Patent application number | Description | Published |
20090174751 | DROPLET DISCHARGING DEVICE AND METHOD FOR HEATING FUNCTIONAL LIQUID THEREOF - A method is for heating a functional liquid of a droplet discharging device that has a storage which houses a container storing a functional liquid containing a functional material; a droplet discharge head discharging the functional liquid in a droplet; a cooling means included to the storage and cooling the functional liquid; and a supply tube supplying the functional liquid that is cooled in the storage to the droplet discharge head. The method includes: heating the functional liquid in the supply tube with waste heat that is generated correspondingly to cooling of the cooling means. | 07-09-2009 |
20110254904 | DROPLET DISCHARGING DEVICE AND METHOD FOR HEATING FUNCTIONAL LIQUID THEREOF - A method is for heating a functional liquid of a droplet discharging device that has a storage which houses a container storing a functional liquid containing a functional material; a droplet discharge head discharging the functional liquid in a droplet; a cooling means included to the storage and cooling the functional liquid; and a supply tube supplying the functional liquid that is cooled in the storage to the droplet discharge head. The method includes: heating the functional liquid in the supply tube with waste heat that is generated correspondingly to cooling of the cooling means. | 10-20-2011 |
20120019581 | INFORMATION PROCESSING SYSTEM, PRINTING APPARATUS, AND INFORMATION PROCESSING METHOD - Each of controllers includes an error management section that generates an error command including an error code indicating the content of an error when the controller detects the error. A host apparatus includes a host controller. If the error command from the master controller and the error command from the slave controller are identical to each other, the host controller displays a single piece of error information on a monitor. Specifically, the single piece of error information includes the error code included in the error command and an error message corresponding to the error code. | 01-26-2012 |
20120026523 | PRINTING CONTROL DEVICE, PRINTING APPARATUS, AND PRINTING CONTROL METHOD IN PRINTING APPARATUS - Commands, which are stored in a queue within controllers in order of acquisition, are transmitted to mechanical I/F units (steps ( | 02-02-2012 |
20120026545 | PRINT CONTROL DEVICE, PRINTING APPARATUS AND METHOD OF PROVIDING INFORMATION IN PRINTING APPARATUS - A controller includes an information transferring unit in a main control unit. A mechanical controller transmits device state information at predetermined time intervals. The information transferring unit performs some processing on the device state information received from the mechanical controller as necessary and stores the information in a second storage unit. Upon receiving a device state acquisition command from a host control unit, the information transferring unit transmits device state information read out from the second storage unit to the host control unit as a response to the device state acquisition command. | 02-02-2012 |
20120026546 | PRINT CONTROL DEVICE, PRINTING APPARATUS AND PRINT CONTROL METHOD FOR PRINTING APPARATUS - Controllers on the master and slave sides each perform an ink cartridge checking process and transmit a detection result, for example “NG”, obtained though the ink cartridge checking process to the other controller. Furthermore, the same ink cartridge checking process is performed in the other controller and the detection result thereof, for example “OK” is transmitted to the first controller. A mechanical control unit merges (combines) the respective detection results and if at least one of the results is NG, a merged result of NG is obtained. In the case of NG, this fact is transmitted to a host control unit and if YES is selected in a Y/N display, the error is cleared. On the other hand, in the case of a merged result of OK, an ink cartridge OK state notification is issued to a mechanical controller. | 02-02-2012 |
20120188576 | RECORDING METHOD AND RECORDING APPARATUS - P (fifteen) recording heads are arranged in two columns in a zigzag pattern in a recording unit. The P recording heads are divided into N (two) groups in the sub-scanning direction (up-down direction in the figure). The N (two) controllers respectively control the recording heads pertaining to corresponding groups. Therefore, the number of the boundary (M/S boundary line) of the recording regions (master recording region and slave recording region) of the recording heads controlled by the different controllers becomes at least N−1 (one). | 07-26-2012 |
20140009782 | INFORMATION PROCESSING SYSTEM, PRINTING APPARATUS, AND INFORMATION PROCESSING METHOD - Each of controllers includes an error management section that generates an error command including an error code indicating the content of an error when the controller detects the error. A host apparatus includes a host controller. If the error command from the master controller and the error command from the slave controller are identical to each other, the host controller displays a single piece of error information on a monitor. Specifically, the single piece of error information includes the error code included in the error command and an error message corresponding to the error code. | 01-09-2014 |
20140015875 | PRINTING CONTROL DEVICE, PRINTING DEVICE, AND PRINTING CONTROL METHOD - A control device for a printer includes a master controller and a slave controller, and the constituent elements of the master controller and the slave controllers are configured symmetrically. The master controller includes a virtual mechanical controller. | 01-16-2014 |
Patent application number | Description | Published |
20090021560 | DROPLET DISCHARGE HEAD AND DROPLET DISCHARGE DEVICE - A droplet discharge head includes: a head body having a surface opposed to an object; a plurality of nozzles aligned on the surface and discharging a droplet to each of positions of the object; and an irradiation part disposed on the surface and irradiating the object with light. In the droplet discharge head, the irradiation part includes i×j pieces of irradiation parts arranged such that i (an integer number of 1 or more) pieces of irradiation parts are aligned in an alignment direction of the nozzles and j (an integer number of 2 or more) pieces of irradiation parts are disposed in a predetermined direction that is orthogonal to the alignment direction of the nozzles and aligned along the predetermined direction. | 01-22-2009 |
20090033696 | PATTERN FORMING METHOD AND DROPLET DISCHARGE DEVICE - A pattern formation method includes discharging a functional liquid substance having a functional material to an object, and irradiating the functional liquid substance with light emitted from a light source thereby to form a pattern of a functional film on the object. In this method, when the thickness of the functional liquid substance on an optical axis of the light is L and the absorption coefficient of the functional liquid substance for the light is α, the thickness and the absorption coefficient are set so as to satisfy an equation (1): | 02-05-2009 |
20090047418 | FILM-FORMING METHOD, AND FILM FORMING DEVICE - A film-forming method includes: a) discharging a liquid including a film material on an object so as to form a liquid film made of the liquid; b) measuring distribution of an optical constant related to a film thickness of a thin film by irradiating the liquid film with light from a first light source so as to detect light from the liquid film; and c) modulating light from a second light source corresponding to the optical constant of the liquid film based on converting data indicating a relation between the optical constant and light wave information of the light from the second light source while irradiating the liquid film with the light from the second light source so as to dry the liquid film to form the thin film on the object. | 02-19-2009 |
20090047419 | FILM-FORMING METHOD AND FILM-FORMING DEVICE - A film-forming method includes: a) discharging a liquid including a film material on an object so as to form a liquid film made of the liquid; b) irradiating the liquid film with light and thus detecting light from the liquid film so as to measure distribution of an optical constant, which is related to a film thickness of a thin film, with respect to the liquid film; and c) drying the liquid film on the object so as to form the thin film by converting the distribution of the optical constant into distribution of a temperature of the liquid film based on converting information that relates the optical constant of the liquid film to the temperature of the liquid film and thus forming the distribution of the temperature on the liquid film. | 02-19-2009 |
20090051718 | METHOD FOR FORMING DOTS, METHOD FOR FORMING IDENTIFICATION CODE, AND LIQUID EJECTION APPARATUS - An acceptable duration is defined as the time necessary for allowing the diameter of a microdroplet that has reached the substrate to become a maximum acceptable droplet diameter. A scanning speed is set in such a manner that the microdroplet that has been received by the substrate reaches a radiating position from a droplet receiving position immediately after the acceptable duration has passed since reception of the microdroplet by the substrate. A laser beam is radiated onto the microdroplet immediately after the acceptable duration has passed since the reception of the microdroplet Fb by the substrate, or when the microdroplet is located at the radiating position. | 02-26-2009 |
20090087580 | INK COMPOSITION, PATTERN FORMATION METHOD AND DROPLET DISCHARGE DEVICE - An ink composition includes a conductive fine particle, a dispersion medium in which the conductive fine particle is dispersed, and a combustion substance that starts a combustion reaction by receiving light. | 04-02-2009 |
20090096821 | LIQUID DROPLET DRYING METHOD OF LIQUID DROPLET DISCHARGING APPARATUS AND LIQUID DROPLET DISCHARGING APPARATUS - A liquid droplet drying method of a liquid droplet discharging apparatus includes discharging liquid droplets from respective nozzles of a discharging head onto a substrate, the droplets being discharged from the nozzles at timings different from each other; and drying the liquid droplets by irradiating a laser beam to the liquid droplets vertically to a discharging direction of the liquid droplets while the droplets are flying toward the substrate, the laser beam being irradiated in a layout direction of the nozzles of the discharging head. | 04-16-2009 |
Patent application number | Description | Published |
20120182341 | RECORDING METHOD AND RECORDING APPARATUS - A print area is a print target region by a recording unit on a sheet (recording medium). First, in first lateral scanning, raster lines (white beads) of a base image are printed by moving a recording unit in a main scanning direction by using nozzles arranged in a sub-scanning direction and printing of total M passes is performed while shifting the recording unit for each pass in the main scanning direction and the sub-scanning direction. | 07-19-2012 |
20120188564 | RECORDING METHOD AND RECORDING APPARATUS - P recording heads are arranged a recording unit. The P recording heads are divided into N (groups in the sub-scanning direction. The N controllers respectively control the recording heads pertaining to corresponding groups. When it is determined that variable data straddles a boundary (M/S boundary line) of recording regions (a master recording region and a slave recording region) of the recording heads, which are controlled by different controllers, the feed quantity of the recording unit is adjusted to a feeding quantity such that the variable data do not straddle the M/S boundary line. | 07-26-2012 |
20120229547 | LIQUID DISCHARGE METHOD - A liquid discharge method including: performing a discharge operation of discharging liquid from each nozzle in a plurality of nozzle arrays, to each of which liquid is supplied from a corresponding container, the plurality of nozzle arrays corresponding to the plurality of containers which respectively contain a plurality of kinds of liquid, the nozzles being arranged in an array direction; detecting whether or not the liquid is discharged from each nozzle by the discharge operation; containing liquid to be discharged from a certain nozzle array in a container corresponding to a nozzle array which is different from the certain nozzle array when it is detected that there is a nozzle which does not discharge liquid in the certain nozzle array; and controlling the nozzle array which is different from the certain nozzle array to discharge the liquid to be discharged from the certain nozzle array. | 09-13-2012 |