An inkjet printer includes (a) a carriage movable in a main scanning direction; (b) recording heads mounted on the carriage, (c) a carriage drive processing part having a first drive part to move in main scanning direction; (d) a carry processing part having a second drive part for a recoding medium, (e) a head drive processing part driving the recording heads to form a superimposed pattern image that is composed by superimposing one of the color inks and the transparent ink on the recording medium; (f) an image detection processing part detecting dots of the superimposed pattern image; and (g) a head drive condition setting part setting the drive conditions of the recording heads using the detection result of the dots such that a dot diameter and an inter-dot distance, which are present in the superimposed image section of the superimposed pattern image, are substantially equal to each other wherein the inter-dot distance is determined between centers of two dots adjacent side by side in the main scanning direction.

A recording device includes a recording unit configured to eject a liquid onto a medium to record, a carriage including the recording unit and configured to move in an X direction corresponding to a medium width direction that intersects a Y direction corresponding to a medium transport direction, a liquid reservoir located in the carriage at a position above the recording unit, configured to contain a liquid, and having a fill port through which the liquid is supplied, a fill port unit located in the carriage at a position above the liquid reservoir and including a component for open/close operation of the fill port, and an operation unit through which the device is operated. The fill port unit and the operation unit partly overlap in a device front-rear direction that is parallel to the medium transport direction, when viewed in the X direction.

There is provided a printing apparatus including: a platen; a head; a carriage moving in a first direction and a second direction; a sensor configured to detect the medium; a memory; and a controller. Before a certain printing pass starts, the controller is configured to get a first distance value in the first direction between the sensor and a most downstream nozzle and a second distance value between an end of the medium and a close landing position that is closest to the end of the medium. The controller is configured to continue the certain printing pass without stopping the movement of the carriage, when the controller has determined that the second distance value is larger than the first distance value, and when the controller has determined that the medium is supported by the platen.

A metal member includes a first layer and a second layer. The second layer has an average crystal grain size different from an average crystal grain size of the first layer. An intermediate layer having an average crystal grain size smaller than the average crystal grain sizes of the first layer and the second layer is interposed between the first layer and the second layer.

Free axis or free-rolling printer is a self-propelled printer capable of printing on any stationary flat horizontal surface by moving itself around the stationary flat horizontal surface while ejecting the ink or colorants onto the stationary flat horizontal surface to create the clear image on the stationary flat horizontal surface. Free axis or free-rolling printer has at least one print media socket that is capable of accepting a plurality of interchangeable print media cartridges. Free axis or free-rolling printer has an X-axis tread system with a servomotor. Free axis or free-rolling printer has a retractable Y-axis tread system with a drive servomotor, a gantry servomotor, and a gantry assembly to lift and lower the Y-axis tread system. Free axis or free-rolling printer has a main circuit board with electrical continuity with a power source, the X-axis tread system servomotor, the Y-axis tread system drive servomotor, and the Y-axis gantry servomotor.

A liquid ejecting apparatus which ejects liquid onto a medium includes a carriage which includes a control substrate configuring at least a part of a control unit which controls driving of the entire liquid ejecting apparatus, an ejecting unit which ejects the liquid, and a driving substrate which is connected to the control substrate and the ejecting unit, and drives the ejecting unit, in which the carriage is provided with a load absorbing unit which absorbs a physical load with respect to the ejecting unit from the driving substrate side. By adopting the liquid ejecting apparatus with such a configuration, it is possible to prevent a load from being applied to the ejecting unit from the driving substrate side.

A liquid ejecting apparatus which ejects liquid onto a medium includes a carriage which includes a control substrate configuring at least a part of a control unit which controls driving of the entire liquid ejecting apparatus, an ejecting unit which ejects the liquid, and a driving substrate which is connected to the control substrate and the ejecting unit, and drives the ejecting unit, in which the carriage is provided with a fixing unit which fixes a position of the driving substrate with respect to a position of the ejecting unit. By adopting the liquid ejecting apparatus with such a configuration, it is possible to prevent a load from being applied to the ejecting unit from the driving substrate side.

There is provided a liquid discharge apparatus which includes a tank including a liquid storage chamber, an inlet, a liquid lead-out channel, and an atmosphere communication channel, a conveyance mechanism, a carriage, and a head. A lower end of the inlet is positioned at a lower side of the nozzles, and the liquid storage chamber is arranged at a position shifted from the nozzles, in a first-direction side of the front-rear direction, and shifted from the conveyance route, to a second-direction side of the left-right direction. The liquid storage chamber is connected to the liquid outflow channel at a position on a lower side of a center in a up-down direction of the liquid storage chamber, and in the first direction from a center in the front-rear direction of the liquid storage chamber, and on the second-direction side of a center in the left-right direction of the liquid storage chamber.

A printer includes a convex printing bed that is configured to hold a medium. A printer carriage is operable to swipe back and forth across the medium along a linear axis. A set of printing heads jet ink on the medium. The set of printing heads is secured to and moved along the linear axis by the carriage. At least two rails support the print carriage and to guide the print carriage along the linear axis as the carriage swipes back and forth across the medium. The shape of the convex bed generates tension across the medium such that an increase in width of the medium, due to swelling of the medium when printed, is pulled to the sides by the shape of the convex bed to limit creasing and bulging of the medium.

A liquid-printing apparatus, having a conveyer, a printing head, a liquid storage, a carriage, a scanning assembly, a remaining amount detector, and a controller, is provided. The printing head prints an image in a printing area ranging from a print-start position to a print-finish position along a scanning direction. The scanning assembly performs pass actions to move the carriage from a scan-start position to a scan-terminal position along the scanning direction. The remaining amount detector detects an amount of the liquid in the liquid storage. The controller controls the scanning assembly to perform a first pass action in a setting such that the scan-terminal position for the first pass action is separated farther in the scanning direction, in proportion to largeness of the amount of the liquid in the liquid storage, from one of the printing area for the first pass action and the printing area for a second pass action.