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    • 1. 发明专利
    • Dc brushless motor
    • 直流无刷电机
    • JP2014099973A
    • 2014-05-29
    • JP2012249805
    • 2012-11-14
    • Mitsubishi Electric Corp三菱電機株式会社
    • YABUUCHI HIRONORIKOBAYASHI SHINJI
    • H02K5/08
    • PROBLEM TO BE SOLVED: To provide a DC brushless motor which allows for enhancement of sealability in a mold section without complicating the structure.SOLUTION: A DC brushless motor includes a substantially cylindrical stator 9 generating a rotating magnetic field, a rotor 12 arranged in the stator 9 and rotating with the same period as that of the rotating magnetic field, a mold section 5 covering at least the stator 9, and a bracket 16 to which a leg 5b, provided on the outer periphery of the mold section 5, is fixed. The mold section 5 has an opening 5a on one side in the axial direction of the rotor 12, and the bracket 16 is provided with a fitting portion 16c being fitted in the opening 5a.
    • 要解决的问题:提供一种直流无刷电动机,其能够提高模具部分的密封性,而不会使结构复杂化。解决方案:直流无刷电动机包括产生旋转磁场的大致圆柱形的定子9, 定子9并旋转与旋转磁场的周期相同的周期,至少覆盖定子9的模具部分5和设置在模具部分5的外周上的腿部5b固定在其上的托架16 。 模具部5在转子12的轴向的一侧具有开口部5a,并且托架16设置有嵌合在开口5a中的嵌合部16c。
    • 2. 发明专利
    • Combined system of air conditioning device and hot-water supply device
    • 空调装置和热水供应装置的组合系统
    • JP2010236817A
    • 2010-10-21
    • JP2009086579
    • 2009-03-31
    • Mitsubishi Electric Corp三菱電機株式会社
    • TANAKA KOYUKAMEYAMA JUNICHITAKASHITA HIROBUMIYABUUCHI HIRONORI
    • F25B29/00F24H1/00F25B7/00
    • F25B13/00F24D17/001F24D17/02F24D19/1072F24D2200/31F24F2005/0025F24F2005/0028F24H6/00F25B7/00F25B2313/0272F25B2313/02742Y02B30/123Y02B30/126
    • PROBLEM TO BE SOLVED: To provide a combined system of an air conditioning device and a hot-water supply device achieving convenience, comfort and energy-saving by simultaneously and stably providing air-conditioning (heating or cooling) and hot-water supply. SOLUTION: This combined system of the air conditioning device and the hot-water supply device includes a refrigeration cycle for air conditioning, including a heat source machine A, an indoor unit B, a hot-water supply heat source circuit D provided with a refrigerant-to-refrigerant heat exchanger 41 and a throttle means 119 for a hot water supply heat source, and a branch unit C for dividing a refrigerant flowing to the indoor unit and the hot-water supply heat source circuit in a state of connecting the indoor unit to the hot-water supply heat source circuit in parallel, and connected with the heat source machine by at least two connection pipes 106, 107 through the branch unit, and a hot-water supply refrigeration cycle formed by connecting a hot-water supply compressor, a heat medium-to-refrigerant heat exchanger, a throttle means for hot water supply, and the refrigerant-to-refrigerant heat exchanger in series. The air conditioning refrigeration cycle and the hot-water supply refrigeration cycle are connected in such a manner that an air conditioning refrigerant and a hot-water supply refrigerant are subjected to heat exchange by the refrigerant-to-refrigerant heat exchanger. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种空调装置和热水供应装置的组合系统,通过同时且稳定地提供空调(加热或冷却)和热水来实现便利,舒适和节能 供应。 解决方案:空调装置和热水供应装置的组合系统包括一个用于空调的制冷循环,包括一个热源机A,一个室内机B,一个设置有热水供应热源电路D 具有制冷剂 - 制冷剂热交换器41和用于热水供应源的节流装置119,以及分支单元C,用于将流到室内单元的制冷剂和热水供应热源电路分为 将室内机与热水供热源电路并联连接,并通过分支单元与至少两个连接管106,107与热源机连接,通过将热水连接而形成的热水供给制冷循环 - 供水压缩机,热介质 - 制冷剂热交换器,用于热水供应的节流装置和制冷剂 - 制冷剂热交换器串联。 空调制冷循环和热水供给制冷循环以空调制冷剂和热水供给制冷剂通过制冷剂对制冷剂的热交换器进行热交换的方式连接。 版权所有(C)2011,JPO&INPIT
    • 3. 发明专利
    • Storage water heater
    • 储水加热器
    • JP2008292020A
    • 2008-12-04
    • JP2007135890
    • 2007-05-22
    • Mitsubishi Electric Corp三菱電機株式会社
    • HONJO YASUSHIMATSUYAMA TETSUYASAKUMA TOSHIYUKITOYOSHIMA MASAKIYABUUCHI HIRONORI
    • F24D17/00F24H1/18
    • PROBLEM TO BE SOLVED: To obtain a storage water heater capable of easily suppressing fluctuation of the temperature of hot water supplied to a hot water supply destination to which hot water supply is started first even when hot water supply to the other hot water supply destination is started in the middle of hot water supply to the first hot water supply destination. SOLUTION: In the storage water heater 20, first and second hot water and water mixing valves 9a, 9b are provided in a hot water supply pipe line 7 for sending hot water from a hot water storage tank 1 to first and second hot water supply destinations, and hot water temperatures at the respective hot water supply destinations are controlled by controlling openings of the respective hot water and water mixing valves 9a, 9b by a control part 15. When hot water supply to the second hot water supply destination is started in the middle of hot water supply to the first hot water supply destination, the control part 15 corrects the opening of the first hot water and water mixing valve by using temperatures of hot water and water sent to the respective hot water and water mixing valves 9a, 9b, a detection result of a flow rate sensor 11a arranged on the downstream side of the first hot water and water mixing valve, the temperature of hot water supplied to the first hot water supply destination, the start opening of the second hot water and water mixing valve and information indicating a relationship between the opening of the first hot water and water mixing valve and detection temperature of a temperature sensor 13c during simultaneous supply of hot water to the respective hot water supply destinations. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了获得能够容易地抑制供应到热水供应的热水供应目的地的热水的温度的波动的储水式热水器,即使在向另一热水供应热水时, 供应目的地是在第一个热水供应目的地的热水供应中间开始。 解决方案:在储存热水器20中,第一和第二热水和水混合阀9a,9b设置在热水供应管线7中,用于将热水从热水储存箱1送到第一和第二热 通过控制部15控制各个热水和水混合阀9a,9b的开口来控制各个热水供应目的地的供水目的地和热水温度。当对第二热水供应目的地的热水供应是 在第一热水供应目的地的热水供应中间开始,控制部分15通过使用热水和水的温度来校正第一热水和水混合阀的打开,该温度被送到相应的热水和水混合阀 如图9a,9b所示,布置在第一热水和水混合阀的下游侧的流量传感器11a的检测结果,供应到第一热水供给目的地的热水的温度 离子,第二热水和水混合阀的开始打开和表示第一热水和水混合阀的打开之间的关系的信息以及同时向各个热水供应热水的温度传感器13c的检测温度的信息 供应目的地。 版权所有(C)2009,JPO&INPIT
    • 5. 发明专利
    • Heat exchanger and refrigerating air conditioner
    • 热交换器和制冷空调
    • JP2010175158A
    • 2010-08-12
    • JP2009019049
    • 2009-01-30
    • Mitsubishi Electric Corp三菱電機株式会社
    • YOSHIMURA SUSUMUSATAKE SACHIHIKOTSUSHIMA HIROYUKIYABUUCHI HIRONORIHATOMURA SUGURUSEKIYA TAKUNAKADEGUCHI SHINJI
    • F28D7/00F28F1/02
    • F28D7/0033
    • PROBLEM TO BE SOLVED: To obtain a heat exchanger improving heat transfer performance without increasing production cost and an efficient refrigerating air conditioner.
      SOLUTION: The heat exchanger includes a flat first flat tube 1 having a plurality of first refrigerant passages 1a which are formed inside and where a first refrigerant is made to flow, and a flat second flat tube 2 having second refrigerant flow passages 2a where a second refrigerant is made to flow. The first and second flat tubes 1, 2 are arranged so that the refrigerant flowing directions become in parallel, and the first flat tube 1 is bent so that the entire cross sectional shape in the direction vertical to the flowing direction of the first refrigerant is along the outer shape of the second flat tube 2.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:为了获得提高传热性能而不增加生产成本的热交换器和有效的制冷空调。 解决方案:热交换器包括平坦的第一扁平管1,其具有形成在内部并且第一制冷剂流动的多个第一制冷剂通道1a和具有第二制冷剂流动通道2a的扁平的第二扁平管2 其中使第二制冷剂流动。 第一和第二扁平管1,2被布置成制冷剂流动方向平行,并且第一扁平管1被弯曲,使得沿与第一制冷剂的流动方向垂直的方向上的整个横截面形状沿着 第二扁平管2的外形。版权所有(C)2010,JPO&INPIT
    • 8. 发明专利
    • Automatic hot water supply device
    • 自动热水设备
    • JP2011127897A
    • 2011-06-30
    • JP2011076458
    • 2011-03-30
    • Mitsubishi Electric Corp三菱電機株式会社
    • TOYOSHIMA MASAKIYABUUCHI HIRONORIISE SHINSUKEYAMASHITA KOJIMATSUOKA FUMIOMATSUYAMA TETSUYAHONJO YASUSHISAKUMA TOSHIYUKIYANAGIMOTO KEI
    • F24D17/00
    • PROBLEM TO BE SOLVED: To provide an automatic hot water supply device capable of stably controlling a hot water supply temperature from a mixing valve (for example, shower) of high priority, even when a driving condition of the mixing valve (for example, shower) of high priority is changed.
      SOLUTION: In this automatic hot water supply device including a plurality of mixing valves (general hot water supply-side mixing valve 2a, bath hot water supply-side mixing valve 2b) for mixing hot water from a hot water flow channel and water from a water flow channel, and supplying hot water from a hot water supply passage, temperature sensors 12a-12d respectively detecting a fluid temperature of the hot water flow channel, a fluid temperature of the water flow channel and a fluid temperature of the hot water supply passage, and a control section 10 for controlling the mixing valves on the basis of results of detections by the temperature sensors 12a-12d and data input in advance, the control section 10 corrects controlled variable of the mixing valves on the basis of openings of the mixing valves and a ratio of flow rates of hot water and water of the fluid supplied from the mixing valves.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 解决的问题:为了提供能够从高优先级的混合阀(例如淋浴)稳定地控制热水供应温度的自动热水供应装置,即使当混合阀的驱动条件(用于 例如,淋浴)高优先级改变了。 解决方案:在这种自动热水供应装置中,包括用于混合来自热水流动通道的热水的多个混合阀(一般热水供给侧混合阀2a,浴热水供应侧混合阀2b) 来自水流通道的水,并且从热水供应通道供应热水,分别检测热水流路的流体温度的温度传感器12a-12d,水流通道的流体温度和热流道的流体温度 供水通道,以及用于基于温度传感器12a-12d的检测结果和预先输入的数据来控制混合阀的控制部分10,控制部分10基于开口来校正混合阀的控制变量 的混合阀和从混合阀供给的流体的热水和水的流量比。 版权所有(C)2011,JPO&INPIT
    • 10. 发明专利
    • モータ及び空気調和装置
    • 电机和空调
    • JP2015019514A
    • 2015-01-29
    • JP2013145541
    • 2013-07-11
    • 三菱電機株式会社Mitsubishi Electric Corp
    • KOBAYASHI SHINJIYABUUCHI HIRONORIKAWANORI YUKIHIKOHAYASHI TOMOKI
    • H02K5/10H02K5/16H02K11/00
    • 【課題】ロータの絶縁部材に形成された凹部への液体の残留を抑制するモータ及びそのモータを有する空気調和装置を提供する。【解決手段】モータは、シャフト7と、シャフト7に固定され、永久磁石31を有するロータ11と、ロータ11を収納し、回転磁界を発生するステータ12と、を備え、ロータ11は、シャフト7に締結された内周側ロータ33と、ロータ11の外周部を構成し、永久磁石31を保持する外周側ロータ32と、絶縁体によって形成され、内周側ロータ33と外周側ロータ32との間に設けられた絶縁部材34と、を備え、絶縁部材34は、シャフト7の軸方向に窪んだ凹部35が形成され、凹部35の外周側ロータ32側の壁面35aは、シャフト7の軸に対して傾斜していることを特徴とする。【選択図】図5
    • 要解决的问题:提供一种防止液体残留在形成在转子的绝缘部件上的凹部中的电动机和具有电动机的空调机。解决方案:电动机包括轴7,固定到 轴7并且包括永磁体31和容纳转子11并产生旋转磁场的定子12。 转子11包括紧固到轴7的内周侧转子33,构成转子11的外周部并保持永磁体31的外周侧转子32和由绝缘体构成的绝缘部件34 在内周侧转子33和外周侧转子32之间形成凹部35。在绝缘部件34上形成有沿轴向轴线方向凹入的凹部35.凹部35的外周侧的壁面35a 侧转子32相对于轴7的轴线倾斜。