Patent application number | Description | Published |
20120325552 | TERMINAL STRUCTURE FOR WIRE HARNESS - As described above, in the terminal structure for wire harness in this embodiment, since the molding resin | 12-27-2012 |
20130052887 | TERMINAL STRUCTURE OF WIRING HARNESS - Disclosed is a terminal structure of a wiring harness for automobile use that has a profound anticorrosive effect. A terminal member is fixed to an end portion of a coated electric wire such that a crimping portion that the member includes at its one end is crimped around an outer surface of a coating portion of the wire. A resin member is formed to completely cover at least entire outer surfaces of an exposed region at an end portion of the crimping portion (a region including a fracture cross section and a root edge portion) and a region in the vicinity thereof. The resin member is made mainly of an epoxy resin, and a cured material obtained by curing a material having a viscosity from 1000 to 30000 mPa·s at 25 degrees C., which is measured in accordance with the JIS Z8803. | 02-28-2013 |
20130072074 | TERMINAL STRUCTURE OF WIRING HARNESS - A terminal structure of a wiring harness for automobile use having a profound anticorrosive effect. A terminal member is fixed to a terminal portion of a coated electric wire such that a crimping portion that the member includes at its one end is crimped around a coating portion of the wire in a terminal region of the wire. A resin member completely covers at least entire outer surfaces of an exposed region at an end portion of the crimping portion and its vicinal region, and is made from a material mainly containing a thermoplastic polyamide resin, and having a tensile lap-shear strength of lapped aluminums of 6 N/mm | 03-21-2013 |
20130199842 | CRIMPED TERMINAL WIRE FOR AUTOMOBILE - To provide a crimped terminal wire for automobile that includes an aluminum electric wire, a connecting terminal made from a copper-based material, and a resin-coated portion that is provided in a range capable of inhibiting crevice corrosion that builds up in a crevice between the connecting terminal and a resin from reaching a bimetal contact portion between the aluminum electric wire and the connecting terminal. A crimped terminal wire for automobile includes an aluminum electric wire, a connecting terminal made from a copper-based material, crimped onto an end of the wire and including a crimped member, a crimped portion where the terminal is crimped onto the wire, and a resin-coated portion disposed on the crimped portion, wherein the resin-coated portion is disposed on the crimped portion while an entire periphery of the crimped portion is coated with the resin-coated portion. | 08-08-2013 |
20130292173 | CRIMPED TERMINAL WIRE FOR AUTOMOBILE - To provide a crimped terminal wire for automobile having a stable anticorrosion property in automobile environment. The wire includes an aluminum electric wire including an aluminum conductor wire coated with insulation, a copper connecting terminal onto an end of the aluminum electric wire, the terminal including a crimped member and an electrical contact portion, a crimped portion, and a resin-coated portion on the crimped portion, wherein an entire periphery of the crimped portion is coated with the resin-coated portion, and wherein the resin-coated portion is made from a material mainly made from a thermoplastic polyamide resin and having a tensile lap-shear strength of lapped aluminums of 6 N/mm | 11-07-2013 |
Patent application number | Description | Published |
20080266582 | Driving Method of Printer, Program of Printer Driver, and Recording Medium With Program of Printer Driver Recorded Therein - The present invention is applied to a medical image output apparatus, for example, an ultrasonic diagnostic apparatus, an endoscopic apparatus, etc., and the printer driver lays out the images related to a plurality of jobs, which are input in sequence, on a piece of paper, and outputs the images to the printer | 10-30-2008 |
20090091770 | IMAGE DISPLAY APPARATUS, IMAGE DISPLAY METHOD AND IMAGE DISPLAY PROGRAM - An image display apparatus connected to a printer, for displaying an image to be printed by the printer, includes display section for displaying taken image data as a thumbnail, control section for generating edited image data by editing the taken image data selected by a user and generating an additional thumbnail of the edited image data, and select section for selecting a taken image displayed on the display means to be edited, an editing operation for the taken image, and a print image. As the taken image is edited, the control means displays the additional thumbnail of the edited image data in addition to a thumbnail of the taken image data on the display means to allow each of the thumbnail and the additional thumbnail to be selected as the print image. | 04-09-2009 |
20090091772 | PRINT SYSTEM, IMAGE DISPLAY APPARTUS, IMAGE DISPLAY METHOD, AND IMAGE DISPLAY PROGRAM - A print system for printing one printing image data in a plurality of printing sizes, includes an image display apparatus for displaying the printing image data, and a printer apparatus for printing the one printing image data which is displayed and selected with the image display apparatus in a plurality of printing sizes. The image display apparatus includes record means in which the printing image data is stored, display means for displaying the printing image data stored in the record means, and control means for causing the display means to simultaneously display frame data in the plurality of printing sizes on the selected printing image data. | 04-09-2009 |
20100172631 | IMAGE FORMING APPARATUS - Image data group dividing means is provided for comparing a writing capacity of a writing medium to a data volume of a read image data group that is an aggregation of image data that is read by a user image reading device (image data reading means), and for dividing the read image data group into a plurality of written image data groups that will fit within the writing capacity in case that the data volume is greater, a printer device (image forming means) forms an index of images for each of the written image data groups that are divided by the image data group dividing means, and an image data writing device (image data writing means) writes to the writing medium each of the written image data groups that are divided by the image data group dividing means. | 07-08-2010 |
Patent application number | Description | Published |
20090128849 | PRINT SYSTEM, CLIENT-TERMINAL DEVICE, AND PRINT-CONTROL METHOD - A terminal-server-printer driver generates job-ticket data including function-restriction information set by a manager. Upon receiving a print instruction, the job-ticket data is added to print-job data and the print-job data is transmitted to a print-control module. The print-control module selects a first printer deriver and/or a second printer driver for processing based on details on the print-job data, and outputs the print-job data and the job-ticket data in accordance with the first printer driver and/or the second printer driver. The first printer driver and/or the second printer driver rewrites the print-attribute settings thereon without fail on the basis of the job-ticket data, and transmits drawing data generated on the basis of the rewritten print-attribute settings to a printer. | 05-21-2009 |
20100277761 | INFORMATION PROCESSING APPARATUS, INSTALLATION METHOD OF PRINTER DRIVER, AND PROGRAM - An information processing apparatus includes a print system that is a program for managing a printer driver. The information processing apparatus stores a printer driver module of a general-purpose printer driver constituted by a binary object different from the printer driver in a memory of the apparatus already installed with a printer driver. The apparatus searches registration information of a printer already registered in the print system, and determines whether printer-related information registered in the print system can be used in relation to the searched registration information. The apparatus uses information of a printer queue included in the registration information of the already registered printer and the printer-related information to register a printer that uses the general-purpose printer driver in the print system if it is determined that the printer-related information can be used. | 11-04-2010 |
20110063659 | CONTROL METHOD, INFORMATION PROCESSING APPARATUS, AND COMPUTER-READABLE MEDIUM - A control method comprises an item determination step of determining, upon switching of output target printing apparatuses between a plurality of printing apparatuses corresponding to the plurality of printer drivers, whether or not setting items in setting information before switching and setting items according to a printing apparatus after switching include common setting items; a set value determination step of determining whether or not set values in the setting information before switching and default set values of the printing apparatus after switching are different in the common setting items determined in the item determination step; and an output step of outputting, when it is determined in the set value determination step that the set values are different, a message indicating that set values different from the default set values of the printing apparatus after switching are set upon switching of the printing apparatuses. | 03-17-2011 |
20120212760 | PRINTING SYSTEM, CONTROL METHOD, INFORMATION PROCESSING APPARATUS, AND COMPUTER-READABLE MEDIUM - An information processing apparatus comprises a first installer for installing a driver corresponding to the image output apparatus, wherein the first installer is executed to install, in the information processing apparatus, a first driver and a second installer for installing a second driver, the installed first driver includes: unit configured to generate a first print queue to connect to a first connection port of the image output apparatus; unit configured to transmit an address acquisition request and acquire an address of a second connection port of the image output apparatus; and unit configured to, upon accepting an instruction to generate a second print queue using the print server as a connection destination, launch the second installer to install the second driver, and generate the second print queue, and the launched second installer generates the second print queue using the address of the second connection port that is acquired. | 08-23-2012 |
20120218602 | INFORMATION PROCESSING APPARATUS AND RELATED METHOD, IMAGE FORMING APPARATUS AND RELATED CONTROL METHOD, PROGRAM, AND RECORDING MEDIUM - An information processing apparatus includes a display control unit, a receiving unit, and a switching unit. The display control unit helps set information on printing product post-processing to be performed. The receiving unit receives a print instruction. If the post-processing apparatus is selected, the switching unit performs distributed transmitting processing on an image forming apparatus and the post-processing apparatus in response to the print instruction such that, print data is transmitted to the image forming apparatus and post-processing data is transmitted to the post-processing apparatus. If the post-processing apparatus is not selected, the switching unit performs the transmitting processing on the image forming apparatus in response to the print instruction such that both the print data and the post-processing data are transmitted to the image forming apparatus. The post-processing apparatus specifies the post-processing data transmitted with identification information in response to identification information being input in the post-processing apparatus. | 08-30-2012 |
20130033726 | PRINTING SYSTEM AND PRINT CONTROL METHOD - A client apparatus, after inputting a print job to a print service server apparatus, delivers a multicast message including information relating to an execution apparatus that executes the print job and information relating to a proxy apparatus managed by the print service server apparatus that manages the execution apparatus. When an image output apparatus receives the message, the image output apparatus determines whether the apparatus itself executes the print job or requests the proxy apparatus to execute the print job for the apparatus itself, based on a content of the message. If the image output apparatus determines to request the proxy apparatus to execute the print job for the apparatus itself, the image output apparatus requests the proxy apparatus to execute the print job. | 02-07-2013 |
20130208300 | IMAGE OUTPUT APPARATUS, METHOD FOR OUTPUTTING IMAGE, AND STORAGE MEDIUM - An image output apparatus includes a display unit configured to display on an operation unit a screen including an object indicating that printing is to be performed from a portable terminal apparatus, a generation unit configured to, when the object included in the screen is selected, generate an information code indicating address information and function information of the image output apparatus or an information code indicating the address information and status information of the image output apparatus, a reception unit configured to receive a print job from the portable terminal apparatus having read the information code, and an output unit configured to output the print job received by the reception unit, wherein the display unit displays the information code on the screen. | 08-15-2013 |
Patent application number | Description | Published |
20090078966 | Field-effect transistor, semiconductor chip and semiconductor device - A FET exhibiting excellent uniformity and productivity and having a low noise figure and high associated gain as high-frequency performance, a semiconductor chip having this FET and a semiconductor device having the semiconductor chip. The FET includes a GaAs substrate on which are built up an i-type GaAs layer, an i-type InGaAs two-dimensional electron gas layer and an n-type AlGaAs electron supply layer. A gate electrode is provided on and in linear Schottky contact with the n-type AlGaAs electron supply layer. A n-type InGaP etching stop layer and then an n-type GaAs contact layer at the same lateral position are built up on the n-type AlGaAs electron supply layer, these being spaced away from both sides of the gate electrode. A source electrode and a drain electrode are provided on the n-type GaAs contact layer and are spaced away from edges of the contact layer as electrodes that make band-shaped ohmic contact. | 03-26-2009 |
20090288852 | Electronic device and method of manufacturing the same - An electronic device of the present invention has a substrate; an electro-conductive pattern (electrodes) provided over the substrate; a semiconductor chip mounted over the substrate, and electrically connected with the electrodes; a resin cap provided over the substrate and composed of two or more resin layers to hollow-sealing the semiconductor chip; and an adhesive layer (metal-resin adhesion maintenance layer) bonding the resin cap with the electrode. | 11-26-2009 |
20110215452 | SEMICONDUCTOR PACKAGE, SUBSTRATE, ELECTRONIC COMPONENT, AND METHOD OF MOUNTING SEMICONDUCTOR PACKAGE - A semiconductor package includes a semiconductor device and a substrate over which the semiconductor device is mounted, wherein the substrate includes: an internal ground electrode, formed in the one side of the substrate, which is connected to the semiconductor device; two external ground electrodes, located at the opposite side of the substrate opposite to the one side of the substrate, which are electrically connected to the internal ground electrode; at least one sub-ground electrode, located between the two external ground electrodes, when seen in a plan view, and located at the opposite side of the substrate, which is electrically connected to the internal ground electrode; an internal input electrode, formed in the one side of the substrate, which is connected to the semiconductor device; and an internal output electrode, formed in the one of the substrate, which is connected to the semiconductor device. | 09-08-2011 |
20130062788 | SEMICONDUCTOR APPARATUS - A semiconductor apparatus includes a semiconductor chip, a lead frame that has a first surface having the semiconductor chip mounted thereover and a second surface opposite to the first surface, a bonding wire that couples the semiconductor chip and the lead frame, and a high-dielectric layer that is disposed over a surface of the lead frame opposite to a surface having the semiconductor chip mounted thereover and that has a relative permittivity of 5 or more. The lead frame includes a source electrode lead coupled to the source of a semiconductor device formed over the semiconductor chip and a source-wire junction at which the source electrode lead and the bonding wire are coupled together. The high-dielectric layer is disposed in a region including at least a position corresponding to the source-wire junction over the second surface of the lead frame. | 03-14-2013 |
Patent application number | Description | Published |
20160061658 | LIGHT RECEIVING CIRCUIT AND LIGHT COUPLING DEVICE - A light receiving circuit includes a light receiving element, a first transistor that includes a control terminal which is connected to the light receiving element through a first node, a first terminal and a second terminal, a first load circuit that is connected between a power supply potential and a second node connected to the second terminal, and outputs a voltage signal to a third node, wherein the voltage signal is based on a current signal in the light receiving element, a first feedback resistor that is connected between the first node and the third node, a first limiter circuit that is connected in parallel with the first feedback resistor, and limits an increase of voltage at both ends of the first feedback resistor, and a first circuit that is connected between the second node and the reference potential, includes a second transistor which is diode-connected. | 03-03-2016 |
20160065150 | LIGHT RECEIVING CIRCUIT AND LIGHT COUPLING DEVICE - A light receiving circuit includes an inverting amplification circuit, a first light receiving element, a first circuit, and a charging circuit. The inverting amplification circuit includes an input terminal and an output terminal. The first light receiving element is connected between the input terminal and a reference potential terminal. The first circuit includes a first resistor, a second resistor, a third resistor and a capacitor. The first resistor second resistor connected through a connection point. The first resistor is connected between the input terminal and the connection point, and the second resistor connected between the output terminal and the connection point. The third resistor is connected between the connection point and connection node, and the capacitor is connected between the connection node and the reference potential terminal. The charging circuit connected between the power supply terminal and the connection node. | 03-03-2016 |
Patent application number | Description | Published |
20080230683 | LIGHT RECEIVING CIRCUIT - A light receiving circuit includes: a first transimpedance amplifier configured to convert an input signal to a voltage signal, the input signal being current-converted by a first photodiode; a second transimpedance amplifier connected to a light-shielded second photodiode, and being configured to output a reference voltage; a differential amplifier; a transconductance amplifier; a voltage source; and a conversion element. The differential amplifier has a first terminal and a second terminal, and amplifies a difference between the voltage signal inputted to the first terminal and a signal inputted to the second terminal. The transconductance amplifier receives as input a branch of the voltage signal and outputs a current signal to the second terminal. The voltage source superimposes an offset voltage on the output voltage of the second transimpedance amplifier. The conversion element is provided between the voltage source and the second terminal, and voltage-converts the current signal. | 09-25-2008 |
20090085542 | DRIVE SYSTEM FOR POWER SEMICONDUCTOR DEVICE - An output signal from a driver is provided to an output unit which includes first and second transistors to output a drive signal for driving a power device. A control signal is supplied from a control signal supply. The control signal indicates an enabled state and a disabled state to control the first and second transistors. The control signal is provided to a voltage output circuit. An output signal from the voltage output circuit is provided to a voltage hold circuit. The first and second transistors are turned off by a disable circuit when the control signal is in the disabled state. A shutdown circuit operates to draw out current from an output terminal of the output unit based on a signal provided from the voltage hold circuit and the control signal when the control signal is in the disabled state. | 04-02-2009 |
20120068052 | OPTICAL RECEIVER CIRCUIT - An optical receiver circuit according to an embodiment includes a light receiving units configured to output a current according to input light, and an inverting amplifier having an input terminal and an output terminal, the input terminal connected to the light receiving units, and a feedback circuit connected between the input terminal and the output terminal, and provided with a plurality of pairs of a pole and a zero on a negative real axis on a Laplace plane so that transimpedance characteristics show high gains of a plurality of steps on high-frequency side. | 03-22-2012 |
20120229116 | VOLTAGE REGULATOR - According to one embodiment, a voltage regulator includes an output transistor, a voltage detector, a controller, and a discharge circuit. The output transistor is connected between a power supply terminal and an output terminal. The voltage detector is connected between the output terminal and a ground terminal. The voltage detector is configured to divide an output voltage between the output terminal and the ground terminal according to an inputted voltage switching signal and generates a first voltage on the ground terminal side and a second voltage having a polarity the same as a polarity of the first voltage and having an absolute value lower than or equal to an absolute value of the first voltage. The controller is configured to detect a difference between the first voltage and a reference voltage and control the output transistor. | 09-13-2012 |
20130032698 | OPTICAL COUPLING DEVICE - According to one embodiment, an optical coupling device is provided. | 02-07-2013 |
20130063212 | TRANSIMPEDANCE AMPLIFIER AND LIGHT RECEIVING CIRCUIT - A transimpedance amplifier includes a first MOS transistor, a current mirror circuit, a second MOS transistor, a load and a first feed back resistor. The first MOS transistor has a gate terminal to which a photodiode is connected. An output current of the first MOS transistor is input to the current mirror. The second MOS transistor has a gate terminal to which a voltage of an output terminal of the current mirror circuit is input. A source of the second MOS transistor is grounded. A polarity of the second MOS transistor is same as a polarity of the first MOS transistor. A first feedback resistor is connected between the gate terminal of the first MOS transistor and a drain terminal of the second MOS transistor. The second MOS transistor outputs a voltage corresponding to the voltage of the output terminal from the drain terminal. | 03-14-2013 |
20130068935 | LIGHT RECEIVING CIRCUIT - According to one embodiment, a light receiving circuit having a trans-impedance amplifier and an output circuit is provided. The trans-impedance amplifier includes a photodiode, a feedback resistor and a first transistor having a channel of a first conductive type. The photodiode converts an optical signal into an electrical signal. Ends of the feedback resistor are connected respectively to the photodiode and a node. A gate of the first transistor receives the electrical signal from the photodiode. A signal corresponding to a signal from a drain of the first transistor is output to the node. The output circuit includes a second transistor having a channel of the first conductive type, and generates an output signal from a drain of the second transistor. A gate of the second transistor is connected to the node. | 03-21-2013 |
20130193495 | LIGHT RECEIVING CIRCUIT - According to an embodiment, a light-receiving circuit includes a MOSFET, a first light-receiving element and a second light-receiving element. The first light-receiving element controls a state of the MOSFET between ON state and OFF state by applying a voltage induced by a light signal between a gate of the MOSFET and a source of the MOSFET; and a second light-receiving element controls a threshold voltage of the MOSFET. | 08-01-2013 |
20130234007 | LIGHT RECEIVING CIRCUIT - A light receiving circuit includes a photodiode, a transimpedance amp having a feedback resistor, an electric current comparator and an automatic threshold control circuit that includes a current mirror circuit for forming a current according to the mirror effect. With this light receiving circuit, regardless of how powerful the input light signal is, low pulse width distortion characteristics can be achieved. | 09-12-2013 |
20140284458 | LIGHT RECEIVING CIRCUIT AND PHOTOCOUPLER - A light receiving circuit includes a light receiving element, a transimpedance amplifier, a delay circuit and a comparator. The transimpedance amplifier is configured to convert the current signal into a first voltage. The comparator includes first to third current control elements each including first to third electrodes and configured to control current of the third electrode by voltage of the second electrode. The first voltage is inputted to the second electrode of the first current control element. Output voltage of the delay circuit is inputted to the second electrode of the second current control element. A second voltage is inputted to the second electrode of the third current control element. The comparator is configured to compare output current of the first current control element with sum of output current of the second current control element and output current of the third current control element. | 09-25-2014 |
20140284459 | LIGHT RECEIVING CIRCUIT - According to one embodiment, a light receiving circuit includes a light receiving element, a differential circuit, a fifth transistor, and first and second current sources. The differential circuit includes an amplifier and a bias circuit. The amplifier includes a first transistor, a second transistor, and a first feedback resistor. The amplifier is configured to convert a current from the light receiving element into a voltage. The bias circuit includes a third transistor, a fourth transistor, and a second feedback resistor. A reference voltage is supplied to a control electrode of the fourth transistor. The second and third transistors are included in a current mirror circuit. A fifth transistor has a control electrode connected to a connection point between the first and second transistors. A voltage signal switched to a high level or a low level according to a change of an optical signal is outputted. | 09-25-2014 |
20150069566 | PHOTODIODE - According to one embodiment, a photodiode includes a first semiconductor layer of a first conductivity type, a second semiconductor layer of a second conductivity type, a third semiconductor layer of the first conductivity type, and a film. The second semiconductor layer is provided in the first semiconductor layer. The third semiconductor layer is provided in the first semiconductor layer so as to surround the second semiconductor layer. Each of one ends of the second and third semiconductor layers is located at an upper surface of the first semiconductor layer. The first to third semiconductor layers include first to third impurity concentrations respectively. The second and third impurity concentrations are higher than the first impurity concentration. The film is provided above the third semiconductor layer, and blocks light to enter into a neighborhood of the third semiconductor layer. | 03-12-2015 |
20150076525 | LIGHT RECEIVING ELEMENT AND OPTICALLY COUPLED INSULATING DEVICE - A light receiving element includes: a semiconductor layer; a first layer; and a second layer. The semiconductor layer has a first impurity concentration. The first layer of a first conductivity type is provided inward from an upper surface of the semiconductor layer. The first layer has a second impurity concentration higher than the first impurity concentration. The first layer has a surface region on an upper surface of the semiconductor layer side and an inner region being narrower than the first region. The second layer of a second conductivity type is provided inward from the upper surface of the first semiconductor layer. The second layer has a third impurity concentration higher than the first impurity concentration. | 03-19-2015 |
20160035928 | PHOTODIODE - According to one embodiment, a photodiode includes a first semiconductor layer of a first conductivity type, a second semiconductor layer of a second conductivity type, a third semiconductor layer of the first conductivity type, and a film. The second semiconductor layer is provided in the first semiconductor layer. The third semiconductor layer is provided in the first semiconductor layer so as to surround the second semiconductor layer. Each of one ends of the second and third semiconductor layers is located at an upper surface of the first semiconductor layer. The first to third semiconductor layers include first to third impurity concentrations respectively. The second and third impurity concentrations are higher than the first impurity concentration. The film is provided above the third semiconductor layer, and blocks light to enter into a neighborhood of the third semiconductor layer. | 02-04-2016 |
Patent application number | Description | Published |
20120160161 | IMAGE FORMING APPARATUS AND LIQUID APPLICATION DEVICE - An image forming apparatus includes an application device. The application device has an application roller to apply a treatment liquid onto a recording medium before an image is formed on the recording medium. The application roller has a core member serving as a rotation shaft of the application roller and an elastic surface member disposed around the core member. The core member has a plurality of convex ring portions formed along a circumferential direction of the core member around a circumferential surface of the core member and a plurality of concave ring portions formed between the plurality of convex ring portions. The convex ring portions and the concave ring portions are alternately arranged. | 06-28-2012 |
20120249627 | IMAGE FORMING APPARATUS - An image forming apparatus including an image forming device forming an image on a surface of a recording material; a recording material passage; a treatment liquid applicator including a tray containing a treatment liquid, a first roller applying the treatment liquid to the surface of the recording material, and a second roller drawing the treatment liquid from the tray to supply the treatment liquid to the first roller; a liquid level inclination detector detecting whether the surface of the treatment liquid is inclined; a treatment liquid supplying device supplying the treatment liquid to the tray; and a controller connected with liquid level detector and the treatment liquid supplying device. The controller stops the operation of the treatment liquid supplying device when determining according to the detection result of the liquid level detector that the surface of the treatment liquid is inclined in a predetermined amount or more. | 10-04-2012 |
20120262519 | TREATMENT LIQUID APPLICATION DEVICE AND IMAGE FORMING APPARATUS - A treatment-liquid application device includes a treatment-liquid container, a liquid supply unit, a liquid chamber unit, a treatment-liquid carrier, a transport unit, a treatment-liquid applicator, and a partition. The partition is disposed in an area of the chamber unit defined by an imaginary entry plane, an imaginary exit plane, a carrying surface of the carrier, and a bottom face of the chamber unit. The entry plane includes an entry line at which the carrying surface enters treatment liquid in the chamber unit, and vertically extends from the entry line. The exit plane includes an exit line at which the carrying surface exits from the liquid in the chamber unit, and vertically extends from the exit line. The partition extends in a longitudinal direction of the carrier and has an edge portion adjacent to the carrying surface. | 10-18-2012 |
20150343533 | APPARATUS FOR FABRICATING THREE-DIMENSIONAL OBJECT - An apparatus for fabricating a three-dimensional object includes a fabrication stage and a flattener. A fabrication layer in which powder particles are bound together is formed layer-by-layer on the fabrication stage. The flattener relatively moves in a moving direction along a stage surface of the fabrication stage and flattens a surface of powder on the fabrication stage to form a powder layer. The fabrication stage and the flattener are arranged to be relatively movable in a height direction. In formation of the powder layer on the fabrication layer formed on the fabrication stage, the apparatus performs an operation to increase a distance between the flattener and the fabrication stage in the height direction when the flattener moves to a position near an edge of the fabrication layer in the moving direction. | 12-03-2015 |
20160075084 | METHOD AND APPARATUS FOR MOLDING THREE-DIMENSIONAL OBJECT AND MOLDING DATA GENERATION METHOD FOR THREE-DIMENSIONAL OBJECT - A method for molding a three-dimensional object, includes building up layers formed of bonded powder to form a three-dimensional object; and forming a support below the three-dimensional object. The method is performed by a three-dimensional object molding apparatus that includes a powder lamination molding apparatus to form a three-dimensional object by building up layers formed of bonded powder; and a molding data generator to generate data for each layer of the three-dimensional object that the powder lamination molding apparatus laminates, in which a support is formed below the three-dimensional object. | 03-17-2016 |