Abstract: A cartridge 1 is provided with an ink pack 9, an air bag 10 capable of abutting the ink pack 9, and a pressurizing chamber 11 that stores the ink pack 9 and the air bag 10. In the case where the amount of ink in the ink pack 9 decreases, pressurized air is introduced into the air bag 10, the ink pack 9 is pressed against the air bag 10, and thereby the internal pressure of the ink pack 9 is increased. After that, pressurized air is introduced into the pressurizing chamber 11 so as to increase the internal pressure of the pressurizing chamber 11 and pressurize the ink pack 9 from outside. Accordingly, the ink in the ink pack 9 is supplied from an ink supply port 12 to the inkjet printer 2.

Abstract: An object is to provide a cartridge that is configured to be readily mountable and stir a liquid contained in the cartridge. A cartridge includes an ink pack, a first air bag and a casing provided to place the ink pack and the first air bag therein. The casing has an ink supply port, an air flow port for first air bag and an air flow port for casing that are provided on a front face of the casing in a mounting direction so that this configuration enables the cartridge to be readily mounted to the inkjet printer. The pressurized air is introduced through the air flow port for first air bag into the first air bag. This expands the first air bag to press the ink pack and thereby stir ink I contained in the ink pack.

Abstract: Accuracy in determination of the attaching direction of an elongated cartridge is improved. A cartridge 4A according to this embodiment to be attached to a printer includes an ink supply port 414 that supplies ink to the printer, a misinsertion prevention upper face projection portion 140 that engages with misinsertion prevention portions 671 of a misinsertion prevention plate 160 in a cartridge attachment portion 6, and restriction front upper face projection portions 430 that abut against a first guide rail 650 and a first guide rail 651 and restrict a tilt of the cartridge in an intersecting direction that intersects the attaching direction at the time of attachment. These restriction front upper face projection portions 430 are arranged between a leading end side in the attaching direction CS and the misinsertion prevention upper face projection portion 140.

Abstract: Disclosed is an ink cartridge, ink cartridge chip, and short-circuit detection method of chip. The ink cartridge chip comprises: a short-circuit detection terminal, which is disposed between a connecting terminal to be detected and one or more connecting terminals other than the connecting terminal to be detected; a short-circuit detection and processing unit, which is connected to a voltage division and power supply unit and one or more connecting terminals other than the connecting terminal to be detected; and a voltage division and power supply unit, which is connected to the short-circuit detection and processing unit and the connecting terminal to be detected, for dividing voltage from the connecting terminal to be detected and transmitting an obtained low voltage to the short-circuit detection and processing unit. The present disclosure is able to reduce costs and satisfy long-term use of short-circuit detection in the ink cartridge chips.

Abstract: A cartridge comprises a liquid container that is at least partly made of a flexible material and is configured to contain a liquid therein; a recess that is configured to be open toward a mounting direction of the cartridge to a liquid ejection apparatus; and a fluid receiving portion that is placed inside of the recess and is configured to receive supply of a pressurized fluid.

Abstract: A server device comprising: a communication unit, a storage unit storing device identification information for identifying an image forming apparatus communicable with the server device via the communication unit. Recording material is contained in a cartridge attachable to and detachable from the image forming apparatus. The control unit is configured to perform: (a) receiving residual amount information about residual amount of the recording material; (b) determining whether or not the residual amount of the recording material is equal to or less than a first threshold; (c) determining whether or not the residual amount information is about the cartridge that has been delivered in accordance with an order instruction; and in response to affirmative determination made in (b) and affirmative determination made in (c), transmitting the order instruction to the external device via the communication unit.

Abstract: Provided is a liquid container that is able to prevent or suppress spilling of a liquid that is poured into an opening part. An ink cartridge has a first wall part defining a rear end of the ink cartridge and a second wall part extending on a forward side +X from an upper edge of the first wall part. An ink inlet port that receives ink for refilling is formed in the second wall part. Ink is poured into the ink inlet port from the first wall part side. The ink inlet port has a length dimension in the front-rear direction X that is longer than in the width direction Y, and thus readily receives ink that is poured therein.

Abstract: A liquid storage container supplies ink to a printer which consumes the ink, and includes a liquid storage body which includes a liquid lead-out port communicating with the printer and a filler port formed to pour the liquid to the liquid storage container, an auxiliary holding member which is mounted to be slidable to a side in which the filler port is formed, and a memory unit holding member which is detachably configured to the auxiliary holding member and includes a memory unit.

Abstract: A printing apparatus includes: an ink discharge head discharging UV ink; a sub-tank storing the UV ink; a supply pump sending the UV ink to the sub-tank from an ink cartridge; an ink circulation path having a forward circulation path through which the UV ink supplied to the ink discharge head from the sub-tank flows, and a backward circulation path through which the UV ink returning to the sub-tank from the ink discharge head flows; and a receptacle that has an opening opened upward and is provided inside the sub-tank. Here, a backward-path downstream-side end which is an end portion of the backward circulation path on the sub-tank side is positioned below the opening inside the receptacle and a forward-path upstream-side end which is an end portion of the forward circulation path on the sub-tank side is positioned below the receptacle inside the sub-tank.

Abstract: An inkjet recording apparatus includes a first ink tank that contains ink, a second ink tank that contains ink supplied from the first ink tank, a communication unit, having conductivity, communicates between the first ink tank and the second ink tank, an opening provided at one end of the communication unit connected to the second ink tank and opening to the second ink tank, an electrode portion provided in the second ink tank, of which a lower end position is located at or above a lower end position of the one end of the communication unit and at or below a highest position of the opening, and a detecting unit that detects an ink amount in the second ink tank in accordance with electrical properties between the electrode portion and the communication unit.

Abstract: An ink supply device for a printhead includes an ink cartridge and a damper device. The ink cartridge is connected to the printhead through a flexible tube. The printhead is mounted on a carriage that reciprocates, and discharges an ink drop to perform printing. The damper device is mounted on the carriage to relax pressure fluctuation of ink supplied from the ink cartridge to the printhead. The damper device has a case, an ink introduction passage, and a flexible plate. The case defines a pressure chamber communicated with the printhead. The ink introduction passage is communicated with the flexible tube, and is ated with the pressure chamber. The flexible plate is provided so as to define a part of the pressure chamber, and has a waveform portion formed with a plurality of waveforms.

Abstract: A liquid discharge apparatus comprises a head including a discharge port surface, a first reservoir that stores the liquid to be supplied to the head, a flexible member, separating an inner space of the first reservoir into a first chamber that stores the liquid and a second chamber that stores an operation liquid, a second reservoir communicating with the second chamber, the second reservoir storing the operation liquid to be supplied to the second chamber, the second reservoir being disposed in such a manner that a liquid surface of the operation liquid stored in the second reservoir is positioned below the discharge port surface, and an adjustment unit that performs adjustment in such a manner that a position of the liquid surface of the operation liquid in the second reservoir falls within a predetermined range in a state where the second reservoir is opened to atmosphere.

Abstract: A method of cleaning an ink circuit of an inkjet printer, including at least one reservoir, called the main reservoir, at least one ink cartridge, a first pump to pump ink from the cartridge, a first fluid connection to transfer ink from the ink cartridge to the reservoir, a second pump to pump ink from the reservoir (10), a second fluid connection to transfer ink to the ink cartridge, and a controller. The method includes a) a step in which ink is transferred from the main reservoir as far as the cartridge, through the second pump and the second fluid connection, and b) a step to pump at least part of the ink transferred during step a) to the main reservoir.

Abstract: A liquid circulation device comprises a liquid chamber connected with a liquid discharge section that discharges liquid and able to hold the liquid; a circulation section configured to circulate the liquid in a flow path containing the liquid chamber and the liquid discharge section; a liquid replenishment section configured to replenish the liquid to the liquid chamber; a gas control section configured to be able to pressurize or decompress the liquid chamber; and a control section configured to replenish the liquid through the liquid replenishment section in a case in which pressure of the liquid discharge section is in a predetermined reference range and lower than a predetermined threshold value, pressurize the liquid discharge section by pressurizing the liquid chamber through the gas control section in a case in which the pressure is lower than the reference range.

Abstract: A liquid circulation device comprises a liquid chamber connected with a liquid discharge section that discharges liquid, a circulation section which circulates the liquid in a flow path containing the liquid chamber and the liquid discharge section, a liquid supply section, a pressure adjustment section and a control section that, according to fluctuation velocity of the pressure, replenishes the liquid through the liquid supply section if the detected pressure is equal to or smaller than a predetermined pressure value or lower than the predetermined pressure value and the pressure fluctuation velocity is equal to or greater than a predetermined speed or faster than the predetermined speed and adjusts the pressure of the liquid discharge section through the pressure adjustment section and the pressure fluctuation velocity is slower than the predetermined speed or equal to or smaller than the predetermined speed.

Abstract: A printing apparatus includes: an ink discharge head that discharges UV ink; a sub-tank that stores the UV ink; a forward circulation path through which the UV ink flowing out from the sub-tank to the ink discharge head flows; an inflow path through which the UV ink flowing into the sub-tank flows; and a receptacle that is provided inside the sub-tank and blocks bubbles contained in the UV ink flowing into the sub-tank from the inflow path, from entering the forward circulation path.

Abstract: A printing operation using a gradient ink containment structure to test wetting characteristics of printing compositions. The gradient ink containment structures are arranged in columns with gaps between adjacent structures. These gaps may increase when progressing through the column of gradient ink containment structures. The top surfaces of the gradient ink containment structures define geometric shapes that may vary in area when progressing through the column of gradient ink containment structures.

Abstract: An ink-jet printer, including a density detector and a controller, wherein, where successive three ejecting operations to be repeatedly performed on the same predetermined region of a recording medium are defined as first through third ejecting operations in the order of performance, the controller executes: a process for detecting a color density of the predetermined region immediately after attachment of the ink ejected in the second ejecting operation; a process for calculating, based on the detected color density, an estimated density after fixation of the ink ejected in the second ejecting operation; a process for calculating, based on print data, an ideal density after fixation of the ink ejected in the second ejecting operation; and a process for correcting the print data based on a difference between the estimated density and the ideal density, and wherein the ink-jet printer performs the third ejecting operation based on the corrected print data.

Abstract: A thermal printer comprises a sheet conveyance mechanism configured to convey a sheet formed by attaching labels on a mount; a ribbon conveyance mechanism configured to convey a ribbon; a thermal head configured to heat the ribbon to carry out printing of printing data on the sheet contacted with the ribbon; and a head moving mechanism configured to control the thermal head if a non-printing area is longer than a first distance based on the printing data to separate the ribbon from the sheet; wherein the ribbon conveyance mechanism stops the conveyance of the ribbon if the non-printing area is longer than the first distance; and the sheet conveyance mechanism controls, if the non-printing area is longer than the first distance, the sheet conveyance speed to a second speed slower than a first speed applied in a case of conveying a printing area.

Abstract: A print device includes a tape mounting portion, a tape print portion, a tape discharge portion, a tube mounting portion, a ribbon mounting portion, a tube print portion, and a tube discharge portion. The tape mounting portion is configured such that a tape is detachably mounted in the tape mounting portion. The tube mounting portion is configured such that a tube is detachably mounted in the tube mounting portion along a predetermined direction. The ribbon mounting portion is configured such that an ink ribbon is detachably mounted in the ribbon mounting portion. The tape mounting portion and the ribbon mounting portion are disposed on a same side with respect to the tube mounting portion, and are disposed side by side along the predetermined direction.

Abstract: To prevent reduction in printing quality, a printer includes an image formation section having a thermal head with a plurality of heating elements and transporting an ink ribbon and a transfer film at the same velocity to form an image on the transfer film, and a control section controlling the image formation section. The control section controls the image formation section to form a printing image on the transfer film according to input printing information and form a dummy image wider than the printing image on the width-direction opposite sides at the back thereof in the transport direction. On the ink ribbon, a wrinkle, which occurs in the rear end corner portion in the transport direction of a printing region corresponding to the printing image, is stopped by a sag caused by that the ink is removed in a dummy printing region Rd corresponding to the dummy image.

Abstract: A label printer includes a receiving area configured for receiving a cartridge that includes a roll of media for printing labels thereon, the receiving area also including features for aligning a plurality of differently sized cartridges with a printing mechanism; and components configured for adjusting label sizing to provide virtual label sizes.

Abstract: Provided is an elongated housing which allows easy maintenance without being separated from the device body. The elongated housing, which is accommodated in a device body so that a lengthwise direction thereof becomes a first direction, includes a plurality of first rollers and a plurality of second rollers disposed on a first surface of the elongated housing to be arranged in a row along the first direction; and a plurality of third rollers and a plurality of fourth rollers disposed on a second surface of the elongated housing to be arranged in a row along the first direction, wherein the elongated housing is movably supported between a first state of being accommodated in the device body and a second state of being drawn from the device body in the first direction.

Abstract: A medium flattening method, when a medium is transported by being adhered to an adhesive layer which is on a surface of a transport belt, includes detecting a presence or absence of floating being generated in the medium on the transport belt using a sensor, executing a process for flattening to flatten the floating in the medium in the case where the floating exists, and transporting the medium, where the floating is eliminated using the process for the flattening, to a liquid discharge region of a liquid discharge section.

Abstract: An image recording apparatus includes a rotational tray including a supporting surface for supporting a recording medium and a retaining mechanism. The rotational tray is attached to the housing to be rotatable so that an angle between the rotational tray and a side surface of the housing is changeable. The retaining mechanism is able to retain the rotational tray in one of: an open state in which a second discharging slot formed in the side surface of the housing is opened and the recording medium discharged from the second discharging slot is supportable by the supporting surface; a closed state in which the second discharging slot is closed by the supporting surface; and an intermediate state between the open state and the closed state, in which the recording medium discharged from the second discharging slot can be guided in a direction along the supporting surface.

Abstract: The transfer material has a laminated structure in which a base material sheet, a transparent sheet, and a coloring material-receiving layer are laminated in the stated order, in which: the coloring material-receiving layer contains inorganic fine particles and a water-soluble resin; the transparent sheet contains at least two kinds of emulsions including an emulsion E1 and an emulsion E2; and the emulsion E1 has a glass transition temperature Tg1 of more than 50° C. and less than 90° C., the emulsion E2 has a glass transition temperature Tg2 of 90° C. or more and 120° C. or less, and at least the emulsion E2 remains in a particle state in the transparent sheet.

Abstract: Provided is an air jet emission method used in a recording apparatus. The recording apparatus performs predetermined printing by ejecting ink droplets from a recording head provided in an apparatus body onto a medium. The medium is fed into the apparatus body while being guided by a guide and is transported from an upstream side, which is one side with respect to the apparatus body, toward a downstream side, which is an opposite side with respect to the apparatus body. The air jet emission method comprises: emitting a jet of air onto a surface of the transported medium at a predetermined area over a heating device at the upstream side, thereby blowing dust off the surface of the transported medium. The heating device is provided in the guide so as to apply heat to the transported medium.

Abstract: A sheet ejecting device, having a first ejection tray, a first ejection roller to eject the sheet to the first ejection tray, a second ejection tray in a position above the first ejection tray, a second ejection roller to eject the sheet to the second ejection tray, and a first guide and a second disposed in widthwise end portions on a lower surface of the second ejection tray, is provided. The first guide and the second guide are configured to contact widthwise end portions of the sheet ejected by the first ejection roller and guide the widthwise end portions of the sheet downward.

Abstract: A digital printing apparatus including a sheet supply device, printing cylinder, inkjet nozzle portion, sheet delivery device, and conveyance devices. The sheet supply device supplies sheets one by one at a predetermined period. The printing cylinder includes at least one gripper device that grips and holds the sheet, and conveys the sheet while one edge of the sheet supplied from the sheet supply device is held by the plurality of gripper devices. The inkjet nozzle portion discharges ink droplets onto the sheet. The conveyance devices include a plurality of gripper devices including one reversing gripper device that grips and holds the other edge of the sheet, and conveys the sheet printed on one surface, which is received from the printing cylinder in a double-sided printing mode. The sheet is turned by reversing the obverse/reverse surface of the sheet by the reversing gripper device in the process of conveyance.

Abstract: A simple configuration avoids exposure of a star wheel that prevents the media from lifting up when the media conveyance path opens. A platen top unit 20 that supports first and second star wheels 25A, 25B is separated from an opening and closing platen unit 8, and is supported movably vertically. when the platen unit 8 is moved to the open position 8B to open the third conveyance path section 10c of the conveyance path 10 when a paper jam occurs, for example, the head elevator 17 is controlled to raise the platen top unit 20 and retract the first and second star wheels 25A, 25B supported by the platen top unit 20 to a position removed from easy contact with the user's hands.

Abstract: A cutting device includes a receiving block configured such that an object to be cut is arranged thereon, a cutting blade that includes a blade portion, the cutting blade being configured to move between a separated position and a contact position via a clamping position, a first rotating member coupled with the cutting blade, the first rotating member being configured to cause the cutting blade to move from the separated position to the contact position via the clamping position, by the first rotating member rotating in a specified direction from a separated rotation position to a contact rotation position via a clamping rotation position, an elastic member provided on the first rotating member, a DC motor, and a second rotating member configured to rotate in accordance with rotation of the DC motor.

Abstract: A cutting device includes a cutting blade, a receiving block, a motor, a cutting blade movement mechanism, and a receiving block movement mechanism. The cutting blade includes a blade portion. The receiving block includes a contact surface including a first contact surface and a second contact surface. The motor is configured to rotate in a forward direction and a reverse direction. The cutting blade movement mechanism supports the cutting blade and is configured to move the cutting blade between a separated position and a contact position in concert with a rotation of the motor when the motor rotates in a forward direction and when the motor rotates in a reverse direction. The receiving block movement mechanism is configured to move the receiving block from a first opposed position to a second opposed position in concert with the rotation of the motor.

Abstract: A printing apparatus is provided with a transport mechanism section that transports work, a printing mechanism section that has multiple nozzle groups, which perform printing by discharging an ink onto the work as liquid droplets, and control section that controls the actions of the transport mechanism section and the printing mechanism section. In addition, the printing mechanism section includes a first nozzle row that forms a first printing region, a second nozzle row that forms a second printing region, and an overlapping section in which the first nozzle row and the second nozzle row overlap. Further, the control section prohibits overlapping of the first printing region with the second printing region on the work when forming the third printing region.

Abstract: A transport apparatus includes a correction mechanism, a detector, and a meandering attenuator. The detector detects a widthwise position of elongated strip-shaped printing paper. The correction mechanism corrects the widthwise position of the printing paper, based on a detection result from the detector. The meandering attenuator is disposed upstream or downstream of the correction mechanism as seen in a transport direction. The meandering attenuator includes a plurality of attenuation rollers rotating while being in contact with the printing paper. When the printing paper passes over the attenuation rollers, the meandering of the printing paper is attenuated by the friction between the attenuation rollers and the printing paper. Thus, meandering exceeding the correction capability of the correction mechanism and new meandering occurring in the correction mechanism are attenuated.

Abstract: A page-wide inkjet printer for determining a drying time of a print swath of ink deposited on a sheet of media by a fixed printhead spanning a width of a printing zone in a subscan direction. The printer has a controller communicatively coupled to each of the printhead and a moveable gloss sensor or a scan bar for processing a respective output response for the determining the drying time of the print swath.

Abstract: A printing machine includes a printing unit which performs printing while transferring a sheet at a printing transfer speed, a circulation transfer unit which receives the sheet after simplex printing and transfers the sheet by reversing the sheet upside down, during duplex printing; and a paper refeed unit which refeeds, to the printing unit, the sheet transferred by the circulation transfer unit after simplex printing, wherein the circulation transfer unit includes a reversing unit which receives the sheet at the printing transfer speed, reverses the sheet upside down by switching back the sheet and accelerates the sheet up to a circulation transfer speed which is higher than the printing transfer speed when sheet transfer is restarted after temporal stop in the switching back, and a horizontal transfer unit which transfers the sheet switched back by the reversing unit, at the circulation transfer speed.

Abstract: A printing apparatus, including a sheet conveyer unit with a first roller unit, a printer unit, and a controller, is provided. The controller executes a first-face printing process, wherein an image is printed on a first face of a sheet; a switchback process, wherein the sheet after the first-face printing process is conveyed in a reverse direction by the first roller unit; a second-face printing process, wherein the image is printed on a second face of the sheet; a first ink amount determining process to determine whether an ink amount discharged in the first-face printing process at an end area of the sheet is one of greater than and equal to a first threshold amount; and a switchback setting process, wherein, if the ink amount is smaller than the first threshold amount, a rotation speed of the first roller unit is set at a higher rotation speed.

Abstract: A conveyor includes: a slide gear and a clutch gear including a first gear and a second gear. The clutch gear includes: a first surface and a second surface provided on one of the first and second gears and facing each other; and a contact member provided on the other of the first and second gears and located between the first surface and the second surface. A controller is configured to: control a motor in a state in which the slide gear and the first gear are in mesh with each other, to rotate the clutch gear to establish a state in which the contact member is not in contact with the first surface or the second surface; and control a sliding mechanism to slide the slide gear in the state in which the contact member is not in contact with the first surface or the second surface.

Abstract: In one embodiment, a cartridge body for a cartridge for providing media to a printer includes a first part and a complimentary second part, the first part and the second part formed of post-consumer-material; a hinge integrally connected to the first part and the second part and adapted to close the first part and the second part together over the media and contain the media therein; and an opening formed by the closed first part and second part for dispensing the media to the printer. A cartridge is also disclosed.

Abstract: A control system includes: a motor; a driving unit including a driving target and displacing the driving target in a first direction and a second direction opposite to the first direction by transmitting power from the motor to the driving target; a detection unit detecting a position of the driving target; and a controller controlling the motor. The controller is configured to execute: a displacement control process to displace the driving target in the first direction and the second direction; a determination process to determine a holding current value holding the driving target at a target stop position; and a holding control process to hold the driving target, which has been disposed at the target stop position in the displacement control process, at the target stop position based on the holding current value determined by the determination process.

Abstract: A print device includes a first print portion, a first discharge portion, a second print portion, a second discharge portion, and a user interface portion. The first discharge portion is configured to discharge a first medium printed by the first print portion. The second discharge portion is configured to discharge a second medium printed by the second print portion. The user interface portion is disposed on a front side portion of the print device. A main scanning direction of the first print portion and a main scanning direction of the second print portion are substantially parallel to an up-down direction. A length in the up-down direction of the second print portion is shorter than a length in the up-down direction of the first print portion. The second print portion is disposed to the front of the first print portion.

Abstract: A print device includes a first print portion, a first discharge portion, a second print portion, and a second discharge portion. The first discharge portion is configured to discharge a first medium printed by the first print portion in a first direction toward the outside of the print device. The second discharge portion is configured to discharge a second medium printed by the second print portion in a second direction toward the outside of the print device. The first discharge portion and the second discharge portion are configured to respectively discharge the first medium and the second medium to the outside of the print device from discharge positions that do not overlap with each other in an up-down direction. The first direction and the second direction are directions that separate from each other.

Abstract: [Object] To provide a method and apparatus for discharging a liquid material, which can solve the problems regarding the occurrence of a satellite and accuracy of a landing position. [Solving Means] In a method for discharging a liquid material in the state of a liquid droplet through a discharge orifice by applying inertial force to the liquid material, the method is characterized in comprising the steps of measuring a distance A from a lower end of the discharge orifice to a lower end of the liquid material having flowed out from the discharge orifice at the time when the liquid material having flowed out from the discharge orifice separates from the discharge orifice, and setting a distance B between the lower end of the discharge orifice and a work surface to be approximately the same as the distance A. An apparatus for carrying out the method is also provided.

Abstract: A print device includes a housing, a lid body, an input device, and a mounting portion. An opening is formed in an upper portion of the housing. The lid body opens and closes the opening of the housing by a second end portion side of the lid body pivoting around a predetermined rotation axis provided at a first end portion of the lid body. The mounting portion is provided on an upper portion of the lid body when the opening is closed. The input device can be attached to and detached from the mounting portion along a predetermined attachment/detachment direction with respect to the lid body. The attachment/detachment direction is orthogonal to an extending direction of a tangent line. The tangent line is tangential to a circumferential direction of the rotation axis at a position of the second end portion of the lid body.

Abstract: An inkjet printer includes a conveyer, a plurality of inkjet heads, a head cooler configured to generate cooling air and cool the plurality of inkjet heads by the generated cooling air, and a controller. The controller is configured to drive the plurality of inkjet heads to perform non-ejection drive on at least one of lines which involve no ink ejection, the non-ejection drive being driving of the plurality of inkjet heads to such a degree as to eject no ink. The controller is configured to determine a non-ejection drive ratio for each of the plurality of inkjet heads in accordance with a position of each of the plurality of inkjet heads, the non-ejection drive ratio being a ratio of lines on which the controller performs the non-ejection drive to the lines which involve no ink ejection.

Abstract: There is provided a distance calculator configured to calculate an amount of displacement of an inkjet head in the main scanning direction, and an inter-pixel distance between neighboring pixels adjacent in the main scanning direction, based on read-in test pattern image data (test image data) read from an original subjected to printing based on test pattern image data printed by discharging from a plurality of nozzles, and an image processor configured to correct image data included in a received print job so as to increase, in accordance with the amount of displacement, the amount of ink to be discharged from nozzles corresponding to positive correction target pixels whose calculated inter-pixel distance exceeds an inter-pixel threshold value (a predetermined distance).

Abstract: A liquid is ejected which has a volume exceeding a volume for forming a dot of a maximum size used in regular liquid ejection to output a high load pattern, an ejection abnormality detection pattern is output for detecting an ejection element abnormality within a specific period of time from outputting the high load pattern, read data of the output ejection abnormality detection pattern is acquired, and the acquired read data is analyzed to detect an abnormal ejection element.

Abstract: The disclosure discloses a printer includes an error occurrence detecting portion, an interruption control portion, a switching portion, an error storage portion, and a display control portion. The error occurrence detecting portion detects occurrence of an error event. The interruption control portion interrupts a printing process. The switching portion performs switching to a supply shutoff state or a low power consumption state. The error storage portion stores contents of the error event corresponding to the interruption when the switching portion performs the switching. The display control portion controls the display device to display an error display screen representative of the contents of the error event stored in the error storage portion in the case that a return to a normal power supply state.

Abstract: The present disclosure provides recording media and methods. In one example, a light weight media sheet for high speed printing can comprise a paper substrate having a basis weight of less than 100 gsm; a first flatness control layer applied directly to a first side of the paper substrate, the first flatness control layer having a coating weight from 1 to 15 gsm, wherein the first flatness control layer comprises a polymer selected from the group consisting of a polyvinyl alcohol, a polyamide, a polyimide, a polyethylene oxide, a polyvinyl pyrrolidone, a cellulose, a starch, an acrylate, copolymers thereof, and mixtures thereof; and a first ink-receiving layer applied directly to the first flatness control layer, the first ink-receiving layer having a coating weight from 1 to 40 gsm, where the light weight media sheet has a total basis weight from 40 to 150 gsm.

Abstract: A printable recording media containing and a coating layer including an acrylic resin latex binder; and a mixture of: about 10 to about 90 wt % of a first pigment including precipitated calcium carbonate particles, about 5 to about 60 wt % of a second pigment having a larger size and a different shape than the first pigment particles, and about 1 to about 50 wt % of a third pigment having a surface area of at least 50 m2/gram, wherein the weight percentages are by combined weight of the first, second and third pigments by total dry weight of the coating layer. Also described herein are a method for making said printable recording media and a method for producing printed images using the recording media.