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Hakoda, JP
Hironobu Hakoda, Takasago-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20100237578 | FORKLIFT REAR AXLE ATTACHMENT STRUCTURE AND FORKLIFT INCLUDING THE SAME - An object of the present invention is to provide a rear axle attachment structure of a forklift capable of controlling deterioration of mounting bushes and stoppers, and to provide a forklift including the same. A rear axle attachment structure for a forklift includes mounting shafts ( | 09-23-2010 |
Katsuhisa Hakoda, Tokyo JP
| Patent application number | Description | Published |
|---|---|---|
| 20090295984 | Image pickup apparatus - An image pickup apparatus includes an operation button; and an operation member turnably mounted around the operation button, having an operation portion, and configured to allow a user to select a plurality of operation states by turning the operation portion. The operation portion is formed such that a user's finger placed on the operation button comes into contact with the operation portion at one or more positions to which the operation portion is turned. | 12-03-2009 |
Kotaro Hakoda, Osaka JP
| Patent application number | Description | Published |
|---|---|---|
| 20110179104 | SERVER DEVICE, AND METHOD AND PROGRAM FOR PROCESSING ON THE SAME - A server device ( | 07-21-2011 |
Masaru Hakoda, Kiryu-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20090050482 | CELL SEPARATION DEVICE AND CELL SEPARATION METHOD - Plural types of cells having different dielectrophoretic properties are separated using a simple structure. There is provided a cell separation device including: a flow path through which a cell suspension flows, the cell suspension containing plural types of cells which have different dielectrophoretic properties; electrodes disposed to face each other in a direction intersecting a flow direction of the cell suspension flowing in the flow path; an electric field gradient forming portion which generates an electric field strength gradient between the electrodes; and a power supply applying an alternating voltage having a direct current component across the electrodes. | 02-26-2009 |
Takashi Hakoda, Nagano-Ken JP
| Patent application number | Description | Published |
|---|---|---|
| 20090087510 | Controller of injection molding machine - The present invention comprises a speed feedback control system for carrying out speed feedback control on the basis of a speed detected value Vd obtained by converting a position detected value Xd obtained from a screw position sensor | 04-02-2009 |
| 20090212453 | METHOD FOR CONTROLLING MOLD CLAMPING DEVICE - A predetermined speed control pattern B is sct. In a mold clamping process, in a mold closing section Zm, mold closing control is performed at a mold closing speed Vm, and based on a current mold closing speed Vd and a current mold closing position Xd, which are both detected, a deceleration starting position Xmc of the deceleration section Zmd, where the current mold closing speed Vd becomes a zero (O) at a virtual stop position Xc, is sequentially forecasted at each predetermined time interval by calculation. Upon reaching the deceleration starting position Xmc the deceleration section Zmd is started, and in the deceleration section Zmd, based on the detected current mold closing position Xd, a speed command value Dm corresponding to the speed control pattern B is obtained sequentially by calculation, and according to the speed command value Dm deceleration control is performed. Upon reaching a mold clamping-transition speed Ve, a predetermined mold clamping processing is performed via a low-pressure low-speed section Zc. | 08-27-2009 |
| 20090214688 | METHOD FOR CONTROLLING MOLD CLAMPING DEVICE - A predetermined speed control pattern A is set. In controlling mold opening, in the mold opening section Zm, mold opening control is performed at the mold opening speed Vm, and based on a current mold opening speed Vd and a current mold opening position Xd, which are both detected, a deceleration starting position Xmc of the deceleration section Zmd where a current mold opening speed Vd becomes a zero (0) at a virtual stop position Xso is sequentially forecasted at each predetermined time interval by calculation. Upon reaching the deceleration starting position Xmc the deceleration section Zmd is started, and in the deceleration section Zmd, based on the detected current mold opening position Xd, a speed command value Dm corresponding to the speed control pattern A is obtained sequentially by calculation, and according to the speed command value Dm deceleration control is performed. Upon reaching a last-transition speed Vc, a predetermined stop controlling processing is performed. | 08-27-2009 |
| 20090218710 | INJECTION MOLDING MACHINE AND METHOD OF CONTROLLING THE SAME - An injection molding machine | 09-03-2009 |
| 20090263530 | HYDRAULIC DRIVE DEVICE FOR INJECTION MOLDING MACHINE - In a hydraulic drive device ( | 10-22-2009 |
| 20100109182 | METHOD OF SETTING MOLD CLAMPING FORCE OF INJECTION MOLDING MACHINE - When test molding is performed by sequentially clamping a mold with a mold clamping force (100%, 80%, 70%, ...) obtained by sequentially lowering a mold clamping force by a predetermined amount from the maximum mold clamping force (100%), a mold clamping pressure Pc in an injection process is detected and a plurality of different monitored elements (Pc, Pcd and Per) corresponding to the variation of the mold clamping pressure Pc are monitored, and thus it is detected that at least one of the monitored elements is varied to exceed a predetermined threshold, a mold clamping force obtained by increasing a mold clamping force at the time of the production of the variation by a predetermined amount is set as a proper mold clamping force Fs. | 05-06-2010 |
| 20100109183 | METHOD OF SETTING MOLD CLAMPING FORCE OF INJECTION MOLDING MACHINE - Test molding is performed by sequentially clamping a mold | 05-06-2010 |
| 20110018157 | METHOD OF ADJUSTING MOLD THICKNESS OF TOGGLE-TYPE MOLD CLAMPING DEVICE - There are provided a first process T | 01-27-2011 |
Teruyuki Hakoda, Takasaki JP
| Patent application number | Description | Published |
|---|---|---|
| 20120039767 | SENSING ELEMENT FOR CYCLIC SATURATED HYDROCARBONS OPTICAL DETECTOR WHICH USES THE SAME - A sensing element for cyclic saturated hydrocarbons, which can optically detect in a short time the volatilized organic hydride at comparatively low sensing element temperature, and a detector which uses the sensing element are disclosed. The sensing element for cyclic saturated hydrocarbons has a transparent substrate made of ceramics such as quartz; a tungsten trioxide thin film having columnar structure on the transparent substrate, and a platinum layer formed to the thickness of 15 nm or less on the surface of the thin film by deposition. | 02-16-2012 |
Yasunori Hakoda, Saitama JP
| Patent application number | Description | Published |
|---|---|---|
| 20110163738 | CURRENT DETECTION CIRCUIT AND TRANSFORMER CURRENT MEASURING SYSTEM - A current detection circuit and a transformer current measurement system are offered, in which when elements and circuit, which cannot operate originally unless a transformer with small excitation inductance is used, are connected to a primary side of the transformer, even if the transformer, whose excitation inductance is large, is used, transformer current (primary current and secondary current) can be measured without deteriorating operations of the elements and circuit. | 07-07-2011 |
Yuzuru Hakoda, Tokyo JP
| Patent application number | Description | Published |
|---|---|---|
| 20110170830 | RECEPTACLE ATTACHED WITH OPTICAL ISOLATOR AND METHOD THEREOF - Provided are a receptacle attached with an optical isolator and a manufacturing method thereof, capable of easily performing position alignment among an end surface of a magnet, an end surface of a fiber stub, and a polarization plane of a polarizer and dimension calculating of the optical isolator without an increase in the number of parts. The optical isolator is constructed by fitting a fiber stub into which an optical fiber is inserted and of which end surface is formed to be slanted with a predetermined angle into a ferrule holder, by forming an end surface of the magnet to be slanted with the same angle as the predetermined angle, and by fixing the optical isolator element to the magnet. The receptacle attached with an optical isolator is constructed by integrally fixing the optical isolator to the end surface of the fiber stub by fitting the optical isolator into an inner diameter portion of the ferrule holder. | 07-14-2011 |