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    • 1. 发明专利
    • Scroll compressor
    • 滚动压缩机
    • JP2012127240A
    • 2012-07-05
    • JP2010278524
    • 2010-12-14
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • HAYASHI NORIYUKIKAGIMOTO YOSHIMIHAMAMOTO YOSHITAKANODA YOSHITOMOAKIYAMA AKIRAKAMATA KEITAROTAKEUCHI HIROAKITAKEUCHI MASAMITSUHAGITA TAKAYUKI
    • F04C18/02F04C29/00
    • PROBLEM TO BE SOLVED: To reduce uneven contact surface pressure applied to a bearing part that supports a rotary scroll.SOLUTION: A scroll compressor includes a fixed scroll provided with a spiral fixed side wrap, on the inner surface of a fixed side end plate, a rotary scroll provided with a spiral movable side wrap to be meshed with the fixed side wrap of the fixed scroll, on the inner surface of a movable side end plate, a rotary shaft having an eccentric shaft part 36 provided eccentric to the shaft center, and a bearing part 44 provided between the eccentric shaft part 36 of the rotary shaft and the rotary scroll to transmit the eccentric rotation associated with the rotation of the rotary shaft to the rotary scroll, and further includes an elastic supporting means 431 for supporting the rotary scroll by an elastic force produced in the radial direction of the revolution turn in the rotary scroll.
    • 要解决的问题:减少施加到支撑旋转涡旋件的轴承部分的不均匀的接触表面压力。 解决方案:一种涡旋式压缩机,包括在固定侧端板的内表面上设置有螺旋固定侧涡卷的固定涡旋盘,设置有可旋转的可动侧涡卷的旋转涡旋盘, 在可动侧端板的内表面上的固定涡旋件,具有偏心于轴心的偏心轴部36的旋转轴和设置在旋转轴的偏心轴部36和旋转轴之间的轴承部44 涡卷将与旋转轴的旋转相关联的偏心旋转传递到旋转涡旋件,并且还包括弹性支撑装置431,用于通过在旋转涡旋件中的旋转方向的径向方向上产生的弹力来支撑旋转涡旋。 版权所有(C)2012,JPO&INPIT
    • 2. 发明专利
    • 回転機械
    • 旋转机
    • JP2015017590A
    • 2015-01-29
    • JP2013146667
    • 2013-07-12
    • 三菱重工業株式会社Mitsubishi Heavy Ind Ltd
    • KAMATA KEITAROKAGIMOTO YOSHIMIYUSHIMO ATSUSHIHAYASHI TOSHIKAZUNISHIDA HIDEAKI
    • F04B9/02F03C1/013F04B53/00F16H21/18F16J1/24
    • 【課題】回転軸とピストンとの間に設けられる機械要素からピストンに加わるサイドフォース及びモーメント荷重を低減しうる回転機械を提供する。【解決手段】回転機械は、回転軸と、ピストンと、シリンダと、前記ピストンの前記シリンダ軸方向に沿った往復運動と前記回転軸の回転運動との間で運動モードを変換するように構成された機械要素と、を備え、前記機械要素が、前記回転軸に連動して移動可能に前記回転機械の静止部に支持された移動部と、前記ピストンと前記移動部との間に設けられる中間部と、前記中間部と前記移動部との間に設けられるスライド部と、前記ピストンと前記中間部との間に設けられる傾動許容部と、を含む。前記傾動許容部は、前記ピストンに対する前記中間部の相対的な傾動を許容する。【選択図】図2
    • 要解决的问题:提供一种能够从设置在旋转轴和活塞之间的机械元件减少添加到活塞的侧力和力矩载荷的旋转机械。旋转机械包括旋转轴,活塞,气缸 以及机构元件,其构造成在沿活塞的缸轴向的往复运动与旋转轴的旋转运动之间转换运转模式。 所述机器元件包括由所述旋转机械的静止部分与所述旋转轴一起可移动地支撑的移动部分,设置在所述活塞和所述移动部分之间的中间部分,设置在所述中间部分和所述移动部分之间的滑动部分,以及 设置在所述活塞和所述中间部之间的倾斜允许部。 倾斜允许部分允许中间部分相对于活塞的相对倾斜。
    • 4. 发明专利
    • Cylinder drive device
    • 气缸驱动装置
    • JP2010168996A
    • 2010-08-05
    • JP2009012280
    • 2009-01-22
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • KAMATA KEITAROYUSHIMO ATSUSHI
    • F03D7/04
    • F03D7/0224F01D17/26F05B2260/502F05B2270/1074F05B2270/604F05D2260/52F05D2270/094F05D2270/64Y02E10/723
    • PROBLEM TO BE SOLVED: To provide a cylinder drive mechanism of a wind power generation system having a simple structure capable of appropriately controlling a pitch angle of a moving blade during a power failure.
      SOLUTION: The cylinder drive mechanism includes a piston connected with the moving blade, the cylinder for moving the piston by hydraulic pressure, an energizing member arranged in the cylinder for energizing the piston in one direction, an accumulator connected with the cylinder for supplying a hydraulic fluid for energizing the piston in a direction opposite to the direction energized by the energizing member and an on/off valve for controlling opening and closing of a flow passage between the accumulator and the cylinder.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 解决的问题:提供一种风力发电系统的气缸驱动机构,其具有能够在停电期间适当地控制动叶片的俯仰角的简单结构。 解决方案:气缸驱动机构包括与动叶连接的活塞,用于通过液压移动活塞的气缸,设置在气缸中的激励构件,用于沿一个方向对活塞通电,与气缸连接的蓄能器, 供给液压流体,用于使活塞向与通电部件通电的方向相反的方向通电;以及开闭阀,用于控制蓄能器与气缸之间的流路的开闭。 版权所有(C)2010,JPO&INPIT
    • 5. 发明专利
    • Thrust bearing and rotary machine
    • 推力轴承和旋转机
    • JP2013113412A
    • 2013-06-10
    • JP2011262438
    • 2011-11-30
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • NISHIDA HIDEAKISHIRAISHI KEIICHIKAMATA KEITARO
    • F16C17/04F02B39/00F02B39/14
    • F16C17/047F16C17/045F16C33/1075F16C2360/24
    • PROBLEM TO BE SOLVED: To provide a thrust bearing which enables miniaturization of bearing size and lowering of a bearing loss, while preventing damage by improving a load capacity of the thrust bearing.SOLUTION: The thrust bearing includes a thrust disk 30 which integrally rotates with a rotation shaft and a stationary side disk prepared to face the thrust disk 30, wherein the stationary side disk has a flat surface, and a taper land is formed on the bearing surface of the thrust disk 30 facing the stationary side disk. The taper land includes a plurality of pairs of oil supply grooves 33 which narrow a cross section area radially outward, tapered parts 32 which form a sloping surface which shallow gradually from the oil supply groove 33 toward the rotating direction, and land parts 31 of a flat surface parallel to the stationary side disk prepared continuously at the rear side of the rotating direction of the tapered parts 32, the pairs being circumferentially and sequentially arranged.
    • 要解决的问题:提供一种能够使轴承尺寸小型化并降低轴承损耗的推力轴承,同时通过提高推力轴承的承载能力来防止损坏。 解决方案:推力轴承包括与旋转轴一体地旋转的止推盘30和准备面向止推盘30的固定侧盘,其中固定侧盘具有平坦表面,并且在 推力盘30的轴承表面面向固定侧盘。 锥形台面包括多个使供给槽径向向外变窄的供油槽33,形成从供油槽33向旋转方向逐渐变浅的倾斜面的锥形部32,以及 平行于在锥形部32的旋转方向的后侧连续配置的固定侧盘的平面,该对沿周向顺序地排列。 版权所有(C)2013,JPO&INPIT
    • 6. 发明专利
    • Bearing device for turbocharger
    • 涡轮增压器轴承装置
    • JP2013011251A
    • 2013-01-17
    • JP2011145796
    • 2011-06-30
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • KAMATA KEITARO
    • F02B39/00
    • F04D29/046F01D25/166F01D25/186F02B39/14F05D2220/40F16C17/02F16C17/18F16C33/1075F16C33/1085F16C2360/24
    • PROBLEM TO BE SOLVED: To reduce friction loss during low-speed rotation and increase supercharging pressure in a low-speed rotational range of a turbocharger by providing a pressure-receiving section, which generates pressure by catching a flow of lubricating oil, at a position on an inner peripheral surface of a floating bushing not communicating with an oil supply hole that interconnects inner and outer peripheral surfaces of the floating bushing so as to cause the floating bushing to co-rotate with a rotor shaft in an early time period of the low-speed rotational range.SOLUTION: This bering device includes: a bearing housing 13 having a bearing 13d of the turbocharger 1; a rotor shaft 16 passing through the interior of the bearing housing 13; and the floating bushing 19 interposed between the bearing 13d and the rotor shaft 16 and structured such that the lubricating oil is supplied to the outer peripheral surface 19b and the inner peripheral surface 19c via the oil supply hole 19a that interconnects the outer peripheral surface 19b and the inner peripheral surface 19c. The device includes the pressure-receiving section 25, which generates pressure by catching the flow of the lubricating oil, at a position on the inner peripheral surface 19c of the floating bushing 19 not communicating with the oil supply hole 19a.
    • 要解决的问题:为了减少低速旋转期间的摩擦损失,并且通过提供通过捕获润滑油的流动来产生压力的压力接收部分来增加涡轮增压器的低速旋转范围中的增压压力, 在浮动衬套的内周面上的与供油孔连通的位置,该供油孔与浮动衬套的内周面和外周面相互连接,从而使浮动衬套与早期转子轴共同转动 的低速旋转范围。 该配音装置包括:具有涡轮增压器1的轴承13d的轴承壳体13; 通过轴承壳体13的内部的转子轴16; 以及插入在轴承13d和转子轴16之间的浮动衬套19,并且构造成使得润滑油经由将外周面19b与外周面19b相互连接的供油孔19a供给到外周面19b和内周面19c 内周面19c。 该装置包括在不与供油孔19a连通的浮动衬套19的内周面19c上的位置处,通过捕捉润滑油的流动而产生压力的受压部25。 版权所有(C)2013,JPO&INPIT
    • 8. 发明专利
    • Scroll compressor
    • 滚动压缩机
    • JP2012132314A
    • 2012-07-12
    • JP2010282355
    • 2010-12-17
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • HAYASHI NORIYUKIKAGIMOTO YOSHIMIHAMAMOTO YOSHITAKANODA YOSHITOMOAKIYAMA AKIRAKAMATA KEITAROTAKEUCHI HIROAKITAKEUCHI MASAMITSUHAGITA TAKAYUKI
    • F04C18/02
    • PROBLEM TO BE SOLVED: To improve load capability by dynamic pressure that receives thrust load of a turning scroll and to promote supply of the lubricating oil between the turning scroll and the thrust surface.SOLUTION: A scroll compressor 1 having a fixed scroll 41 in which a scroll shaped fixed side wrap 412 is arranged in the inner surface of a fixed side end plate 411, a turning scroll 42 in which a scroll shaped movable side wrap 422 bitten with the fixed side wrap 412 of the fixed scroll 41 in the inner face of a movable side end plate 421, and a thrust surface 45a with which the outer surface of the movable side end plate 421 slidably coming into contact, has a lubricating oil introducing means (taper surface 46) for introducing lubricating oil to a slidably contact part of the turning scroll 42 and the thrust surface 45a along with the movability of the turning scroll 42.
    • 要解决的问题:通过接受转动涡卷的推力负载的动态压力来提高负载能力,并促进在转动涡旋件和推力表面之间供应润滑油。 解决方案:一种具有固定涡旋件41的涡旋压缩机1,其中在固定侧端板411的内表面中布置有涡旋形固定侧包裹体412,转动涡旋件42,涡旋形可动侧涡卷422 与可动侧端板421的内表面中的固定涡卷41的固定侧包裹物412咬合,可动侧端板421的外表面可滑动地接触的推力面45a具有润滑油 引导装置(锥形表面46),用于将润滑油引导到转动涡卷42和推力表面45a的滑动接触部分以及转动涡卷42的可移动性。(C)2012年,JPO&INPIT
    • 9. 发明专利
    • Scroll compressor
    • 滚动压缩机
    • JP2012127241A
    • 2012-07-05
    • JP2010278525
    • 2010-12-14
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • HAYASHI NORIYUKIKAGIMOTO YOSHIMIHAMAMOTO YOSHITAKANODA YOSHITOMOAKIYAMA AKIRAKAMATA KEITAROTAKEUCHI HIROAKITAKEUCHI MASAMITSUHAGITA TAKAYUKI
    • F04C18/02F04C29/00
    • PROBLEM TO BE SOLVED: To absorb the thermal expansion difference between a housing and a bearing.SOLUTION: A scroll compressor includes a fixed scroll provided with a spiral fixed side wrap, on the inner surface of a fixed side end plate, a rotary scroll provided with a spiral movable side wrap to be meshed with the fixed side wrap of the fixed scroll, on the inner surface of a movable side end plate, a rotary shaft 33 for driving the rotary scroll, a housing 2 for accommodating the fixed scroll, the rotary scroll and the rotary shaft 33, and a bearing 34 mounted to the housing 2 side to rotatably support the rotary shaft 33, and further includes a bearing supporting member 6 disposed on the mounting part to the housing 2 side of the bearing 34 and formed of a material which is less thermally deformed than the housing 2.
    • 要解决的问题:吸收壳体和轴承之间的热膨胀差异。 解决方案:一种涡旋式压缩机,包括在固定侧端板的内表面上设置有螺旋固定侧涡卷的固定涡旋盘,设置有可旋转的可动侧涡卷的旋转涡旋盘, 可动侧端板的内表面上的固定涡旋盘,用于驱动旋转涡旋盘的旋转轴33,用于容纳固定涡旋盘,旋转涡旋盘和旋转轴33的壳体2以及安装在旋转涡旋盘33上的轴承34。 壳体2侧可旋转地支撑旋转轴33,并且还包括轴承支撑构件6,该轴承支撑构件6设置在轴承34的壳体2的安装部分上,并且由比壳体2更少的热变形的材料形成。

      版权所有(C)2012,JPO&INPIT

    • 10. 发明专利
    • Boiler device
    • 锅炉装置
    • JP2011106790A
    • 2011-06-02
    • JP2009265175
    • 2009-11-20
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • DAIMARU TAKUICHIROARIGA TAKESHIFUJIMURA KOTAROYAMAUCHI TOMOHIROKAMATA KEITAROMATSUDA MASAHIKO
    • F23C9/06F22B35/00F23C1/06F23L7/00F23N5/00
    • Y02E20/328Y02E20/344
    • PROBLEM TO BE SOLVED: To provide a boiler device enabled in mixed combustion having an improved mixed combustion ratio of biomass by lowering the fineness of coal and the biomass. SOLUTION: The boiler device in which mixed and pulverized coal and the biomass are charged to an oxygen/carbon dioxide combustion boiler to burn the coal and biomass at a high oxygen concentration includes a measuring device 50 for an unburned quantity in ash for measuring the unburned quantity in ash discharged from a coal burning boiler 20 which is the oxygen/carbon dioxide combustion boiler. In accordance with the measurement value of the unburned quantity in the ash, a combustion exhaust gas circulation amount returned to the upstream side of the coal burning boiler 20 and/or an oxygen distribution ratio of the coal burning boiler 20 with respect to primary air and secondary air is controlled. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:通过降低煤和生物质的细度,提供具有改善的生物质混合燃烧比的混合燃烧中的锅炉装置。 解决方案:将混合粉煤和生物质装入氧/二氧化碳燃烧锅炉以将氧气浓度高的煤和生物质燃烧的锅炉装置包括用于灰分未燃量的测量装置50 测量从作为氧/二氧化碳燃烧锅炉的燃煤锅炉20排出的灰的未燃烧量。 根据灰分中的未燃量的测量值,返回到燃煤锅炉20的上游侧的燃烧废气循环量和/或燃煤锅炉20相对于一次空气的氧分配比,以及 二次空气被控制。 版权所有(C)2011,JPO&INPIT