13th week of 2016 patent applcation highlights part 11 |
Patent application number | Title | Published |
20160089792 | Magnetically Attached End Effectors - In implementations of magnetically attached end effectors, end effectors for use with a robotic touchscreen testing apparatus are held in a rack. The apparatus is able to fix, remove, and change end effectors though movement of a movable spindle of the apparatus relative to the rack. The end effectors are attached to the spindle through magnets and aligned with the spindle through complimentary alignment features on the end effectors and the spindle. | 2016-03-31 |
20160089793 | GRASPING GRIPPER - An example gripper may include: a base; two or more fingers attached to the base, with each finger being movable towards, and away from, one or more others of the fingers; and one or more ports at the base or at one or more of the fingers to provide suction through a vacuum. | 2016-03-31 |
20160089794 | ROBOT - A robot includes an nth arm (n is a natural number), an (n+1)th arm rotatably supported with respect to the nth arm, and a connection destination selection part that can select a connection destination of a cable routing present inside of the nth arm from a cable routing present outside of the nth arm and a cable routing present inside of the (n+1)th arm. | 2016-03-31 |
20160089795 | A ROTARY JOINT OF A ROBOT AND THE ROBOT INCLUDING THE SAME - A rotary joint, a hollow gear and a hollow wiring unit having a first flexible printed circuit board therein, to allow hose to pass through both the hollow gear and the hollow wiring unit. A robot includes the rotary joint. | 2016-03-31 |
20160089796 | ROBOT - A robot includes an arm that rotates about a predetermined rotation axis as a rotation center, and a cable routing connecting part that can connect a cable routing inside of the arm and a cable routing outside of the arm, wherein the cable routing connecting part is provided in the arm, and present within a circle having a radius as a distance between a part of the arm farthest from the rotation axis as seen from a axis direction of the rotation axis and the rotation axis and centered at the rotation axis. | 2016-03-31 |
20160089797 | ROBOT - A robot includes a base, an arm provided on the base, a connecting member provided in an interior of the base and an interior of the arm, a first fixing member that fixes the connecting member in the interior of the arm and guides the connecting member in the interior of the arm, and an inertial sensor, wherein the inertial sensor is not in contact with the connecting member. | 2016-03-31 |
20160089798 | Cutter Assembly Having a Screw-Locking Device - A cutter assembly has a blade holder, a blade, a slider and a screw-locking device. The blade is moveably mounted in the blade holder and has a moving direction. The blade holder has a bottom and multiple engaging segments disposed on the bottom along the moving direction of the blade. The slider is mounted slidably on the blade holder and connected to the blade. The screw-locking device is mounted on the slider and has a locking bolt and a locking sleeve screwed with each other. The locking bolt has an end selectively engaging at least one of the engaging segments. | 2016-03-31 |
20160089799 | ROTARY ELECTRIC SHAVER - A rotary electric shaver includes an outer blade whose upper surface functions as annular shaving surfaces and having multiple hair inlets formed therein, and an inner blade that has a small blade which rotates while coming into sliding contact with a lower surface of the outer blade from below the annular shaving surfaces and. At least a portion of the multiple hair inlets is formed in an elongated hole shape extending along a radial direction of the annular shaving surfaces and, and an end portion (alternatively, both end portions and) in the radial direction has a widened portion (alternatively, and) which is open wider in a circumferential direction than a central portion. | 2016-03-31 |
20160089800 | SHAVING RAZOR WITH ONE OR MORE RECIPROCATING BLADES - A shaving razor having a handle and a shaving head with an exposed reciprocating blade. A power source is disposed within the handle with an actuator that causes at least one blade of a multi-blade razor head to reciprocate within a zone of motion. Other embodiments are also described and claimed. | 2016-03-31 |
20160089801 | USE OF PRINTED CIRCUIT BOARD, ELECTRONIC COMPONENT, AND SEMI-CONDUCTOR ASSEMBLY EQUIPMENT FOR THE ASSEMBLY OF RAZORS AND COMPONENTS THEREOF - The invention discloses a novel application of standard printed circuit board (PCB) assembly modules, electronic assembly, and/or semiconductor assembly equipment for the assembly of consumer products, such as razor cartridges. In addition, nozzles of the pick/place component placement machine of the present invention may be desirably adapted to operate on type of razor cartridge component (e.g., blade, lubricating strip) disposed on a pallet. The adapted nozzle may include adaptors which may have an elongated portion, an angled portion, a tapered portion, a gripper portion, a curved portion, a rounded portion, a pointed tip, a stamper, a marker, a printer, a guide portion, a spring portion, a moveable leg, or any combination thereof, for operating on a razor cartridge component. | 2016-03-31 |
20160089802 | Knife Holder Assembly - A knife holder assembly for opening the knife when the knife is removed from the holder includes the knife structured to have a foldable blade. The holder is structured to removably contain the knife. A wheel is coupled to the holder. The blade on the knife engages the wheel when the knife is removed from the holder. The wheel unfolds the blade. | 2016-03-31 |
20160089803 | SMALL FOOD CUTTING DEVICE, SYSTEM, AND METHOD - A small food cutting device comprising: a lid, the lid comprising: an inner ceiling; a lid wall enclosing the inner ceiling; a base, configured to mate with the lid, the base comprising: an inner floor; a base wall enclosing the inner floor; and wherein the base is configured to hold a plurality of small foods, with the lid laying on top of the plurality of small foods and forming a gap between the lid and the base, the gap generally aligned to the mid-height of the small foods. A small food cutting system comprising: a base, the base comprising: an inner floor; a base wall enclosing the inner floor; a plurality of small foods located generally on the inner floor and contained within the base wall; a lid placed on top of the plurality of small foods, the lid comprising: an inner ceiling; a lid wall enclosing the inner ceiling; a gap formed between the lid and the base, the gap generally aligned to the mid-height of the small foods; and a knife, configured to slice the small foods generally in half through the gap. A method of cutting small foods with small food cutting device, the method comprising: placing a plurality of small foods on the inner floor of the base of the small food cutting device; placing a lid on top of the plurality of small foods located in the base; leaving a small gap G between the lid and the base, and generally aligned with the mid-height of the small foods; holding the lid by a handle; cutting the small foods generally in half with a knife through the small gap G; removing the lid; and using the cut small foods. | 2016-03-31 |
20160089804 | Device and Method for Creating Partial Cuts in Food Products - A device for creating partial cuts, such as transverse spiral cuts, into an elongated food product, such as hot dogs, frankfurters, and wieners, the device having an upper housing section with at least one top blade and a lower housing section with at least one bottom blade, wherein closing the top housing on top of the lower housing with the elongated food product inside allows the top blades and the bottom blades to partially cut through the elongated food product creating a helical groove pattern around the outer surface of the elongated food product while leaving an inner core intact. The device may also have guide channels to guide a skewer through the inner core for easy removal of the food product from the housing. The device can also be provided as a kit with skewers, modified tongs, and a heating unit to cook the food product in the housing. | 2016-03-31 |
20160089805 | PIERCING MECHANISM OF BREAD MAKER - A piercing mechanism configured to pierce a sealing film of a bread ingredient box includes a bottom seat, a top seat disposed above the bottom seat for supporting the bread ingredient box, and a sawtooth blade disposed on an inner side of the bottom seat. A plurality of spaced-apart support units are disposed on the bottom seat, and each includes an outer support tube, an inner post inserted into the outer support tube and extending out of the bottom seat for abutting against a housing of a bread maker, an outer spring having two opposite ends respectively abutting against the top and bottom seats, and an inner spring having two opposite ends respectively abutting against the inner post and the outer support tube. | 2016-03-31 |
20160089806 | METHOD AND APPARATUS FOR MEASURING PROTRUSION LENGTH OF PROTRUSION PORTION - Method and apparatus for measuring a protrusion length of a protrusion portion on each side of sheet after cutting even when there is variation in positions of cords embedded in the sheet, apparatus with imaging unit that images cross-sectional profile in width direction of sheet including protrusion portions, and generates waveform data from imaging of cross-sectional profile, detect maximum height-positions of crests and of troughs of waveform data, set, based on waveform data, a maximum height-position of crest closest to width end of sheet as maximum height-position of end crest, set a position corresponding to an edge of protrusion portion of sheet, located on more width end side than maximum height-position of end crest, as minimum height-position of a terminal trough, detect distance in width direction of sheet between maximum height-position of end crest and of the terminal trough, and measure protrusion length of protrusion portion based on detected distance. | 2016-03-31 |
20160089807 | CUTTING TOOL - A cutting tool includes a pipe, a pressing foot assembly, a spring, and a blade assembly. The pressing foot assembly is slidably sheathed on an end of the pipe. The spring is sheathed on the pipe. An end of the spring abuts against the pipe, and the other end of the spring abuts against the pressing foot assembly. The blade assembly passes through the pipe and the pressing foot assembly in a slidable manner. When the cutting tool moves along a first direction, the pressing foot assembly keeps pressing against an object in a second direction substantially perpendicular to the first direction, such that the blade assembly protrudes from the pressing foot assembly and cuts the object along the first direction. | 2016-03-31 |
20160089808 | CUTTING FLUID JET MACHINE - A cutting fluid jet machine includes: a cutting fluid jet nozzle; a nozzle-angle adjusting servo motor; a nozzle-length adjusting servo motor; a nozzle-location calculating unit; and a nozzle controlling unit for controlling an angle and a length of the cutting fluid jet nozzle in accordance with movement of a machine tool in a spindle direction based on a nozzle location calculated by the nozzle-location calculating unit. | 2016-03-31 |
20160089809 | Push-Sticks For Saws And Storage Systems Therefor - Embodiments of the present invention provide improved storage options for push-sticks used in connection with rip fences on table saws and similar cutting devices where push-sticks might be used. The push-stick storage system may include a rip fence and a push-stick retention mechanism. The push-stick retention mechanism may be defined by upright side walls that define a channel or slot therebetween for receiving a push-stick. The retention mechanism may also include a stop (or a stop block) positioned at a first position within the channel, and a retainer positioned at a second position within the channel. | 2016-03-31 |
20160089810 | SYSTEM AND METHOD FOR KICKBACK DETECTION BASED ON BLADE SPEED IN A POWER TOOL - A method of detecting and mitigating kickback in a saw includes identification of a running average speed (RPM) of a saw blade, the speed at a given time sample relative to the running average speed, the percentage change in speed from one speed sample to the previous speed sample, and the percentage change in average speed based on the current speed of the saw blade. If the identified speed profile from the samples indicates a kickback is imminent, then the saw identifies an imminent kickback event and removes power from the saw motor to mitigate kickback. | 2016-03-31 |
20160089811 | MACHINING FEATURES IN A CERAMIC COMPONENT FOR USE IN AN ELECTRONIC DEVICE - A ceramic part and methods for making the ceramic part are disclosed. A green body or non-sintered part may be formed using a casting or molding process. The green body may not be sintered or may be partially sintered before machining one or more features into a surface of the green body. After machining, the component may be fully sintered to create a hardened ceramic component. | 2016-03-31 |
20160089812 | Saw Blade For Making Thin Cuts in Green Concrete - A saw blade for rotating about an axis to cut green concrete may include a main body and a cutting portion. The main body includes an inner section and an outer section. The inner section has a first thickness in an axial direction that is greater than a second thickness of the outer section. The cutting portion includes a diamond-metal matrix joined to the outer section to cut a material responsive to rotation of the blade. The inner section extends radially outwardly from a center of the blade to a non-contact shoulder at the first thickness to transition to the outer section at the second thickness. The outer section extending radially outwardly to an outer diameter of the main body. | 2016-03-31 |
20160089813 | Device and Method for Cleaving a Crystalline Sample - A device for cleaving a crystalline sample, the device comprises: upper and lower bending elements that are arranged to contact upper and lower surfaces of the crystalline sample and to apply a bending moment on the crystalline sample; a first surface impact element that contacts a first surface of the crystalline sample; a cleaving element that is arranged to impact a second surface of the crystalline sample while the bending moment is applied on the crystalline element; wherein the second surface is opposite to the first side and oriented to the upper and lower surfaces of the crystalline sample wherein the device excludes any second surface alignment element for aligning the crystalline sample by contacting the second surface. | 2016-03-31 |
20160089814 | EXTRUDER SCREW - A double-screw extruder for thermoplastic materials, with a first and a second extruder screw, whereby the extruder screws have an inlet and an outlet and a core, helically extending screw flights being arranged through the core from the inlet to the outlet, so that the screw peaks and valleys are circumferential, and the peaks of the first screw penetrate into the valleys of the second screw, and vice versa. The screw flights may have a geometry which is step-shaped in cross section, whereby the steps may be provided such that the stepped course of the peaks is congruent with the stepped course of the valleys. | 2016-03-31 |
20160089815 | POLYMER PELLETIZATION VIA MELT FRACTURE - Polymer pellets are formed using air to influence the separation of polymer from a polymer melt. In accordance with one or more embodiments, a polymer material is extruded through a nozzle to form a polymer melt extending from the nozzle. A non-uniform thickness is generated in the polymer melt using a gas or gasses to apply a drag force to the polymer melt. This drag force reduces a thickness of a portion of the polymer melt adjacent the nozzle, and the polymer melt is fractured into discrete droplets at the reduced thickness. The discrete droplets are then solidified to form pellets. | 2016-03-31 |
20160089816 | DEVICE FOR DISPLAYING IMAGE ON APPAREL - An image displaying device includes a background layer and a display layer. The display layer includes an inner surface and an outer surface. The inner surface is substantially smooth, and the outer surface includes a plurality of raised areas and recessed areas. The display layer has a first zone with a first thickness measured between the inner surface and a raised area and a second zone with a second thickness measured between the inner surface and a recessed area. The display layer also includes a coloring agent having a higher concentration in the first zone as compared to the second zone. The display layer has increased light transmissivity through the recessed areas and decreased light transmissivity through the raised areas such that a contrast of light transmissivity between the raised and recessed areas generates an image. | 2016-03-31 |
20160089817 | METHOD FOR FABRICATING A SANDWICH BOX IMPACT BEAM - A method for fabricating a sandwich box impact beam for a vehicle. The method includes fabricating inner and outer facing sandwich structures each including an inner facesheet, an outer facesheet and a micro-truss core therebetween. The micro-truss cores are an ordered three-dimensional network of self-propagating polymer waveguides grown from a photo-monomer resin using a controlled exposure to collimated UV light sources at specified orientations through a plurality of apertures in a mask. The method includes mounting the inner and outer sandwich structures so that an open area is provided therebetween where the inner facesheets face each other across the open area. | 2016-03-31 |
20160089818 | METHOD AND APPARATUS FOR MANUFACTURING QUARTZ SLAB - An apparatus including a mold having a top opening which leads to an inner chamber. The mold may include a first, second, third, and fourth walls, and a bottom which enclose the inner chamber. The apparatus may further include a first and/or second devices which are configured with respect to the mold to supply first and/or second mixtures of quartz and resin to the inner chamber of the mold. The apparatus may include transportation sheet which lies in the inner chamber of the mold and on an inside surface of the third wall of the mold, and which is sandwiched between the first wall and the third wall of the mold and the second wall and the third wall of the mold. The first and second devices may include means for moving the mold to allow placement of the first and/or second mixtures in specific areas of the inner chamber. | 2016-03-31 |
20160089819 | METHOD OF FORMING FILM FOR A COMPONENT - A method of forming a film on a component includes providing a curing device. The curing device includes a grooved receiving die, a suction device, and a UV curing system. The suction device vacuum-lifts the component into the groove and a gap between the component and the groove is thus created. A vacuum is created in the gap and a UV curing glue is injected into the gap, the UV curing glue being selected from a monomer, an oligomer, and a photoinitiator. The UV curing glue is cured by the UV curing system and the component with a cured film is easily demolded. | 2016-03-31 |
20160089820 | METHOD FOR PRODUCING A REINFORCEMENT ROD - The invention relates to a method for producing a reinforcement rod ( | 2016-03-31 |
20160089821 | HEAT FLOW CONTROL FOR MOLDING DOWNHOLE EQUIPMENT - There is disclosed herein a method of designing a mold, the mold being at least part of a unitary body to be formed from a plurality of layers by 3D printing, the method comprising: defining an inner surface of the mold corresponding to at least part of an outer surface of an object to be molded in the mold; selecting a first material from which at least part of the mold is to be printed; and selecting a second material from which at least another part of the mold is to be printed, the second material having a higher thermal and/or electrical conductivity than the first material, wherein at least one of the layers from which the mold is to be formed by 3D printing includes areas to be printed from each of the first and second materials. | 2016-03-31 |
20160089822 | PRODUCTION METHOD OF PRODUCING FIBER-REINFORCED RESIN MOLDING - A production method of producing a fiber-reinforced resin molding includes: kneading, in a kneader, molten thermoplastic resin with opened reinforcing fibers obtained by opening a bundle of reinforcing fibers, to produce a kneaded mixture; and placing or charging the kneaded mixture into a molding device to produce a fiber-reinforced resin molding. | 2016-03-31 |
20160089823 | PRODUCING METHOD FOR CABLE WITH RESIN MOLD - A method for producing a cable with a resin mold including a cable section comprising an electric wire and a sheath comprising a synthetic resin covering the electric wire, and a resin mold section into which a portion of the sheath is molded by a resin is provided. A portion of the cable section is received in a receiving space in a die formed with a molten resin inlet, an inflow passage, and a resin reservoir therein. A molten resin is injected from the inlet into the receiving space. A portion of the injected molten resin flows through the inflow passage and is retained in the resin reservoir. The portion of the sheath is molten by heat of the molten resin. The molten resin is solidified to thereby form a molded resin product. Its unnecessary portion solidified in the resin reservoir is removed from the molded resin product. | 2016-03-31 |
20160089824 | MOLD CORE FOR MANUFACTURING CONTAINER CLOSURE - The present invention discloses a mold core for manufacturing a container closure comprising a plurality of slides, a sleeve placed over the plurality of slides, a slide seat on which the plurality of slides are mounted, and a cam device arranged inside a space defined by the plurality of slides. The plurality of slides comprise a plurality of first independent slides and a plurality of second independent slides, wherein each of the first independent slides and each of the second independent slides are configured to be individually mounted on and individually detached from the slide seat; and wherein axial movement of the sleeve relative to the first independent slides and the second independent slides effects application of radial force onto the first independent slides and the second independent slides successively, so as to cause successive inward movement of the first independent slides and of the second independent slides within the sleeve. Since the plurality of slides of the present invention comprise a plurality of independent slides, therefore the mold has a simple structure, is easy to maintain and replace, and has low maintenance and replacement costs. | 2016-03-31 |
20160089825 | CELLULAR MATERIALS BASED MOLDS WITH LOWER CYCLE TIME - A mold comprising a scaffolding support structure including a base member, a top member and side members defining an enclosure. The scaffolding structure further includes a plurality of interconnected and elongated support members interspersed within the enclosure between the base member and the top member so as to define open space within the enclosure for ease of heating and cooling fluid flow, and a plurality of flow partitions within the enclosure. An intermediate layer is formed on the top member and a working surface layer is formed on the intermediate layer. | 2016-03-31 |
20160089826 | MANUFACTURING OF SMALL FILM STRIPS - The present invention relates to methods for forming films. In particular, the present invention relates to the formation of films on a substrate via the use of individual pumps to deposit individual wet film products onto a substrate. | 2016-03-31 |
20160089827 | METHOD OF FORMING A CONTAINER - An apparatus and method for forming a plastic container is provided. The method includes disposing a preform into a primary mold cavity and applying pressurized air to urge the preform to conform to the shape of the primary mold cavity to form a primary article. The primary article is then permitted to shrink to a predetermined volume. The method can further include exposing the primary article to an internal vacuum to facilitate shrinking to a predetermined volume. The method further includes disposing the primary article into a second mold cavity and applying pressurized air to urge the primary article to conform to the second mold cavity to form an intermediate article. Finally, at least a portion of the intermediate article is trimmed off to form a final container. | 2016-03-31 |
20160089828 | METHOD AND MACHINE FOR MANUFACTURING PLASTIC CONTAINERS - A method for manufacturing plastic containers in which, for each container, a plastic preform containing air is supplied; the preform is heated at a preform temperature over the glass temperature of the preform material, the preform is inserted in a mold having a mold cavity; and the preform is expanded to a container having the shape of a mold cavity by a forming liquid. The method also includes, between steps (b) and (d), the injecting of a gaseous product into the preform containing air, wherein the gaseous product is absorbable by the forming liquid. The injection conditions of the gaseous product are selected such that the injected gaseous product expels the air out of the preform. | 2016-03-31 |
20160089829 | METHOD FOR MANUFACTURING A PACKAGE, A BLANK AND A PACKAGE MANUFACTURED WITH SAID METHOD - Method for manufacturing a package with a blown foam structure and of a material at least comprising natural polymers such as starch, wherein the method comprises providing a mould with a mould cavity and inserting a starch batter in the mould cavity, moulding of a blank in said mould cavity from said starch batter, wherein the blank comprises a bottom panel and first and second side wall panels pivotally connected to the bottom panel along respective folding lines extending between said bottom panel and the respective first and second sidewall panels, removing the blank from the mould cavity, folding of the respective side wall panels along the respective folding lines in a substantially upward position such that adjacent side wall panels abut each other and form a package side wall that extends along a perimeter of said bottom, said side wall and the bottom defining a package inner space. | 2016-03-31 |
20160089830 | JOINING STRUCTURAL MEMBERS USING FOAM - One aspect of a process of forming an aircraft component includes bonding a first end of a honeycomb structure to a surface of an aircraft skin member, the honeycomb structure including multiple connected cells. Foam is sprayed on a second end of the honeycomb structure opposite the first end. The process also includes curing the foam on the second end of the honeycomb structure. | 2016-03-31 |
20160089831 | METHOD FOR MANUFACTURING DISPLAY APPARATUS, DISPLAY APPARATUS, AND FILM DEVICE - Prepared is a film device (FD) in which a first thermoplastic film ( | 2016-03-31 |
20160089832 | RESIN BONDING DEVICE - The present invention provides a resin bonding device comprising: a resin melting injection device A having: a cylinder | 2016-03-31 |
20160089833 | Device for configuring deformable material to provide a predetermined relatively non-deformable visual display - A device for configuring deformable material to provide a predetermined relatively non-deformable visual display includes a plurality of configuration blocks for receiving deformable material that ultimately transforms to a relatively non-deformable material, and a key member for aligning and securing together adjacently disposed configuration blocks. Each of the configuration blocks include a plurality of gaps for arcuately disposing the configuration blocks; and an insert member that engages a ridge portion of each configuration block to ultimately configure an edge portion of the deformable material. A base portion of each configuration block ultimately receives deformable material thereupon that is configured to a predetermined design. Arm members of each configuration block and the insert member are manually removed, after the deformable material transforms to a relatively non-deformable material, to expose a predetermined design in the edge portion and the base portion of each configuration block. The combined displays in the edge portions and the base portions of the configuration blocks provide a predetermined relatively non-deformable visual display. | 2016-03-31 |
20160089834 | ASSEMBLED INTEGRAL PLASTIC ELEMENTS ON AN ANODIZED MOBILE DEVICE ENCLOSURE - Methods and systems for manufacturing composite parts that include anodizable portions and non-anodizable portions such that an interface between the anodizable portions and non-anodizable portions are free of visible defects are described. The non-anodizable portions can be made of anodizable metals such as aluminum or aluminum alloy. The non-anodizable portions are made of material that do not generally form an anodic film, such as plastic, ceramic or glass materials. In particular, the methods described relate to manufacturing methods that are compatible with anodizing processes and avoid defects related to anodizing processes. In particular embodiments, the methods involve avoiding trapping of anodizing chemicals within a gap between an anodizable portion and a non-anodizable portion, which prevents the anodizing chemicals from disrupting the uptake of dye in a post-anodizing dyeing process. | 2016-03-31 |
20160089835 | SYSTEM AND METHOD FOR POSITIONING AT LEAST ONE SPACER IN A LONGITUDINAL PIPE - The invention relates to a system for positioning at least one spacer in a longitudinal pipe having an outer duct and an inner duct mounted in said outer duct, the system including a bracing module configured to maintain a pipe longitudinally along an axis while maintaining positioning clearance between the inner duct and the outer duct, and an insertion module having a pusher member, guided longitudinally along said axis, that is configured to move at least one spacer in the positioning clearance of the longitudinal pipe. | 2016-03-31 |
20160089836 | AIR-COOLED BELT SPLICER - Cool-down time is menimized by the use of a cooler having integral fins of high surface area, and the use of high-efficiency fans. Heat-up time is minimized by the low mass of the cooler, and the prevention of transmission of heat to the housing. | 2016-03-31 |
20160089837 | METHOD FOR MAKING FUNCTIONALLY GRADIENT COATINGS BY 3D PRINTING BASED ON ELECTROSTATIC SPINNING AND ELECTROSTATIC SPRAYING - A method for making functionally gradient coatings by 3D printing based on electrostatic spinning and electrostatic spraying is disclosed, which uses a hybrid 3D printing system based on electrostatic spinning and electrostatic spraying including: a first injection pump, a second injection pump, a first nozzle, a second nozzle, a high voltage power supply, a core rod collector, a controller, a motor and a speed-adjusting unit. The first injection pump, the first nozzle, the high voltage power supply, the core rod collector and the controller constitute an electrostatic spinning subsystem. The second injection pump, the second nozzle, the high voltage power supply, the core rod collector and the controller constitute an electrostatic spraying subsystem. The electrostatic spinning subsystem is controlled by the controller to generate a first material coating, and the electrostatic spraying subsystem is controlled by the controller to generate a second material coating. The method can make multiple layers of functional gradient coatings according to individual needs. | 2016-03-31 |
20160089838 | SYSTEM FOR ADJUSTING PLATFORM HEIGHT DURING THREE-DIMENSIONAL PRINTING OF AN OBJECT - A three-dimensional object printer uses a mechanical system to adjust a vertical height of a platform that supports a substrate for formation of a three-dimensional object in the printer. The mechanical system includes a Geneva mechanism operated by a rack and pinion arrangement to drive differential screws and adjust a vertical distance between the platform and a printhead in the printer. | 2016-03-31 |
20160089839 | THREE-DIMENSIONAL PRINTING APPARATUS - A 3-D printing apparatus includes a frame, a tank, an automatic-filling module and a control unit. The tank is disposed in the frame and contains a liquid-forming material. The automatic-filling module includes a sensing unit, a reservoir, a filling pipe and a pressuring unit. The sensing unit detects a liquid level of the tank. The reservoir stores the liquid-forming material. The filling pipe connects to the reservoir and includes an outlet. A maximum liquid level of the liquid-forming material in the reservoir is lower than or equal to a level of the outlet. A gap exists between the outlet and a top edge of the tank. The pressuring unit provides a positive pressure to the reservoir so that the liquid-forming material in the reservoir flows to the tank. The control unit determines whether the pressuring unit provides the positive pressure to the reservoir according to the liquid level. | 2016-03-31 |
20160089840 | METHOD FOR MANUFACTURE OF AT LEAST ONE COMPONENT OF A FIELD DEVICE - A method for manufacture of at least one component of a field device for determining or monitoring a process variable, wherein the field device is applied in automation technology and is manufactured from at least one material. The method comprises method steps as follows: specifying at least one structure related and/or material related boundary condition of the component and/or a boundary condition relevant for the functionality of the component and/or at least one external boundary condition, which takes into consideration the influence of environmental conditions on the component at the location of use; optimizing the structure of the component via a finite element model taking into consideration the at least one structure related and/or material related boundary condition and/or the at least one boundary condition relevant for the functionality of the component and/or the at least one environmental condition, wherein the optimized structure of the component is described by digital data; transferring the digital data, which describe the optimized structure of the component, to a 3-D printer; and printing the component in accordance with the digital data. | 2016-03-31 |
20160089841 | Composite Part Forming System - A system and method for forming a composite part. The method comprises positioning a prepreg material relative to a composite forming tool. The composite forming tool comprises a frame associated with a shaping system, a base comprising at least one mold, and the shaping system associated with the frame and configured to move relative to the frame, the base, and the prepreg material. The method also lowers the shaping system of the composite forming tool towards the prepreg material. The method applies pressure to the prepreg material with a centerline presser of the shaping system. The method also applies a force to the prepreg material using a number of compliant elongate members of the shaping system to uniformly apply the prepreg material to the at least one mold of the base of the composite forming tool. | 2016-03-31 |
20160089842 | CONTINUOUS ROLL-TO-ROLL PROCESS DESIGN FOR VERTICAL ALIGNMENT OF PARTICLES USING ELECTRIC FIELD - A method of preparing an anisotropic polymer film using an electric field generator. The method of preparing an electric field generator comprising supplying an electric field across an electric field application zone, where the electric field is generated by a first electrode having a first charge and a second electrode having a charge opposite of the first, passing a polymer film that optionally includes dispersed particles through the electric field application zone, where the polymer film contacts the first electrode to induce orientation, and freezing the polymer film to lock the orientation before the polymer film exits the electric field application zone. | 2016-03-31 |
20160089843 | IN-SITU ANNEALING OF POLYMER FIBERS - A method of manufacturing a composite article may include attaching a polymer element to a tool. The polymer element may be pre-stretched prior to attachment to the tool. The method may further include annealing the polymer element at a predetermined temperature while constraining a length of the polymer element using the tool. In addition, the method may include curing or solidifying resin associated with the polymer element. The annealing step may be performed prior to the curing or solidifying step. Alternatively, the annealing step may be performed concurrently with the curing or solidifying step. | 2016-03-31 |
20160089844 | Method of Repairing a Core Stiffened Structure - A method of repairing a core stiffened structure can include removing a damaged portion of the core stiffened structure; creating a cutout in a portion of a repair core member; fitting the repair core member onto an existing core member such that the cutout mates with a portion of the existing core member; bonding the repair core member to the existing core member; and placing a skin patch over the repair core member. | 2016-03-31 |
20160089845 | COMPACTOR SYSTEM AND METHOD - A compactor system for use on board marine vessels and offshore installation. The compactor has a cart with bottom and side members capable of withstanding a compaction force. The upper rim of the cart has a lip. The system has a compaction unit formed of a movable upper frame with a shoulder and a lower fixed frame. During waste compaction, the moveable upper frame moves in an upward direction to a point where the shoulder engages the cart's lip to establish a force-distribution loop among the upper frame and the side and bottom members of the cart. The cart's wheels are not subjected to the compaction force. | 2016-03-31 |
20160089846 | EXTRUDED HEAT SHRINK PROTECTIVE SEAMLESS PVC PILING SLEEVE AND METHOD - A continuously extruded seamless PVC pipe shrinks to about 50% of its extruded size when reheated to a specific temperature. Prior to shrinking, the extruded pipe is slid over a wooden piling, dimensional lumber, railroad tie or other metal or wood substrate. Upon application of heat, the pipe will shrink to encapsulate the substrate in a hermetically sealed, durable membrane. This impervious membrane will prevent any attack on the substrate by boring and surface destroying organisms and substances. | 2016-03-31 |
20160089847 | MULTILAYERED HEAT-RECOVERABLE ARTICLE, WIRE SPLICE, WIRE HARNESS, AND METHOD FOR PRODUCING ADHESIVE FOR MULTILAYERED HEAT-RECOVERABLE ARTICLE - An object of the present invention is to provide a multilayered heat-recoverable article in which an adhesive layer easily flows during heat shrinkage to ensure adhesiveness with an adherend and does not flow out from a base material layer after heat shrinkage, and a wire splice and a wire harness that include a tube formed by thermally shrinking such a multilayered heat-recoverable article. The multilayered heat-recoverable article ( | 2016-03-31 |
20160089848 | STRUCTURES FOR PREVENTNG VACUUM SUCTION WHEN PACKING LIQUID CRYSTAL PANELS - A structure for preventing vacuum suction when packing liquid crystal panels is disclosed. The structure includes a spaced buffer layer arranged between two liquid crystal panels, a first vacuum breaker structure arranged on a first surface of the spaced buffer layer to form at least one air gap between one of the liquid crystal panel and the spaced buffer layer, and the first surface is opposite to one of the liquid crystal panels. The vacuum suction between the liquid crystal panels and the spaced buffer layer is avoided by arranging the vacuum breaker structures therebetween. As such, the liquid crystal panel is prevented from being brought up by other liquid crystal panel due to the vacuum suction, which avoids the fragment and related cost. | 2016-03-31 |
20160089849 | LAMINATE SHEET AND MOLDED BODY, AND METHODS FOR PRODUCING THE SAME - Provided is a laminate sheet in which, on one surface of a resin layer having optical transparency, a colored layer and a backing layer are sequentially laminated, and on the other surface of the resin layer, a pattern layer made of an ionizing radiation curable resin and having optical transparency is laminated. The pattern layer has a softening temperature of 140 to 160° C., and the resin layer, the colored layer, and the backing layer have softening temperatures of 120° C. or lower. The surface of the pattern layer has a concavo-convex shape and the thickness thereof is continuously varied. | 2016-03-31 |
20160089850 | DECORATION PANEL AND METHOD FOR MANUFACTURING DECORATION PANEL - A decoration panel of the present invention includes an outer layer having a through hole formed thereon which is opened to a front surface to be decorated and a back surface on a side opposite to the front surface, and a decoration layer including an inlay pattern portion which is part of the decoration layer entering the inside of the through hole from the back surface side being curved and deformed, the decoration layer being arranged on the entire back surface of the outer layer and having an approximately uniform layer thickness. | 2016-03-31 |
20160089851 | NONWOVEN DECORATIVE LAMINATES AND METHODS OF MAKING THE SAME - A decorative laminate for application to a structural component is provided. The decorative laminate has a substrate layer of a nonwoven fabric material with or without a flame retardant material. The decorative laminate further has an embossable layer disposed upon the substrate layer. The embossable layer includes an embossing resin material and the flame retardant material. The decorative laminate further has a protective layer disposed upon the embossable layer. The protective layer includes a polyvinyl fluoride-based material and has a decorative material printed on a first side of the protective layer facing the embossable layer. An adhesive layer is applied to the substrate layer of the decorative laminate. The decorative laminate is applied to the structural component with the substrate layer facing a bonding surface of the structural component and with an adhesive layer applied between the decorative laminate and the bonding surface of the structural component. | 2016-03-31 |
20160089852 | MULTI-LAYER THERMOFORMED POLYMERIC FOAM ARTICLES AND METHODS - Thermoformed polymeric foam articles and methods of forming the same are described. In some embodiments, thermoformed articles are produced from multi-layer foamed sheet where the formed article has a density equal to or less than the precursor multi-layer sheet. One of the layers of the thermoformed article may be a polymer foam layer having a density reduction between 5% and 50% as compared to the solid polymer. Such polymer foam layers can be referred to as “medium density” or “high density” foams. Advantageously, the methods described herein are practical for commercial use and, for example, can be used to produce a variety of thermoformed articles suitable for use in many different applications. | 2016-03-31 |
20160089853 | Filament Network for a Composite Structure - A filament network for a composite structure may include a number of fiber layers, wherein each fiber layer includes a fiber bundle and a filament layer at least partially covering the fiber bundle, the filament layer including discontinuous filaments including at least one of different length filaments including first length filaments and second length filaments, wherein the first length filaments include a first length and the second length filaments include a second length, and wherein the first length is different than the second length and different type filaments including first type filaments and second type filaments, wherein the first type filaments include a first material composition, wherein the second type filaments include a second material composition, and wherein the first material composition is different that the second material composition, and a resin binding the number of fiber layers together. | 2016-03-31 |
20160089854 | INTERFACE CONTROL OF SEMI-CRYSTALLINE BIOPOLYMER FILMS - The present invention provides, among other things, compositions including a first silk fibroin layer, and a second silk fibroin layer, wherein at least a portion of the first silk fibroin layer is directly adhered to at least a portion of the second silk fibroin layer to form a silk-silk interface and methods of making the same. | 2016-03-31 |
20160089855 | MORPHING FORM FACTOR MATERIAL - Particular embodiments described herein provide for a morphing material that may include an outer layer, a polymer layer, and an inner core. The polymer layer can be between the inner core and the outer layer. The inner core can include a shape memory polymer and the shape memory polymer can have a known glass transition temperature. The morphing material can be mechanically deformed to a temporary shape when a temperature of the shape memory polymer is at or above the glass transition temperature. | 2016-03-31 |
20160089856 | COMPOSITE STRUCTURES HAVING REDUCED AREA RADIUS FILLERS AND METHODS OF FORMING THE SAME - A composite structure having a base charge and an outer channel charge is provided. The outer channel charge has an inner radius and an outer radius. A charge of plies adjacent to the inner radius reduces the inner radius. | 2016-03-31 |
20160089857 | BASE FILM FOR PRODUCING A GRAPHIC FILM - The present invention provides a method of reducing lifting of a graphics film from a substrate, the graphic film having a polymeric film layer having on one major side thereof an adhesive layer, wherein lifting is reduced by applying the graphic film to the substrate with an intermediary base film, the base film comprising a backing layer having opposite first and second major sides, the first major side having an adhesive layer and the graphic film being adhered to the second major side of the base film. | 2016-03-31 |
20160089858 | SUCCESSIVELY PEELABLE COEXTRUDED POLYMER FILM WITH EMBEDDED ANTIMICROBIAL LAYER(S) - Multilayered polymer films are configured so that successive constituent layer packets can be delaminated in continuous sheet form from the remaining film. The films are compatible with known coextrusion manufacturing techniques, and can be made without adhesive layers between layer packets that are tailored to be individually peelable from the remainder of the film. Instead, combinations of polymer compositions are used to allow non-adhesive polymer layers to be combined such that irreversible delamination of the film is likely to occur at interfaces between layer packets pairs. Some of the polymer layers, including at least one embedded layer, comprise an antimicrobial agent, and these layers may be positioned at the front of each layer packet. After the antimicrobial layer of one layer packet has been used, the packet can be peeled away to expose a pristine antimicrobial layer of the next layer packet. The antimicrobial agent may be organic. | 2016-03-31 |
20160089859 | ARTICLE AND METHOD FOR MAKING AN ARTICLE - An article and a method for making shaped cooling holes in an article are provided. The method includes the steps of providing a metal alloy powder; forming an initial layer with the metal alloy powder, the initial layer having a preselected thickness and a preselected shape, the preselected shape including at least one aperture; sequentially forming an additional layer over the initial layer with the metal alloy powder, the additional layer having a second preselected thickness and a second preselected shape, the second preselected shape including at least one aperture corresponding to the at least one aperture in the initial layer; and joining the additional layer to the initial layer, forming a structure having a predetermined thickness, a predetermined shape, and at least one aperture having a predetermined profile. The structure is attached to a substrate to make the article. | 2016-03-31 |
20160089860 | ALUMINUM ALLOY MATERIAL HAVING THERMAL BONDING FUNCTION IN SINGLE LAYER, MANUFACTURING METHOD FOR SAME, AND ALUMINUM BONDED BODY USING THE ALUMINUM ALLOY MATERIAL - This invention provides an aluminum alloy material capable of being thermally bonded in a single layer without using a bonding agent, such as a brazing or welding filler metal. This invention also provides a bonding method for the aluminum alloy material, and an aluminum bonded body using the aluminum alloy material. The aluminum alloy material is made of an aluminum alloy containing Si: 1.0 to 5.0 mass % and Fe: 0.01 to 2.0 mass % with the balance Al and inevitable impurities. The aluminum alloy material contains 10 to 1×10 | 2016-03-31 |
20160089861 | MOLDING PACKAGING MATERIAL AND MOLDED CASE - A molding packaging material includes an outer substrate layer made of a heat-resistant resin, an inner sealant layer made of a thermoplastic resin, a metallic foil layer provided between the outer substrate layer and the inner sealant layer, and a protection coat layer formed on a side opposite to the metallic foil layer side of the outer substrate layer. The protection coat layer is made of a resin composition including a main resin containing a phenoxy resin and a urethane resin, and a curing agent, and has a thickness of 0.1 μm to 10 μm. | 2016-03-31 |
20160089862 | MULTILAYERED STRUCTURE - Provided are a multilayer structure including a polyamide layer (A) and a polyether polyamide layer (B) and also a multilayer structure including a polyolefin layer (C) and a polyether polyamide layer (B), wherein the polyamide layer (A) contains a polyamide (a) in which a diamine constituent unit thereof includes a constituent unit derived from a xylylenediamine (a-1), and a dicarboxylic acid constituent unit thereof includes a constituent unit derived from an α,ω-linear aliphatic dicarboxylic acid (a-2) having from 4 to 20 carbon atoms; and the polyether polyamide layer (B) contains a polyether polyamide (b) in which a diamine constituent unit thereof includes constituent units derived from a polyether diamine compound (b-1) having a specified structure and a xylylenediamine (b-2), and a dicarboxylic acid constituent unit thereof includes a constituent unit derived from an α,ω-linear aliphatic dicarboxylic acid (b-3) having from 4 to 20 carbon atoms. | 2016-03-31 |
20160089863 | ELECTRICAL CURING OF COMPOSITE STRUCTURES - A composite structure cured by the process of: electrically coupling a first lead to a first portion of said composite structure; electrically coupling a second lead to a second portion of said composite structure; and using an electric power source to pass electric current through said composite structure from said first portion to said second portion, wherein passing said electric current through said composite structure causes the temperature of at least a portion of said composite structure increase to a predetermined temperature. | 2016-03-31 |
20160089864 | Light-Shielding Sheet And Container - Provided are a light-shielding sheet that has a function of shielding light of a specific wavelength and that is capable of preventing a light-shielding substance from being transferred into the contents and seeping out of a container and a container produced using the light-shielding sheet. This light-shielding sheet of the present invention has a multilayer structure of three or more layers including at least one light-shielding layer that shields a specific wavelength and/or eluate-blocking layer that blocks substances eluted from the light-shielding layer. When producing a container from the light-shielding sheet, an eluate-blocking layer A is provided at least between the light-shielding layer and an innermost layer or on the innermost layer, and an eluate-blocking layer B is provided between the light-shielding layer and an outermost layer or on the outermost layer. The light-shielding layer may further double as an eluate-blocking layer. | 2016-03-31 |
20160089865 | CARD ASSEMBLY AND METHOD OF MANUFACTURING THE SAME - A laminate assembly and method for manufacturing a laminate assembly for a card assembly is provided. The assembly includes a top coat layer, a carrier layer connected with the top coat layer, and a colored core coupled by an adhesive layer. One or more of the adhesive layer or the top coat layer includes a colorant of a second color that is different from the first color of the colored core such that the first color of the colored core less not visible through the printed surface of the top coat layer. | 2016-03-31 |
20160089866 | METHOD FOR MANUFACTURING A COMPOSITE MATERIAL PART COMPRISING A WEB AND AT LEAST ONE FLANGE - A method for manufacturing a composite material part comprising a web and at least one flange. In a laying up stage, a plurality of plies of different orientations, including 0° oriented plies, are laid up to obtain a flat laminate with edges comprising an outer contour and an inner contour, the flat laminate also comprising at least one section with a radius of curvature of less than 10 m. A forming stage comprises forming a fold along a folding line on the flat laminate to create a flange forming an angle with the web, and applying a stress tension to the 0° oriented plies located at least partially between the folding line and the outer contour of the flat laminate, in the at least one section, to avoid the appearance of wrinkles. | 2016-03-31 |
20160089867 | METHOD AND DEVICE FOR PRODUCING A TEST ELEMENT - A method and a production device for producing a test element are disclosed. The method comprises providing in a transport step a continuous substrate tape, wherein the tape is transported in a transport direction parallel to a direction of extension of the continuous substrate tape; applying in an adhesive application step at least one continuous adhesive strip, wherein the strip is applied to the continuous substrate tape with a liquid adhesive and a slot coating process, and wherein the continuous adhesive strip is oriented parallel to the transport direction; applying in a cover element application step at least one cover element, wherein the at least one cover element is applied to the continuous adhesive strip, thereby securing the cover element to the continuous substrate tape; and individualizing in an individualization step the continuous substrate tape, wherein the tape is individualized into single test elements. | 2016-03-31 |
20160089868 | APPROACHES FOR WELDING SANDWICH STRUCTURES - Methods for welding sandwich structures together, especially vehicle structures, where the structures include two opposing face sheets with a core, such as a micro-truss core, therebetween. In one embodiment, two sandwich structures are butt welded together. A cooling fluid barrier is provided at an end of the core between the face sheets to prevent cooling fluid from entering the core during the welding process, where the cooling barrier can be a micro-truss structure and can include cooling fluid channels. A welding insert is inserted into the end of one of the structures adjacent to the cooling barrier, and is welded to the other structure to secure the structures together. | 2016-03-31 |
20160089869 | PRESSURE COMPENSATED INSULATED GLASS UNITS - Methods and apparatus for fabricating pressure compensated insulated glass units (IGUs). In one example, a method assembles an IGU from a first lite, a second lite and a spacer registered with and between the first and second lite, while at least the space between the first and second lites and within the perimeter of the spacer contains a heated or cooled inert gas. In another example, a method provides a vented IGU, heats or cools the vented IGU, introduces inert gas into the interior volume of the vented IGU, and seals vent ports before the IGU comes to ambient temperature. In another example, a method introduces or removes inert gas from an IGU by penetrating a seal of the IGU and then reseals the IGU. In another example, an apparatus for fabricating an IGU comprises a temperature control unit configured to heat or cool an inert gas and an IGU press wherein the apparatus is configured to introduce a heated inert gas or a cooled inert gas into the IGU as the hermetic seal of the IGU is formed. | 2016-03-31 |
20160089870 | APPARATUS FOR AND METHOD OF SHAPING AND APPLYING A SEGMENT TO A MOVING WEB - Apparatus for shaping a segment of material includes a forming member having a curved sidewall shaped complementary to a desired shape of the segment of material, and a conforming member having an applicator side and an engagement side disposed for engagement with the curved sidewall of the forming member. The conforming member includes a plurality of attachment regions disposed on the applicator side. Each attachment region is adapted to hold the segment of material on the conforming member. Engagement of the conforming member with the forming member causes the attachment regions to move from a first shape profile to a second shape profile, the second shape profile being the desired shape of the segment of material. | 2016-03-31 |
20160089871 | ASSEMBLING JIG FOR MOUNTING PANEL STRUCTURE ELEMENTS ONTO A SURFACE OF A CFRP PANEL - Assembling jig for mounting panel structure elements onto a surface of a CFRP-panel, comprising a base frame on which several positioning boards are transversely attached, which are parallel arranged one to another for supporting the CFRP-panel on an upper mounting surface, wherein the base frame comprises at least one metal bar for coupling the positioning boards consisting of a material having a thermal expansion coefficient which corresponds to the thermal expansion coefficient of the CFRP-material of the panel in order to provide a tolerance compensation system in at least longitudinal direction of the base frame. | 2016-03-31 |
20160089872 | APPARATUS AND METHOD FOR SYNCHRONIZING A ROLL-TO-ROLL TRANSFER DEVICE - In an apparatus and a method for synchronizing a roll-to-roll transfer device, the apparatus includes a thin-film, a first roller, a second roller, a first load sensing element and a control part. The thin-film is transferred by the roll-to-roll transfer device. The first roller makes contact with a lower surface of the thin-film, and rotates with a rotational axis via a first rotational element. The second roller is disposed over the first roller, makes contact with an upper surface of the thin-film, and rotates with the rotational axis via a second rotational element. The first load sensing element senses a load of the first roller or a load of the second roller. The control part synchronizes a translational velocity of the first rotational element or the second rotational element based on the load sensed by the first load sensing element. | 2016-03-31 |
20160089873 | METHOD FOR FORMING A HYDRAULIC TRANSFER FILM - A method for forming a hydraulic transfer film includes: (a) forming a pattern layer on a water-soluble substrate by gravure printing using a laser-engraved cylinder, the pattern layer including at least two oil-soluble regions that are separated from each other by a spacing, the water-soluble substrate being exposed from the spacing; (b) forming an oil-soluble base layer on the water-soluble substrate to cover the pattern layer and to fill the spacing between the oil-soluble regions; | 2016-03-31 |
20160089874 | MULTI-STROKE SCREEN PRINTING METHOD AND APPARATUS - A screen printing apparatus is described. The apparatus has a plurality of radial arms each having a printing head associated therewith. A target area is in alignment with at least one of the printing heads wherein a design is applied to a target article at the target area by the printing head. A means for providing relative movement between the target area and the printing head provides multiple passes between a squeegee associated with the printing head and the target area. A means for providing a pressure between the squeegee and the target area is regulated such that a first pressure between the squeegee and the target area on a first stroke is not equal to a second pressure between the squeegee and the target area on a subsequent second stroke. | 2016-03-31 |
20160089875 | COMPOSITIONS AND USE OF COMPOSITIONS IN PRINTING PROCESSES - An aqueous sacrificial coating composition for an image transfer member in an aqueous ink imaging system is provided. The sacrificial coating composition may include at least one polymer, at least one selected from (i) at least one chain extender, or (ii) a reactive elastomeric latex, wherein the at least one chain extender comprises a species capable of linking linear chains or chain segments of the reactive elastomeric latex, at least one hygroscopic plasticizer, and at least one surfactant. | 2016-03-31 |
20160089876 | AQUEOUS INK JET BLANKET - There is described a transfer member or blanket for use in aqueous ink jet printer. The transfer member includes a non-woven polymer fiber matrix and a polymer dispersed throughout the non-woven polymer fiber matrix. The polymer fiber matrix has a first surface energy and the polymer has a second surface energy. The difference between the first surface energy and the second surface energy is from about 30 mJ/m | 2016-03-31 |
20160089877 | PIEZOELECTRIC ELEMENT, LIQUID EJECTING HEAD, AND LIQUID EJECTING APPARATUS - A piezoelectric element includes a first electrode layer which is stacked on the vibrating plate; a second electrode layer which is stacked on a side opposite to the vibrating plate with respect to the first electrode layer; a piezoelectric layer which is interposed between the first electrode layer and the second electrode layer; and a conductive layer which electrically connects the first electrode layer to external wiring, in which a point of contact between the conductive layer and the first electrode layer is in a vibrating region of the vibrating plate. | 2016-03-31 |
20160089878 | LIQUID DISCHARGING APPARATUS - There is provided a liquid discharging apparatus configured to discharge liquid, including: a liquid discharging head including a driving element; a driving device configured to drive the driving element; a power unit; a switch configured to perform switching of voltage supply; and a controller. When the power unit is switched on, the controller causes a power supply voltage of the power unit to be raised up to a first voltage while checking the power supply voltage; and the controller controls the switch to start the voltage supply from the power unit to the driving device while the power supply voltage is being raised up to the first voltage; and under a condition that the voltage supply is started while the power supply voltage is being raised up to the first voltage, the controller controls the driving device to apply the voltage to the driving element. | 2016-03-31 |
20160089879 | LIQUID EJECTION HEAD DRIVING SYSTEM - A liquid ejection head driving system includes an ink jet head, a driving circuit substrate provided with a driving circuit in which a driving signal is generated, a driving signal wiring that branches an output of the driving circuit into two or more systems, and a plurality of connectors that extract the driving signal wiring for each system, and a flexible flat substrate (FFC) in which a connector connected to a connector of the driving circuit substrate is installed, a driving signal pattern for transmitting the driving signal for each system is formed on a first layer, and a reference potential pattern is formed on a second layer. The driving circuit substrate is configured such that the same number of connectors as the number of wiring substrates are mounted at a position where a direction of insertion and extraction of the connector of the FFC is released. | 2016-03-31 |
20160089880 | SYSTEM AND METHOD FOR USING INK DROP MODULATION TO COMPENSATE FOR MEDIA SURFACE HEIGHT VARIATIONS IN AN INKJET PRINTER - A printer attenuates banding visual defects arising from a lack of flatness in media as ink is ejected onto the media. The printer includes a detector that generates a signal corresponding to the slope in the media and a controller that modulates a volume of the ink drops ejected by one or more printheads in the vicinity of the slope in the media. | 2016-03-31 |
20160089881 | METHOD FOR PRINTING IMAGE PLANES ON SUBSTRATE - A method for printing a plurality of image planes on a substrate, the method includes providing a plurality of print head for depositing material on the substrate as the substrate moves along a transport path; providing a first sensor in a predetermined position along a transport path relative to predetermined positions of the plurality of print heads; providing an indication of position of the substrate along the transport path; providing a plurality of cue marks at predetermined positions or intervals on the substrate which are detected by the first sensor; and determining placement of an image plane printed by at least one of the plurality of print heads upstream of the first sensor based on the detection of position of the cue marks on the substrate by the first sensor. | 2016-03-31 |
20160089882 | PRINTING APPARATUS, CONTROL DEVICE, AND IMAGE PROCESSING METHOD - Image data which defines an ink amount to be ejected from each of a plurality of nozzles is stored in memory, the image data which is stored in the memory is subjected to an interpolation process corresponding to a faulty nozzle of a print head, the image data which is subjected to the interpolation process is subjected to a rotation process and the image data which defines the ink amount to be ejected and corresponds to each of the plurality of nozzles to be stored in the memory so as to be in a read-out order of the memory when the print head is positioned at a certain point in relation to the print medium, and the image data which is subjected to the rotation process is read out and output as the print data. | 2016-03-31 |
20160089883 | LIQUID DISCHARGING APPARATUS AND TRANSPORT AMOUNT ADJUSTMENT METHOD - A liquid discharging apparatus includes a discharging unit that includes a row of nozzles configured to discharge a liquid, the discharging unit being configured to reciprocate in an outward direction and a return direction, the outward and return directions being transverse to the nozzle row; and a transport unit configured to intermittently transport a medium in a direction transverse to the outward and return directions. The liquid discharging apparatus is configured to form at least one adjustment pattern for adjusting a transport amount of each individual transport during the intermittent transport. The liquid discharging apparatus is configured to form the at least one adjustment pattern such that the at least one adjustment pattern includes both an outward direction movement pattern formed while moving the discharging unit in the outward direction and a return direction movement pattern formed while moving the discharging unit in the return direction. | 2016-03-31 |
20160089884 | INK JET PRINT HEAD PROTECTIVE GUIDE SYSTEM - A method for printing includes the use of a protective guide system that protects a print head nozzle plate from physical contact with objects such as a curled print medium. The print head nozzle plate includes a nozzle array including a plurality of nozzles arranged in a plurality of subarrays. The plurality of subarrays are spaced from each other by a plurality of intranozzle areas devoid of nozzles. The protective guide system includes a frame and a plurality of cross members aligned with the intranozzle areas between the subarrays. The protective guide system thus protects the print head nozzle plate without obstructing the ink during printing. | 2016-03-31 |
20160089885 | SYSTEM FOR ENABLING MULTIPLE CLOCK SPEEDS AND I/O CONFIGURATIONS IN AN INKJET PRINTING DEVICE - A printhead including a fluid ejector chip having an electrical interface. The electrical interface includes one or more inputs for receiving respective primitive address data and heater address data corresponding to each of one or more address cycles, at least one of the one or more inputs being switchable to a deactivated state, and one or more shift registers, a total number of shift registers being adjustable so that each of the one or more shift registers corresponds to a respective one of the one or more inputs that is not in a deactivated state, the one or more shift registers receiving the respective primitive address data and heater address data from the one or more inputs that are not in a deactivated state to allow for selective application of electrical signals to the heating elements so that fluid is ejected from the fluid ejector chip in accordance with image data. | 2016-03-31 |
20160089886 | INKJET PRINTER - An inkjet printer has a printing head, a sheet conveying mechanism, a carriage mounting a printing head and configured to be reciprocally movable in a printing area and non-printing area. A cap is provided to be movable between a capping position an uncap position. A controller of the inkjet printer is configured to execute a printing process, a standby process, and a capping process in which the controller causes the carriage to move to the non-printing area and moves the cap from the uncap position to the capping position. The controller causes the carriage to move into the printing area when the next printing command is received after the standby process is finished and before the carriage moving process has been completed. | 2016-03-31 |
20160089887 | LIQUID JETTING APPARATUS - There is provided a liquid jetting apparatus including: a liquid jetting head including first and second nozzles from which the first and second liquids are jetted, respectively; a head driving unit; a flushing receiving part including first and second landing positions; and a controller. The controller causes the first and second liquids to be jetted from the first and second nozzles such that the first and second liquids land on the first and second landing positions respectively, in a case that a flushing process is performed in a state that a liquid-jetting process is performed. The controller controls the liquid jetting head to move during a period between jetting of the first and liquids land on the second landing position, in the case that the flushing process is performed in a state that the liquid-jetting process is not performed. | 2016-03-31 |
20160089888 | LIQUID DISCHARGE APPARATUS - There is provided a liquid discharge apparatus, including: a liquid discharge head; a wiper; a wiper cleaner cleaning a liquid adhering to a first surface of the wiper and including a first contact part, which makes contact with the first surface of the wiper, and a second contact part, which is disposed to face the first contact part and makes contact with the second surface of the wiper; a movement mechanism moving the wiper and the wiper cleaner relative to each other, and a space expansion part expanding a space between the first contact part and the second contact part. | 2016-03-31 |
20160089889 | METHOD OF INTRODUCING INK AND INKJET RECORDING APPARATUS - A replacement assisting liquid having a lower specific weight than an ink is introduced into a recording head filled with a preservative solution containing at least a moisturizing agent to discharge the preservative solution out of the recording head. Next, the ink is introduced into the recording head to discharge the replacement assisting liquid out of the recording head. | 2016-03-31 |
20160089890 | VENT THROUGH A PRINTHEAD SUPPORT STRUCTUR - In one example, a structure for supporting a printhead includes: a substrate having a first side and a second side; an inlet tower through which liquid may be introduced into the structure; an opening through the substrate near the inlet tower; and an air channel along the substrate connecting the opening in the substrate to the atmosphere. | 2016-03-31 |
20160089891 | LIQUID SUPPLY UNIT - Cartridges | 2016-03-31 |