Patent application number | Description | Published |
20090004030 | COMPRESSOR SWASH PLATE AND METHOD OF MANUFACTURING THE SAME - The invention provides a compressor swash plate which is lead-free and is able to demonstrate a superior durability. A compressor swash plate in the invention includes a base member and a sliding layer being formed on the surface of the base member and constituting at least a sliding surface for allowing a shoe to slide thereon. The sliding layer is formed by thermal spraying Cu-based-MnS by HVOF thermal spraying method. A method of manufacturing the compressor swash plate according to the invention includes a step of thermal spraying powder formed of Cu-based-MnS onto the base member by the HVOF thermal spraying method to form the sliding layer which constitutes at least the sliding surface which allows the shoe to slide thereon on the base member. More specifically, the Cu-based-MnS is Cu-Ni-MnS. | 01-01-2009 |
20100159271 | SLIDING MEMBER FOR COMPRESSOR - A sliding member for a compressor includes a base metal, a first layer and a second layer. The base metal is made of an aluminum-based metal. The first layer is formed on or over the base metal and made of a nickel-based plating layer containing at least one material of nitrogen (N), silicon (Si), titanium (Ti), chromium (Cr) and aluminum (Al) as an additive. The second layer is formed on the surface of the first layer and made of a diamond-like carbon layer containing the same additive as the additive contained in the first layer. | 06-24-2010 |
20110236234 | MOTOR-DRIVEN COMPRESSOR - A motor-driven compressor includes a housing, a rotary shaft, a compression mechanism and an electric motor. The housing includes a suction port and a discharge port. The compression mechanism is disposed in the housing and compresses refrigerant flowed through the suction port into the compression mechanism and discharges the refrigerant through the discharge port. The electric motor is disposed in the housing and drives the rotary shaft to rotate to drive the compression mechanism. The electric motor includes a rotor fixedly mounted on the rotary shaft and a stator fixed to the housing. The rotor includes a permanent magnet and a compressor interior environment improvement agent containing at least one of an absorbent for absorbing moisture and a neutralizer for neutralizing acid. | 09-29-2011 |
Patent application number | Description | Published |
20090250313 | Component mounting apparatus, mounting-component producing method, and conveyor apparatus - A component mounting apparatus includes: a load area to load a substrate; an unload area to unload the substrate; a main area interposed between the load and unload areas, including a first area including a first mounting area, a second area including a second mounting area, and a third area interposed therebetween; two mounting units to mount, on the substrate, first and second components in the first and second mounting areas, respectively; a conveyor group to convey the substrate, including first to fourth conveyors, the second and fourth conveyors being capable of receiving the substrate from the first and third conveyors in the first and second areas, respectively; and a driving mechanism capable of moving at least one of the first and second conveyors between the first and third areas and moving at least one of the third and fourth conveyors between the second and third areas. | 10-08-2009 |
20120267216 | COMPONENT MOUNTING APPARATUS, MOUNTING-COMPONENT PRODUCING METHOD, AND CONVEYOR APPARATUS - A component mounting apparatus includes: a load area to load a substrate; an unload area to unload the substrate; a main area interposed between the load and unload areas, including a first area including a first mounting area, a second area including a second mounting area, and a third area interposed therebetween; two mounting units to mount, on the substrate, first and second components in the first and second mounting areas, respectively; a conveyor group to convey the substrate, including first to fourth conveyors, the second and fourth conveyors being capable of receiving the substrate from the first and third conveyors in the first and second areas, respectively; and a driving mechanism capable of moving at least one of the first and second conveyors between the first and third areas and moving at least one of the third and fourth conveyors between the second and third areas. | 10-25-2012 |
Patent application number | Description | Published |
20110206544 | Electric Compressor Integrating Inverter - Provided is an inverter-integrated electric compressor wherein the attachability of a coil component has been improved while reliability of a connection state at the electrical joints is ensured by simplifying a mechanism which electrically connects the coil component, such as one for removing electromagnetic noise, to a motor drive circuit. An inverter-integrated electric compressor, wherein a motor drive circuit including an inverter is surrounded by a compressor housing, is characterized in that a coil component comprising a plurality of conductor wires wound in parallel is attached to the motor drive circuit through a seat, the seat is provided with a protrusion which can be fitted into a seat affixing hole provided in a case member for housing the motor drive circuit, a plurality of terminal holes are arranged in the portion where the protrusion is provided, the plurality of conductor wires pulled out from the coil component are inserted, in a one-to-one correspondence, into the plurality of terminal holes in such a manner that the mutual interval between the wires is widened, and the end of each conductor wire is connected electrically to the motor drive circuit. | 08-25-2011 |
20110211981 | Inverter-Integrated Electric Compressor - Provided is an inverter-integrated electric compressor excellent in joining strength and joining reliability at electrical joint. An inverter-integrated electric compressor wherein a motor is incorporated and a motor drive circuit including the inverter is surrounded by a compressor housing, characterized in that a bus bar joint section at which bus bars are electrically joined together is provided in the motor drive circuit, and a tip of at least one of the bus bars, the tip being located at the bus bar joint section, is split into small joining sections. | 09-01-2011 |
20110217191 | Inverter-Integrated Electric Compressor - Provided is an inverter-integrated electric compressor whose inverter section is molded using a urethane resin and which is excellent in joining reliability of electrically connected section. An inverter-integrated electric compressor, wherein the compressor incorporates a motor and wherein a motor drive circuit including the inverter is provided in a containing space surrounded by a compressor housing. A crimping section of a terminal of a conducting wire connected to the inverter is molded, together with the inverter, in a resin charged into the containing space. A gap at the crimping section, the gap being open to the outside, is previously covered and sealed by a gap sealant. | 09-08-2011 |
20120076679 | Inverter-Integrated Electric Compressor - Provided is an inverter-integrated electric compressor having high heat resistance, which is capable of suppressing thermal interference among a plurality of power devices. Specifically provided is an inverter-integrated electric compressor which comprises a built-in motor and a substrate provided with a motor drive circuit including an inverter, an electric component including the substrate being affixed in a housing space surrounded by a compressor housing, wherein a plurality of power semiconductor elements which constitute the motor drive circuit are disposed radially around a drive shaft of the motor in a plane crossing the drive shaft. For example, the planar shape of the power semiconductor element is formed into a rectangle, and a gap having a sectorial planar shape is formed between the power semiconductor elements adjacent to each other. | 03-29-2012 |
Patent application number | Description | Published |
20120262784 | METHOD FOR MANUFACTURING ARRAY SUBSTRATE AND ARRAY SUBSTRATE, AND METHOD FOR MANUFACTURING SCREEN AND SCREEN - A method for manufacturing an array substrate includes forming a plurality of holes in a film shape substrate having thermal plasticity, in which the holes have a diameter of 0.25 times to 2 times a thickness of the substrate, and a pitch of 5 times to 40 times the diameter of the holes; and heating a molding member provided with a plurality of convex portions or concave portions in an array pattern, pressing the substrate provided with the plurality of holes, and transferring the plurality of convex portions or concave portions to the substrate. | 10-18-2012 |
20120275020 | METHOD OF MANUFACTURING ARRAY SUBSTRATE, ARRAY SUBSTRATE, METHOD OF MANUFACTURING SCREEN, AND SCREEN - A plurality of convex portions, or concave portions which is transferred in an array shape, and a groove are transferred with respect to the substrate having thermoplasticity by a mold member having shapes of the convex portion, or the concave portion, and a protruding portion as the groove, and substrate transfer processing is included, in which the convex portion, or concave portion, and a protruding portion which are formed in the mold member are transferred to the substrate by pressing the mold member to the substrate. | 11-01-2012 |
Patent application number | Description | Published |
20130163078 | Autostereoscopic Display Apparatus - A display device is configured so that color pixels of a plurality of colors are formed in a longitudinal stripe shape. A lenticular lens is arranged on the display device, in which a periodical direction thereof is inclined with respect to the horizontal direction of the display device. A display position adjustment unit shifts a projected image data in predetermined pixel shift amounts of the respective horizontal and vertical directions including the pixel shift amount of 0, in a unit of one pixel defined by each of the color pixels of the plurality of colors in the horizontal direction of the display device and in a unit of each of the color pixels in the vertical direction thereof. A driving unit drives the display device to display the projected image data thereon. | 06-27-2013 |
20130194398 | AUTOSTEREOSCOPIC DISPLAY APPARATUS - An autostereoscopic display apparatus includes a two-dimensional display including color subpixels arranged in horizontal and vertical directions, cylindrical lenses configured to observe the color subpixels therethrough, a temperature sensor measuring an ambient temperature of the cylindrical lenses, and a parallax image changer changing the parallax images based on the measured ambient temperature. px is a horizontal pixel pitch. py is a vertical pixel pitch. Lx is a horizontal lens pitch. θ is an inclined angle of boundaries of the cylindrical lenses to the vertical direction. Ax and Ay are relatively prime natural numbers. Ax is equal to or larger than two. Bx is a minimum natural number by which a value GF indicated in the formula (2) represents an integer value. px, py, Lx and θ satisfy relational expressions represented by the formula (1) to the formula (3). | 08-01-2013 |
20130208356 | AUTOSTEREOSCOPIC DISPLAY APPARATUS - An autostereoscopic display apparatus includes a display in which color pixels of different colors are periodically arranged in a horizontal direction and color pixels of an identical color are arranged in a vertical direction, and a plurality of cylindrical lenses placed on the display and arranged parallel to each other, through which the color pixels are magnified and observed. When a pixel pitch of the color pixels in the horizontal direction is defined as px, a lens pitch of the cylindrical lenses is defined as L, an inclined angle of boundaries of the cylindrical lenses with respect to the vertical direction is defined as θ, and m is a positive integer, px, L and θ fulfill the formula (1). | 08-15-2013 |
20130265640 | NAKED-EYE STEREOSCOPIC DISPLAY APPARATUS - A naked-eye stereoscopic display apparatus satisfies θ=arctan {(Ax·px)/(Ay·py)}, GF=Bx·Lx/px, Ay≧2 and Bx≧2, Lx=α·px+β·py·tan θ, and GH=(α·px) | 10-10-2013 |
20130278736 | NAKED-EYE STEREOSCOPIC DISPLAY APPARATUS - A plurality of pixels is arrayed on a display device. On the display device, a lenticular lens is arranged in a state where a periodic direction thereof is inclined with respect to a horizontal direction. The lenticular lens divides video data of N different viewpoints into separate viewpoint directions, presents the divided video data, and creates stereoscopic vision. In the event of assigning respective pieces of pixel data of video data composed of less than N viewpoint images to the plurality of pixels and displaying the pixel data, the drive unit lowers brightness of pixel data of viewpoint images seen to overlap each other. | 10-24-2013 |
20130293691 | NAKED-EYE STEREOSCOPIC DISPLAY APPARATUS, VIEWPOINT ADJUSTMENT METHOD, AND NAKED-EYE STEREOSCOPIC VISION-READY VIDEO DATA GENERATION METHOD - On a display device, a lenticular lens is arranged in a state where a periodic direction thereof is inclined with respect to the horizontal direction. Within a maximum predetermined viewing angle defined by two viewpoint images with the largest parallax, a viewpoint adjustment unit sets a first angular region where there is a high possibility that one or more eyes may be present when an observer observes the display device, and a second angular region where there is a low possibility that one or more eyes may be present. The viewpoint adjustment unit adjusts the viewpoints so that a parallax between adjacent viewpoint images in viewpoint images to be presented in the first angular region is reduced more than a parallax between adjacent viewpoint images in viewpoint images to be presented in the second angular region. | 11-07-2013 |
20140043394 | PRINTING APPARATUS - An embodiment of this invention is directed to a printing apparatus capable of providing an output result without a printing density difference between two surfaces in two-sided printing. In the printing apparatus, one subtank is provided for each type of ink. The nozzles of printheads that receive inks supplied from the subtank and are used for printing of the front surface of a printing sheet and printing of the back surface, respectively, are aligned to almost the same level in the vertical direction, thereby making the water head pressures match. | 02-13-2014 |
20140204144 | PRINTING APPARATUS - An object of the present invention is to provide a printing apparatus, in which a time required for printing is shortened. The printing apparatus includes a first printing unit that performs printing on a first surface of a sheet by an ink jet system; and a second printing unit that performs printing on a second surface of the sheet by the ink jet system, the second printing unit being disposed on a downstream side of the first printing unit. Moreover, the printing apparatus includes a sheet discharge sensor that detects the sheet to be discharged from the second printing unit. The sheet discharge sensor includes an arm having a rotating member supported thereon, the rotating member being brought into contact with the sheet being conveyed while being rotated. | 07-24-2014 |