Patent application number | Description | Published |
20090237841 | MAGNETIC HEAD AND MAGNETIC RECORDING DEVICE - A magnetic head includes a head element recording and reading data on and from a recording medium, a slider having an air bearing surface facing the recording medium, and having the head element forming surface which the head element being present on, and a piezoelectric device attached above the head element forming surface and the head element, and configured to displace a part of the head forming surface in a direction perpendicular to the air bearing surface. | 09-24-2009 |
20090271963 | Piezoelectric actuator and manufacturing method thereof, magnetic disk apparatus - A piezoelectric actuator comprises a body of a piezoelectric material, electrode patterns embedded in the body, and a sidewall protective film of a piezoelectric material covering at least a sidewall surface of the body, the sidewall protective film covering the electrode patterns at the sidewall surface of the body. | 11-05-2009 |
20090284872 | MAGNETIC HEAD SUPPORT AND MAGNETIC DISK DEVICE - A magnetic head support includes a slider on which a magnetic head is mounted; a suspension that supports the slider; and a pair of piezoelectric actuators that are arranged on sides of the slider other than a side on which the magnetic head is mounted so as to be opposed to each other. The piezoelectric actuators are fixed to the suspension and the slider, and cause the slider to undergo a rotational displacement. | 11-19-2009 |
20100073822 | MAGNETIC HEAD ASSEMBLY AND MAGNETIC DISK DEVICE - A magnetic head assembly includes: a slider; an actuator disposed on an end face of the slider; and a magnetic head unit connected to the actuator. The actuator has a structure in which multiple electrodes are arranged in a piezoelectric body, and is driven in d33 mode. In other words, when a predetermined voltage is applied to the actuator, a portion between the electrodes in the piezoelectric body expands or contracts with respect to a voltage application direction. When the piezoelectric body of the actuator expands or contracts, the magnetic head unit is deformed, and the deformation causes a change of the distance between a magnetic head (recording element and reproducing element) and a magnetic recording medium. | 03-25-2010 |
20110146741 | THERMOELECTRIC CONVERSION MODULE AND METHOD FOR MAKING THE SAME - A thermoelectric conversion module includes: p-type semiconductor blocks, each including a p-type thermoelectric conversion material, a first column portion and a first coupling portion that projects in a horizontal direction from an end of the first column portion; and n-type semiconductor blocks, each including an n-type thermoelectric conversion material, a second column portion and a second coupling portion that projects in a horizontal direction from an end of the second column portion, wherein the first coupling portions of the p-type semiconductor blocks are respectively coupled to the other ends of the second column portions of the n-type semiconductor blocks, and the second coupling portions of the n-type semiconductor blocks are respectively coupled to the other ends of the first column portions of the p-type semiconductor blocks, and the p-type semiconductor blocks and the n-type semiconductor blocks are alternately arranged and coupled to each other in series. | 06-23-2011 |
20110226303 | METHOD OF MANUFACTURING THERMOELECTRIC CONVERSION ELEMENT AND THERMOELECTRIC CONVERSION ELEMENT - P-type semiconductor sheets and n-type semiconductor sheets formed by mixing a powder of semiconductor material, a binder resin, a plasticizer, and a surfactant are prepared. In addition, separator sheets formed by mixing a resin such as PMMA and a plasticizer are prepared. Through holes are formed in each of the separator sheets and then filled with a conductive material. Thereafter, the p-type semiconductor sheet, the separator sheet, the n-type semiconductor sheet and the separator sheet are stacked. The resultant laminated body is cut into a predetermined size and then subjected to a baking process. | 09-22-2011 |
20120298165 | ELECTRIC POWER GENERATION DEVICE, ELECTRIC POWER GENERATION METHOD, AND ELECTRIC POWER GENERATION DEVICE MANUFACTURING METHOD - An electric power generation device equipped with an apparatus which vibrates and generates heat includes a thermoelectric power generation module and a piezoelectric power generation module which are formed integrally. The thermoelectric power generation module has a first surface combining thermally and mechanically with the apparatus's outer surface and a second surface opposite to the first surface, and generates electric power from temperature differences between the first surface and the second surface caused by the apparatus's generating heat. The piezoelectric power generation module has a fixed end combining mechanically with the apparatus's outer surface and a movable end opposite to the fixed end, and generates electric power from displacement of the movable end to the fixed end caused by the apparatus's vibrating. | 11-29-2012 |
20130284229 | METHOD OF MANUFACTURING THERMOELECTRIC CONVERSION ELEMENT AND THERMOELECTRIC CONVERSION ELEMENT - P-type semiconductor sheets and n-type semiconductor sheets formed by mixing a powder of semiconductor material, a binder resin, a plasticizer, and a surfactant are prepared. In addition, separator sheets formed by mixing a resin such as PMMA and a plasticizer are prepared. Through holes are formed in each of the separator sheets and then filled with a conductive material. Thereafter, the p-type semiconductor sheet, the separator sheet, the n-type semiconductor sheet and the separator sheet are stacked. The resultant laminated body is cut into a predetermined size and then subjected to a baking process. | 10-31-2013 |