce the effect that, at the transfer point, fluid is located at the outer shell surface of the application roller or no fluid is located at the outer shell surface of the application roller. A regionally selective application of fluid onto a substrate may thus be efficiently produced.