Patent application number | Description | Published |
20080198204 | LIQUID EJECTING HEAD AND PRINTER - A liquid ejecting head includes a first pressure chamber, a second pressure chamber provided at a side of the first pressure chamber, a vibration plate provided above the first pressure chamber and the second pressure chamber, a driving piezoelectric element provided above the first pressure chamber and above the vibration plate, and a non driving piezoelectric element provided above the second pressure chamber and above the vibration plate. | 08-21-2008 |
20090244128 | LIQUID EJECTING METHOD, LIQUID EJECTING HEAD, AND LIQUID EJECTING APPARATUS - Provided is a liquid ejecting method, including: ejecting a liquid from a liquid ejecting head, wherein the viscosity of the liquid is in a range from 6 mPa·s to 20 mPa·s, wherein the liquid ejecting head includes: nozzles which eject the liquid; a pressure chamber which applies a pressure variation to the liquid in order to eject the liquid from the nozzles; and a supply unit which communicates with the pressure chamber and supplies the liquid to the pressure chamber, and wherein the opening area of the nozzles on the side in which the liquid is ejected is or less of the opening area of the opening of the supply unit on the pressure chamber side. | 10-01-2009 |
20090244187 | LIQUID EJECTING APPARATUS AND METHOD OF DRIVING LIQUID EJECTING HEAD - A liquid ejecting apparatus includes a liquid ejecting head including pressure generation chambers communicating with nozzle openings for ejecting a liquid and pressure generation units which cause pressure variations in the pressure generation chambers. A driving unit supplies, to the pressure generation units, a driving signal including an expansion element for expanding the pressure generation chambers. A contraction element contracts the pressure generation chambers and a re-expansion element expands the pressure generation chambers before the liquid is ejected from the nozzle openings by the contraction element. The re-expansion element includes a primary expansion element at the contraction element side that expands the pressure generation chambers. A secondary expansion element has at least a variation portion having a voltage variation ratio different from a voltage variation ratio of the primary expansion element in continuation to the primary expansion element and expands the pressure generation chambers. | 10-01-2009 |
20090244200 | LIQUID DISCHARGING METHOD, LIQUID DISCHARGING HEAD, AND LIQUID DISCHARGING APPARATUS - A liquid discharging method includes applying pressure to liquid and discharging the liquid from a liquid discharging head. The viscosity of the liquid ranges from 8 to 20 millipascal seconds. The liquid discharging head includes a nozzle that discharges the liquid, a pressure chamber that causes a pressure change in the liquid so as to discharge the liquid from the nozzle, and a liquid supplying section that is in communication with, and supplies the liquid to, the pressure chamber. The pattern of the pressure change in the liquid varies to selectively control the amount of the liquid discharged from the nozzle between a predetermined amount and another smaller amount. The diameter of the nozzle ranges from 15 μm to 40 μm. The flow-channel length of the nozzle is set at a value that is smaller than the flow-channel length of the liquid supplying section multiplied by 0.2. | 10-01-2009 |
20100171778 | LIQUID EJECTING APPARATUS AND CONTROLLING METHOD OF THE SAME - A liquid ejecting apparatus includes: a liquid ejecting head which includes a pressure generating chamber communicating with a nozzle opening and a pressure generating element causing variation in a pressure of a liquid in the pressure generating chamber and which ejects the liquid from the nozzle opening by an operation of the pressure generating element; and a driving signal generating unit which generates a series of driving signals containing a driving pulse used to drive the pressure generating element. The driving pulse generated by the driving signal generating unit contains a plurality of expansion components expanding the pressure generating chamber and drawing a meniscus and an ejection component varying a voltage so as to contract the expanded pressure generating chamber and ejecting a liquid droplet. The expansion component includes a first expansion component and a second expansion component drawing the meniscus at a voltage variation ratio different from that of the first expansion component. | 07-08-2010 |
20100182363 | LIQUID DISCHARGING APPARATUS AND CONTROL METHOD THEREOF - A liquid discharging apparatus includes: a liquid discharging head which has a pressure generation chamber that is communicated with a nozzle orifice, and a pressure generation element that generates pressure variation in liquid in the pressure generation chamber, and which can discharge liquid from the nozzle orifice by the operation of the pressure generation element; and a driving signal generation section which generates a series of driving signals that includes a driving pulse which drives the pressure generation element, wherein the driving pulse which the driving signal generation section generates includes an expansion element which expands the pressure generation chamber, thereby drawing in the meniscus, a contraction element which varies voltage so as to contract the expanded pressure generation chamber, a re-expansion element which re-expands the pressure generation chamber after the contraction by the contraction element, thereby drawing in the meniscus, and a re-contraction element which varies voltage so as to contract the re-expanded pressure generation chamber, and the re-contraction element includes a first re-contraction element, and a second re-contraction element which contracts the re-expanded pressure generation chamber at a different rate of voltage change from that of the first re-contraction element. | 07-22-2010 |
20100188451 | LIQUID EJECTING APPARATUS AND METHOD CONTROLLING LIQUID EJECTING APPARATUS - A liquid ejecting apparatus includes: a liquid ejecting head which includes nozzles, pressure generating chambers communicating with the nozzles, and pressure generating elements causing a pressure change in a liquid of the pressure generating chambers and which ejects the liquid from the nozzles in response to an operation of the pressure generating elements; and a driving signal generating unit which drives the pressure generating elements to repeatedly generate a driving signal containing an ejection driving pulse used to eject the liquid from the nozzles. The ejection driving pulse has a pulse waveform containing a first pressure generating chamber expansion component which expands the pressure generating chamber to draw a meniscus toward the pressure generating chamber side, a pressure generating chamber contraction component which contracts the pressure generating chamber expanded by the first pressure generating chamber expansion component to push the meniscus toward the liquid ejection side, and a second pressure generating chamber expansion component which expands the pressure generating chamber contracted by the pressure generating chamber contraction component to draw the meniscus toward the pressure generating chamber side again. Each of the pressure generating chamber expansion components has a plurality of different potential change ratios. | 07-29-2010 |
20100194803 | LIQUID EJECTING APPARATUS AND METHOD OF DRIVING LIQUID EJECTING HEAD - A liquid ejecting apparatus includes a liquid ejecting head having a pressure generating chamber which communicates with a nozzle opening for discharging a liquid and a pressure generating unit which generates a pressure variation within the pressure generating chamber; and a driving unit that supplies the pressure generating unit with a driving signal having an inflation element in which the pressure generating chamber is inflated, a contraction element in which the pressure generating chamber is contracted to discharge a liquid from the nozzle opening, and a re-inflation element in which the pressure generating chamber is inflated during the contraction element, wherein the re-inflation element is initiated in a state that two different phases of vibration of the meniscus within the nozzle opening are not opposite to each other. | 08-05-2010 |
20100194804 | LIQUID DISCHARGING APPARATUS AND LIQUID DISCHARGING METHOD - A liquid discharging apparatus is provided, which including: a pressure chamber communicating with a liquid supply portion and each nozzle; an element that performs an operation for providing change of pressure to liquid within the pressure chamber; and a pulse generating section that generates a pulse of which a voltage is changed to operate the element. The pulse generating section generates a first discharge pulse that causes the element to perform an operation for discharging liquid droplets from the nozzles, a non-discharge pulse, generated later than the first discharge pulse, that produces pressure vibration of strength, by which the liquid droplets are not discharged from the nozzles, in the liquid within the pressure chamber, which has a phase different from pressure vibration produced in the liquid within the pressure chamber by applying the first discharge pulse to the element, and a second discharge pulse, generated later than the non-discharge pulse, that causes the element to perform the operation for discharging the liquid droplets from the nozzles, while using the pressure vibration produced in the liquid within the pressure chamber by applying the non-discharge pulse to the element. | 08-05-2010 |
20110007108 | LIQUID DISCHARGE APPARATUS AND METHOD - A liquid discharge apparatus includes a nozzle, a pressure chamber and a liquid supply portion that supplies the liquid to the pressure chamber. A discharge pulse generating unit generates a discharge pulse to discharge the liquid. The viscosity of the liquid is no less than 8 millipascal-seconds. The nozzle has a first portion with a discharge side that has an opening area smaller than that of a pressure chamber side and a second portion that communicates with an end portion of the discharge side. An opening area of the second portion is no greater than 1/9 of the opening area of the pressure chamber side. The discharge pulse has a decompression portion that decompresses the liquid to lead a meniscus in the second portion to the first portion and a compression portion that compresses the liquid to discharge the liquid before the meniscus returns to the second portion. | 01-13-2011 |
20110074883 | LIQUID EJECTING HEAD AND LIQUID EJECTING APPARATUS - A liquid ejecting head includes nozzles that eject liquid, pressurizing chambers communicating with respective nozzles, and liquid supply channels that supply the liquid to the pressurizing chambers. The liquid ejecting head ejects the liquid when a pressure generating unit changes the pressure within the pressurizing chambers. A cylindrical nozzle straight portion, in which the opening cross-sectional area is narrower than at other areas of the nozzle, is formed toward the pressurizing chamber from the nozzle opening in each nozzle. The opening cross-sectional area of the nozzle straight portion is Sn; the length thereof is Ln; the channel cross-sectional area of the liquid supply channel is Ss; the length from a common liquid chamber-side connection opening in the liquid supply channel to a pressurizing chamber-side connection opening is Ls. The ratio (Ln/Sn) is less than or equal to ½ of the ratio (Ls/Ss). | 03-31-2011 |
20110228003 | LIQUID EJECTING METHOD AND LIQUID EJECTING APPARATUS - After a gloss-based liquid is ejected from a liquid ejection head, which ejects liquid from nozzles of a nozzle row, to a predetermined position on a landing target to form a glossy layer, a white-based liquid is ejected onto the glossy layer to form a white layer, the ejection amount of the gloss-based liquid being greater than the ejection amount of the white-based liquid. | 09-22-2011 |
20110228023 | LIQUID EJECTING METHOD AND LIQUID EJECTING APPARATUS - After one ink of a white ink or a silver ink is ejected in a predetermined position of a recording medium such as a piece of recording paper to form a base layer, the other ink thereof is ejected on the base layer to form an intermediate layer, and a clear ink is ejected on the intermediate layer to form an epidermal layer. | 09-22-2011 |
20110249050 | Liquid Ejecting Apparatus and Control Method of Liquid Ejecting Apparatus - Liquid ejecting apparatus and related methods of operation are disclosed. A liquid ejecting apparatus includes an ejecting head having liquid-ejecting nozzles, a platen disposed to support a recording medium and face the ejecting head, a movement section that moves the ejecting head relative to the platen, a heater that heats the platen, a temperature sensor to detect a temperature of the ejecting head, a driving waveform generation section that generates a driving waveform to drive the ejecting head in accordance with the detected temperature, and a liquid ejection control section that supplies the driving waveform to the ejecting head to eject liquid for printing on the recording medium in a printing area. The driving waveform is generated according to a temperature of the ejecting head that is detected when the ejecting head has come to an area outside the printing area. | 10-13-2011 |
20110249053 | Liquid Ejecting Apparatus and Control Method of Liquid Ejecting Apparatus - Liquid ejecting apparatus and control methods thereof are disclosed. A liquid ejecting apparatus includes an ejecting head having liquid-ejecting nozzles, a platen disposed to support a recording medium and face the ejecting head, a heater that heats the platen, a temperature sensor to detect a temperature of the ejecting head, and a control section that causes liquid to be ejected from the nozzles. If a change in a temperature of the ejecting head and/or a temperature of the ejecting head exceeds a predetermined range, the control section stops ejection of liquid for printing from the nozzles in the absence of a user input to continue printing. After the control section stops the ejection of liquid, a response process can be carried out. | 10-13-2011 |
20120075388 | LIQUID EJECTING HEAD AND LIQUID EJECTING APPARATUS HAVING THE SAME - A liquid ejecting head includes: a pressure generating chamber to which liquid is supplied through a liquid supply channel; a pressure generating unit that generates a variation in pressure in the pressure generating chamber; a nozzle opening that ejects the liquid discharged from the pressure generating chamber according to the variation in pressure to the outside; and a flow channel for circulation that is formed in the nozzle opening side rather than the pressure generating chamber and separates a part of the liquid discharged from the pressure generating chamber. When Ms, Mn, and Mc each are inertances of the liquid supply channel, the nozzle opening, and the flow channel for circulation, a relationship of Ms≧(1/Mn+1/Mc) | 03-29-2012 |
20120081468 | LIQUID EJECTING METHOD, LIQUID EJECTING HEAD, AND LIQUID EJECTING APPARATUS - Provided is a liquid ejecting method, including: ejecting a liquid from a liquid ejecting head, wherein the viscosity of the liquid is in a range from 6 mPa·s to 20 mPa·s, wherein the liquid ejecting head includes: nozzles which eject the liquid; | 04-05-2012 |
20120139999 | LIQUID EJECTING HEAD AND LIQUID EJECTING APPARATUS - The dimensions/shape of ink flow channels in a recording head are designed so that when the inertance of nozzles is represented by Mn, the inertance of the ink supply channels is represented by Ms, the combined resistance obtained by combining the flow channel resistance in the nozzles, the flow channel resistance in pressure chambers, and the flow channel resistance in the supply channels is represented by R, and a unique vibration cycle of the pressure fluctuation arising in the ink within the pressure chambers is represented by Tc, the following Equation (A) holds true. | 06-07-2012 |
20120249639 | LIQUID EJECTING APPARATUS AND METHOD OF CONTROLLING THE SAME - A temperature sensor provided to a recording head detects a temperature when the recording head relatively moves outside an opposite region opposite to a platen heater. A driving signal generating circuit compensates an ejection pulse in accordance with the detected temperature. | 10-04-2012 |
20130033534 | CONTROL METHOD OF AND CONTROL DEVICE FOR CONTROLLING LIQUID EJECTION HEAD, AND LIQUID EJECTING APPARATUS - A drive signal includes a first drive signal and a second drive signal. The first drive signal includes a prior pulse section including a first contraction element and a discharging pulse section including a first expansion element pulling in a meniscus and the second contraction element discharging a droplet of liquid from the nozzle orifice. The second drive signal includes the discharging pulse section and a vibration control pulse section including a second expansion element controlling a residual vibration of the meniscus. A piezoelectric element is driven with the first drive signal when viscosity of the liquid is equal to or more than a first set value and is driven with the second drive signal when the viscosity is equal to or less than a second set value. | 02-07-2013 |
20130050343 | LIQUID EJECTING HEAD AND LIQUID EJECTING APPARATUS INCLUDING THE SAME - A nozzle portion in a recording head includes a first nozzle portion of which cross-sectional area is a first area and which is formed at the side of a pressure generation chamber and a second nozzle portion of which cross-sectional area is a second area which is smaller than the first area, which is formed to be continuous to the first nozzle portion through a step portion and of which front end portion is a nozzle opening. Further, when a cross-sectional area of an ink supply path is set to Ss, a cross-sectional area of the first nozzle portion is set to Sn, a flow path resistance of the first nozzle portion is set to Rn′, and a flow path resistance of the second nozzle portion is set to Rn, relationships of Sn/Ss≧⅓ and Rn′/Rn≦0.6 are satisfied. | 02-28-2013 |
20130070034 | LIQUID EJECTING HEAD AND LIQUID EJECTING APPARATUS - Disclosed herein is a liquid ejecting head in which a liquid is able to be filled in a pressure chamber communicated with a nozzle opened in a nozzle plate and droplets are able to be ejected from the nozzle by applying a change in pressure of the liquid in the pressure chamber. The pressure chamber has a deformation portion which is deformed based on the change in the pressure of the liquid in the pressure chamber, in at least a portion of a bottom thereof. | 03-21-2013 |
20130155134 | LIQUID EJECTING APPARATUS AND LIQUID EJECTING METHOD - A liquid ejecting apparatus includes: a pressure chamber that communicates with a liquid supply section and a nozzle; an element that changes a pressure of liquid within the pressure chamber; and an ejection pulse generation section that generates an ejection pulse for operating the element to eject the liquid from the nozzle. The viscosity of the liquid is not less than 8 millipascal seconds. The nozzle has a first portion in which a liquid ejection side thereof has a smaller opening area than a pressure chamber side thereof, and a second portion which communicates with an ejection side end portion of the first portion. The ejection pulse has a depressurizing portion for depressurizing the liquid to attract a meniscus positioned on the second portion to the first portion, and a pressurizing portion for pressurizing the liquid to eject the liquid before the meniscus returns to the second portion. | 06-20-2013 |
20130201253 | LIQUID EJECTING METHOD AND LIQUID EJECTING APPARATUS - After a gloss-based liquid is ejected from a liquid ejection head, which ejects liquid from nozzles of a nozzle row, to a predetermined position on a landing target to form a glossy layer, a white-based liquid is ejected onto the glossy layer to form a white layer, the ejection amount of the gloss-based liquid being greater than the ejection amount of the white-based liquid. | 08-08-2013 |
20140078218 | LIQUID EJECTING METHOD AND LIQUID EJECTING APPARATUS - After a gloss-based liquid is ejected from a liquid ejection head, which ejects liquid from nozzles of a nozzle row, to a predetermined position on a landing target to form a glossy layer, a white-based liquid is ejected onto the glossy layer to form a white layer, the ejection amount of the gloss-based liquid being greater than the ejection amount of the white-based liquid. | 03-20-2014 |
20140111574 | LIQUID EJECTING APPARATUS - A liquid ejecting apparatus includes a liquid ejecting head which is capable of ejecting a photo-curable liquid to be cured by irradiation with light from nozzles which open at a nozzle surface of a nozzle-forming member; a wiping unit for wiping the nozzle surface with a wiping member in contact with the nozzle surface, a portion of the wiping member in contact with the nozzle surface being made of cloth; and a heating mechanism for generating heat to heat the nozzle surface; wherein the wiping member is capable of wiping the nozzle surface in a state in which an ink splash of a photo-curable liquid attached on the nozzle surface has been softened by heating of the heating mechanism. | 04-24-2014 |
20140118442 | LIQUID EJECTING HEAD AND LIQUID EJECTING APPARATUS - There is provided a liquid ejecting head in which a flow path width Wc of a pressure chamber is equal to or larger than 60 μm, and when a-50% average particle diameter of a quasi-diameter obtained based on a maximum projected area of glitter pigment is assumed to be R50, a maximum particle diameter of the quasi-diameter is assumed to be Rmax, and a thickness of the glitter pigment for the quasi-diameter is assumed to be Z, equations of 0.8≦R50≦1.1, 0.2>Z/R50≧0.02, and Rmax/Wc<0.1 are satisfied. | 05-01-2014 |
20140192113 | LIQUID EJECTING METHOD AND LIQUID EJECTING APPARATUS - After one ink of a white ink or a silver ink is ejected in a predetermined position of a recording medium such as a piece of recording paper to form a base layer, the other ink thereof is ejected on the base layer to form an intermediate layer, and a clear ink is ejected on the intermediate layer to form an epidermal layer. | 07-10-2014 |
20150015630 | LIQUID EJECTING APPARATUS AND METHOD OF CONTROLLING LIQUID EJECTING APPARATUS - Disclosed is a liquid ejecting apparatus, and a method of controlling the liquid ejecting apparatus, whereby at a timing at which temperature detection and ejection pulse change are subsequently performed, a frequency of execution of temperature detection and driving pulse change differs according to whether temperature detected by the temperature sensor is in a first temperature range in which a degree of change in viscosity of ink for change in temperature is relatively high or in a second temperature range in which the degree of the change in viscosity for the change in temperature is relative stable. More specifically, in the first temperature range, the frequency of execution of temperature detection and driving pulse change is high compared to the second temperature range. | 01-15-2015 |