Abstract: Methods for coating medical devices for implantation within a body vessel are provided comprising providing a cylindrical container, placing a medical device inside the cylindrical container, and applying a polymer in liquid form inside the container.

Abstract: A system for creating a wood like appearance on a synthetic component including a sales client device, a network, computer instructions for creating a work order, a tray with scannable tray identifier to hold a synthetic component, a production client device connected to the network with computer instructions for applying a base coat, a glaze, and a top coat to the synthetic component as it automatically moves on a conveyer system a portion of which is connected to the production client device. A scannable tray identifier with a plurality of sensors link the tray identifier to the work order for authenticating and validating the location of the tray on the conveyor system, or initiating an alerting device. The system has a plurality of temperature control environments to simultaneously control heating of the synthetic component while spraying, drying and UV curing with spray treatment device.

Abstract: A method for coating a stent can involve a device having a drying zone, a spray zone, and movable member for positioning a stent in the drying zone and another stent in the spray zone. Each stent can be on a support. A force can be applied to the outside surface of a stent to prevent rotation of the stent with respect to the support.

Abstract: The present invention relates to an apparatus for coating a profile surface with metallic texture paint by roll coating in combination with spray coating, and a method for coating thereof. The first major feature of the present invention is an apparatus for coating a profile surface, characterized in that it is provided with a roll coater for roll coating at least one surface of profile with a UV paint served as a binder, and a spray coater, installed at a position next to the roll coater, for spray coating with a metallic texture paint comprising a solvent, acrylic beads and metal powders on the coating layer of UV paint. The second major feature of the present invention is a method for coating a profile comprising the steps of roll coating at least one surface of profile with a UV paint served as a binder, and spray coating with a metallic texture paint containing a solvent, acrylic beads and metal powders on the coating layer of UV paint.

Abstract: The invention concerns a nozzle arrangement for dispensing liquid material, in particular for applying hot melt adhesive onto a substrate, comprising a nozzle orifice for dispensing the liquid material, said orifice being associated with a first and/or a second component, and positioning elements for fixing the position of the first component with respect to the second component. The invention concerns in particular a nozzle arrangement in which the positioning elements are formed as centering screws extending into fitting bores of the second component and into corresponding recesses of the first component. The invention further concerns an applicator and a production facility for applying liquid material.

Abstract: The invention discloses a coating apparatus for coating slurry on a substrate. The coating apparatus comprises: a container for storing the slurry; a slurry pushing means connecting with the container through a discharging pipe; a coating head connecting with the slurry pushing means through another discharging pipe and connecting with the container through a feed-back pipe, and a controlling valve provided within the feed-back pipe. The coating head comprises: a coating slit; a discharging concave; a feed-back concave; a separator provided between the feed-back concave and the discharging concave; and an extending concave for correspondingly covering and matching with the discharging concave and the feed-back concave. The discharging concave and the feed-back concave are respectively provided with a discharging aperture and a feed-back aperture for respectively connecting with the discharging pipe and the feed-back pipe.

Abstract: An organic layer deposition apparatus includes: a deposition source configured to discharge a deposition material; a deposition source nozzle unit arranged at a side of the deposition source and including a plurality of deposition source nozzles; a patterning slit sheet facing the deposition source nozzle unit and having a plurality of patterning slits; an electrostatic chuck configured to chuck a substrate; a chuck moving member combined with and configured to transport the electrostatic chuck; and a guide member configured to guide a moving direction of the chuck moving member, and the chuck moving member includes a hook unit having a variable height, and the guide member includes a chain unit corresponding to the hook unit, and the hook unit is insertable into the chain unit, and the chuck moving member is movable along the guide member as the chain unit operates.

Abstract: A reciprocating placer system for selectively picking and placing articles includes a picking assembly that is moveable between one or more magazines in which the articles are each received and stored in a stacked configuration. The picking assembly can include a series of vacuum cups for engaging and selectively picking articles from one or more magazines and thereafter depositing the selected articles on a conveyor or within a receptacle. A drive system controls the transverse movement of the picking assembly with respect to the one or more magazines in order to control the movement of the picking assembly between the one or more magazines and for adjusting the position of the picking assembly, with a selected article engaged thereby, with respect to the conveyor or receptacle on which the article is to be deposited.

Abstract: Systems and methods according to the present disclosure for assembling conformal arrays utilize an outer tool for insertion into an open cell of a conformal array, an inner tool for insertion into the outer tool, and an adhesive source for delivering adhesive to the edges of the open cell via the inner tool and the outer tool. An assembled conformal array includes adhesive extending along the edges of the open cell.

Abstract: Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for dispensing toners. In one aspect, a cap and valve assembly is provided including a movable valve assembly, the movable valve assembly having a first position and a second position; a toner path, which when open is configured to allow toner to flow from a toner container to an output aperture; and an air inlet path, which when open is configured to couple an air source to the toner container; where in a first valve assembly position the toner path and the air inlet path are closed, and in a second valve assembly position the toner path aid the air inlet path are open.

Abstract: A gluing device includes a supporting member, a gluing syringe, a first air compressor, and a second air compressor. The supporting member includes a loading surface. The gluing syringe is positioned above the loading surface and includes a main portion and a glue outlet portion. The main portion contains glue. Glue is expelled from the outlet portion. The first air compressor compresses the glue out of the main portion through the glue outlet portion. The second air compressor vaporizes the expelled glue through the glue outlet.

Abstract: A device (1) is provided for orientating a plurality of laboratory sample cassettes (2) each having a marking surface (3) disposed on a main body (4) of the cassette (2). A cassette (2) is held by a clamp so that a printer can print on the marking surface (3) of the cassette (2). When the cassette (2) is released from the clamp, it is moved via a belt (13) to an opening (20) of a rotatable structure (15) in a cassette receiving position. When the cassette (2) has been received in the opening (20), the rotatable structure (15) is rotated so that the opening (20) is moved to a cassette releasing position. A rack (23) is positioned beneath the rotatable structure (15) in order to receive the cassette (2) from the rotatable structure opening (20) when the opening (20) is in its cassette releasing position. The cassette (2) is received into a rack slot (24) so that the marking surface (3) of the cassette (2) is at the top of the cassette (2).

Abstract: A method and apparatus for applying sealant. The apparatus may comprise a sealant flow control system. The sealant flow control system may be configured to engage a nozzle of a sealant container to reduce a flow of sealant from the nozzle.

Abstract: A system for applying coatings and more specifically paint coatings is provided that combines fluid stored in separate reservoir containers prior to expelling the mixture for application. The reservoirs may be comprised of collapsible and disposable bags that eject its fluid upon activation of an actuator or expanding bladder. The fluid components are combined and blended together in a mixer that is positioned between the reservoirs and a nozzle.

Abstract: Disclosed is a nail print apparatus including: a nail print apparatus including: a print finger inserting section to insert a finger with a nail to be printed as a print finger; a non-print finger inserting section to insert a finger on which printing is not performed as a non-print finger; a grabbing section which is provided between the print finger inserting section and the non-print finger inserting section and which can be pinched with the print finger and the non-print finger; and a printing section which performs printing on a nail of the print finger, wherein the grabbing section includes a first finger positioning section to position the four fingers when printing is performed by the printing section; and a second finger positioning section to position the thumb of the second hand when printing is performed by the printing section.

Abstract: Processing equipment for the metallization of a plurality of workpieces are provided. The equipment comprising a controlled atmospheric region isolated from external oxidizing ambient with at least one deposition zone for the application of a metal layer on a workpiece. A transport system moves the workpiece positioned in a batch carrier plate through the controlled atmospheric region.

Abstract: Apparatus and methods for applying liquid onto a substrate include a nozzle configured to be connected to a liquid source. The nozzle further includes a distribution passage with a length that can receive the liquid. A piston is positioned in the distribution passage and a slit-shaped nozzle opening is in fluid communication with the distribution passage. The piston is movable in the distribution passage so as to vary the length that can receive the liquid. The nozzle opening communicates with the distribution passage via a plurality of spaced apart outlet channels having respective outlet ends. The outlet channels are formed between first and second nozzle pieces each having a tip portion at the outlet ends. At least one of the first or second nozzle pieces is flexible at the tip such that the outlet ends open when under positive fluid pressure and close when the fluid pressure is reduced.

Abstract: An apparatus for internally lining an elongate member, the apparatus including an outer barrel portion and an inner mold head, an annular mold cavity defined between the outer barrel portion and the inner mold body, and means for providing a settable material to the mold cavity wherein the settable material is injected into the mold cavity as the elongate member is forced past the cavity, internally lining the elongate member.

Abstract: An aerosol-generating apparatus includes a body having a powder-accommodating chamber which accommodates a powder of the material particles, and an introducing port via which the carrier gas is introduced into the powder-accommodating chamber; a powder flow passage which has an inlet opening and an outlet opening both of which are open in the powder-accommodating chamber, the inlet opening being positioned at a position lower than that of the outlet opening in a vertical direction; and a transport mechanism which transports the powder in a direction directed from the inlet opening to the outlet opening of the powder flow passage. Accordingly, the aerosol-generating apparatus is provided, which makes it possible to stably produce the aerosol over a long period of time by appropriately reducing the aggregation of the material particles accommodated in the powder-accommodating chamber.

Abstract: The present invention relates to an applicator arrangement comprising base support arrangement, a supply unit for supply of coating liquid/slurry, an applicator device, and a metering device, wherein said supply unit comprises a distribution pipe which is supported on said support body by means of a bearing arrangement arranged to enable axial expansion and contraction of said distribution pipe.

Abstract: A drum coating device for coating work-pieces includes a main body, a support element, a cleaning device, a spraying device, a rotary drum device, a heating device, and a drive device. The main body defines a receiving room. The support element is received in the receiving room and defines slots for receiving the work-pieces. The cleaning device cleans the work-pieces. The spraying device sprays coating materials to the work-pieces. The rotary drum device uniformly coats the coating materials on the work-pieces. The heating device heats the coating materials coated on the work-pieces. The drive device includes a rotating drive rotating the support element and a linear drive raising or lowering the support element in the receiving room.

Abstract: A system and method for coating an expandable member of a medical device comprises providing a dispenser in fluid communication with a fluid source with the dispenser having at least one outlet to dispense fluid of the fluid source therefrom. The outlet(s) of the dispenser is positioned proximate a surface of an expandable member, with relative movement between the outlet(s) and the surface of the expandable member established along a coating path, and fluid is dispensed from the dispenser to form a substantially continuous bead of fluid between the at least one outlet and the surface of the expandable member along the coating path, and simultaneously drying the fluid while dispensing the fluid from the dispenser to control flow of fluid on the surface of the expandable member. The fluid source can include a variety of therapeutic agents.

Abstract: Provided is a coating tool for forming a film having uniform thickness on a target by controlling precisely a flow-rate of a coating liquid, even if its viscosity is high. In the coating tool, a coating head 1 includes a pair of head members 10 and 20; a slot 3 is formed between a pair of interior surfaces 11 and 21, facing each other, of the head members 10 and 20; and a coating liquid flows through the slot 3 and is discharged from the tip of the coating head 1. An internal flow-rate control mechanism 60 is provided to control the flow-rate of the coating liquid in the slot 3 by adjusting a convexity and/or a concavity.

Abstract: Methods and devices are provided for improved deposition systems. In one embodiment of the present invention, a deposition system is provided for use with a solution and a substrate. The system comprises of a solution deposition apparatus; at least one heating chamber; at least one assembly for holding a solution over the substrate; and a substrate curling apparatus for curling at least one edge of the substrate to define a zone capable of containing a volume of the solution over the substrate. In another embodiment of the present invention, a deposition system for use with a substrate, the system comprising a solution deposition apparatus; at heating chamber; and at least assembly for holding solution over the substrate to allow for a depth of at least about 0.5 microns to 10 mm.

Abstract: An organic solution coating apparatus is provided. The organic solution coating apparatus includes a rotary chuck having an upper surface on which a target is adsorbed and fixed, an organic solution supply nozzle configured to supply an organic solution to the target and having an inner surface having a contact angle with the organic solution of 90° or greater; and a nozzle standby unit in which the organic solution supply nozzle performs a preliminary spraying operation while the coating process is not performed, the nozzle standby unit including a nozzle standby hole having a surface having a contact angle with the organic solution of 90° or greater.

Abstract: A coating device including a substrate carrying unit which rotatably holds a substrate while the substrate is upright and is able to dispose the held substrate at a first position and a second position; an application unit which includes a liquid material nozzle ejecting a liquid material to each of first and second surfaces of the substrate disposed at the first position; and a removal unit which includes an accommodation mechanism accommodating a part of the peripheral edge portion of the substrate disposed at the second position and a cleaning liquid ejection mechanism ejecting a cleaning liquid to the peripheral edge portion and removes the liquid material of the peripheral edge portion.

Abstract: A surface treatment device that ejects a combination of precursor substances as a directed flow of surface treatment particles. Planar objects are conveyed along a defined plane through the particle flow, a region on the surface of the planar object that the particle flow hits forming a region of direct impact. The device comprises directing means for directing the particle flow to travel along the surface of the planar object in an extended impact region outside the region of direct impact; and flow control means for controlling the extent of the extended impact region which may include a vortex flow. The exposure of the treated surface with the particle flow increases and the probability of the desired surface treatment processes to take place increases.

Abstract: The present disclosure relates to a lithium-ion solid battery, and a synthesis method and a synthesis device thereof. The synthesis method comprises a synthesis step for a current collector, a synthesis step for a cathode, a synthesis step for a diaphragm and a synthesis step for an anodee, wherein at least one of the steps is accomplished through on-site spray synthesis, and the on-site spray synthesis comprises a process of spraying a molten lithium metal. In the aforesaid way, the manufacturing process flow of the lithium-ion solid battery can be simplified.

Abstract: A single-phase portable device melts and sprays thermoplastic using 120-V power. The device includes a vessel for receiving and storing thermoplastic, and heated hollow rod circulators that draw melted thermoplastic upward and redistribute it within the vessel to facilitate rapid and even melting. The device includes a heated hose and nozzle for spraying the material, hose storage area, and wheels and handle for moving device and spraying in multiple locations as desired.

Abstract: A back bedding glazing compound applicator assembly is disclosed. The back bedding glazing compound applicator assembly comprises a nozzle head that is fluidly connected to a back bedding glazing compound supply source and a stabilizer device for retaining a fixed vertical position of a viewing surface while back bedding glazing compound is being dispensed by the nozzle head. The nozzle head includes a back bedding glazing compound channel fluidly connected to a dispensing opening. The dispensing opening is positioned adjacent a bottom surface of the nozzle head.

Abstract: An electroless plating system includes a plating solution, and controlling reducing agents in the plating solution for deposition over outlier features smaller than about five hundred nanometers and isolated by about one thousand nanometers.

Abstract: A device for applying adhesive material to single-ply, roll-fed expanded content labels could include a leading edge adhesive material application pad, a trailing edge adhesive material application pad, and an intermediate adhesive material application pad. A method for applying single-ply, roll-fed expanded content labels to objects to be labeled could include a device for applying adhesive material to single-ply, roll-fed expanded content labels.

Abstract: Disclosed is a coating apparatus capable of enhancing the film thickness uniformity. The coating apparatus includes a nozzle and a moving mechanism. The nozzle includes a storage chamber that stores a coating liquid and a slit-like flow path that is in communication with the storage chamber, and discharges the coating liquid through a discharge port formed at a front end of the flow path. The moving mechanism moves the nozzle and the substrate relatively to each other along a surface of the substrate. Also, in the flow path provided in the nozzle, flow resistance at the central portion in the longitudinal direction is larger than that at both end portions in the longitudinal direction.

Abstract: An apparatus for coating a stent comprises a coating solution reservoir, a stent support for carrying a stent adjacent the reservoir, transducers for generating waves through the coating solution, and a controller that controls timing at which the transducers are powered in order to eject a droplet of the coating solution.

Abstract: Applicator (11) for application of a viscous mass (31) to a surface (33) comprising a heated chamber (32) in communication with openings (12) controlled by valves (14) allowing dropwise discharge of the viscous mass to the surface. The valves (14) are non-packed and comprise an outer sleeve (15) having at least one through opening (16) in its sleeve wall and valve plug (17) adapted to the internal surface of the sleeve (15). The valve plug (17) is reciprocated by a valve lifter (18) from a closed position completely sealing the at least one through opening (16) in the sleeve wall, to an elevated open position exposing at least the lowermost part of the at least one through opening (16) allowing viscous mass (31) to pass from the outside of the sleeve (15) to the inside thereof.

Abstract: A paper feeder enables a compact printer to print a large area of paper. The paper feeder includes a hanger, a paper feeding module, a driving module and a controller. The feeding module includes a tray and a roller. The tray includes a paper input board and a paper output board. The roller is located in the tray and feeds a paper from the paper input board to the paper output board. The driving module includes a base configured to receive the compact printer and a driving device which drives the base to move across the moving direction of the paper. The controller is configured to control the compact printer to print on the paper at a certain location.

Abstract: In the liquid application device 1, when the magazine 5 for feeding the substrate installed in the substrate feed part is exchanged for a new magazine 5 for feeding the substrate, the magazine 5 for collecting the substrate is removed from the substrate collecting part R2, the magazine 5 for feeding the substrate that is installed in the substrate feed part R1 so far is moved to the substrate collecting part R2 as a subsequently used magazine 5 for collecting the substrate, and then, the new magazine 5 for feeding the substrate is installed in the substrate feed part R1.

Abstract: A liquid-application device 1 includes a substrate feed part R1 where a magazine 5 for feeding a substrate is installed in which the substrates 4 before a liquid Q is applied are accommodated, an application head 14 which applies the liquid Q to the substrate 4 taken out from the magazine 5 for feeding the substrate installed in the substrate feed part R1 and moved to a working position and a substrate collecting part R2 where a magazine 5 for collecting the substrate is installed in which the substrates 4 with the liquid Q applied by the application head 14 are accommodated. The substrate feed part R1 and the substrate collecting part R2 are arranged and located in parallel in the vertical direction.

Abstract: Methods and devices are provided for improved sputtering systems. In one embodiment of the present invention, a deposition system for use with a substrate, the system comprising a solution deposition apparatus; at heating chamber; and at least assembly for holding solution over the substrate to allow for a depth of at least about 0.5 microns to 10 mm.

Abstract: A liquid feeding device 1 having a storage part 4 to store a developing solution 11 controlled in a constant temperature state, a holding part 8 for holding a processing target substrate 6 and a feed pipe 5 for flowing the developing solution 11 from the storage part 4 to a discharge part 14 that feeds and sprays the developing solution 11 onto the processing target substrate 6. A pump 16 pressure-feeds the developing solution 11 and a pressure adjuster 20 switches a pressure to the developing solution 11 by the pump 16 to a first pressure, set under a condition that the developing solution 11 discharged from the discharge part 14 reaches a place other than the processing target substrate 6, and a second pressure set under a condition that the developing solution 11 discharged from the discharge part 14 reaches the processing target substrate 6.

Abstract: A system and method for three-dimensional printing are provided. One three-dimensional printing system includes a first printing surface configured to hold a first three-dimensional object. The three-dimensional printing system also includes a second printing surface configured to hold a second three-dimensional object. The three-dimensional printing system includes at least one printing head disposed adjacent to the first and second printing surfaces for printing the first and second three-dimensional objects. A vertical position of the first printing surface is controlled independently from a vertical position of the second printing surface.

Abstract: There are provided a golf ball having a paint coating that is prevented from being unevenly distributed over the ball surface, and a method and apparatus for manufacturing the golf ball. The method for manufacturing the golf ball comprises the steps of coating the surface of the golf ball with paint in a painting section; transferring the coated golf ball from the painting section to a drying section; and drying the coated golf ball in the drying section. The transferring step comprises attaching the coated golf ball to a moving unit by suction in the painting section; moving the moving unit to which the golf ball is attached by suction from the painting section to the drying section; and blowing gas to the golf ball toward the direction opposite to the suction direction for attaching the golf ball to release the golf ball from the moving unit in the drying section.

Abstract: The present invention provides a liquid crystal suction device, which includes: a first vacuum generation unit, a flexible suction tube, and a load; the load being disposed at one end of flexible suction tube, the other end of flexible suction tube connected to first vacuum unit. The present invention also provides a liquid crystal coating equipment. Through the above manners, the present invention keeps liquid crystal suction end stay below liquid crystal level and prevents suction end of the liquid crystal tube from drawing in air bubble.

Abstract: This invention relates to methods for making materials using compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. This invention further relates to methods for making AIGS, AIS or AGS materials by providing one or more polymeric precursor compounds or inks thereof, providing a substrate, depositing the compounds or inks onto the substrate; and heating the substrate at a temperature of from about 20° C. to about 650° C.

Abstract: A method for forming an embedded passive device module comprises depositing a first amount of an alkali silicate material, co-depositing an amount of embedded passive device material with the amount of alkali silicate material; and thermally processing the amount of alkali silicate material and the amount of embedded passive device material at a temperature sufficient to cure the amount of alkali silicate material and the amount of embedded passive device material and form a substantially moisture free substrate.

Abstract: This invention relates to methods and articles using compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. A compound may contain repeating units {MB(ER)(ER)} and {MA(ER)(ER)}, wherein MA is Ag, each MB is In or Ga, each E is S, Se, or Te, and each R is independently selected, for each occurrence, from alkyl, aryl, heteroaryl, alkenyl, amido, silyl, and inorganic and organic ligands.

Abstract: A thermal spray apparatus (100) is provided, including a booth (102) and a spray mechanism (106) in the booth configured to switch between an operating mode (108) and a safe mode (114). An operator (118) in the booth is protected from an emission (120) from the spray mechanism in the safe mode. The thermal spray apparatus includes a safety interlock for the spray mechanism, where the safety interlock switches between an operating condition in which the spray mechanism is configured to operate in either of the operating mode or the safe mode and a safe condition in which the spray mechanism is prevented from operating in the operating mode. The safety interlock switches to the safe condition upon an operator being enabled to enter the booth.

Abstract: To provide a method of efficiently manufacturing an organic light-emitting element with excellent light-emitting characteristics by application, the method includes: preparing ink and filling an inkjet device having an ink ejection nozzle with the ink; preparing a substrate having a base layer including a first electrode; and positioning the inkjet device above the substrate, and causing the inkjet device to eject a drop of the ink onto the base layer, wherein, in the preparation of the ink, a value Z denoting a reciprocal of the Ohnesorge number Oh determined by density ? (g/m3), surface tension ? (mN·m), and viscosity ? (mPa·s) of the ink and a diameter r (mm) of the ink ejection nozzle satisfies Formula 1, in the ejection of the drop of the ink, speed V (m/s) of the ejected drop satisfies Formula 2, and the value Z and the speed V (m/s) satisfy Formula 3.

Abstract: A process for producing a repair coating on at least one metallic surface that is coated with at least one corrosion protecting coating A applied with at least one composition selected from the group of pretreatment compositions, of organic compositions and of silicon compound(s) containing compositions, whereby the at least one corrosion protecting coating A has been at least partially removed in the area Z, whereby a thin corrosion protecting coating B containing at least one silicon compound is applied with a solution or dispersion containing at least one silane, at least one silanol, at least one siloxane, at least one polysiloxane or any mixture of these (=“siloxane composition”) on at least a part of the area Z.

Abstract: To provide a method of efficiently manufacturing an organic light-emitting element with excellent light-emitting characteristics by application, the method includes: preparing ink and filling an inkjet device having an ink ejection nozzle with ink; preparing a substrate having a base layer including a first electrode; and positioning the inkjet device above the substrate, and causing the inkjet device to eject a drop of the ink onto the base layer, wherein, in the preparation of the ink, a value Z denoting a reciprocal of the Ohnesorge number Oh determined by density ? (g/m3), surface tension ? (mN·m), and viscosity ? (mPa·s) of the ink and a diameter r (mm) of the ink ejection nozzle satisfies Formula 1, in the ejection of the drop of the ink, speed V (m/s) of the ejected drop satisfies Formula 2, and the value Z and the speed V (m/s) satisfy Formula 3.