Patent application number | Description | Published |
20090134529 | CIRCUIT BOARD MODULE, ELECTRIC DEVICE, AND METHOD FOR PRODUCING CIRCUIT BOARD MODULE - A circuit board module includes: a printed wiring board that is provided with a plurality of solder bonding pads; a semiconductor package that is provided with a plurality of solder bonding portions on a back face thereof to be mounted on the printed wiring board by soldering the solder bonding portions onto the respective solder bonding pads on the printed wiring board; a plurality of reinforcement pads that are provided on the printed wiring board at positions along peripheral edges of the semiconductor package, each of the reinforcement pads having a solder coated layer formed thereon; and a plurality of reinforcing adhesive agents that are disposed on each of the reinforcement pads to adhere the semiconductor package to the reinforcement pads. | 05-28-2009 |
20090219703 | PRINTED CIRCUIT BOARD, METHOD FOR FORMING FRAME GROUND FOR PRINTED CIRCUIT BOARD, AND ELECTRONIC DEVICE - According to one embodiment, there is provided a printed circuit board, including a frame ground portion in which conductor patterns are formed around a board-fixation hole, and a plurality of through-holes formed around the board-fixation hole in the frame ground portion. | 09-03-2009 |
20090321120 | PRINTED CIRCUIT BOARD AND ELECTRONIC DEVICE - A printed circuit board according to the present invention includes a printed wiring board, first electrodes, second electrodes, third electrodes, solders, and a flip chip. The printed wiring board includes a first surface and a second surface which is opposite the first surface. The first electrodes are respectively formed on the first surface. The second electrodes correspond to and are disposed near each of the first electrodes, and are respectively formed on the first surface. The third electrodes electrically respectively connect the first electrodes and the second electrodes corresponding to each of the first electrodes. The solders are applied so as to respectively cover the first electrodes, the second electrodes corresponding to the first electrodes, and the third electrodes connecting the first electrodes and the second electrodes. The flip chip is electrically connected to each of the first electrodes at a position opposed to the first electrodes. | 12-31-2009 |
20100097768 | ELECTRONIC APPARATUS - According to one embodiment, an electronic apparatus includes a housing, a circuit board contained in the housing, an integrated-circuit component mounted on the circuit board, a member for heat radiation opposed to the integrated-circuit component and thermally connected to the integrated-circuit component, a sheet metal member which fixes the member for heat radiation, and an electronic component mounted on the circuit board. The sheet metal member includes a main part opposed to the member for heat radiation, and a plurality of leg parts fixed to the circuit board. One leg part of the plurality of leg parts extends from the main part over the electronic component, and is fixed to the circuit board at a position which is farther from the integrated-circuit component than the electronic component is. | 04-22-2010 |
20100302735 | ELECTRONIC APPARATUS - According to one embodiment, an electronic apparatus includes a housing, a circuit board contained in the housing, an integrated-circuit component mounted on the circuit board, a member for heat radiation opposed to the integrated-circuit component and thermally connected to the integrated-circuit component, a sheet metal member which fixes the member for heat radiation, and an electronic component mounted on the circuit board. The sheet metal member includes a main part opposed to the member for heat radiation, and a plurality of leg parts fixed to the circuit board. One leg part of the plurality of leg parts extends from the main part over the electronic component, and is fixed to the circuit board at a position which is farther from the integrated-circuit component than the electronic component is. | 12-02-2010 |
20110199747 | STORAGE DEVICE AND ELECTRONIC APPARATUS - According to one embodiment, an electronic apparatus includes a first board, a second board facing the first board, a cover facing the second board from a side opposite to the first board, a first fixing portion attached to the first board and the cover, and a second fixing portion attached to the first board and the second board. | 08-18-2011 |
20120318572 | ENDOSCOPE DEVICE AND CIRCUIT BOARD - An endoscope device includes: a circuit board including a mounting surface; an electronic component including a bottom surface facing the mounting surface and a lateral portion; a first electrode mounted across a corner portion of the bottom surface and the lateral portion; a second electrode adjacent to the first electrode and mounted across the bottom surface and the lateral portion; a third electrode mounted on the mounting surface to face the first electrode, including an edge portion following the lateral portion and located outside of a first area of the mounting surface covered by the electronic component, and having a wider area than that of the first electrode and soldered to the first electrode; and a fourth electrode mounted on the mounting surface to face the second electrode, including an edge portion following the lateral portion and located outside of the first area, and soldered to the second electrode. | 12-20-2012 |
20120323076 | ENDOSCOPE APPARATUS AND ELECTRONIC APPARATUS - According to one exemplary embodiment, an endoscope apparatus includes: an insertion unit that is an object to be disinfected by boiling; an operation unit connected to the inertion part; a main unit connected to the operation unit; a first circuit board embedded in the main unit; a first electronic component electrically connected to the first circuit board via a first solder; a second circuit board embedded in at least any one of the insertion unit and the operation unit; a second electronic component electrically connected to the second circuit board via a second solder having higher stress resistance than that of the first solder; and a bonding member bonded to the second electronic component and the second circuit board, the bonding member having a glass transition point higher than that of the second circuit board. | 12-20-2012 |
Patent application number | Description | Published |
20080210482 | Hydraulic Drive Vehicle with Cooling System - A hydraulic drive vehicle comprises a vehicle frame, a bonnet, a prime mover, a hydraulic transaxle, a seat, a reservoir tank, and a cooling fan and a cooling duct. The bonnet is supported on one of front and rear portions of the vehicle frame, and provided therein with a first space. The prime mover is disposed in the first space. The hydraulic transaxle is driven by the prime mover. The seat is supported on the other of the front and rear portions of the vehicle frame, and is provided therebelow with a second space. The reservoir tank is fluidly connected to the hydraulic transaxle. The cooling fan is driven by the prime mover. The cooling duct is disposed in the second space. The cooling fan and the reservoir tank are disposed in the cooling duct so that the cooling fan cools the reservoir tank. A hydraulic pump for driving the hydraulic transaxle is disposed in the cooling duct so as to be cooled by the cooling fan. | 09-04-2008 |
20080234092 | Gear Transmission - A gear transmission comprises a traveling load detection means including an upstream detection member, a downstream detection member and a biasing member. One of the upstream and downstream detection members is an axially slidable detection member which is axially slidable along an output shaft. One of the upstream and downstream detection members has a first engagement part and a second engagement part. The first engagement part and the second engagement part generate respective forces for sliding the axially slidable detection member opposite to the biasing direction of the biasing member. The forces are changed according to variation of the traveling load. | 09-25-2008 |
20090045026 | Dual Clutch Transmission - A dual clutch transmission comprises a first clutch to be engaged for setting any one of forward-traveling odd-numbered speeds and a second clutch to be engaged for setting any one of forward-traveling even-numbered speeds. The dual clutch transmission establishes a desired forward-traveling speed by alternately engaging/disengaging the first and second clutches. A backward-traveling drive train is adapted to be driven by engaging one of the first and second clutches. When a reverse mode is established by a mode setting means, the one of the first and second clutches is engaged to drive the backward-traveling drive train by setting a speed change manipulator at a backward-traveling position, and the other of the first and second clutches is engaged to drive a fixed one forward-traveling speed drive train by setting the speed change manipulator at a forward-traveling position. While the reverse mode is established, the backward-traveling drive train and the fixed one forward-traveling speed drive train are kept activated regardless of whether the first or second clutch is engaged. | 02-19-2009 |
20090095102 | Dual Clutch Transmission - A dual clutch transmission includes a group of odd-numbered speed drive trains, including at least a first speed drive train to be driven for setting a first speed serving as the lowest speed; a first clutch to be engaged for driving any one of the odd-numbered speed drive trains including the first speed drive train; a group of even-numbered speed drive trains, including at least a second speed drive train to be driven for setting a second speed serving as the second lowest speed; a second clutch to be engaged for driving any one of the even-numbered speed drive trains including the second speed drive train; an automatic speed control system for selecting one of all the odd-and-even numbered speed drive trains to be driven, and for selecting either the first or second clutch to be engaged for driving the selected speed drive train in correspondence to a traveling speed of a vehicle equipped with the dual clutch transmission; and a manual selection device for selecting any one of all the odd-and-even numbered speed drive trains, including the second speed drive train and excluding the first speed drive train, as a starting-and-stopping speed drive train to be driven when the vehicle starts and immediately before the vehicle stops. | 04-16-2009 |
20090118052 | Axle Driving Unit For A Lawn Tractor - An axle driving unit includes an axle, a hydraulic pump, a hydraulic motor having a motor shaft on which an output gear is provided to be drivingly connected to said axle, a center section having a pump mounting surface and a motor mounting surface onto which the hydraulic pump and the hydraulic motor are mounted respectively so as to be fluidly connected with each other through the center section, a housing constituted by a first housing part and a second housing part joined to each other at a joint surface, a projection integrally formed on the center section so as to be fitted to the housing, thereby fixing a position of the center section relative to the housing, and a fastener fastening the center section to the first housing part. The pump mounting surface and said motor mounting surface may be disposed perpendicular to each other. Said pump mounting surface and said motor mounting surface are disposed perpendicular to each other. The projection may be extended in parallel to the pump mounting surface and perpendicular to the motor mounting surface. | 05-07-2009 |
20090165584 | Dual Clutch Transmission - A dual clutch transmission includes odd-numbered forward traveling speed drive trains to be activated by engaging a first clutch, even-numbered forward traveling speed drive trains to be activated by engaging a second clutch, and a plurality of backward traveling speed drive trains including at least one backward traveling train to be activated by engaging either the first or second clutch. While a reverse mode is set and when a reverser operation means is shifted between a forward traveling position and a backward traveling position, the first and second clutches are alternately engaged/disengaged for a forward/backward traveling speed shift between a backward traveling speed set by at least one backward traveling speed drive train and a forward traveling speed set by any one forward traveling speed drive train activated by engaging the first or second clutch which is different from the first or second clutch adapted to be engaged for activating the at least one backward traveling speed drive train. | 07-02-2009 |
20100236845 | Electric Transaxle Unit - An electric transaxle unit includes an axle, an electric motor for driving the axle, a motor shaft serving as an output shaft of the electric motor, the motor shaft being not coaxial to the axle, a deceleration gear train interposed between the motor shaft and the axle, a brake adapted to brake any element in a power train between the motor shaft and the axle via the deceleration gear train, and a casing. The casing incorporates the axle, the electric motor, the motor shaft, the deceleration gear train and the brake. The casing includes an attachment portion to be attached to a frame, and wherein the attachment portion has a constant height from a center axis of the axle regardless of whether the casing is vertically inversed. | 09-23-2010 |
20130066496 | Hybrid Working Vehicle - A hybrid working vehicle comprises an engine, a drive wheel, a power take-off (PTO) shaft, and a power transmission system for transmitting power from the engine to the drive wheel and the PTO shaft. The power transmission system is bifurcated at a bifurcating point into a traveling drive train for driving the drive wheel and a PTO drive train for driving the PTO shaft. A continuously variable transmission is provided on the traveling drive train, and a motor generator is provided on the power transmission system between the engine and the bifurcating point. The motor generator functions as a generator by power of the engine and functions as an electric motor for driving the power transmission system. The hybrid working vehicle includes a controller for controlling an output rotary speed of the motor generator functioning as the electric motor. | 03-14-2013 |
Patent application number | Description | Published |
20090260901 | ELECTRIC GROUND WORKING VEHICLE - There is provided an electric ground working vehicle including a left wheel and a right wheel, at least one caster, a working apparatus, an acceleration operating element for performing acceleration instructions, a turn operating element for performing turn instructions, and a control unit. The left wheel and the right wheel are independently driven by left and right electric motors respectively. The control unit controls a regenerative brake driving unit so that electric power is regenerated from the left and right electric motors to an electric power source unit when the acceleration operating element is not operated during traveling to regeneratively brake the left and right wheels. The control unit controls the brake force of the wheels so that the brake force of the wheel at the inside of a turn, among the left wheel and the right wheel, can be made greater than the brake force of the wheel at the outside of a turn when the acceleration operating element is not operated during traveling and turn instructions are inputted from the turn operating element. | 10-22-2009 |
20100206647 | RIDING WORK VEHICLE - A riding work vehicle includes right and left wheels, at least one caster wheel, and a working machine. The lawnmower vehicle further includes traveling motor, steering motor, a traveling system clutch, and a steering system clutch. The traveling system clutch is configured to disable transmission of the rotational force from an axle of the caster wheel to the traveling motor in a state where the traveling motor is deactivated. The steering system clutch is configured to disable transmission of the rotational force from a steering shaft for the caster wheel to the steering motor in a state where the steering motor is deactivated. | 08-19-2010 |
Patent application number | Description | Published |
20090218121 | METHOD FOR MANUFACTURING PRINTED CIRCUIT BOARD, PRINTED CIRCUIT BOARD, AND ELECTRONIC APPARATUS - A method for manufacturing a printed circuit board. The method includes: preparing a printed wiring board, the printed wiring board comprising through holes and a plurality of electrode pads; coating surfaces of the plurality of electrode pads and surfaces of the through holes on an one side of the printed wiring board with a bonding material; mounting a semiconductor package on the printed wiring board such that a plurality of bumps on a surface of the semiconductor package corresponds to the plurality of electrode pads; bonding the bumps to the electrode pads by heating the printed wiring board on which the semiconductor package is mounted; and filling a space between the semiconductor package and the printed wiring board with a filler material. | 09-03-2009 |
20120250279 | STORAGE DEVICE, ELECTRONIC DEVICE, AND CIRCUIT BOARD ASSEMBLY - According to one embodiment, a storage device includes a housing, a circuit board, and a module. The circuit board is located in the housing, and includes a first surface and a second surface located opposite the first surface. The module is provided on at least one of the first surface and the second surface of the circuit board. The circuit board is provided with a first notch and a connection portion to be connected to the housing at the periphery. The first notch is provided with a second notch extending toward an area between the connection portion and a module fixation area where the module is fixed on the circuit board. | 10-04-2012 |
20130335933 | CIRCUIT BOARD AND ELECTRONIC DEVICE - A circuit board includes a substrate having a mounting pad formed thereon, a packaged electronic device having a mounting surface coupled to the mounting pad and an electrode formed on a side surface of the packaged electronic device, and a conductive material that is disposed on a portion of the electrode formed on the side surface of the packaged electronic device and on a portion of the mounting pad. A first region of the pad is aligned with and adjacent to a portion of an outer edge of the electrode and includes the portion of the mounting pad. The second region of the pad is positioned between the mounting surface and the substrate and has at least one concave component that forms an insulating region. The circuit board can reduce the packaging height of parts and facilitate thinner electronic devices. | 12-19-2013 |