Abstract: A droplet discharge device is configured to control the drive corresponding to a prescribed set of the nozzles selected to discharge droplets during a main scan when the droplets are arranged in the first partition regions, based on a pre-measured distribution of a droplet discharge amount of each of the prescribed set of the nozzles so that the droplet discharge amount approximates a predetermined optimal amount, and to control the drive waveforms corresponding to the nozzles included in a plurality of potential combinations of the nozzles selected to discharge droplets during a main scan when the droplets are arranged in the second partition regions, based on a pre-measured distribution of an average droplet discharge amount calculated from an amount of droplets discharged from the each of the nozzles in all the potential combinations so that the droplet discharge amount approximates the predetermined optimal amount.

Abstract: The liquid droplet discharging apparatus includes a first workpiece stage and a second workpiece stage, an inspection stage arranged between the first workpiece stage and the second workpiece stage, an image recognizing section configured to execute image recognition with respect to a result of an inspection discharge of a liquid from a liquid droplet discharging head onto the inspection stage, and a stage moving mechanism configured to selectively move the first workpiece stage between the image formation area and a first workpiece exchange area, to selectively move the second workpiece stage between the image formation area and a second workpiece exchange area, and to selectively move the inspection stage between an inspection area and the image formation area. The inspection area is disposed between the image formation area and the first workpiece exchange area.

Abstract: It is an object of the present invention to apply a liquid uniformly on a to-be-coated area of an object subjected to liquid coating. A delivery unit which delivers the liquid on the to-be-coated area of the object subjected to liquid coating comprises a main body filled with the liquid and a nozzle plate which is provided at one end side of the main body and which is provided with a delivery path for delivering the liquid. The axial line of the delivery path is inclined relative to a vertical axis toward an opposite side of a travelling direction in which the delivery unit travels relative to the to-be-coated area.

Abstract: A cart that uniformly transverses floor decking that has sequential peaks and valleys. The cart comprises a wheel assembly having an array of wheels forming rows and columns of wheels positioned under the cart wherein at any given instant of time a number of the wheels of the rows and columns contact peaks of the floor decking and while other wheels extend over and free from contacting the valleys such that the cart uniformly traverses the floor decking.

Abstract: An imprint lithography apparatus is disclosed. The apparatus has a substrate table configured to support a lithographic substrate and a plurality of nozzles arranged to eject fluid onto the lithographic substrate, the plurality of nozzles extending over a distance which is substantially equal to or greater than a width of the substrate, wherein the nozzles, the lithographic substrate, or both, are moveable relative to the other.

Abstract: A droplet applying device (2) includes: application heads (2d) configured to eject an application liquid as multiple droplets toward to-be-coated subjects (K1, K2); a moving mechanism (2c) configured to move each of the to-be-coated subjects (K1, K2) and the application heads (2d) relative to each other; and a rotating mechanism (2b) configured to rotate the to-be-coated subjects (K1, K2) in a plane intersecting with an ejecting direction in which the multiple droplets are ejected.

Abstract: In one embodiment, a system for applying reinforcement material to an existing structure includes a work rail adapted to be temporarily secured to a bottom surface of the structure, adhesive applying apparatus supported by the work rail, the adhesive applying apparatus being adapted to form an adhesive layer on the bottom surface of the structure adjacent the work rail, and reinforcement material applying apparatus supported by the work rail, the reinforcement material applying apparatus being adapted to apply reinforcement material to the adhesive layer formed on the bottom surface of the structure.

Abstract: The invention relates to a control method for producing ground markings (M), with a reference beam generator (4) for determining a reference plane, a reception of the reference beams by means of an optical detector (3), wherein the position of an application unit (2) for the marking substance can be derived relative to the reference plane by using the received reference beams, a derivation of the orientation relative to the reference plane, and a control of an application of the marking substance to produce ground markings (M) according to the orientation. According to the method, the intensity in the solid angle covered by the reference beam is varied in time during the production of the marking.

Abstract: A method and apparatus for controlling coating material deposition on to a medical device. Images of material drops in flight are captured and an average single drop volume value is calculated by conversion of the captured drop images to a volume measurement. The average single drop volume value is used to calculate a total number of drops necessary to apply a desired amount of coating. Alternately, material is applied and the amount of material deposited is accumulated and adjustments are made to deposit only a desired amount of coating material. A drop volume is determined for either every drop or a sampling of drops as the drops are being applied. Adjustments to the coating process include changing drop size and changing a number of drops to be deposited.

Abstract: An applicator is disclosed for applying a coating agent, such as a sealant, to a component, such as a flanged seam of a motor vehicle body component. The applicator includes a nozzle for delivering the coating agent on to the component and a carrier. The carrier may be guided by a multiple-axis robot in operation, with a joint located kinematically between the carrier and the nozzle, thereby permitting the nozzle to move to avoid contact with a component being coated.

Abstract: A liquid discharge method is a method for depositing liquid on a plurality of target discharge partitioned areas formed on a substrate as the liquid is selectively discharged from a plurality of discharge nozzles while the substrate and the discharge nozzles are moved relative to each other. The liquid discharge method includes setting an arrangement pattern according to shapes and positions of the target discharge partitioned areas so that a number of the discharge nozzles selected to be used among the discharge nozzles capable of depositing the liquid in the target discharge partitioned areas is the same in each discharge timing.

Abstract: A protective member (14) and a nozzle assembly (11) incorporating the protective member (14) are provided. The protective member (14) is for use with a nozzle (12) having a strand guide passageway (18) for receiving a strand (16) of material. Protective member (14) comprises a body (60) configured to be received in the strand guide passageway (18) of the nozzle (12). The body (60) of the protective member (14) has a passageway (63) for the strand (16) and is disposed between the strand guide passageway (18) and the moving strand (16). The body (60) of the protective member (14) is composed, at least in part, of a material having a wear resistance sufficient to resist wear caused by the strand (16) being guided thereby. Alternatively, a portion of the body (60) may be coated with a material having a wear resistance sufficient to resist wear caused by the strand (16).

Abstract: A system for glazing a sash is disclosed. The system comprises at least two position assemblies, a back bedding glazing compound applicator assembly, and a stabilizer assembly. The position assemblies each include a position member defining a distal end and a housing. Each position member is selectively slidable between a stored position and an extended position; wherein the distal end of the positioner member is extend outwardly from the housing and contacts a glazing leg of the sash when the positioner member is moved into the extended position.

Abstract: A method for forming and applying retroreflective pavement markings comprising the steps of a) spraying the area with a hot epoxy binder, b) depositing particles of a microcrystalline ceramic element having a high refractive index onto the fresh epoxy binder, c) depositing relatively large spherical glass beads onto the fresh epoxy binder, and d) depositing relatively small spherical glass beads onto the fresh epoxy binder. The small beads provide high reflectivity in daytime and at night on dry pavement. The large beads provide superior reflectivity at night on damp pavement. The ceramic element particles provide high reflectivity when wet and during heavy rain. Where the pavement is subject to snowplowing, the marking may be inlaid in a recessed area in the pavement, the recess being about 100 mils deep, and the wet epoxy layer being about 20 mils thick.

Abstract: A coating apparatus includes, a container unit which contains liquid, a container support unit which supports the container unit, a work support unit which supports a work oppositely to a discharge unit of the liquid in the container unit, a base unit which supports the container support unit, and is grounded, and an insulating unit which is provided between the base unit and discharge unit, and insulates the base unit and discharge unit.

Abstract: Jet lines C1, C3, C5, . . . extending in an X-direction and suction lines C2, C4, C6, . . . extending in the X-direction are arranged alternately at a fixed pitch W in a Y-direction. Jet openings 88 are arranged at fixed intervals 3D on the jet lines C2n?1, suction openings 90 are arranged at fixed intervals 3D on the suction lines C2n, and the jet openings 88 and the suction openings 90 on the adjacent ones of the jet lines C2n?1 and the suction lines C2n are spaced apart from each other by a fixed distance D with respect to the X-direction. Slots 88a and 90a are extended straight from the upper ends of the jet openings 88 and the upper ends of the suction openings 90, respectively, in a carrying direction (the X-direction) and a direction opposite the carrying direction.

Abstract: A wind turbine tower cleaning or coating apparatus is provided. The apparatus includes a frame which circumferentially extends at least partially around a wind turbine tower. A separator structure can be attached to the frame and extends between the frame and the wind turbine tower to position the frame at a predetermined distance away from the wind turbine tower. The separator structure can also include an attachment end which is attached to the frame and a slidabe end positionable near the wind turbine tower. A slider can be attached to the slidabe end of the separator structure and can slide on the surface of the wind turbine tower as the frame is raised and lowered on the wind turbine tower. A frame lift device can raise and lower the frame on the wind turbine tower. A plurality of sprayers can be positioned circumferentially along the frame and configured to selectively spray fluid onto the wind turbine tower.

Abstract: An apparatus for depositing a solid film onto a substrate from a reagent solution includes reservoirs of reagent solutions maintained at a sufficiently low temperature to inhibit homogeneous reactions within the reagent solutions. The chilled solutions are dispensed through showerheads, one at a time, onto a substrate. One of the showerheads includes a nebulizer so that the reagent solution is delivered as a fine mist, whereas the other showerhead delivers reagent as a flowing stream. A heater disposed beneath the substrate maintains the substrate at an elevated temperature at which the deposition of a desired solid phase from the reagent solutions may be initiated. Each reagent solution contains at least one metal and either S or Se, or both. At least one of the reagent solutions contains Cu. The apparatus and its associated method of use are particularly suited to forming films of Cu-containing compound semiconductors.

Abstract: Method of protecting a part of a surface of an aircraft against contamination with insect residues and/or against icing, comprising the following steps: b) coating the part of the surface to be protected with a coating that can, within a period of ?3 hours from take-off of the aircraft and in normal flying conditions, reduce the adhesion to the part of the surface to be protected until detachment occurs on the basis of (i) temperature change and/or (ii) UV radiation and/or (iii) addition of a decomposing component and/or (iv) difference in air humidity, b) exposing the part of the surface to be protected to (i) a temperature change and/or (ii) UV irradiation (iii) and/or addition of a decomposing component and/or (iv) a difference in air humidity, so that the coating together with any contaminants and/or icing thereon detaches.

Abstract: A liquid droplet ejecting apparatus of the present invention includes a cleaning unit, a regular flushing unit, capping unit, and an ejection-amount measuring unit as droplet ejecting head maintenance units used for function maintenance, function recovery, adjustment, or inspection of a liquid ejecting head. The droplet ejecting head maintenance units are arranged in a group in a movable platen as a maintenance-unit installing section. The movable platen is supported by an accessory stand physically separated from a main body.

Abstract: A liquid material application device having high space utilization efficiency and having excellent maintainability. In a liquid material application device for applying a liquid material to a desired position on a surface of a workpiece in a box by relatively moving a nozzle for discharging the liquid material and a table on which the workpiece is placed to face the nozzle, the liquid material application device comprises a carrying in/out opening formed in a side surface of the box and allowing the workpiece to be carried in and carried out therethrough, a beam extending toward the carrying in/out opening, an application head movable in the extending direction of the beam, beam moving means for moving the beam above and in parallel to the table, and a control unit for controlling operations of the aforesaid components.

Abstract: Method and apparatus for coating a surface of a work with a thin resin or plastic film suitable for use in imprinting a pattern by impressing a master pattern on a transfer surface of a mold on the coated resin film. A curable resin liquid is coated on a work by the use of an inkjet feed means having a plural number of inkjet nozzle holes in a row or rows on a nozzle assembly, in association with actuators to propel droplets of resin liquid from the respective inkjet nozzle holes in controlled timings while moving the inkjet feed means and the work relative to each other.

Abstract: A head mount for use in a digital manufacturing system, where the head mount comprises a first component supported by at least one gantry of the digital manufacturing system, and a second component configured to retain a deposition head of the digital manufacturing system, and to move relative to the first component in response to a load applied to the deposition head from a platform assembly of the digital manufacturing system.

Abstract: An arrangement for coating a workpiece with a working surface comprises a movement rail and a lacquering robot. The movement rail is moveable relative to a stationary reference point parallel to the working surface. The lacquering robot is disposed on the movement rail and is moveable on the movement rail. A lacquering cabin for coating a workpiece comprises at least two chassis parallel to one another and a lacquering apparatus with an opening. The lacquering apparatus is supported on the two chassis and is moveable with the chassis. A method for coating a workpiece using a lacquering cabin comprises subdividing the workpiece into adjacent sections, moving the lacquering cabin to a position corresponding to a section, and coating the section.

Abstract: Devices and methods for manufacturing displays, solar panels and other devices using larger size workpieces are provided. The workpiece is rolled into a cylinder, thereby reducing the physical size by a factor of 3 in one dimension. The stages on which the workpieces are rolled have a cylindrical shape, which allows a more robust and/or compact movement of the glass, reduced machine weight. The workpieces are relatively thin, more flexible, and are rolled onto a cylinder with a diameter of about 1 meter.

Abstract: In an embodiment of the present disclosure, a wind turbine blade treatment apparatus comprises a support having a frame with an edge follower configured to be positioned near an edge of a wind turbine blade. The support also includes a side member connected to the frame, configured to extend at least partially along a width of the wind turbine blade and to be positionable near the wind turbine blade. The wind turbine blade treatment apparatus further comprises a sprayer connected to the support, configured to spray fluid onto the wind turbine blade.

Abstract: A liquid droplet ejection apparatus includes an ejection inspecting section for recognizing an inspection pattern printed on a printing unit as an image, and inspecting ejection performance of the functional liquid droplet ejection heads, a workpiece alignment section for aligning a workpiece relative to a set table, a table moving section for moving the set table between the printing area and an alignment position, a unit moving section for moving the printing unit between a retracted position and an inspection position, and a controller for controlling the functional liquid droplet ejection heads, the ejection inspecting section, the table moving section, the unit moving section, and the workpiece alignment section. The controller allows alignment processing of moving the set table to the alignment position and aligning the workpiece and inspection processing of moving the printing unit to the inspection position and performing inspection of the ejection performance to be performed simultaneously.

Abstract: Strand positional guide implements, for use in connection with hot melt adhesive strand coating applicator assemblies, comprise a plurality of V-shaped strand guide slots wherein the apex portions are oriented outwardly away from the hot melt adhesive material dispensing nozzles. Accordingly, an enlarged air space is effectively defined between the plurality of elongated strands and its respective hot melt adhesive material dispensing nozzle such that the plurality of elongated strands are not adversely affected by the heat or thermal radiation generated by or emanating from the hot melt adhesive material dispensing nozzles thereof.

Abstract: A self-moved device (1) suitable for spraying a fluid substance on a surface (50), comprising a moving system (6) for motion on the surface (50), at least one tank (4) suitable for containing said fluid substance, a spraying system (5) for spraying the fluid substance, a management and control system (7) for managing and controlling said moving system (6) and said spraying system (5), wherein the management and control system (7) is suitable for guiding the motion of said self-moved device (1) on said surface (50) and for activating said spraying system (5) in a plurality of spots of said surface (50) according to a predetermined scheme.

Abstract: A machine and process useful for processing a delicate workpiece, e.g., an implantable medical device, includes a carrier having a mandrel and wheels. The workpiece is positioned on the mandrel, which is free to roll by gravity on rails which cooperate with the wheels to self-align the travel of the carrier. The carrier can move the workpieces through a series of processing steps by gravity feed and without human intervention. A laterally movable carriage receives the rolling carriers and moves the carrier for processing, and returns the carrier to the rails to again roll by gravity to another processing substation for additional processing. An elevator, which can including processing units itself, is positioned along the rails to receive carriers and raise them so they can continue to roll for further processing.

Abstract: An imprint lithography apparatus is disclosed. The apparatus has a substrate table configured to support a lithographic substrate and a plurality of nozzles arranged to eject fluid onto the lithographic substrate, the plurality of nozzles extending over a distance which is substantially equal to or greater than a width of the substrate, wherein the nozzles, the lithographic substrate, or both, are moveable relative to the other.

Abstract: An apparatus is designed to apply a controlled adhesive bead to a workpiece as the workpiece is manually moved along a stationary adhesive dispensing mechanism. The apparatus comprises a worktable with a motion detection device mounted on a top surface of the table, the adhesive dispensing mechanism mounted to the worktable, an electronic control system mounted to the worktable and operatively connected to the motion detection device and the adhesive dispensing mechanism, and an adhesive source. The workpiece is manually moved under the dispensing mechanism. Regardless of the workpiece movement speed, a consistent sized adhesive bead is applied to the workpiece.

Abstract: An apparatus to help control the quality of printed three-dimensional objects is provided. The apparatus may include a printing head to print a three-dimensional object and a printing tray having defined surface characteristics serving to control adherence of the object being printed to the printing tray and/or prevent deformations in the printed object.

Abstract: A dispenser for a liquid crystal display panel includes a substrate on which a plurality of image display parts is formed, a table on which the substrate is loaded, a plurality of syringes for dispensing a material on the substrate, and a plurality of supports aligning and affixing the plurality of syringes, wherein at least a first predetermined number of the plurality of syringes is affixed and aligned to at least one of the plurality of supports.

Abstract: There is provided a method of applying an accurately positioning at least one graphic image on a large contoured surface using an apparatus comprising a flexible-rail positioning system mounted on a portion of the surface on which the graphic image is to be applied, a graphic image application system, software to operate the positioning system, and software to operate the graphic image application system.

Abstract: A stage apparatus in which a rectangular substrate which is levitated over a stage is transferred such that a pair of sides of the rectangular substrate are substantially parallel to a transfer direction and the other pair of sides of the rectangular substrate are substantially perpendicular to the transfer direction. The stage includes a plurality of gas spray ports to spray a gas and a plurality of suction ports to attract the rectangular substrate by suction. The rectangular substrate is levitated at a predetermined height from the surface of the stage in a substantially horizontal posture by means of suction of a suction mechanism through the plurality of suction ports and gas spray of a gas spray mechanism through the plurality of gas spray ports.

Abstract: The present invention provides a floating-type substrate conveying and processing apparatus that floats a substrate to be processed. The device includes a floating stage that floats the substrate, a liquid supplier placed above the floating stage via the substrate to supply a process liquid to a surface of the substrate, and a moving mechanism for holding the substrate as detachable at opposite ends of the substrate, at a floating height of the substrate, and for moving the substrate on the floating stage. The floating stage is formed of a porous member and has a plurality of suction apertures airtightly defined in a porous portion of the porous member. The floating stage injects gas through the porous portion and sucks gas through the suction apertures to float the substrate placed on the porous portion.

Abstract: Apparatus and methods of decorating guitars and other stringed musical instruments are disclosed. In one aspect, an apparatus may include a carrier to hold a portion of a guitar, a surface to support the carrier, one or more ink-jet printheads to apply radiation-sensitive ink compositions on a surface of the portion of the guitar, when the portion of the guitar is held by the carrier, and when the carrier is supported by the surface, and a radiation source to supply radiation to the radiation-sensitive ink on the surface of the portion of the guitar. In another aspect, a method may include providing at least a portion of a guitar having a surface, and applying a decoration over the surface by spraying radiation-sensitive ink compositions over the surface with one or more ink jet spray nozzles and exposing the radiation-sensitive ink compositions to radiation.

Abstract: A donor substrate for a laser induced thermal imaging method and an organic light emitting display manufactured using the same are provided. A laser induced thermal imaging apparatus includes a stage grounded by a grounding means, and a method of fabricating an organic light emitting display is capable of controlling static electricity which may be built up while an organic layer is formed using the apparatus.

Abstract: A dispensing apparatus includes a frame, a support coupled to the frame to receive electronic substrates, a first dispensing unit to dispense viscous material, a second dispensing unit to dispense viscous material, and a gantry coupled to the frame. The gantry includes a first Z drive mechanism to support the first dispensing unit and lower the first dispensing unit toward a first electronic substrate pattern when performing a dispense operation, and a second Z drive mechanism to support the second dispensing unit and lower the second dispensing unit toward a second electronic substrate pattern when performing a dispense operation. The second Z drive mechanism may be adjusted relative to the first Z drive mechanism a predetermined distance. A controller controls a dispense operation of the first dispensing unit on the first electronic substrate pattern and a dispense operation of the second dispensing unit on the second electronic substrate pattern.

Abstract: Coating installation, specifically for painting automobile body parts, having at least two application robots (3, 5) for applying a coating means to a target, at least two handling robots (4. 6) for handling the target and two linear guides (1, 2) along which the handling robots (4. 6) and the application robots (3, 5) can be driven. It is proposed that each of the two linear guides (1, 2) carries at least one of the application robots (3, 5) and at least one of the handling robots (4. 6).

Abstract: A droplet ejecting apparatus includes a stage which holds a substrate; R (red), G (green), and B (blue) head groups for ejecting droplets of the R, G, and B colors, respectively, each of the head groups including at least one head; and a carriage which holds the R, G, and B head groups. In the apparatus, droplets of the R, G, and B colors are ejected to R, G, and B colored portions on the substrate from the R, G, and B head groups, respectively, during movement of the carriage relative to the stage in a first direction.

Abstract: A problem during electrolytic treatment of printed circuit boards having a very thin basic metallization is that the treatment yields irregular results in various regions on the surface of the printed circuit board. In overcoming this problem the invention provides a device for electrolytically treating an at least superficially electrically conducting work piece having at least two substantially opposing side edges. The device comprises current supply devices for the work piece, said current supply devices each comprising contact strips located on the opposing side edges which are capable of electrically contacting the work piece at the substantially opposing side edges.

Abstract: An application robot, specifically a painting robot, for coating workpieces with a coating medium and an appropriate operating method. The painting robot has multiple movable axes and a spatially positionable end effector. Multiple application devices are attached to the end effector.

Abstract: A paint protection apparatus includes a body formed from paint-impermeable material configured in a wound and tubular configuration, and having integrally coupled outer and inner layers covering an entire surface area thereof. The inner layer is formed from an adhesive material. A plurality of perforations passes through the layers, and extends along the entire longitudinal length of the body. A mechanism separates the body along a linear axis registered orthogonal to a longitudinal length of the body while the body is separated along at least one of the perforations. A mechanism unwinds and dispenses the body while one user hand remains spaced from the unwinding and dispensing mechanism during operating conditions. The separating mechanism is slidably positioned along a longitudinal length of the unwinding and dispensing mechanism.

Abstract: The present invention aims at making it possible to easily fill liquid into a droplet spraying and applying head module, while saving work. The droplet spraying and applying head module includes a droplet spraying and applying head and a tank. The droplet spraying and applying head includes a liquid chamber for containing liquid and a plurality of nozzles communicating with the liquid chamber, and sprays droplets through the nozzles The tank contains liquid to be supplied to the liquid chamber, and communicates with the liquid chamber. The droplet spraying and applying head and the tank are coupled to each other with a coupling member. A revolute joint is interposed between the coupling member and the droplet spraying and applying head.

Abstract: The invention relates to a method for applying a film to a planar, especially air-impermeable substrate, comprising the steps: (a) feeding the planar substrate in a direction of feed towards an application device, (b) applying a film output by the application device to the planar substrate, and (c) sharply deflecting the planar substrate together with the film that is in contact therewith to a deflection area in a discharge direction different from the direction of feed. The invention also relates to a deflecting element for deflecting a planar substrate. Said element comprises at least one guiding surface adapted to guide a planar substrate and an additional guiding surface, forming an edge for sharply deflecting a planar substrate with the first guiding surface.

Abstract: A functional droplet coating apparatus includes a functional droplet discharge head for discharging a functional droplet, a stage for setting thereon a board to be coated with the functional droplet discharged from the functional droplet discharge head, and a drying unit for covering one or entire part of the board set on the stage, the drying unit for drying the functional droplet ejected from the functional droplet discharge head.

Abstract: In an apparatus for supplying a droplet on a substrate and a method of manufacturing a display apparatus, the apparatus includes a base body, a dropping unit and a vapor supplying unit. The base body corresponds to the substrate disposed on a stage. The dropping unit is disposed on the base body. The dropping unit includes a nozzle to drop the droplet on the substrate. The vapor supplying unit is disposed adjacent to the dropping unit to supply the droplet dropped onto the substrate with a volatile solvent vapor. Therefore, an evaporation rate of the droplet dropped onto pixels is adjusted to uniformize a thickness of the layer, thereby improving the image display quality.

Abstract: Methods, systems, apparatuses, and products are disclosed for locating concealed objects by discharging the contents of an aerosol container. A housing encloses an inner volume, and a hollow conduit extends along the housing. An elongate rod slides within the conduit. An actuator of the aerosol container is engaged between a discharge position and a non-discharge position by movement of the elongate rod.