Abstract: A sealing blade includes opposite elongated edges (30, 31) and between them a flat (32) and which is adaptable to a blade holder (17) arranged in a coating applicator (25) of a coating device (21) and into contact with a moving surface (11?). The sealing blade has a contact surface (33), which may be arranged against the moving surface and which is 5-15% of the width (W) of the sealing blade (10).

Abstract: A susceptor for securing a semiconductor wafer with an orientation flat within a pocket of the susceptor is disclosed. The pocket provides a first inner wall extending along the orientation flat and a second wall facing an arched periphery of the semiconductor wafer. The first inner wall provides a hollow extending outwardly from the first inner wall. The hollow can have a step, a slope, or a chamfered corner.

Abstract: Disclosed is a substrate liquid processing apparatus. The substrate liquid processing apparatus includes a processing unit, a nozzle, a silylation liquid supply mechanism, and a blocking fluid supply mechanism. The processing unit performs a water repellency imparting processing on a substrate by supplying a silylation liquid to the substrate. The nozzle includes an ejection port configured to supply the silylation liquid to the substrate positioned in the processing unit, and a silylation liquid flow path in which the silylation liquid flows toward the ejection port. The silylation liquid supply mechanism supplies the silylation liquid to the silylation liquid flow path in the nozzle through a silylation liquid supply line. The blocking fluid supply mechanism supplies a blocking fluid that blocks the silylation liquid within the silylation liquid flow path in the nozzle from an atmosphere outside the ejection port.

Abstract: An apparatus (100) for applying a substance (200) as a bead (202) to a geometric feature (204) extending along a path (220) is disclosed. The apparatus (100) comprises an outlet end (101) comprising a first edge (104), a second edge (106), and an outlet opening (102) at least partially defined by the first edge (104) and the second edge (106). The first edge (104) and the second edge (106) are reversibly extensible.

Abstract: Solder supply device includes solder cup that is tubular and open at one end, nozzle section for ejecting solder from the solder cup, flange section that is fixedly provided on an outer circumferential section of the nozzle section and that is engaged inside of the solder cup, and inner tube an end of which holds the nozzle section and the other end of which extends from the opening of the solder cup; the flange section is formed from material that is elastically deformable and the flange section is engaged inside the cup with an outer edge section of the flange section in an elastically deformed state. The elastic force arising between the outer edge section of the flange section and the solder cup is smaller than the holding force of the nozzle section by the inner tube.

Abstract: A solder supply device provided with a solder cup housing liquid solder that is tubular and open at one end; a nozzle section, for ejecting solder from the solder container, that is inserted into the solder container; a flange section that is provided on an outer circumferential section of the nozzle section and that is engaged inside of the solder cup; and an outer tube that demarcates an air chamber with the bottom surface of the solder cup. Solder is supplied from the tip of the nozzle section by the solder cup and the flange section being relatively moved by supplying air to the air chamber. Solder is supplied from the solder container without using an air cylinder, electromagnetic motor, or the like.

Abstract: A process and assembly for mass producing a plasticized coated and structurally supporting insert including a first conveyor for advancing a plurality of lay-flat inserts and at least one lift and transfer mechanism for transferring the inserts between the first conveyor and a second overhead conveyor. A dual function robot is positioned aside the first conveyor and has a first numerically controlled gripping portion for engaging and raising a selected one of the lay flat supported inserts. The robot further has a second numerically controlled and articulating arm for spray coating a plasticized material upon the insert.

Abstract: A device installed between a surface of a coating bath and an air knife equipment to produce a hot dip metal coated steel sheet to form a non-oxidation atmosphere in a surface of a coated steel sheet ascending from the coating bath, the device comprising: lower gas discharge bars spaced apart from the surface of the coating bath by a predetermined distance and discharging a non-oxidation gas in a direction of the surface of the coating bath along the surface of the coated steel sheet; a side cover extending upwardly slopingly in a direction of the coated steel sheet from the sides of the lower gas discharge bars; and upper gas discharge bars formed at an upper end of the side cover and discharging a non-oxidation gas downwardly.

Abstract: A surface chemical treatment apparatus provided with: a first conduit having an opening at one end and communicating with a liquid supply means at the other end; a second conduit having at one end an opening that surrounds the opening of the first conduit and communicating with a liquid suction means at the other end; and a moving mechanism for moving the openings of the first and second conduits relative to the solid phase surface, so as to make a surface chemical treatment possible in a fine pattern by allowing the patterning solution to be dispensed through the opening of the first conduit while allowing the solution to be suctioned up together with the surrounding liquid phase or gas phase medium through the opening of the second conduit that surrounds the opening of the first conduit and, thus, preventing seepage of the solution in all directions.

Abstract: A gluing system for applying glue on products is disclosed. The gluing system includes a glue applicator configured to deposit melted glue on products, a glue container configured to contain excess melted glue discharged from the applicator and fresh melted glue, a glue delivering unit configured to deliver glue from the container to the applicator and a glue discharging unit configured to convey excess glue not used by the applicator to the container. The container is divided by a partition into a first chamber, containing the fresh melted glue, and into a second chamber containing the excess melted glue and separated from the first chamber. The partition includes a filter allowing flow of the fresh melted glue and the excess melted glue from both the first and second chambers to the delivering unit.

Abstract: A solder supply device is provided with a solder cup housing liquid solder that is cylindrical and open at one end; a nozzle section, for ejecting solder from the solder container, that is inserted into the solder container; a flange section that is provided on an outer circumferential section of the nozzle section and that is engaged inside of the solder cup; solder supplied from the tip of the nozzle section by the solder cup being moved; a magnet provided in the outer circumferential surface of the solder cup; and magnetic sensors able to detect the approaching of the magnet are provided at a position facing the outer circumferential surface of the solder container. Based on the positions of the magnet and the sensor, the post-movement position of the solder container is detected. Thus, it can be detected that solder has run out from inside the solder cup.

Abstract: The invention relates to a spin coater for a device for the additive manufacture of an object, having a support that can be connected to the device in a rotable manner about a rotational axis; and a coating element that is coupled to the support and that is suitable for applying or leveling a powder layer on a plane in the device while the support is rotating, the plane running perpendicularly to the rotational axis. The coating element substantially maintains its orientation during the rotational movement of the support within a specified rotational range. The coating element does not substantially move in a longitudinal direction of the coating element during the rotational movement of the support within a specified rotational range.

Abstract: One or more aspects of this invention pertain to fabrication of electronic devices. One aspect of the present invention is a system for electroless deposition of metal on a substrate. According to one or more embodiments of the present invention, the system comprises a main subsystem in combination with one or more subsystems for electroless deposition on a substrate. Another aspect of the present invention is a method of making an electronic device. According to one or more embodiments of the present invention, the method comprises one or more processes. Descriptions according to one or more embodiments of the system and the processes are presented.

Abstract: An injector head for delivering particulate material from a feeder source to a receiver is fitted with a plurality of splitter bars extending generally laterally from the sidewalls thereof into the space through which particulate material is fed as it flows into a receiver. Spray nozzles mounted to said sidewalls below said splitter bars spray coating material generally laterally relative to said sidewalls and generally laterally relative to the length of said splitter bars so as to coat particulate material as it passes over and to the sides and ends of said splitter bars.

Abstract: An apparatus for producing a laminated object, includes a powder layer forming unit for forming a powder layer of a powdery material, a material supply unit for feeding the powdery material to the powder layer forming unit; and a solidified layer forming unit for forming a solidified layer by irradiating a light beam on a specified portion of the powder layer and sintering or melting the specified portion of the powder layer. The apparatus is configured to produce an integrally laminated three-dimensional object by repeating formation of the powder layer and formation of the solidified layer. The material supply unit includes a cartridge unit charged with the powdery material, the cartridge unit being configured to allow the powdery material to drop downwards.

Abstract: A new and improved hot melt adhesive or other thermoplastic material dispensing system comprises two separate and independent rotary gear-type metering pumps with two separate and independent supply sources and fluid supply passageways, or two separate and independent sets of rotary gear-type metering pumps with two separate and independent supply sources and fluid supply passageways, which are able to independently output precisely metered amounts of the hot melt adhesive materials simultaneously onto a particularly substrate through suitable output devices so as to result in a multitude of different hot melt adhesive patterns and at different locations.

Abstract: A continuous galvanizing line having an annealing furnace of an all radiant tube heating type includes a moisture removal device, dew-point meters, outlets through which the atmospheric gas in the furnace is collected and inlets through which the atmospheric gas from which moisture has been removed with the moisture removal device is fed into the furnace, the dew-point meters and the outlets being placed at least at two points which respectively exist on a side wall in the vicinity of the entrance of the annealing furnace and on a side wall in the vicinity of the furnace top or the furnace bottom at a position where a steel sheet has a maximum end-point temperature, the inlets being placed at two points which respectively exist on side walls on the sides opposite to the sides of the two points for the outlets in the height direction of the furnace, making it possible to steadily control the dew-point of the atmospheric gas to be ?45° C. or lower and ?80° C.

Abstract: A coating film forming apparatus includes a substrate holding unit, a ring-shaped member annularly installed along a circumferential direction of the substrate so as to cover an upper side of a peripheral edge portion of the substrate, and a control unit that outputs a control signal so as to perform: positioning the ring-shaped member at a processing position where an air flow flowing above the peripheral edge portion of the substrate is straightened; rotating the substrate at a first revolution number such that a coating liquid supplied to a central portion of the substrate is diffused toward the peripheral edge portion by a centrifugal force; bringing the ring-shaped member to a retreated position where an air flow flowing near a front surface of the substrate is prevented from becoming turbulent; and reducing the revolution number of the substrate to a second revolution number lower than the first revolution number.

Abstract: There is provided a substrate processing apparatus of performing a process by supplying a processing gas on a substrate while rotating the substrate mounted on a rotary table in a vacuum container, which includes: a container main body used as a part including a bottom portion of the vacuum container; a cover part configured to be detachably installed with respect to the container main body to open and close the container main body, the cover part being used as a part including a ceiling portion of the vacuum container; a pillar installed in one of the cover part and the container main body such that the pillar penetrates through a central portion of the rotary table when the cover part is installed on the container main body, and configured to support the cover part with respect to the container main body when the inside of the vacuum container is vacuum-exhausted.

Abstract: The invention concerns an optical monitoring system for the measurement of layer thicknesses of thin coatings applied in a vacuum, particularly on moving substrates, during the coating process, in which the light intensity of the light of a light source injected into a reference light guide and released by a first piezoelectric or electrostrictive or magnetostrictive light chopper is registered by a light detector unit in a reference phase, the light of the light source in a measuring phase is injected into a first measuring light guide and the light released by a second piezoelectric or electrostrictive or magnetostrictive light chopper is directed to the substrate, and the light intensity of the light reflected or transmitted from the substrate is registered by the light detector unit through a second measuring light guide, and a remaining light intensity is registered by the light detector unit in at least one dark phase, wherein the reference phase, the measuring phase, and the dark phase are shifted in t