Kakehashi, JP
Eiichirou Kakehashi, Tokyo JP
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20100291743 | Semiconductor device and method of forming the same - A method of forming a semiconductor device includes the following processes. A first pillar and a second pillar are formed on a semiconductor substrate. A semiconductor film is formed which includes first and second portions. The first portion is disposed over a side surface of the first pillar. The second portion is disposed over a side surface of the second pillar. The first and second portions are different from each other in at least one of impurity conductivity type and impurity concentration. A part of the semiconductor film is removed by etching back. The first and second portions are etched at first and second etching rates that are different from each other. | 11-18-2010 |
20120104344 | SEMICONDUCTOR DEVICE - A semiconductor device includes a semiconductor element. The semiconductor element comprises a first insulating film, a resistance changing layer, a first electrode, a buried layer, and a second electrode. The first electrode is formed within the opening so as to cover side and bottom surfaces of an inner wall of the opening and so as to include a recessed portion and is in contact with the resistance changing layer via the upper end thereof. The second electrode is formed on the resistance changing layer so as to interpose the resistance changing layer between the second electrode, and the upper end of the first electrode and the buried layer. The semiconductor element changes an electronic resistance between the first and second electrodes by reversibly forming a conductive bridge in the resistance changing layer between the upper end of the first electrode and the second electrode. | 05-03-2012 |
Elichirou Kakehashi, Tokyo JP
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20130126963 | SEMICONDUCTOR DEVICE AND METHOD OF FORMING THE SAME - A semiconductor device includes a semiconductor substrate having first and second regions, a first pillar transistor, and a second pillar transistor, wherein the first pillar transistor comprises a first semiconductor pillar disposed in the first region, and a first gate electrode covering a side surface of the first semiconductor pillar, wherein the second pillar transistor comprises a second semiconductor pillar disposed in the second region, and a second gate electrode covering a side surface of the second semiconductor pillar, wherein the first gate electrode is different in height from the second gate electrode, and the first and second pillar transistors form a CMOS device. | 05-23-2013 |
Hidenori Kakehashi, Takatsuki-Shi JP
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20090146562 | ELECTRODELESS DISCHARGE LAMP APPARATUS AND LIGHTING FIXTURE WITH THE ELECTRODELESS DISCHARGE LAMP APPARATUS - An electrodeless discharge lamp apparatus is provided which is increased in heat dissipation, making it possible to adapt to an increase in output of the apparatus. The electrodeless discharge lamp apparatus comprises a bulb containing a discharge gas and a coupler accommodated in a cavity formed in the bulb for generating a high frequency electromagnetic field. The coupler has: an induction coil; a core inserted into the coil; a heat conductor for conducting heat generated from the coil and the core; and a bobbin made of resin which accommodates the core and the heat conductor therein, and which has the coil wound therearound. The bobbin is designed to be separated in a radial direction of the coil, so that it is possible to separately mold the respective parts of the bobbin. Thus, it is not necessary to form, in the bobbin, a draft angle which has been necessary in the prior art when molding a tubular-shaped bobbin, and it is possible to make the thickness of the bobbin thin and uniform, so that the proportion of the bobbin in the volume of the cavity can be reduced to increase the proportion of the heat conductor. | 06-11-2009 |
20100066233 | ELECTRODELESS DISCHARGE LAMP - An electrodeless discharge lamp is provided which prevents the problem of decrease in strength due to degradation of resin material, allowing secure fitting of a lamp part and a coupler member to a base even if it is used for a long time. A bulb containing a discharge gas and a coupler member for generating a high frequency electromagnetic field to excite the bulb are detachably fitted to each other via a base for fixing and supporting the bulb. The bulb and the base form a lamp part. The base comprises a base frame formed of a metal such as aluminum and a base cover formed e.g. of synthetic resin. The base frame has a coupler member fitting portion which is provided at a lower part thereof and fitted to the coupler member, wherein bulb fixing posts provided to stand on the coupler member fitting portion fix a bulb outer tube. Thus, the fitting portions of the lamp part and the coupler member to the base undergo less material degradation than a conventional one which uses a base of resin material. | 03-18-2010 |
20110095691 | Lighting Apparatus And Lighting Fixture - A lighting apparatus includes a lighting circuit unit, a timer unit, a life judgment unit, a timing adjustment unit, and an indication unit. The lighting circuit unit is configured to activate a light source. The timer unit is configured to measure accumulated operation time of the lighting circuit unit. The life judgment unit is configured to store a first judgment time and a second judgment time longer than the first judgment time. The life judgment unit is configured to compare the accumulated operation time with the first judgment time and output a first judgment signal when the accumulated operation time becomes equal to the first judgment time. The life judgment unit is configured to compare the accumulated operation time with the second judgment time and output a second judgment signal when the accumulated operation time becomes equal to the second judgment time. The timing adjustment unit is configured to vary timing at which the life judgment unit outputs the first judgment signal. The timing adjustment unit is configured to vary timing at which the life judgment unit outputs the second judgment signal. The indication unit is configured to indicate, upon receiving the first judgment signal from the life judgment unit, a first level of the end of life with the light source kept turned on. The indication unit is configured to indicate, upon receiving the second judgment signal from the life judgment unit, a second level of the end of life. The second level of the end of life is later than the first level of the end of life. | 04-28-2011 |
Misako Kakehashi, Aichi JP
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20090249513 | Method for Expression and Accumulation of Peptide in Plant - The present invention relates to a method for expressing and accumulating a low-molecular peptide in plant seeds; a vector therefore; and a plant transformed with the vector. In the present invention, an intended peptide composed of 3 to 40 amino acid residues is expressed and accumulated in seeds of a plant by transforming the plant with a fusion protein expression vector comprising a gene encoding a member of the glutelin multigene family and two or more copies of a gene encoding the intended peptide ligated downstream of the gene under the control of a promoter. | 10-01-2009 |
Nobuharu Kakehashi, Toyoake-City JP
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20090090130 | Evaporator Unit - An evaporator unit includes a first heat exchanger configured to perform heat exchange between refrigerant flowing thereinto from a refrigerant inlet and air, a bypass passage through which the refrigerant flowing from the refrigerant inlet flows while bypassing the first heat exchanger, a second heat exchanger configured to perform heat exchange between air and mixed refrigerant in which the refrigerant after passing through the first heat exchanger and the refrigerant having passed through the bypass passage are mixed, and a flow amount adjustment portion configured to adjust a flow amount of the refrigerant flowing through the first heat exchanger and a flow amount of the refrigerant flowing through the bypass passage. Accordingly, the first heat exchanger and the second heat exchanger can be configured to have respectively portions in which a dryness of the refrigerant is in a range between 0.6 and 0.9. | 04-09-2009 |
20090293535 | Heat exchanger - A heat exchanger includes a heat exchanging section for performing heat exchange between a refrigerant and a cooling medium and a passage section. The passage section includes a first passage and a second passage for supplying the refrigerant to the heat exchanging section and a supply passage for supplying the refrigerant to the first passage and the second passage. The first passage and the second passage define a first opening portion and a second opening portion opening at an end of the supply passage. A minimum distance between an opening edge of the first opening portion and an inner surface of the supply passage is equal to a minimum distance between an opening edge of the second opening portion and the inner surface of the supply passage. | 12-03-2009 |
20110048671 | Air conditioner for vehicle - In an air conditioner for a vehicle with an equipment controlled in accordance with a traveling state of the vehicle, a first heater is disposed to heat air to be blown into a vehicle compartment by using a coolant of the equipment as a heat source, and a second heater is adapted as an auxiliary heater to further heat the air heated by the first heater. A heating capacity of the first heater is controlled such that a temperature of the equipment is approached to a predetermined temperature when the thermal fluid after passing through the first heater returns the equipment, and a heating capacity of the second heater is controlled such that a temperature of air to be blown into the vehicle compartment becomes a desired temperature. | 03-03-2011 |
20110120146 | Air Conditioner for vehicle - An air conditioner for a vehicle includes first and second heating heat exchangers disposed to heat air by using a cooling fluid for cooling an engine as a heat source, a heater disposed to heat the cooling fluid flowing to the second heating heat exchanger, and a controller that outputs an operation request signal to the engine when a temperature of the cooling fluid is lower than a predetermined temperature. The first and second heating heat exchangers are arranged in parallel with respect to a flow direction of the cooling fluid. In the air conditioner, the controller controls a flow amount of the cooling fluid flowing into the second heating heat exchanger to be, smaller than a flow amount of the cooling fluid flowing into the first heating heat exchanger when the heater heats the cooling fluid flowing to the second heating heat exchanger. | 05-26-2011 |
20110214627 | CONTROLLER FOR ENGINE COOLING SYSTEM - An internal combustion engine has a cylinder-head-passage through which an engine coolant flows toward a water jacket when a water pump is operated. The water pump is an electric water pump utilizing the electric power charged in the battery. A radiator is provided in the cylinder-head-passage. Even after the engine is shut off, the water pump is kept driven. | 09-08-2011 |
20110259287 | Engine cooling device - In an engine, a block-side flow path for circulating cooling water to cool a cylinder block, and a head-side flow path for circulating cooling water to cool a cylinder head are formed. A head-side outlet temperature of cooling water flowing out of the head-side flow path is adjusted by using a water pump that pressure sends the cooling water to both the block-side flow path and the head-side flow path. A block-side outlet temperature of cooling water flowing out of the block-side flow path is adjusted by a first thermostat that changes a flow amount of the cooling water flowing out of the block-side flow path. The cooling water flowing out of the block-side flow path is used as a heat source of first and second heater cores for heating air. | 10-27-2011 |
20120125593 | COOLING SYSTEM FOR VEHICLE - A cooler cools electric parts of a vehicle using heat medium. A radiator emits heat of the heat medium to air, and a valve changes a flow of the heat medium based on a temperature of the heat medium. The valve controls the heat medium to bypass the radiator when the temperature of the heat medium is lower than a first predetermined value. The valve controls the heat medium to flow through the radiator when the temperature of the heat medium is higher than or equal to the first predetermined value. | 05-24-2012 |
20120318473 | COOLING DEVICE FOR VEHICLE - A cooling device for a vehicle includes a first radiator and a second radiator. The first radiator includes first tubes through which first coolant flows, and the second radiator includes second tubes through which second coolant flows. The second radiator is arranged downstream of the first radiator in a flow direction of cooling air, and the second tubes are elongated in a longitudinal direction different from a longitudinal direction of the first tubes. The second radiator is configured to cause a flow amount of the second coolant flowing respectively in the second tubes to be gradually increased with respect to a flow direction of the first coolant flowing in the first tubes. | 12-20-2012 |
20130298851 | CONTROLLER FOR ENGINE COOLING SYSTEM - An internal combustion engine has a cylinder-head-passage through which an engine coolant flows toward a water jacket when a water pump is operated. The water pump is an electric water pump utilizing the electric power charged in the battery. A radiator is provided in the cylinder-head-passage. Even after the engine is shut off, the water pump is kept driven. | 11-14-2013 |
20140038009 | BATTERY TEMPERATURE REGULATING DEVICE - A battery temperature regulating device is applied to a battery pack configured by parallely connecting battery groups, each of which is a series connection of battery cells capable of charge and discharge. The device regulates temperatures of the battery groups. The battery temperature regulating device includes a heat transfer unit that transfers heat of a part of the battery groups to another battery group. | 02-06-2014 |
20140041826 | VEHICLE TEMPERATURE CONTROL APPARATUS AND IN-VEHICLE THERMAL SYSTEM - A vehicle temperature control apparatus for controlling temperature of a temperature control object, which is at least one of inside air of a vehicle compartment and a vehicle component, includes a heat capacitive element capable of storing heat, a refrigeration cycle in which heat is absorbed from a low temperature side and is dissipated to a high temperature side, a heat exchanger that causes the heat capacitive element to exchange heat with refrigerant of the refrigeration cycle, and a heat dissipation portion which dissipates heat in the refrigerant of the refrigeration cycle to the temperature control object. Thus, a temperature control by using the heat capacitive element can be effectively performed. | 02-13-2014 |
20140374081 | VEHICLE THERMAL MANAGEMENT SYSTEM - A heat medium discharge side of a first pump and a heat medium discharge side of a second pump are connected to a first switching valve in parallel with each other. Respective heat medium inlet sides of a plurality of temperature adjustment devices are connected to the first switching valve in parallel with each other. Respective heat medium outlet sides of the temperature adjustment devices are connected to a second switching valve in parallel with each other. A heat medium suction side of the first pump and a heat medium suction side of the second pump are connected to the second switching valve in parallel with each other. Each of the temperature adjustment devices is switched between a state in which the heat medium circulates between the device and the first pump, and another state in which the heat medium circulates between the device and the second pump. | 12-25-2014 |
20150072259 | FUEL CELL SYSTEM - A radiator cap is connected to a circulating circuit at a connecting point located upstream of a water pump in a flow direction of coolant and that regulates a pressure in the circulating circuit to be within a predetermined pressure range that is higher than or equal to an atmospheric pressure at the connecting point. A rotary valve is disposed in the circulating circuit at upstream of the connecting point of the radiator cap in the flow direction of coolant. Accordingly, a cavitation is restricted from occurring, and the water pump can perform enough efficiency. A communication passage that has an upstream end and a downstream end connected to the circulating circuit may be disposed instead of the radiator cap. In this case, a pressure regulating valve is disposed in the communication passage. | 03-12-2015 |
20150101693 | FLOW PASSAGE SWITCHING UNIT - A flow passage switching unit includes side-by-side arranged rotary valve parts. The valve part includes a casing, side walls, a peripheral wall, first fluid ports, a second fluid port, a rotary shaft, and a valving element. A flow passage, through which the first fluid ports and the second fluid port selectively communicate, is formed by rotation of the valving element. The unit includes a driving mechanism driving each valving element by its corresponding predetermined rotation angle. The driving mechanism includes one driving source, and a motive power transmission member transmitting rotation motive power of the driving source respectively to the valve parts. Motive power of the driving source is transmitted to each rotary shaft of the valve parts to drive each valving element to a position, which position of the valving element relative to the first and second fluid ports is different from one another among the valve parts. | 04-16-2015 |
20150101789 | THERMAL MANAGEMENT SYSTEM FOR VEHICLE - First circulation portions switch a flow of a heat medium such that one of the heat media for two systems selectively circulates through a radiator flow path or a first bypass flow path. Second circulation portions switch the flow of the heat medium such that the heat media for the two systems selectively circulate with respect to a second flow path group. The first circulation portions and the second circulation portions are adapted to switch the flow of the heat medium so as to form a first circulation circuit for allowing the heat medium to circulate among a first flow path group, the second flow path group, and a first pump, as well as a second circulation circuit for allowing the heat medium to circulate among the first flow path group, the second flow path group, and a second pump. | 04-16-2015 |
20150128632 | VEHICULAR THERMO-CONTROL DEVICE - A vehicular thermo-control device adjusts a temperature of a battery. The device has a primary system through which cooling water circulates, and a secondary system through which a refrigerant circulates. The primary system has a heat exchanger which performs heat exchange between the battery and the cooling water, and a heat exchanger which performs heat exchange between the cooling water and an ambient air. The secondary system is a refrigerating cycle. Both heat exchangers on a high temperature side and a low temperature side of the refrigerating cycle are thermally coupled with the primary system. Only one heat exchanger provides heat exchange with the ambient air. The pump of the primary system can switch circulating direction of the cooling water. A controller controls devices to perform cooling and heating operation. | 05-14-2015 |
20150129161 | THERMAL MANAGEMENT SYSTEM - A heat medium discharge side of a first pump and a heat medium discharge side of a second pump are connected to a first switching valve in parallel. Heat medium inlet sides of the respective target devices for heat exchange included in a first target device group for heat exchange are connected to a first switching valve in parallel. The heat medium inlet side of the first pump and the heat medium inlet side of the second pump are connected to a second switching valve in parallel. The heat medium outlet sides of the respective target devices for heat exchange included in the first target device group for heat exchange are connected to the second switching valve in parallel. Furthermore, switching is performed between a state of circulation of the heat medium between the first pump and the target device, and a state of circulation of the heat medium between the second pump and the target device. | 05-14-2015 |
20150217622 | THERMAL MANAGEMENT SYSTEM FOR VEHICLE - A first-pump arrangement flow path, temperature-adjustment target-device arrangement flow paths, and a second-pump arrangement flow path are connected to a communication flow path in this order from one end side to the other end side of the communication flow path. A first heat exchanger is disposed in the first-pump arrangement flow path among numerous flow paths, which is connected to the communication flow path at a position on a side of the first-pump arrangement flow path, rather than the flow path in which a second heat exchanger is disposed. The switching portion is operated to establish communication between plural flow paths, starting from the flow path connected to the communication flow path at the position closest to the one end side among the numerous flow paths, up to the flow path connected to the communication flow path at an n-th position counted from the one end side among the numerous flow paths. | 08-06-2015 |
20150258875 | THERMAL MANAGEMENT SYSTEM FOR VEHICLE - A thermal management system for a vehicle includes a first pump and a second pump, temperature adjustment target devices, heat exchangers, numerous flow paths including a first pump arrangement flow path, a second pump arrangement flow path, and device arrangement flow paths, a first switching portion for allowing the numerous flow paths to selectively communicate with each other, a second switching portion for allowing the numerous flow paths to selectively communicate with each other, and a reserve tank for storing therein heat medium. The reserve tank is configured to set the pressure of the liquid surface of the stored heat medium to a predetermined pressure (e.g., atmospheric pressure), and is connected to one flow path of the numerous flow paths. | 09-17-2015 |
20150273976 | VEHICLE HEAT MANAGEMENT SYSTEM - A heat medium circuit including a first path and a heat medium circuit including a second path are formed independently from each other by operating a first switching valve and a second switching valve in conjunction with each other to make each of multiple flow passages of a first flow passage group communicate with either the first path or the second path. A heat medium circuit in which the first path and the second path are connected to each other in series is formed by operating the first switching valve and the second switching valve in conjunction with each other to make each of the multiple flow passages of the first flow passage group communicate with both the first path and the second path. | 10-01-2015 |
20160031288 | THERMAL MANAGEMENT SYSTEM FOR VEHICLE - A heat medium circulation equipment, a first pump, and a second pump are connected to a first switching valve and a second switching valve. A heater core is connected to at least one of the first switching valve and the second switching valve, and connected to a heat medium circuit. A state, in which the heat medium discharged by a third pump flows into the heater core, is selected by switching of a switching device. | 02-04-2016 |
20160031291 | THERMAL MANAGEMENT SYSTEM FOR VEHICLE - In a thermal management system for a vehicle, a first switching valve is connected to at least one device in a group of a plurality of devices, a heat medium discharge side of a first pump, and a heat medium discharge side of a second pump in parallel with each other; and a second switching valve is connected to at least one device in the device group, a heat medium suction side of the first pump, and a heat medium suction side of the second pump in parallel with each other. Heat medium circulating through a first device included in the device group allows to flow through the second device. One side of a heat medium inlet side and a heat medium outlet side of the second device is connected to between one of the first switching valve and the second switching valve and the first device. | 02-04-2016 |
20160075213 | VEHICLE HEAT MANAGEMENT DEVICE - A vehicle heat management device applied to a refrigeration cycle includes a pump that suctions and discharges a heat medium, a heat medium cooler that exchanges heat between the heat medium discharged by the pump and low-pressure side refrigerant in the refrigeration cycle to evaporate the low-pressure side refrigerant and to cool the heat medium, a heat medium circulation device through which the heat medium whose heat is exchanged in the heat medium cooler flows and in which the heat medium absorbs heat by its sensible heat change, and a heat medium flow control part that increases a flow rate of the heat medium flowing through the heat medium circulation device when an amount of the heat absorbed by the heat medium in the heat medium circulation device is determined to be larger than a predetermined amount of heat. | 03-17-2016 |
Nobuharu Kakehashi, Kariya-City JP
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20120180989 | VEHICULAR AIR-CONDITIONING SYSTEM - A heating-use heat exchanger which includes a first heater core which exchanges heat between a first liquid and air blown into a passenger compartment and a second heater core which exchanges heat between a second liquid which is higher in temperature and smaller in flow rate than the first liquid and blown air which is heated by the first heater core is held in an air-conditioning case so that an inlet side tank part is at the bottom and an exit side tank part is at the top and the tube longitudinal direction is slanted. Due to this, the high temperature second liquid flowing into the second heater core is stored inside of the inlet side tank part in a region above the tube inlet side ends over the entire stacking direction of the plurality of tubes, then flows into the plurality of tubes. | 07-19-2012 |
Shoji Kakehashi, Aichi JP
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20090220234 | Optical Waveband Demultiplexer, Optical Waveband Multiplexer, and Optical Waveband Selective Switch - A simple optical waveband multiplexer/demultiplexer operable to separate a wavelength-division multiplexed light beam WDM consisting of a plurality of wavebands WB each including a plurality of optical channels, into a predetermined plurality of wavebands WB, and output the separated plurality of wavebands WB from a plurality of output ports, wherein the wavelength-division multiplexed light beam WDM is transmitted through two array waveguides each capable of performing a demultiplexing function with a resolution corresponding to wavelengths of the optical channels, and a characteristic of sequentially shifting the output ports by one position with shifting of input ports by one position, whereby the wavelength-division multiplexed light beam WDM is separated into a plurality of wavebands WB each including the mutually different optical channels selected from the optical channels included in the wavelength-division multiplexed light beam WDM, and the separated wavebands WB are outputted from the plurality of output ports, respectively. | 09-03-2009 |
Taigo Kakehashi, Hachioji-Shi JP
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20130150673 | ENDOSCOPE - An endoscope includes an insertion portion including a bending portion configured to bend in four directions, and a flexible tube portion provided so as to be continuous with the bending portion, wherein the bending portion includes a first bending region and a second bending region, and wherein the flexible tube portion comprises inside, four first guide pipes each including a distal end fixed to a distal end of the first bending region and a proximal end fixed to a bending portion operation device, and three second guide pipes each including a distal end fixed to a distal end of the second bending region and a proximal end fixed to a bending portion bent shape switching device. | 06-13-2013 |
Tatsuya Kakehashi, Tokyo JP
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20140233191 | MODULE BOARD - A module board includes a first board including a first surface and a second surface, a second board where its first surface faces the second surface of the first board, an external electrode formed on the exterior of the second board, and a joining member joining the external electrode and a terminal provided on the second surface of the first board. The external electrode includes a first surface part positioned on the first surface of the second board, a second surface part positioned on a second surface of the second board opposite to the first surface, and a connecting part connecting the first and second surface parts. The joining member includes a joining surface joining to the external electrode. The joining surface covers the first surface part and at least a portion of the connecting part that is closer to the first surface part than to the second surface part. | 08-21-2014 |
20150249949 | COMMUNICATION APPARATUS - A communication apparatus includes a detection unit that detects a first apparatus that is able to wirelessly communicate with the communication apparatus; a first selection unit that determines a route for communication between the communication apparatus and a communication destination, the route may include an intervening apparatus that relays communication between the communication apparatus and the communication destination, and selects, if plural routes are determined, a first route where a number of the intervening apparatuses is smallest from among the determined routes; and a second selection unit that, when two or more first routes are selected by the first selection unit, calculates, for each of the first routes, a sum of squares of each of first signal strength between two apparatuses in the determined first route as a second signal strength, and selects the route having the highest second signal strength from the determined first routes. | 09-03-2015 |
Tatsuya Kakehashi, Yokohama JP
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20090213561 | ELECTRONIC DEVICE - An electronic device includes an insulative substrate, a spiral inductor formed by an interconnection layer provided on a first surface of the insulative layer, a first chip that is mounted on a second surface of the insulative layer opposite to the first surface and is electrically connected to a passive circuit including the spiral inductor, the first chip having an electrically conductive substrate, and a first protrusion that is provided on one of the first and second surface of the insulative substrate and protrudes therefrom, the first protrusion being electrically connected to one of the passive circuit and the first chip to an external circuit. | 08-27-2009 |
Yasushi Kakehashi, Osaka JP
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20110027565 | HIGHLY THERMALLY CONDUCTIVE RESIN MOLDED ARTICLE - An object of the present invention is to industrially easily mold a molded article which is excellent in thermal conductivity, electric insulation property, low density, and an injection moldability and has a thermal conduction anisotropy. The present invention relates to a highly thermally conductive resin molded article having a thermal diffusion anisotropy, the highly thermally conductive resin molded article comprising a resin composition, the resin composition containing at least resin (A) and plate-like hexagonal boron nitride powder (B) in a (A)/(B) volume ratio falling within a range of 90/10 to 30/70, the resin (A) including a thermoplastic polyester resin and/or a thermoplastic polyamide resin, the highly thermally conductive resin molded article having a thickness of not more than 1.3 mm in a part of or all over a three-dimensional shape of the highly thermally conductive resin molded article, a thermal diffusivity measured in a plane direction of the highly thermally conductive resin molded article, being (i) two or more times higher than a thermal diffusivity measured in a thickness direction of the highly thermally conductive resin molded article and (ii) not less than 0.5 mm | 02-03-2011 |
Yoichi Kakehashi, Nagoya-Shi JP
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20100220140 | RECORDING APPARATUS AND TRANSPORTING METHOD - A recording apparatus of this invention includes a head; a transport mechanism that transports a medium in a transport direction with respect to the head, according to a target transport amount to be targeted; a memory that stores a plurality of correction values associated with a relative position of the head and the medium; and a controller that controls the transport mechanism based on the target transport amount that has been corrected, after correcting the target transport amount based on correction values, which are in number according to a size of the target transport amount, and which include the correction value according to the relative position when transporting by the target transport amount. | 09-02-2010 |
Yoichi Kakehashi, Nagoyu-Shi JP
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20080253607 | LINE POSITION CALCULATING METHOD, CORRECTION VALUE OBTAINING METHOD, AND STORAGE MEDIUM HAVING PROGRAM STORED THEREON - A line position calculating method is a method for calculating a position, in a second direction, of a line along a first direction in an image, based on image data of the image constituted by a plurality of pixels arranged in a matrix form in the first direction and in the second direction, the method obtains pixel data of each of a plurality of pixels arranged in the first direction, calculates an extent of unevenness of each tone value indicating the pixel data of each of the plurality of pixels arranged in the first direction, sets a threshold value according to the extent of unevenness, sets a range based on the threshold value, detects a defective pixel in which the tone value indicating the pixel data is out of the range, calculates a representative value indicating a tone value of a pixel row, based on the pixel data of the pixels other than the defective pixel of the plurality of pixels constituting the pixel row, and calculates a position, in the second direction, of the line, based on the representative value of each pixel row. | 10-16-2008 |
Yoichi Kakehashi, Suwa-Shi JP
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20100265293 | TRANSPORTING METHOD AND RECORDING APPARATUS - The invention is a transport method that transports a medium by causing a transport roller to rotate based on a corrected target transport amount, after correcting the target transport amount that is targeted based on a correction value and includes: printing a first pattern on a medium, printing a second pattern after the medium has been transported by causing the transport roller to rotate by a rotation amount of less than one rotation from a rotation position of the transport roller at a time of printing the first pattern, printing a third pattern after the medium has been transported by causing the transport roller to rotate by a rotation amount of one rotation from a rotation position of the transport roller at a time of printing the first pattern, printing a fourth pattern after the medium has been transported by causing the transport roller to rotate by a rotation amount of one rotation from a rotation position of the transport roller at a time of printing the second pattern, calculating a first correction value based on the first pattern and the third pattern, calculating a second correction value based on the second pattern and the fourth pattern, transporting the medium by correcting the target transport amount based on the first correction value or the second correction value depending on the relative position of the medium with respect to the transport roller. | 10-21-2010 |
Yuichi Kakehashi, Tokyo JP
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20160047349 | INTERNAL COMBUSTION ENGINE IGNITION DEVICE - The internal combustion engine ignition device has a core, a coil part that is wound over the core, and a secondary coil that is wound on the outer peripheral side of the coil part. A switching element switches an induced current, which is generated via the rotation of a permanent magnet, of a primary coil on and off. A resistor and a microcomputer are connected to the switching element, and a rotation detection circuit is connected to the microcomputer. The microcomputer drives the switching element so as to rapidly change the current flowing through the primary coil and generate a high voltage in the secondary coil, and generate a spark discharge in a spark plug connected to the secondary coil. In the coil part, one coil is divided by an intermediate tap, forming the primary coil and a charging coil. | 02-18-2016 |