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Koji Fujimoto
Koji Fujimoto, Nara JP
| Patent application number | Description | Published |
|---|---|---|
| 20100282037 | MACHINE TOOL FOR TURNING OPERATIONS - A multi-axis turning center for turning operations includes a machine body, a tool rest means for holding a tool, a first headstock for holding a workpiece, and a second headstock disposed in confronting relation to the first headstock, for holding a workpiece. The second headstock has a front chuck and a rear chuck for gripping respective workpieces. The second headstock performs a workpiece changing function by swiveling about a central axis. The multi-axis turning center is capable of automatically changing the workpieces by itself while it is carrying out a machining process, without the need for a workpiece changer. The multi-axis turning center does not need to stop its machining process for changing workpieces, resulting in an increase in the utilization ratio thereof. | 11-11-2010 |
Koji Fujimoto, Chiba JP
| Patent application number | Description | Published |
|---|---|---|
| 20100030364 | Automatic Thin-Section Slides Manufacturing System and Automated Thin-Section Slides Manufacturing Method - An automatic thin-section slides manufacturing system which reduces the burden of operators and automatically manufactures required number of thin section slide samples from plural embedded blocks while completely relating the manufactured thin section slide samples to the original embedded blocks to enable quality control at high precision, which comprises: a first transportation unit which is capable of transporting an arbitrarily selected embedded cassette from the plural embedded cassettes to the cutting position; a cutting unit which, after the embedded cassette is transported to the cutting position, cuts the embedded block to provide sheet-like thin sections at a predetermined thickness; a readout unit which reads out the individual data when the embedded cassette is transported to the cutting position; a flattening unit for flattening the thin section, which comprises a storage tank containing a liquid stored therein; a second transportation unit which transports the thin sections cut out by the cutting unit to the storage tank and sets them a float on the liquid surface; a transfer unit which prepares the thin section slide samples by transferring the thin section flattened in the flattening unit onto a substrate; a control unit which comprises a memory part for memorizing the individual data read out by the readout unit; and a recording unit which records the memorized individual data on the substrate upon receiving a command from the control unit. | 02-04-2010 |
| 20100229702 | Automatic Prepared Slide Fabricating Apparatus and Automatic Prepared Slide Fabricating Method - To enable to alleviate a burden on an operator and fabricate automatically an optimum and high quality prepared slide in accordance with a kind of an embedding block, there is provided an automatic prepared slide fabricating apparatus including first carrying means capable of carrying an embedding cassette to a cut position, cutting means for cutting out a section in a sheet-like shape by cutting an embedding block by a predetermined thickness after having been carried to the cut position, elongating means for elongating the section, second carrying means for carrying the cut section to the elongating means, transcribing means for transcribing the elongated section onto a board to fabricate a prepared slide, and controlling means for respectively controlling the respective means and having a condition table previously inputted with a fabricating condition in fabricating the prepared slide, in which the controlling means controls the respective means such that the embedding cassette carried by the first carrying means is checked with the fabricating condition inputted to the condition table, thereafter, fabricated by the condition in accordance with the embedding cassette. | 09-16-2010 |
Koji Fujimoto, Yamaga-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20100225427 | ELECTROMAGNETIC RELAY AND METHOD OF MAKING THE SAME - A electromagnetic relay in which bad electrical contact and failure of operation are prevented even when shavings are produced while an iron core is press-fitted into and mounted on a base. The electromagnetic relay includes an electromagnetic block supported by press-fitting both ends of an iron core of the electromagnetic block into an upper surface of a base and open or close a contact by a movable iron piece rotated by magnetization or demagnetization of the iron core with a coil, where shaving receptacles are made by forming separating ribs adjacent to at least one side of press-fit projections that are formed in press-fit concave portions provided on the upper surface of the base. | 09-09-2010 |
| 20100225428 | ELECTROMAGNETIC RELAY - An electromagnetic relay having a high positioning accuracy of a movable iron piece and little variation in operating characteristics. A pair of upper and lower rotating shaft convex portions are provided at one end of a movable iron piece along the same shaft center. The pair of upper and lower rotating shaft convex portions are rotatably supported by a base and a spool of an electromagnetic block mounted on the base respectively. A movable contact piece is driven by the movable iron piece rotated by magnetization or demagnetization of the electromagnetic block to open or close a contact. One end of the spool has a shaft hole in which the upper rotating shaft convex portion of the movable iron piece is inserted. | 09-09-2010 |
Koji Fujimoto, Kyoto JP
| Patent application number | Description | Published |
|---|---|---|
| 20100209964 | METHOD AND APPARATUS FOR ANALYZING SAMPLE - A method for analyzing a sample includes the step of irradiating a reaction portion of a sample BL and a reagent | 08-19-2010 |
| 20110136222 | ACTUATORS FOR CULTURING AND HARVESTING CELLS - Actuator units, arrangements of actuator units and methods for manufacturing and using actuator units are provided. The actuator includes a core having a shell at least partially surrounding the core. The core is able to be stimulated to expand through at least one opening of the shell to provide a lifting action. This lifting action can be applied to harvest target cells. | 06-09-2011 |
Koji Fujimoto, Chiba-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20080202308 | AUTOMATIC THIN-SECTION MANUFACTURING SYSTEM - An automatic thin-section manufacturing system for manufacturing thin sections by thinly cutting out an embedded block having embedded therein a biological sample while setting said embedded block at a predetermined rake angle, and said system comprising: a long cutting blade having a cutting edge on one end; a holder disposed in such a manner that it makes the rake angle with respect to the surface of the embedded block; a mounting plane which is provided to the front end of the holder, on which plural cutting blades are mounted and aligned with their cutting edges exposed to the outer side; an adsorptive member provided along the mounting plane, which maintains the posture of the cutting blades by adsorbing the base end side of the cutting blades mounted on the mounting plane; a first pressing member provided to the holder, which presses, among the plural cutting blades that are mounted and aligned on the mounting plane, the cutting blade allocated to the predetermined position against the mounting plane; a conveyor unit which slides out the cutting blades that are linearly aligned on the mounting plane, by sequentially conveying the plural cutting blades to feed them one by one on the mounting plane; a transportation unit which moves the embedded block relative to the holder, such that the cutting blade pressed by the first pressing member cuts out the thin section from the embedded block; and a control unit which, after performing thin sectioning for a predetermined time, exchanging the cutting blade used for the thin sectioning by operating the conveyor unit to slide out the cutting blades. | 08-28-2008 |
| 20090133556 | THIN SECTION PREPARING APPARATUS AND THIN SECTION PREPARING METHOD - A thin section preparing apparatus is provided, which prepares a thin section from an embedded block having a biological sample embedded and carries it, including: a cutter that slices the block at a pull angle; an approaching and separating mechanism that relatively moves the block and the cutter along an approaching and separating direction; a carrying mechanism having a carrying body arranged as one end side is near a nose, and a moving unit that moves the body along a transport direction; a sliding mechanism that relatively moves the block and the body along a nose direction; and a control unit that controls a combined velocity vector that combines a transport velocity vector of the body along the transport direction with a travel velocity vector of the body along the nose direction to be nearly equal to a block velocity vector of the embedded block along the approaching and separating direction. | 05-28-2009 |
| 20090133561 | THIN SECTION PREPARING APPARATUS AND THIN SECTION PREPARING METHOD - An apparatus that slices an embedded block having a biological sample embedded therein to prepare a thin section, includes: a cutter that slices the embedded block; a moving mechanism that relatively moves the block and the cutter along an approaching and separating direction in which they approach and separate from each other; a height adjusting mechanism that relatively moves them along a vertical direction; a sliding mechanism that relatively moves them along a sliding direction nearly orthogonal to the approaching and separating direction; and a control unit that controls them to begin to move at initial positions set in advance, the block to be brought into contact at the same point of a nose of the cutter, and the cutter to be slid in the same direction as a ratio between a velocity in the approaching and separating direction and a velocity in the sliding direction is kept the same. | 05-28-2009 |
| 20090137028 | EMBEDDED BLOCK HUMIDIFIER, AUTOMATIC THIN SLICE MANUFACTURING DEVICE, AND AUTOMATIC THIN SLICE SPECIMEN MANUFACTURING APPARATUS - An embedded block is capable of being humidified in a short time without influencing a surface temperature of the embedded block as much as possible. An embedded block humidifier for humidifying an embedded block having a biological specimen embedded in an embedding agent is provided which includes a vapor generating mechanism for generating vapor heated at a predetermined temperature and a guiding mechanism for guiding the vapor to the embedded block so that the generated vapor contacts with a surface of the embedded block set at a predetermined standby position. | 05-28-2009 |
| 20100050888 | EMBEDDING CASSETTE PRINTING APPARATUS - The invention is intended to achieve high-precision quality control by alleviating a burden of personnel by improving the operation efficiency and preventing erroneous storage of embedding cassettes in a container. A control unit controls a cassette carrying unit so as to take out a cassette of a predetermined kind from a cassette storage in a predetermined order and carry the same to a cassette printing unit, and carry a cassette on which data is printed to a base container set in a container holding unit. | 03-04-2010 |
| 20110150723 | EMBEDDING CASSETTE - An embedding cassette that is used as a container for performing a paraffin replacement treatment of a biological specimen and also used as a loading table of an embedding block in which the biological specimen subjected to the paraffin replacement treatment is embedded in an embedding material, the embedding cassette includes: a cassette body that is formed from a polyester resin and has an accommodation concave portion that accommodates the biological specimen and a flat printing surface; a thin-film layer that is formed on the printing surface from a resin having chemical resistance with respect to formic acid, formalin, ethanol, and xylene, that has a color different at least in lightness from a color of the cassette body; and an identification code that is displayed in the thin-film layer by cutting by irradiation with a laser beam. | 06-23-2011 |
Koji Fujimoto, Taito-Ku JP
| Patent application number | Description | Published |
|---|---|---|
| 20100027372 | MICROCHIP FOR FORMING EMULSION AND METHOD FOR MANUFACTURING THE SAME - A microchip for forming an emulsion has a first glass substrate, a second glass substrate and a silicon substrate. The silicon substrate has formed therein a first fluid flow path through which a first fluid flows and a second fluid flow path through which a second fluid that is not mixed with the first fluid flows. The first fluid flow path has a plurality of branched flow paths that join at a joint portion. The second fluid flow path communicates with the joint portion. The silicon substrate has formed therein an emulsion formation flow path that faces an edge portion of the second fluid flow path at the joint portion. An emulsion composed of the first fluid and the second fluid that is surrounded by the first fluid is formed in the emulsion formation flow path. | 02-04-2010 |
Koji Fujimoto, Otsu-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20090272193 | SURFACE ACOUSTIC WAVE SENSOR - A surface acoustic wave sensor detects a mass load on a resonator-type surface acoustic wave filter on the basis of a change in frequency and includes an IDT electrode arranged on a piezoelectric substrate to excite surface waves, an insulating film arranged so as to cover the IDT electrode, and a reaction film which is disposed on the insulating film and which reacts with a target substance to be detected or a binding substance that binds to a target substance to be detected. The reaction film is composed of a metal or a metal oxide. | 11-05-2009 |
| 20090320574 | IN-LIQUID-SUBSTANCE DETECTION SENSOR - An in-liquid-substance detection sensor that achieves size reduction and detection accuracy improvement includes a piezoelectric substrate, at least two SAW devices provided on one major surface of the piezoelectric substrate and each having at least one IDT electrode defining a sensing portion, outer electrodes provided on the other major surface of the piezoelectric substrate and electrically connected to the SAW devices through vias extending through the piezoelectric substrate, a channel-defining member provided on the one major surface of the piezoelectric substrate so as to surround the SAW devices and a region connecting the SAW devices to each other, thereby defining sidewalls of a channel, and a protective member bonded to the one major surface of the piezoelectric substrate with the channel-defining member interposed therebetween, thereby sealing the channel, the protective member having at least two through holes communicating with the channel. | 12-31-2009 |
Koji Fujimoto, Tokyo JP
Koji Fujimoto, Nagano JP
| Patent application number | Description | Published |
|---|---|---|
| 20080216306 | Resistor Device and Method of Manufacturing the Same - The present invention is to provide a method of trimming during short time without any difficulty of controlling a device for trimming and a trimming device having a simple structure. The method of manufacturing a resister device comprises: trimming a resister element | 09-11-2008 |
| 20080232075 | Electronic Component and Manufacturing the Same - The present invention is to provide an electronic component where positional accuracy for arranging members constituting a circuit element such as a resister element and the like is mitigated and corrosion of a terminal electrode caused by sulfur in the atmosphere is reduced. The four-chips connected resister device | 09-25-2008 |
Koji Fujimoto, Nagaokakyo-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20110177584 | ACOUSTIC WAVE SENSOR AND DETECTION METHOD USING ACOUSTIC WAVE SENSOR - An acoustic wave sensor having significantly increased sensitivity and excellent sensing reproducibility and stability includes a piezoelectric substrate, an acoustic wave element including an electrode disposed on the piezoelectric substrate, and a reactive membrane which overlies the acoustic wave element and which is reduced in mass by direct or indirect chemical reaction with a measured substance. The measured substance is detected such that a change in mass applied to the acoustic wave element from the reactive membrane is detected by a change in frequency. | 07-21-2011 |
Koji Fujimoto, Kyoto-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20110217207 | ANALYSIS TOOL, IDENTIFICATION APPARATUS, AND ANALYSIS APPARATUS - A technique is provided, which makes it possible to easily judge whether or not an analysis tool to be used for an analysis process for a sample is authentic and which makes it possible to secure the reliability of an analysis result thereby. An identification apparatus for identifying an analysis tool having a reagent portion to be used for an analysis process for a sample is provided, wherein the analysis tool further includes an identifying marker portion which is formed by using an invisible substance, the identification apparatus comprising a light emitter which emits a light toward the identifying marker portion, a light receiver which receives a light emitted by the invisible substance for forming the identifying marker portion exposed with the emitted light emitted by the light emitter, and an identification unit which identifies the analysis tool on the basis of a light-receiving result obtained by the light receiver. | 09-08-2011 |
Koji Fujimoto, Katano-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20110260648 | LIGHT SOURCE MODULE, LIGHTING APPARATUS, AND ILLUMINATION DEVICE USING THE SAME - A light source module includes: a light source unit including a plurality of light-emitting diodes (LEDs) electrically connected to each other; a characteristic setting unit for setting characteristic information on electrical characteristics of the LEDs; a first pin base having a first electrode and a second electrode; and a second pin base having a third electrode and a fourth electrode, wherein a direct current (DC) voltage supplied from a lighting apparatus is applied between the first electrode and the second electrode or between the third electrode and the fourth electrode, a constant voltage is supplied to an anode side of the LEDs of the light source unit, and the characteristic setting unit is connected between the first and second electrodes and/or between the third and fourth electrodes. | 10-27-2011 |