Abstract: A heating apparatus including: a first heating part and a second heating part between which a substrate having a coating film is disposed at a substrate position in the film thickness direction; and a distance control part which controls at least one of a first distance between the substrate position and the first heating part and a second distance between the substrate position and the second heating part.

Abstract: A dense phase powder coating system includes a powder supply, dense phase pump, a spray gun and a diverter valve that can be used to select between conveying powder to the spray gun or circulating the powder back to the powder supply. The diverter valve may include two pneumatically actuate valve members. In one embodiment, the powder spray gun applies powder coating material to inside surfaces of a tubular container. A spray nozzle concept also is presented having a nozzle body with a conical deflector. The spray nozzle provides an uninterrupted flow between spray nozzle outlet holes and a deflector surface. The deflector may be integrally machined with the nozzle body to provide a one piece spray nozzle.

Abstract: A single axis application unit for processing a glass workpiece includes a workpiece supporting table, an applicator movable on a traveler shiftable along a first linear axis and a central suction unit that is activateable to grip the glass workpiece that travels along a second linear axis oriented generally perpendicular to the first linear axis. A central suction unit brake selectively secures the central suction unit both rotationally and translationally. The central suction unit is freely moveable both translationally and rotationally when the central suction unit brake is released. A mid-peripheral suction unit is located at a fixed location remote from the central suction unit and selectively activateable to grip the glass workpiece to hold the glass workpiece in a fixed orientation. A corner suction gripper is movable with the applicator parallel to the first linear axis, and is selectively activateable to grip the glass workpiece.

Abstract: A substrate support structure for clamping a substrate by means of a capillary force created by a liquid clamping layer having a lower pressure than its surroundings. The substrate support structure comprises a surface provided with a plurality of substrate supporting elements for holding the substrate, and the surface further comprises portions with different capillary potential for inducing, during clamping, a predetermined capillary flow within the liquid clamping layer.

Abstract: Improved wafer coating processes, apparatuses, and systems are described. In one embodiment, an improved spin-coating process and system is used to form a mask for dicing a semiconductor wafer with a laser plasma dicing process. In one embodiment, a spin-coating apparatus for forming a film over a semiconductor wafer includes a rotatable stage configured to support the semiconductor wafer. The rotatable stage has a downward sloping region positioned beyond a perimeter of the semiconductor wafer. The apparatus includes a nozzle positioned above the rotatable stage and configured to dispense a liquid over the semiconductor wafer. The apparatus also includes a motor configured to rotate the rotatable stage.

Abstract: A powder delivery apparatus for transporting powder from one or more hoppers to one or more powder applicators. A cross feed network of multi-directional valves and fluid connections is interposed between transfer pumps coupled to the outlets of the hoppers to provide alternately selectable flow paths for the powder from each hopper to selected one of the powder applicators.

Abstract: An adhesive applying device includes a robot including a robot arm; a rotor set jig for setting thereat a rotor; a gun including a holder to which a cartridge containing the adhesive is mountable, the gun discharging the adhesive in the cartridge mounted to the holder and being mountable to an end of the robot arm; an electromagnetic valve that performs on/off switching control of supply of compressed air at a predetermined pressure into the cartridge mounted to the holder of the gun; a robot controller that controls an operation of the robot; and an upper-order controller that coordinates and controls the on/off switching control performed by the electromagnetic valve and the control of the operation of the robot performed by the robot controller.

Abstract: A method for regeneration of internal conduit surfaces by thermal projection of metals, includes inserting a device including a vehicle having a rolling assembly to permit rolling of the vehicle and carrying a thermal projection system, through a manhole in a conduit installation, including the steps of inserting the device in a conduit with the rolling assembly in a retracted position, and expanding the rolling assembly inside the conduit until the device is centered in the conduit; inserting electrical, pneumatic and/or hydraulic conduits and conduits for supplying metal to be thermally projected, through the manhole, such that the conduits are connected with the vehicle; positioning a regeneration device including the thermal projection system connected with the vehicle by a remote-control pulling system in a particular position to be regenerated; thermally projecting metal from the regeneration device; advancing the vehicle and connected regeneration device to a new regeneration position.

Abstract: A spin deposition apparatus includes a deposition mask configured to be arranged proximate a target substrate. The deposition mask includes at least one fluid reservoir offset from a rotational axis of the deposition mask and configured to hold fluid for dispersal on a portion of a surface of the target substrate.

Abstract: This invention is directed to a spray device for spraying two or more components. The two or more components are maintained separated in the spray device and are mixed post atomization. This invention is also directed to a gravity fed spray gun and a dual feeding device for spraying two or more components.

Abstract: A system and method for photo-grafting a coating polymer onto the surface of a medical device are provided. The system comprises a plurality of stations including a novel grafting station. The system and method of the invention are both time- and resource-efficient. The system includes several stations, each station including a dipping tank. The system allows for the automated, semi-automated, or manual dipping of medical devices into the dipping tanks in a specified order, as desired, wherein at least one of the stations is a grafting station for photo-grafting the coating polymer onto the surface of the medical device. The system is modular, which allows for modification of the process as required, depending on the needs of the user. The system may comprise stations for incorporating an antimicrobial agent into the coating, and/or for rendering the coating lubricious.

Abstract: An apparatus for manufacturing an absorbent body, including a recessed form die formed on a predetermined face of a predetermined member, moving in one direction along a moving path along the predetermined face; a duct disposed in a predetermined position in the moving path, discharging a gas including fluid absorbent fibers from an opening section toward the predetermined face; and a polymer casting member disposed inside the duct, casting a superabsorbent polymer from a casting opening toward a center area of the opening section in a direction along the moving path, wherein in the case of the form die passing the duct position, by the gas being sucked through air intake holes in a bottom section of the form die, the fluid absorbent fibers and the superabsorbent polymer in the gas are stacked in the form die to form an absorbent body, wherein an air pressure inside the duct is made lower than the air pressure outside the duct because of the gas being sucked through the bottom section of the form die, wherein

Abstract: Provided is a full-automatic working apparatus which has a work-object conveying mechanism and can be used on a desk. The desktop working apparatus works a work-object as desired by moving relatively the work-object and a working head.

Abstract: An apparatus for cladding the interior surfaces of a curved pipe section includes a flexible track that is positioned longitudinally within the curved pipe and supported at opposite ends to corresponding opposite ends of the curved pipe. The flexible track is caused to bend and conform to the radius of curvature of an interior surface of the curved pipe. A robotic crawler is supported on the track section and carries a material applicator head. The robotic crawler is driven back-and-forth across the track section while the material applicator head applies an overlay material to the interior surface of the curved pipe. In a method, the position of the curved pipe in space, the travel direction and speed of the crawler and the position of the application head are all coordinated to maintain the application of the overlay material in the “flat plane” position.

Abstract: A painting system according to the embodiments includes a painting booth surrounded by a ceiling and a sidewall, a conveyor line that is arranged in the painting booth and conveys an object to be painted, and a painting robot that performs painting on the object. The painting robot includes a base portion fixed on the sidewall side in the painting booth, and an arm portion that is connected to the base portion and has a seven-axis configuration.

Abstract: A cylindrical coating nozzle having a flattened end is placed above a coating object being rotated. A coating solution is applied to a surface of the coating object by discharging the coating solution form a nozzle orifice at an end of the coating nozzle while moving the coating nozzle relative to the coating object in a direction intersecting a rotational direction of the coating object. The coating nozzle is formed with an angled notch at a part of the end thereof. A rotation control unit controls the rotation of the coating nozzle in a manner that the notch of the coating nozzle is positioned upstream from a position to feed the coating solution to the coating object being rotated.

Abstract: An apparatus for applying glue to regions of paper or plastic webs or paper or plastic web-sections for the production of paper sacks includes a nozzle unit having a plurality of glue outlet openings and glue supply lines and a plurality of glue valves via which the glue supply lines can be provided selectively with glue. Each glue valve includes at least one tappet having a sealing head and at least one counter element, with which the sealing head can make sealing contact. The apparatus includes a glue chamber via which glue can be provided. The counter element is disposed in, or in close vicinity to, the glue chamber.

Abstract: A tip section of a discharge nozzle 31 is shaped like a wedge, and projections 310 which further protrude are formed at the tip of the wedge. Lower surfaces 310b of the projections 310 define a substrate-facing-surface which is brought into proximity to the substrate, and discharge outlet bearing surfaces 310c, which gradually retract back from the substrate W, are formed as if to rise from the edges of the lower surfaces 310b. At adjacent positions within the discharge outlet bearing surface 310c which are adjacent to the substrate-facing-surface 310b, discharge outlets 311 for discharging an application liquid are opened. Areas around the discharge outlets 311 and a wall around a fluid feeding path 312 are integrated with each other.

Abstract: Provided is a coating apparatus in which a liquid substance is less likely to splash around and a chemical solution can be coated on a specific region of the inside surface of a tubular container. The coating apparatus 10 includes a spraying direction changing member 12, fixed to a tip portion of a spray nozzle 4 with an inner tube 6 and an outer tube 7, for changing the direction of spray of a sol oriented outward to a direction intersecting a direction of discharge of the liquid substance from the inner tube 6.

Abstract: Apparatus and method for depositing aerosolized material, wherein an aerosol flow is surrounded and focused by more than one consecutive sheath gas flows. The combined sheath and aerosol flows may consecutively flow through more than one capillary, thereby narrowing the flow further. Linewidths of less than one micron may be achieved.