Patent application number | Description | Published |
20090160913 | INK JET RECORDING HEAD AND MANUFACTURE METHOD FOR THE SAME - An ink jet recording head has sufficient and uniform ink refill for all orifices and separate flow paths even though the substrate has a high rigidity by dividing a supply port into a plurality of ports. The substrate of the ink jet recording head has a plurality of separate flow paths corresponding to discharge pressure generating elements, a common flow path communicating with the separate flow paths, an ink supply port communicating with the common flow path and supplying ink to the common flow path, and a plurality of beam portions dividing the ink supply port. A recess is formed on the common flow path, extending to the separate flow paths formed nearest to the beam portion. | 06-25-2009 |
20090212008 | LIQUID EJECTION HEAD AND MANUFACTURING METHOD THEREOF - A liquid ejection head includes a substrate, having a front surface and a back surface, provided on the front surface with an energy generating element for generating energy used for ejecting liquid; a supply port, provided so as to penetrate between the front surface and the back surface of the substrate, for supplying the liquid to the energy generating element; a first film provided on the front surface of the substrate; and a second film provided so as to coat a wall of the substrate defining the supply port. The first film and the second film surface-contact each other with respect to two directions substantially perpendicular to each other. | 08-27-2009 |
20090244198 | INK JET RECORDING HEAD, MANUFACTURING METHOD THEREOF, AND ELECTRON DEVICE - An ink jet recording head includes a substrate, having a front surface and a back surface opposite from the front surface, provided above the front surface with an energy generating element for generating energy used for ejecting ink; an ink supply port provided so as to penetrate between the front surface and the back surface of the substrate; a first layer provided on or above the front surface of the substrate; a protection layer which is provided so as to coat a wall of the substrate defining the ink supply port and which continuously extends onto the first layer; and a second layer located above the front surface of the substrate and including a portion provided on the protection layer and another portion provided on the first layer by penetrating through the protection layer. | 10-01-2009 |
20100317130 | METHOD FOR MANUFACTURING LIQUID DISCHARGE HEAD - A method for manufacturing a liquid discharge head includes providing a first layer containing a metal nitride to at least a portion on one surface of a silicon substrate corresponding to a supply port; providing a second layer on the first layer, the second layer including any one of aluminum, copper, and gold, or an alloy thereof; etching a portion of the silicon substrate corresponding to the supply port by reactive ion etching in a direction from the reverse surface towards the one surface so that the etched region reaches the first layer; and removing a portion of the first layer corresponding to the supply port and then removing a portion of the second layer corresponding to the supply port, thus forming the supply port. | 12-16-2010 |
20100323463 | METHOD FOR MANUFACTURING LIQUID DISCHARGE HEAD - A method for manufacturing a substrate for a liquid discharge head provided with a silicon substrate and a supply port, including: providing the silicon substrate having an insulating layer on a first surface and an etching mask layer having a plurality of apertures on a second surface which is a rear surface of the first surface, wherein the insulating layer is provided in a region ranging from a position opposing the apertures to a position opposing a portion between the adjacent apertures of the mask layer; and forming holes by etching a silicon part of the silicon substrate so that an etched region reaches a portion of the insulating layer opposing the apertures, wherein the silicon wall provided between the adjacent holes is etched so that the portion in the first surface side thereof can be thinner than the portion in the second surface side thereof. | 12-23-2010 |
Patent application number | Description | Published |
20090244922 | LIGHT PIPE, ILLUMINATION OPTICAL SYSTEM AND IMAGE PROJECTION DEVICE - In a light pipe which allows light from a light source to be incident on the light pipe from an incident opening to be repeatedly reflected on a side wall surface of the light pipe, and to be radiated from a radiation opening, it is possible to radiate illumination light having high directivity and uniform brightness distribution thus radiating light while enhancing utilization efficiency of light. A diffraction portion is formed in a region on an incident opening side of a side wall surface of a light pipe. In the diffraction portion, light is reflected such that a reflection angle with respect to the side wall surface is larger than an incident angle with respect to the side wall surface, and a radiation angle of light radiated from a radiation opening is smaller than an incident angle of light incident on the light pipe from an incident opening. | 10-01-2009 |
20110267321 | HEAD MOUNTED DISPLAY AND DRIVE METHOD THEREOF - A head mounted display includes a display device and a pressure detecting part. The display device includes an eyeglass type frame provided with temples which are connected to a front frame in an openable/closable manner, a light source part, a drive part and a control part. The pressure detecting part detects opening/closing of the temple with respect to the front frame. The control part controls a starting of the operation of the drive part and a starting of the operation of a light source part corresponding to magnitude of pressure detected by the pressure detecting part. | 11-03-2011 |
20150226958 | LIGHT DEFLECTOR AND POLYGON MIRROR - A light deflector includes: a polygon mirror made of plastic and having a plurality of reflecting surfaces; a motor including a rotor and configured to rotate the polygon mirror; and a pressing member configured to press the polygon mirror toward the rotor in an axial direction of the motor. The polygon mirror has a first surface having a polygonal shape, and a second surface opposite to the first surface in the axial direction and having a polygonal shape. The second surface faces the rotor. The polygon mirror includes a plurality of first contact portions configured to be in contact with and pressed by the pressing member, and the first contact portions are provided on the first surface at positions equally distant from an axis of the motor between each of vertices of the first surface and the axis of the motor. | 08-13-2015 |