Watazu
Akira Watazu, Aichi JP
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20100075419 | BIOMATERIAL, METHOD OF CONSTRUCTING THE SAME AND USE THEREOF - The present provides a biomaterial composed in part of a porous material having an internal structure that has been completely controlled so as to optimize living tissue infiltration or cell introduction, a method of manufacturing, and uses thereof, including bio-implant materials for artificial bones, artificial joints and artificial tooth roots, and cell culture supports; the biomaterial undergoes increased infiltration by living tissues and the like owing to the formation of a porous region in at least a portion of the material, wherein the porous region is a porous body having therein a group of oriented pores that has an orientation and is made up of pores whose size, shape and direction have been controlled to optimize living tissue infiltration or cell introduction, and also having formed therein connecting pores that link together the primary pores and enable the passage of bodily fluids and gas bubbles, and formed with a spatial configuration in which the oriented pores are not directly connected to other oriented pores and the connecting pores which link together the oriented pores are not directly connected to other connecting pores. | 03-25-2010 |
Yuji Watazu, Kyoto JP
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20100326722 | MESH SHEET AND HOUSING FOR ELECTRONIC DEVICES - A mesh sheet of the present invention is a mesh sheet in which a metal mesh comprising fine bands is laminated on a surface of a base substrate, the mesh sheet being used and adhered along a surface of an arbitrary member having a curved surface portion. The metal mesh has a part in which the fine band positioned between connection points of the fine bands which are adjacent to each other is a curved line so as to absorb stress relative to deformation to be placed along the curved surface portion with a large curvature without destructing the metal mesh. | 12-30-2010 |
20110304569 | Panel Member Having Oscillating Element - By changing the method of attaching an oscillating element to a panel member, it is made possible to render the construction simple, yet, to provide oscillation to the panel member with uniform and equal drive force. In a panel member | 12-15-2011 |
20140240622 | CAPACITANCE-TYPE TOUCH SENSOR AND DISPLAY DEVICE EQUIPPED THEREWITH - A capacitance-type touch sensor and a display device equipped with this sensor are provided in which the detection of the transparent conductive portions can be suppressed without employing a technique using a dummy electrode. The capacitance-type touch sensor of the present invention includes a resin sheet and a plurality of transparent conductive portions formed in parallel on the resin sheet. In this capacitance-type touch sensor, the difference between the maximum and minimum retardation values of a resin sheet equipped with transparent conductive portions is 3 nm or less. | 08-28-2014 |
Yuji Watazu, Kyoto-Shi JP
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20120162143 | MOUNT STRUCTURE OF TOUCH PANEL WITH VIBRATION FUNCTION - [Object] It is an object to provide a mount structure of a touch panel with a vibration function which is superior in impact resistance, dust-proofness, and drip-proofness, and can effectively transmit a vibration of a vibration element. | 06-28-2012 |
Yuji Watazu, Kyoto-Shi, Kyoto JP
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20150301660 | TOUCH SENSOR AND ELECTRONIC DEVICE - A low cost touch sensor can, in conjunction with a detection of an input operation, perform detection related to a pressing force during the input operation. Upper part electrodes of the touch sensor are disposed such that they extend in an X axial direction and are arrayed in a Y axial direction that intersects the X axial direction. Furthermore, each upper part electrode comprises a plurality of upper part resistive films whose end parts in the X axial direction are electrically connected by a connection pattern. Lower part electrodes are disposed opposing the upper part resistive films and comprise lower part resistive films, whose contact surface area with the upper part resistive films varies in accordance with a pressing force that narrows the spacing to the upper part resistive films. A detection device detects contact between the upper part resistive films and the lower part resistive films based on the change in the resistance from the upper part electrodes to the lower part electrodes. | 10-22-2015 |