Embodiments of substrate processing systems and methods are provided for reducing the number of external connectors provided on a substrate processing system for receiving liquids and gases from external liquid and gas sources. In one embodiment, a substrate processing system includes a plurality of processing units for processing a substrate; a plurality of external connectors for receiving liquids and/or gases from a plurality of sources stored outside of the substrate processing system; and a plurality of internal distribution lines for routing the liquids and/or gases from the external connectors to the processing units. The disclosed substrate processing system reduces the number of external connectors provided on the system by: (a) including only one external connector for each liquid and gas source, and (b) providing a plurality of internal distribution lines within the substrate processing system for routing liquids and gases from the external connectors to the processing units.

Aspects herein relate to coating apparatus and methods for coating medical devices. In an embodiment, a coating system is included having a valve, a fluid supply reservoir in fluid communication with the valve, a reciprocating positive displacement pump in fluid communication with the valve, and a fluid applicator in fluid communication with the three-way valve. The valve can be configured to assume a first fluid transport state and a second fluid transport state, wherein the valve provides fluid communication between the fluid supply reservoir and the reciprocating positive displacement pump when in the first fluid transport state for filling of the reciprocating positive displacement pump, and wherein the valve provides fluid communication between the reciprocating positive displacement pump and the fluid applicator when in the second fluid transport state for applying a coating suspension to a medical device surface. Other embodiments are also included herein.

A dispensing unit of a dispensing system configured to dispense viscous material on an electronic substrate includes a support housing and a fluidic housing supported by the support housing. The fluidic housing includes a chamber and an inlet configured to deliver viscous material to the chamber from a material feed tube. The dispensing unit further includes a nozzle assembly releasably secured to the housing and configured to close an end of the fluidic housing. The dispensing unit further includes a reciprocating piston disposed partially within the chamber of the fluidic housing. The piston is configured to dispense viscous material from the nozzle assembly. The dispensing unit further includes a fixed flexible diaphragm seal configured to be secured to the fluidic housing and to the piston.

A method of depositing an extrudable substance onto a surface. The method comprises the step of delivering the extrudable substance from a cartridge to a flow-bypass assembly. The method further comprises the step of selectively controlling the flow-bypass assembly to purge air from the extrudable substance before the extrudable substance enters a delivery tube. The method further comprises the step of selectively controlling the flow-bypass assembly to deliver the extrudable substance from the flow-bypass assembly to a valve assembly via the delivery tube. The method further comprises the step of controlling flow of the extrudable substance from the valve assembly to a nozzle.

The present invention is an integrated at least two component system and method which combines at least two or more components and creates at least one new mixture. This system contains at least one first component in a first, optionally sealed, container and at least one second component in a second sealed container that is contained in or adjacent to the first container. Both components can be in a single container sealed off from each other. This system enables the mixing of these components to produce a new mixture, and then enables the application of this new mixture to be applied on at least one surface

A substrate processing apparatus includes a processing tub, a liquid recovery unit, a liquid recovery unit drain line, a storage, a first and a second liquid supply lines, a discharge line, a first and a second liquid flow rate controllers. The liquid recovery unit receives a processing liquid overflown from the processing tub. The liquid recovery unit drain line drains the processing liquid from the liquid recovery unit. The first and the second liquid supply lines supply a first and a second liquids, respectively. The cleaning liquid contains the first liquid and the second liquid, and removes a precipitate from the processing liquid. The discharge line discharges the cleaning liquid, the first liquid or the second liquid toward the liquid recovery unit. The first and the second liquid flow rate controllers are provided at the first and the second liquid supply lines, and adjust flow rates thereof, respectively.

Technical Problem Provide is a discharge device capable of easily controlling an operation of a plunger at the time of supplying a viscous material to a cylinder and a liquid supply method capable of forming a desired overlap portion.

Solution to Problem The discharge device 10 includes the supply valve 40 which controls the supply of the viscous material M to the cylinder 30, the plunger 50 which applies a pressure to the viscous material supplied to the cylinder, the ball screw 60 which is movable in the same direction as the back-and-forth direction of the plunger, and the motor 120 which is connected to the ball screw through the power transmission mechanism 110, wherein the plunger and the ball screw are not connected.

An example fluid applicator device includes an applicator assembly, and a reservoir assembly configured to store a fluid and is rotatable, relative to the applicator assembly, to control a valve mechanism that controls a flow of the fluid from the reservoir assembly to the applicator assembly, wherein the applicator assembly is configured to apply the fluid to a surface.

An apparatus for depositing an extrudable substance onto a surface. The apparatus comprises a bracket, comprising an opening that has a central axis, and a tubular sleeve, coupled to the bracket via the opening and rotatable relative to the bracket about the central axis. The apparatus further comprises a valve assembly, comprising a valve body, fixed to the tubular sleeve and rotatable relative to the bracket together with the tubular sleeve, and a valve, internal to the valve body. The apparatus also comprises a linear actuator, configured to position the valve relative to the valve body. The apparatus further comprises a nozzle, fixed to the valve body and rotatable relative to the bracket together with the valve body.

An adhesive dispensing system for applying liquid adhesive to a substrate using different nozzles with the same manifold is disclosed. The adhesive dispensing system includes a manifold having a body, a first clamp configured to engage the body of the manifold, a second clamp configured to engage the body of the manifold, and a nozzle. The first and second clamps secure the nozzle to the body of the manifold. The body of the manifold has a first contact surface that engages the first clamp and a second contact surface that engages the second clamp and the nozzle, where the second contact surface is angularly offset from the first contact surface.