XAAR TECHNOLOGY LIMITED Patent applications |
Patent application number | Title | Published |
20130136870 | Droplet Deposition Apparatus and Method for Manufacturing the Same - A method of forming a component for a droplet deposition apparatus, includes the steps of: providing a protection material so as to fill fluid chambers and; directing a high-powered laser at the component so as to ablate an array of nozzles communicating with respective filter chambers. The protection material acts to inhibit damage to the walls of the chamber during ablation, such as damage to the interior passivation coating, or electrodes provided on the walls of the chamber, and can be removed for example by flushing with a heated solvent. | 05-30-2013 |
20120204788 | DROPLET DEPOSITION APPARATUS - Droplet deposition apparatus comprising an array of fluid chambers defined by a pair of opposing chamber walls, and in fluid communication with a nozzle for droplet ejection therefrom; a cover member is joined to the edges of the chamber walls and thus seals one side of the chambers. The cover member has a ratio of cover thickness to chamber wall separation less than or equal to 1:1. | 08-16-2012 |
20110261119 | Method and Apparatus for Droplet Deposition - A method for depositing droplets onto a substrate employs an apparatus, such as an inkjet printhead, the apparatus having: an array of channels, acting as fluid chambers, separated by interspersed walls, with each channel communicating with an aperture or nozzle for the release of droplets of a fluid contained within the channel, such as ink. Each of the walls separates two neighbouring channels and is actuable such that, in response to a first voltage, it will deform so as to decrease the volume of one channel and increase the volume of the other channel, and, in response to a second voltage, it will deform so as to cause the opposite effect on the volumes of the neighbouring channels. The method includes the steps of: receiving input data, such as an array of image data pixels; selecting pairs of adjacent channels based on the input data; assigning the selected pairs of adjacent channels as firing channels and the remaining channels as non-firing channels. While the pairs of firing channels may generally have any spacing, one of the pairs of firing channels is spaced apart from another of the pairs of firing channels by an odd number of non-firing channels. Within each of these selected pairs, the separating wall of that pair is actuated so as to cause the release of at least one droplet from each of said firing channels. The actuations for all the pairs overlap in time so as to ensure a high level of throughput or printing speed. | 10-27-2011 |
20110261101 | Method and Apparatus for Droplet Deposition - A method for depositing droplets onto a substrate employs an apparatus, such as an inkjet printhead, the apparatus having: an array of channels, acting as fluid chambers, separated by interspersed walls, with each channel communicating with an aperture or nozzle for the release of droplets of a fluid contained within the channel, such as ink. Each of the walls separates two neighbouring channels and is actuable such that, in response to a first voltage, it will deform so as to decrease the volume of one channel and increase the volume of the other channel, and, in response to a second voltage, it will deform so as to cause the opposite effect on the volumes of the neighbouring channels. The method includes the steps of: receiving input data, such as an array of image data pixels; assigning, based on the input data, all the channels within the array as either firing channels or non-firing channels so as to produce groups of one or more contiguous firing channels separated by groups of one or more contiguous non-firing channels; actuating the walls of certain channels so that, for each non-firing chamber, either the walls move with the same sense or they remain stationary, and, for each firing chamber, either the walls move with opposing senses, or one wall is stationary while the other is moved. These actuations result in each of the firing channels releasing at least one droplet of fluid, the resulting droplets forming dots disposed on a straight line on said substrate, for example so as to form a representation of a line of image data pixels. The dots are separated on the line by gaps corresponding to the non-firing channels. | 10-27-2011 |
20100128078 | Method of Preventing the Formation of Inkjet Printing Artifacts - A method for compensating for a tendency for droplets deposited by a plurality of nozzles of an ink jet printer to merge in the direction of printing on a substrate, comprising: identifying lines of pixels to be printed by each nozzle which have a grey level greater than a first threshold value; selecting certain of those pixels which are separated by a distance in the printing direction determined by a probability function and reducing the grey level of those certain pixels below a second threshold value so as to prevent merging of drops in the printing direction. | 05-27-2010 |
20100110136 | DROPLET DEPOSITION APPARATUS - Droplet deposition apparatus including at least one droplet ejection unit having a plurality of fluid channels disposed side by side in a row, an actuator, and a plurality of nozzles, said actuator being actuable to eject a droplet of fluid from a fluid channel through a respective nozzle, a support member for said at least one droplet ejection unit, a first conduit extending along said row and to one side of both said support member and said at least one droplet ejection unit for conveying droplet fluid to each of the fluid channels of said at least one droplet ejection unit; and a second conduit extending along said row and to the other side of both said support member and said at least one droplet ejection unit for receiving droplet fluid from each of the fluid channels of said at least one droplet ejection unit. | 05-06-2010 |
20100040830 | Droplet Deposition Component - A method of forming a nozzle plate component for a printhead comprising the steps of: providing a laminar body having a polymeric upper layer defining a top surface and a metal lower layer defining a bottom surface; removing material by ablation or photolithography from the polymeric layer to selectively expose the metal layer; and applying etchant from the top surface that selectively etches the exposed areas of the metal layer, thereby undercutting said upper layer to form a recess area in the metal layer and forming an opening through said body. | 02-18-2010 |
20100007898 | Printer and Method for Printing - A method for controlling the printing of overlapping swathes, the swathes extending perpendicular to a succession of print lines; for each print line a transition is defined between one swathe and the next, with the location of the transition in the print line varying between print lines, for example varying pseudo-randomly or as a curve extending in the swathe direction. | 01-14-2010 |
20090128603 | Droplet Deposition Method and Apparatus - In an ink jet printhead have an elongate ink chamber and a nozzle at one end, a continuous flow of ink is provided through a high impedance channel communicating with the chamber close to the nozzle. Ink is ejected through the nozzle by generating longitudinal acoustic waves in the fluid chamber. A high velocity ink flow into the chamber from the channel sweeps away from the nozzle debris or bubbles that might otherwise block the nozzle. | 05-21-2009 |
20080223240 | Method of Printing - A method of offset printing wherein a layer of varnish or similar coating material is deposited onto a print drum and an ink image pattern layer is printed upon the varnish layer using a technique such as inkjet printing; the print drum transfers the ink layer onto a print substrate with a portion of the varnish layer thereupon, thus acting as a covering layer for the printed image. | 09-18-2008 |
20080198198 | Passivation of Printhead Assemblies and Components Therefor - A printhead assembly comprising the printhead and filters intended for use with the printhead is passivated by passing a gaseous coating such as Parylene through the assembly. In this way dirt particles created during manufacture of the printhead are encapsulated and thus prevented from blocking the nozzles. The printhead assembly is also prevented from interacting physically or chemically with ink flowing through the printhead. | 08-21-2008 |