Abstract: A method of manufacturing a timber composite (7) is disclosed. The method comprises the steps of applying adhesive to one or more timber layers (23-226), applying pressure to the one or more timber layers, and heating the timber layers. The adhesive penetrates into the one or more timber layers and cures to form the timber composite (7). One or more spacers (332) may be positioned between the timber layers. The invention also related to timber composite (7) obtainable by such method and to decorative panels (1) comprising such timber composite (7) as a top layer.

Abstract: Stretchable elastic laminates having an improved cloth-like appearance, as well as methods of preparing the laminates, are disclosed herein. Particularly, the present disclosure is directed to methods of preparing tissue-elastic laminates with uniform tissue fractures as the laminate is stretched 50%, or even 100%, or more in at least one of the machine direction (MD) or cross direction (CD).

Abstract: A multilayered container includes at least a polyolefin inner layer; an adhesive layer; a gas-barrier layer; an oxygen-absorbing layer; a gas-barrier layer; an adhesive layer; a polyolefin outer layer, and having at least a body portion and a bottom portion, wherein the gas-barrier layers include an ethylene-vinyl alcohol copolymer, the oxygen-absorbing layer includes an oxygen-absorbing resin composition that contains the ethylene-vinyl alcohol copolymer and an oxidizing organic component, an adsorbing agent is contained on the side inside of said gas-barrier layer, the thickness of the multilayered container at the thinnest portion is not more than 430 ?m, and the amount of oxygen absorbed after the heat-sterilization is not less than 23 cc per gram of the oxygen-absorbing resin composition. Despite of this decreased thickness, the multilayered container maintains excellent oxygen-barrier property and property for retaining flavor of the content even when it is subjected to the retort sterilization.

Abstract: A multilayer protective film comprising a first layer, a second layer and a PSA layer. The first layer at least comprises a polyester-based polyurethane, a polycarbonate-based polyurethane or a combination or blend of both. The second layer at least comprises a polycaprolactone-based thermoplastic polyurethane. The PSA layer comprises a pressure sensitive adhesive. One major surface of the first layer is bonded to one major surface of the second layer, and the PSA layer is bonded to an opposite major surface of the second layer such that the second layer is sandwiched between the first layer and the PSA layer.

Abstract: Described herein is composite article comprising a substrate; and on at least one face of the substrate a multilayered coating disposed thereon.

Abstract: In one aspect, a method for manufacturing a spar cap for a wind turbine rotor blade may generally include stacking a plurality of plates together to form a plate assembly, wherein each of the plates is formed from a fiber-reinforced composite including a plurality of fibers surrounded by a thermoplastic resin material. The method may also include positioning the plate assembly relative to a mold defining a mold surface, wherein the mold surface is shaped so as to correspond to at least one blade parameter of the wind turbine rotor blade. In addition, the method may include applying pressure to the plate assembly via the mold such that at least a portion of the plate assembly conforms to the shape of the mold surface.

Abstract: The present invention relates to a multilayer composite having barrier properties, objects, in particular fuel containers, comprising the same, a process for producing the multilayer composite or the objects comprising the same and also the use of the multilayer composite or the objects for reducing the emission of volatile organic compounds.

Abstract: An anti-wear sheet for improving anti-wear performance of an object to be protected includes: a release film; a resin layer disposed on the release film and including photo-curable resin and hard particles supported by the photo-curable resin; and a light-shielding film disposed on an opposite side of the resin layer from the release film.

Abstract: The invention relates to water-vapor permeable, flat composite parts consisting of at least two layers, at least one layer being made of a polyester and polyether-based thermoplastic polyurethane. The invention also related to the use thereof.

Abstract: This disclosure relates generally to an assembly and process for preparing affixing tape. The disclosure also relates to an affixing assembly and process using the prepared tape. The tape can be used, for example, to affix plastic items to mailing pieces. The assemblies and processes disclosed herein provide for added throughput, less down time, higher quality of parts and production control.

Abstract: A method of making a laminated optically clear adhesive (OCA) assembly includes providing a first OCA component having a first thickness; providing a second OCA component having a second thickness; and laminating the first OCA component and the second OCA component using a roll to roll lamination process to form the laminated OCA assembly. The first OCA component and the second OCA component are laminated together at a nip roller assembly, the nip roller assembly using a nip roller pressure selected based on the total thickness of the first and second OCA components such that the nip roller pressure decreases as the total thickness of the first and second OCA components increases.

Abstract: The present invention provides a method for applying a film in which non-contact repulsive forces generated by ultrasonic vibration are applied using an ultrasonic vibration unit (A) to a surface of a substrate so as to support the surface of the substrate without contact, and a film is pressed and applied to the other surface of the substrate using a pressing roller. The ultrasonic vibration unit (A) may comprise: an ultrasonic vibration body facing a surface of the substrate; and an ultrasonic excitement unit for exciting the ultrasonic vibration body. In addition, the present invention provides an apparatus for applying a film comprising: an ultrasonic vibration unit (A) for applying non-contact repulsive forces generated by the ultrasonic vibration to a surface of a substrate so as to support the surface of the substrate without contact; and a pressing roller for pressing and applying a film to the other surface of the substrate.

Abstract: A stiffener-reinforced microelectrode array probe and fabrication method using wicking channel-distributed adhesives which temporarily adheres a flexible device onto a rigid stiffener for insertion and extraction. Assembly is by dispensing a liquid adhesive into a narrow open groove wicking channel formed on the stiffener so that the adhesive is wicked along and tills the channel by capillary action, and adhering the adhesive-filled bonding side of the elongated section of the rigid substrate to a flexible device.

Abstract: A three dimensional printing apparatus including a tank containing a liquid forming material, a platform movably disposed in the tank to be immersed in or moved out of the liquid forming material, a curing device disposed next to the tank or the platform, and a controlling device electrically connected to the curing device and at least one of the tank and the platform is provided. An inner bottom of the tank has a first portion and a second portion in step manner, the first portion is higher than the second portion. The controlling device drives the tank and the platform to move relative to each other. A solidified layer is formed by curing the liquid forming material between the platform and the first portion and peeled off by rotating the tank relative to the platform. A three dimensional printing method is also disclosed.

Abstract: A 3D printing method implemented by movable platform is disclosed. When printing a printing layer, a 3D printer first calculates respectively a starting point and an ending point of each swath of the printing layer, and calculates movement information of a movable printing platform upon an X-axis and a Y-axis of the 3D printer according to the starting points and the ending points. Next, the 3D printer controls the printing platform to move along the X-axis and the Y-axis based on the movement information, and controls a nozzle of the 3D printer to jet ink while the printing platform moves to corresponding positions. Therefore, the 3D printer uses the printing platform to complete printing actions of each swath.

Abstract: An extruder or other similar tool head of a three-dimensional printer is slidably mounted along a feedpath of build material so that the extruder can move into and out of contact with a build surface according to whether build material is being extruded. The extruder may be spring-biased against the forward feedpath so that the extruder remains above the build surface in the absence of applied forces, and then moves downward into a position for extrusion when build material is fed into the extruder. In another aspect, modular tool heads are disclosed that can be automatically coupled to and removed from the three-dimensional printer by a suitable robotics system. A tool crib may be provided to store multiple tool heads while not in use.

Abstract: Apparatus (1) for changing a blade of a rotary die cutter, particularly for flexographic printing machines: a magnetic cylinder (3) configured to receive and support a die-cutting blade (5, 5?); a station (7) for inserting the blade (5, 5?) has a retention device (70) configured to retain the blade (5) in the insertion station; a guiding device (71) guides the blade (5, 5?) toward the magnetic cylinder (3); a station (9) for extracting the blade (5, 5?), has an extraction device (90) configured to remove the blade (5, 5?) from the magnetic cylinder (3).

Abstract: The invention relates to a device for applying adhesive tape (40) to the cylindrical surface (21) of a cylindrical body (20), said device comprising: at least two axially parallel securing rolls (30a, 30b) designed to make contact with the cylindrical surface of the cylindrical body; an adhesive tape feed for feeding the adhesive tape (40) to the cylindrical body (20); and means for rotating the cylindrical body (20) about its cylindrical axis.

Abstract: According to one embodiment, an apparatus for driving a capacitance-type actuator includes a first voltage source, a second voltage source, and a driver. The first voltage source outputs a first voltage to charge the capacitance-type actuator. The second voltage source outputs a second voltage to charge the actuator. The driver switches between first and second charges and first and second discharges. The first charge supplies the first voltage to the actuator. The second charge supplies the sum of the first voltage and the second voltage to the actuator. The first discharge emits a charge accumulated in the actuator and guides the charge to the second voltage source. The second discharge emits the charge accumulated in the actuator without guiding the charge to the second voltage source.

Abstract: A circuit for driving first and second groups of actuating elements for ejection of droplets from a printhead, the circuit comprising: a drive circuit configured to provide a drive waveform to first electrodes of the first and second groups; and a voltage offset circuit configured to provide a voltage offset to the second electrodes of the first or second groups to bias the second electrodes of the first and second groups relative to each other.

Abstract: An inkjet printhead comprising a printhead die, the printhead die comprising: a plurality of actuators; a plurality of electrical connections in electrical communication with respective first electrodes of the plurality of actuators for providing drive signals thereto; a first electrical bus arranged in common electrical communication with second electrodes of a first group of the actuators for providing first signals thereto; and a second electrical bus arranged in common electrical communication with second electrodes of a second group of the actuators for providing second signals thereto.

Abstract: A driving signal generating circuit generates, for each driving period, a main driving signal including a first sub driving signal including a first driving pulse, a second sub driving signal including a second driving pulse, and a third sub driving signal including a third driving pulse. The third sub driving signal follows the second sub driving signal. A driving signal supplying circuit includes a second dot former to supply the second sub driving signal and the third sub driving signal to an actuator coupled to a defining plate defining a portion of a pressure chamber, without supplying the first sub driving signal to the actuator. The third driving pulse starts after a lapse of a preset time from the start of the second driving pulse. The preset time is equal to a value of about p×Tc, where p is greater than 2.

Abstract: A liquid jetting apparatus includes: a first head chip having first nozzles arranged in a nozzle arrangement direction; a second head chip having second nozzles arranged in the nozzle arrangement direction, and being arranged to overlap at least partially with the first head chip in an orthogonal direction orthogonal to the nozzle arrangement direction; a controller configured to control the first head chip and the second head chip to jet liquid from the first nozzles and the second nozzles; and power sources having different voltages, respectively. Each of the first nozzles and the second nozzles is driven by voltage supplied from one of the power sources, and the first head chip has a first overlapping portion and the second head chip has a second overlapping portion overlapping with the first overlapping portion in the orthogonal direction.

Abstract: A liquid ejecting apparatus includes a head unit that ejects ink onto a medium, a transport unit that transports the medium, and a control unit that forms an adjustment pattern on the medium, and the control unit forms, as the adjustment pattern, a pattern including a first pattern that is formed in a transport direction, a plurality of scales that are formed in the transport direction, and a second pattern that is formed at a position corresponding to the scales in the transport direction while the position thereof in a main-scanning direction that intersects the transport direction is changed.

Abstract: The present invention contains a printing apparatus and a method, e.g., for ejecting inks (i.e., pure liquids, mixtures, colloids, etc.) for a very broad range of physical properties (such as viscosity). Acoustic forces 3a may be generated by an emitter 1 and a reflector 2 to detach droplets 10 from a nozzle 6. The ink may be advanced through the nozzle 6 by a standard back pressure system 5. A reflectorless chamber 7 may enhance acoustic forces 8a and the droplets 10 may be ejected at a bottom 9 of said chamber 7, so that droplets 10 may be deposited on any substrate 11.

Abstract: In a liquid ejection head, it is possible to suppress generation of a temperature distribution of liquid in a direction in which ejection openings are arranged in a print element board. Specifically, a liquid ejection head, which is provided with an ejection opening row in which a plurality of ejection openings for ejecting a liquid are arranged, includes a pressure chamber that communicates with the ejection openings and includes a pressure generation element, a passage which is provided with an opening and extends along the ejection opening row to supply the liquid flowing into the passage through the opening to the pressure chamber, a heater provided around the opening, and a temperature sensor provided in a region along the ejection opening row.

Abstract: A piezoelectric device includes a substrate that includes a piezoelectric element formed by stacking a piezoelectric layer, a first electrode and a second electrode such that the piezoelectric layer is interposed between the first electrode and the second electrode; and a wiring substrate that includes a driving element providing a signal for driving the piezoelectric element to the substrate. The substrate has an inspection region where a piezoelectric element for inspection which is a portion of the piezoelectric element is disposed. The wiring substrate has an electrode inspection region including an electrode to be inspected that is electrically connected to the piezoelectric element for inspection and is disposed on a surface side opposite to the substrate, and a flexible substrate mounting region which is disposed on the surface side opposite to the substrate, and is connected to a flexible substrate.

Abstract: An inkjet printing apparatus includes a printhead having an ejection orifice surface on which ejection orifices for ejecting ink are arranged, where the printhead performs a printing operation in a printing area; a carriage including the printhead, and movable in a first direction; a cap for covering the ejection orifice surface; and a wiper that wipes the ejection orifice surface. The cap is movable, by a movement of the carriage, to a first position, and to a second position farther from the printing area along the first direction. At the second position, the cap can rise and lower to a capping position at which the cap abuts the ejection orifice surface, and to a separated position at which the cap does not abut the ejection orifice surface. The wiper wipes the ejection orifice surface when the cap is at the second position and at the separated position.

Abstract: A method for detecting and compensating for failed printing nozzles in an inkjet printing machine by using a computer, includes printing a current print image, recording the printed print image by using an image sensor and digitizing the recorded print image by using the computer, adding digitized color values of the recorded print image of every column over the entire print image height and dividing the added-up color values by the number of pixels to obtain a column profile, subtracting an optimized column profile without failed printing nozzles from the original column profile to obtain a differential column profile, setting a maximum value threshold defining a failed printing nozzle when exceeded, applying that maximum value threshold to the differential column profile to obtain a resultant column profile every maximum of which marks a failed printing nozzle. The marked printing nozzles are compensated in a subsequent printing operation.

Abstract: A printing material supply system includes a printing device and a cartridge. The printing device has a cartridge mounting structure. The cartridge is removably attached to the cartridge mounting structure. The cartridge mounting structure has a device-side terminal, a lever, a first device-side locking element and a second device-side locking element. The device-side terminal is configured to contact with a cartridge-side terminal. The first device-side locking element is configured as part of the lever. The second device-side locking element is configured to engage with a second locking surface of a second cartridge-side locking element. The cartridge-side terminal has a cartridge-side contact portion configured to be in contact with the device-side terminal. The cartridge-side contact portion is provided on the negative Z-axis side of the second locking surface.

Abstract: Example circuits and methods are described involving a flexible substrate for a fluid cartridge, comprising an integrated circuit connected to the flexible substrate, and electrical connector pads arranged on the flexible substrate for connection to the integrated circuit.

Abstract: A liquid ejecting apparatus includes a back pressure control unit including a back pressure control element that has a first opening, a second opening, a first liquid flow channel that enables the first opening and the second opening to communicate with each other, and a valve body that controls the flow of liquid in the first liquid flow channel, and a housing that houses the back pressure control element and in which a liquid introduction opening that communicates with the first opening and a discharge channel that communicates with the second opening are formed, and a head unit including a third opening connected to the discharge channel of the back pressure control unit, a second liquid flow channel that communicates with the third opening, a first filter disposed in the second liquid flow channel, a pressure generation chamber, a nozzle, and a pressure generation element.

Abstract: A liquid cartridge includes: a liquid container including a liquid storage chamber; a liquid supply portion including a liquid supply chamber and first and second openings; a movable member; a sealing member; and a connecting channel. The first opening provides communication between the supply chamber and an exterior of the cartridge. The second opening provides communication between the supply chamber and the storage chamber. The movable member extends in the storage chamber and the supply chamber. The sealing member intimately contacts the movable member and the liquid supply portion continuously in a circumferential direction. The connecting channel is formed in the movable member and provides communication between a space in the supply chamber and the storage chamber so that liquid can flow therebetween. The connecting channel opens into the storage chamber at a position further downward than the second opening when the cartridge is in an attached posture.

Abstract: A diaphragm pump includes an inflow chamber and an outflow chamber. The inflow chamber is provided with an inflow valve seat. An inflow valve that prevents backflow of a liquid is disposed against the inflow valve seat. The outflow chamber is provided with an outflow valve seat. An outflow valve that prevents backflow of a liquid is disposed against the outflow valve seat. The diaphragm pump also includes an inflow-valve presser that presses the inflow valve against the inflow valve seat, and an outflow-valve presser that presses the outflow valve against the outflow valve seat. Each of the inflow valve and the outflow valve is defined by an elastically deformable member. Each of the inflow valve seat and the outflow valve seat includes a surface at least a portion of which is a curved surface.

Abstract: A print head has an ink source to supply and receive ink, a first channel to receive ink from the ink source, a second channel to return ink to the ink source, and a manifold structure connected to the two channels to receive ink from the first channel and return ink to the second channel. A method of operating a print head includes providing ink from an ink source at a first pressure through a first channel, routing the ink through an inlet port of at least one single jet, moving the ink through the single jet to an outlet port of the single jet, routing the ink from the outlet port of the single jet, directing the ink to a second channel, and returning ink through the second channel to the ink source at a second pressure.

Abstract: A liquid ejecting apparatus includes: a liquid ejecting head having a nozzle that ejects liquid; a supply flow path that supplies the liquid to the liquid ejecting head; a pressurizing mechanism that pressurizes a region which communicates with the supply flow path; a decompression mechanism that decompresses the region pressurized by the pressurizing mechanism; and a resistor section that interferes with decompression by the decompression mechanism.

Abstract: There is provided an image processing apparatus including a controller configured to execute: causing a printing execution unit to execute printing of a first test image and a second test image; acquiring first scan image data; acquiring second scan image data; identifying a first boundary; identifying a first number of pixels and a second number of pixels; calculating a first number of unit pixels and a second number of unit pixels; calculating a relevant value related to density of a dot formed by each nozzle; and generating characteristics data which indicates ink jetting characteristics of N pieces of nozzle.

Abstract: A direct-to-object printer includes an object rotating subsystem. The object rotating subsystem includes an actuator with an output shaft, a holder mounted to the output shaft, the holder being configured to grip a portion of the object, and a controller operatively connected to the actuator. The controller is configured to operate the actuator to rotate the holder and the object gripped by the holder to enable at least one of the printheads in a printer to print a portion of a circumference of the object that is longer than a width of the at least one printhead.

Abstract: The disclosure discloses a portable printer including a feeder, a printing head, a controller, and a command transmission unit. The feeder is configured to feed a print-receiving medium. The printing head is configured to perform print on the print-receiving medium fed by the feeder. The controller is configured to control the feeder and the printing head in cooperation with each other to produce a first printed matter by using desired first print data. The command transmission unit is configured to transmit through wireless communication to another printer other than the portable printer a production instruction for a second printed matter having print contents equivalent to the first printed matter at a predetermined timing after start of production of the first printed matter.

Abstract: Panels having a decorative surface may include a substrate and a top layer, and the top layer may include a paper layer having a printed pattern. A method for manufacturing such panels may involve providing the paper layer with a treatment, and providing the treated paper layer with at least a portion of the printed pattern. Providing the portion of the printed pattern may involve depositing pigment containing inks on the treated paper layer using a digital inkjet printer. The pigments may be color pigments. The digital inkjet printer may include print heads with nozzles for firing droplets of the pigment containing inks onto the treated paper layer. A contact angle at the interface between the droplets of pigment containing ink and the treated paper layer may be between 0° and 90°.

Abstract: A printer includes a platen on which a recording medium is placed, an ink head movable in a main scanning direction and able to eject ink onto the recording medium, a cover disposed above and to at least a side of the platen and including an opening located downstream of the ink head in a subscanning direction, a front cover attached to the cover and able to open and close the opening, and an air blower disposed on the front cover.

Abstract: The invention provides an inkjet print apparatus and a recovery method of an inkjet print apparatus, which can suppress deterioration of productivity. For that purpose, timing, at which a recovery operation is practiced in accordance with a facing time period of a print head and a print medium and a not facing time period thereof, is set.

Abstract: Provided is a printing apparatus enabling a user to easily perform jam processing. The printing apparatus includes a printing unit, a cassette in which a plurality of sheets to be printed by the printing unit are mounted, and which is capable of being drawn out from the device by a user, a roller pair which is capable of being in an abutting state and a separate state and transports the sheet supplied from the cassette by interposing the sheet, in the abutting state, and a mechanism which changes the roller pair from the abutting state to the separate state as the cassette is drawn out.

Abstract: A textile holder having adjustable side extensions is provided. The side extensions can be generally U-shaped metal rods or wires having a plurality of spaced notches for adjusting the spacing of the wires from a central pallet portion. Alternatively, other structures, such as plates can be used for the side extensions. The plates can include one or more slots. Screws or posts on the central pallet portion can be used to align the plates at appropriate extension distances and hold the plates in place.

Abstract: An inkjet recording device allows a recording medium to be set easily, and prevents the recording medium from being warped so that printing quality is not lowered. An inkjet printer includes a bed including a surface that supports a recording medium, and a pivoting device that pivots the bed around a horizontal axis to locate the bed horizontally or vertically or pivots the bed around the horizontal axis to incline the bed with respect to a horizontal plane. The inkjet printer also includes a pair of guide rails provided on the bed and extending in an X direction and a movable member extending in a Y direction, engaged with the pair of guide rails and slidable on the pair of guide rails to move in the X direction.

Abstract: Provided are a recording apparatus, when a medium is discharged from a recording apparatus main body, which can achieve both of appropriate mounting of a medium in which the leading edge thereof is curled on a medium receiving tray, and reduction of damage to a medium when mediums of different sizes are mixed on the medium receiving tray.

Abstract: A sheet winding mechanism includes a detachable winding core, a rotating body coupled to a first end portion of the winding core to rotate the winding core, and a non-rotating body against which a second end of the winding core is pressed. The winding core includes a winding core main body, a first portion which is located at the first end portion and is coupled to the rotating body, a second portion which is located at the second end portion, is movable in the axial direction, and presses against the non-rotating body, a first elastic body which urges the second portion outward along the axial direction, and a sheet holding portion configured to hold an end portion of a sheet. When the rotating body rotates the winding core while the sheet holding portion is holding the end portion of the sheet, the sheet is wound around the winding core.

Abstract: The present teachings relate to various embodiments of a gas enclosure system that can have a particle control system that can include a multi-zone gas circulation and filtration system, a low-particle-generating X-axis linear bearing system for moving a printhead assembly relative to a substrate, a service bundle housing exhaust system, and a printhead assembly exhaust system. Various components of a particle control system can include a tunnel circulation and filtration system that can be in flow communication with bridge circulation and filtration system. Various embodiments of a tunnel circulation and filtration system can provide cross-flow circulation and filtration of gas about a floatation table of a printing system. Various embodiments of a gas enclosure system can have a bridge circulation and filtration system that can provide circulation and filtration of gas about a printing system bridge and related apparatuses and devices.

Abstract: Some embodiments relate to a digital printing system and method for depositing ink droplets onto a target surface in dependence upon a received electrical printing signal containing data indicating the desired image to be printed while improving the uniformity of intended tone reproduction of the printed image.

Abstract: A tape reel device includes a cartridge case (20) rotatably accommodating a spool (22b) around which an ink ribbon (22a) is wound, and a brake (3) for providing back tension to the ink ribbon (22a) unwound from the spool (22b). The brake (3) includes a sliding contact member (35) in sliding contact with end surface of the rotating spool (22b), a coil spring (36) urging the sliding contact member (35) in shaft direction of the spool (22b), and a rotation restrictor (37) for restricting rotation of the sliding contact member (35). The rotation restrictor (37) includes an engaging portion protruded from the cartridge case (20) to be inserted into the sliding contact member (35), and a to-be-engaged portion (44) which is protruded from inner circumference of the sliding contact member (35) and with which the engaging portion engages in rotation direction of the spool (22b).