Patent application number | Description | Published |
20090219729 | Fixing structure of light emitting diode and electronic apparatus - A fixing structure of a light emitting diode includes an opening part formed in the fixing plate, the opening part being where the light emitting diode is inserted and extending in a fixing direction perpendicular to an inserting direction; a first engaging part configured to engage one of a surface and a rear surface of the brim part in a state where the light emitting diode is fixed; a second engaging part configured to engage another one of the surface and the rear surface of the brim part in the state where the light emitting diode is fixed; and a third engaging part configured to engage the light emitting part of the light emitting diode in the state where the light emitting diode is fixed so that detachment of the light emitting diode in a direction opposite to the fixing direction is prevented. | 09-03-2009 |
20110002095 | Electronic apparatus, assembly structure of electronic unit, and bracket - An electronic apparatus is disclosed, including a substrate; a unit body part on whose lateral surface the substrate is provided; and a bracket part configured to retain the unit body part. The bracket part includes a first bracket part and a second bracket part to which the first bracket part is slidably attached. The first bracket part is slid with respect to the second bracket part, and when the bracket part is at a close position, the first bracket part fixes the substrate by pressing the substrate in a slide direction and an approximately vertical direction, and the unit body part is fixed to the bracket part. | 01-06-2011 |
20110080698 | ELECTRONIC APPARATUS - An electronic apparatus includes an image display panel that includes an image display screen to display an image on a front side thereof; a front cover that exposes the image display screen; a rear cover that extends on a rear side of the image display panel and forms an inner space for accommodating the image display panel in cooperation with the front cover; a support member that is disposed in the inner space and is fixed to the front cover, and is extended at least in a first direction along the image display panel; a first holder configured to be mounted on with an electronic component and being supported in the inner space; and a second holder configured to be mounted with an electronic component, being disposed in parallel to the first holder in the first direction and being supported, in the inner space. | 04-07-2011 |
Patent application number | Description | Published |
20090153785 | Liquid Crystal Display Device - An object of the present invention is to form spacers for defining the space between the TFT substrate and the facing substrate of color filters, and by doing so, finely control the height of the spacers. First spacers | 06-18-2009 |
20110205474 | Liquid Crystal Display Device - A liquid crystal display device includes a TFT substrate, a facing substrate and liquid crystal sandwiched therebetween. First pixels for displaying a first color according to a first color filter, second pixels for displaying a second color according a second color filter and third pixels for displaying a third color according to a third color filter are aligned in a longitudinal direction on the facing substrate, respectively. The first color filters, the second color filters, and the third color filters extend in stripes in the longitudinal direction so as to cover the first, second and third pixels, respectively. First spacers are formed between the first pixels by layering a number of color filters, including the first color filters, and second spacers are formed of a number of color filters, including the second color filters, between the second pixels. The first color filters which are formed between the second pixels are circular in plan view. | 08-25-2011 |
Patent application number | Description | Published |
20090136812 | Nickel oxide powder material for solid oxide fuel cell, production process thereof, raw material composition for use in the same, and anode material using the nickel oxide powder material - This invention provides a nickel oxide powder material, a production process thereof with high efficiency, a raw material composition for use in the same, and an anode material using the nickel oxide powder material. The nickel oxide powder material, when used as an anode material for a solid oxide fuel cell, can reduce heat shrinkage percentage in calcination to reduce a shrinkage difference from other component, and can suppress the occurrence of cracking, delamination, warpage and the like during calcining. Also in power generation after re-reduction after exposure of the anode once to an oxidizing atmosphere, for example, due to the disruption of the fuel supply, deterioration of microstructure of the anode can be suppressed, and the voltage drop percentage of the cell can be reduced. The nickel oxide powder material is used in an anode material constituting a solid oxide fuel cell and is characterized in that spinel compound represented by compositional formula: NiM | 05-28-2009 |
20100221640 | NICKEL OXIDE POWDER MATERIAL FOR SOLID OXIDE TYPE FUEL CELL AND METHOD FOR PRODUCING THE SAME, AND ANODE MATERIAL, ANODE AND SOLID OXIDE TYPE FUEL CELL USING THE SAME - A nickel oxide powder material that can restrain cracking of electrode due to oxidation expansion and peeling from a electrolyte and thus can decrease deterioration of the power generation characteristics, even in the case that the anode is exposed to an oxidizing atmosphere caused by the disruption of the fuel supply at operating temperature or the like when used as an anode material for a solid oxide type fuel cell and its efficient production method, and the anode material for the solid oxide type fuel cell using the nickel oxide powder material. | 09-02-2010 |
20130309399 | NICKEL OXIDE POWDER MATERIAL FOR SOLID OXIDE TYPE FUEL CELL AND METHOD FOR PRODUCING THE SAME, AND ANODE MATERIAL, ANODE AND SOLID OXIDE TYPE FUEL CELL USING THE SAME - A nickel oxide powder material that can restrain cracking of electrode due to oxidation expansion and peeling from a electrolyte and thus can decrease deterioration of the power generation characteristics, when used as an anode material for a solid oxide type fuel cell and its efficient production method, and the anode material for the solid oxide type fuel cell using the nickel oxide powder material. The nickel oxide powder material for an anode material constituting a solid oxide type fuel cell is characterized in that it is made up of a core particle (a) composed of a nickel oxide fine particle and a coating layer (b) including a zirconium hydroxide, which is formed on the surface of the core particle (a), as its main component, and that the zirconium content contained in the coating layer (b) is 0.001 to 0.01 g/m | 11-21-2013 |