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    • 1. 发明专利
    • Heating system
    • 加热系统
    • JP2014142100A
    • 2014-08-07
    • JP2013009906
    • 2013-01-23
    • Denso Corp株式会社デンソー
    • KUME YOSHITAKA
    • F25B1/00F24F7/08F25B27/02
    • F24D17/02F24D5/04F24D5/12F24D11/0257F24D11/0264F24D17/0021F24D19/106F24D19/1093F24D2200/123F24D2200/14F24D2200/22F25B6/04F25B30/02F25B2339/047Y02B10/20Y02B10/70Y02B30/126Y02B30/52
    • PROBLEM TO BE SOLVED: To provide a heating system capable of sufficiently heating supplied air supplied from an outside of a room into a heating target space without entailing reduction in a performance factor of a heat pump cycle.SOLUTION: A heating system comprises: a ventilation heat exchanger 34 that causes heat exchange between exhaust heat discharged from a room that is a heating target space to an outside of the room; a high-temperature-side heater core 35 heating the supplied air flowing from the ventilation heat exchanger 34; and a low-temperature-side heater core 36 heating the supplied air flowing into the ventilation heat exchanger 34. The high-temperature-side heater core 35 heats the supplied air flowing from the ventilation heat exchanger 34 with a heat medium heated by refrigerant discharged from a compressor 11 of a heat pump cycle 10 being used as a heat source. The low-temperature-side heater core 36 decreases a temperature of a heat medium that exchanges heat with the refrigerant flowing into an electric expansion valve 13 of the heat pump cycle 10, and heats the supplied air flowing into the ventilation heat exchanger 34.
    • 要解决的问题:提供一种加热系统,其能够将从室外供给的供给空气充分地加热到加热目标空间,而不会降低热泵循环的性能因素。解决方案:加热系统包括:通风 热交换器34,其将从作为加热目标空间的房间排出的废热与室外进行热交换; 加热从通风换热器34流出的供给空气的高温侧加热器芯35; 以及加热流入通风用热交换器34的供给空气的低温侧加热器芯36.高温侧加热器芯35通过由排出的制冷剂加热的热介质来加热从通风换热器34流出的供给空气 来自用作热源的热泵循环10的压缩机11。 低温侧加热器芯36降低与流入热泵循环10的电动膨胀阀13的制冷剂进行热交换的热介质的温度,并加热流入通风换热器34的供给空气。
    • 3. 发明专利
    • Cogeneration apparatus
    • 加工设备
    • JP2009050073A
    • 2009-03-05
    • JP2007212981
    • 2007-08-17
    • Honda Motor Co Ltd本田技研工業株式会社
    • YURI NOBUYUKI
    • H02P9/04F01P3/20F02B63/04F02G5/04
    • F24D5/04F24D11/002F24D11/006F24D19/1009F24D19/1084Y02E20/14Y02P80/15
    • PROBLEM TO BE SOLVED: To self-diagnose output voltage of a battery or the like in a cogeneration apparatus having a power generator connectable with a feed line of AC power from a commercial power system to an electric load, an internal combustion engine driving the power generator and a power generation unit formed of a battery. SOLUTION: The cogeneration apparatus is provided with the power generator connectable with the feed line of AC power from a commercial power supply to the electric load, the internal combustion engine driving the power generator and the power generation unit formed of the battery. Warm water is generated by exhaust heat of the internal combustion engine, and it is supplied to a hot water storage tank unit. When it is judged whether it is predetermined self-diagnosis time or not (S10) and it is judged to be predetermined self-diagnosis time, the power generation unit is operated by output of the battery. Self-diagnosis is performed on output voltage of the battery, or number of rotations of the internal combustion engine or output of the power generator (S12 to S14). COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了在具有与商用电力系统的交流电源的电力负载连接的发电装置的电力发电装置的电热装置中自动诊断电池等的输出电压,内燃机 驱动发电机和由电池形成的发电单元。 解决方案:热电联产设备具有与商用电源到电负载的交流电源馈电线连接的发电装置,驱动发电机的内燃机和由电池形成的发电单元。 温水由内燃机的排气产生,并被供给到储热水箱。 当判断是否是预定的自诊断时间(S10)并且判断为预定的自诊断时间时,通过电池的输出来操作发电单元。 对电池的输出电压,内燃机的转速或发电机的输出进行自诊断(S12〜S14)。 版权所有(C)2009,JPO&INPIT
    • 5. 发明专利
    • 熱量表示装置および方法
    • 热量显示装置及方法
    • JP2015010793A
    • 2015-01-19
    • JP2013137774
    • 2013-07-01
    • アズビル株式会社Azbil Corp
    • HONDA MITSUHIRO
    • F24F11/02
    • F24F11/0086F24D5/04F24D19/10F24D19/1084F24D2220/042F24F11/30F24F11/52
    • 【課題】空調制御手法をよく理解していなくても、空調制御の対象空間への空調設備からの熱量の供給状態を適切に判断できるようにする。【解決手段】対象空間へ供給可能な空調設備からの熱量の範囲と、対象空間が必要としている現在の熱量と、対象空間への空調設備からの現在の供給熱量を画面上に同時に表示する。例えば、対象空間へ供給可能な空調設備からの熱量の範囲は黒枠11で、対象空間が必要としている現在の熱量は横ライン12で、対象空間への空調設備からの現在の供給熱量は縦ライン13で表示し、これらの関係を画面上で一目で把握できるようにする。なお、黒枠11と横ライン12とだけを表示するようにしてもよい。また、ゾーン毎に、ゾーンの位置関係に合わせて、同様の表示を行うようにしてもよい。【選択図】図3
    • 要解决的问题:即使没有充分了解空调控制方法,也能够适当确定空调设备的热量供给状态到空调控制的对象空间。解决方案:可以将热量范围 从空调设备供应到物体空间,同时在屏幕上显示由空间设备所要求的当前热量和对空间设备的当前供热量的当前热量。 例如,可以从黑色框架11显示能够从空调设备供给到物体空间的热量的范围,由对象空间所要求的当前热量显示在横线12中, 从空调设备到物体空间的供热量显示在垂直线13中。因此,它们之间的关系可以在屏幕上一目了然。 也可以仅显示黑框11和横线12,并且根据区域的位置关系也可以对每个区域执行类似的显示。
    • 7. 发明专利
    • Ventilation air-conditioning device
    • 通风调节装置
    • JP2009058175A
    • 2009-03-19
    • JP2007225558
    • 2007-08-31
    • Panasonic Corpパナソニック株式会社
    • MATSUBARA MITSUNORISUGATA YUJITSUBOUCHI MASAFUMITAKESHITA KEIKATSUMI YOSHIMASANISHITSURU YOSHIHIROSAITO KAZUHIRO
    • F24F7/08F24D17/02F24F3/14F24F13/22F24H9/16
    • F24F5/001F24D5/04F24D5/12F24F3/153
    • PROBLEM TO BE SOLVED: To save a space, to improve construction work efficiency, and to perform air supply and air-conditioning of an indoor space while saving energy by collecting heat while rapidly ventilating a sanitary space. SOLUTION: This ventilation air-conditioning device comprises an air supply fan 17 for sucking the air from an outdoor air supply opening 10 and blowing out the air from a supply opening 12 of an indoor space 1, an exhaust fan 14 for sucking the air from a suction opening 16 of the sanitary space 6 such as a bathroom 3, a lavatory 4 and a toilet 5, and blowing out the air from an outdoor exhaust opening 8, a compressor 40, a first heat exchanger 26 at an air trunk side of the air supply fan 17, an expanding mechanism 41, a second heat exchanger 29 at an air trunk side of the exhaust fan 14, and a refrigerant circuit 39 for allowing the refrigerant to circulate successively through the compressor 40, the first heat exchanger 26, the expanding mechanism 41 and the second heat exchanger 29, or successively through the compressor 40, the second heat exchanger 29, the expanding mechanism 41, and the first heat exchanger 26, heat is moved between the first heat exchanger 26 and the second heat exchanger 29, and the heating or cooling air is supplied to the indoor space 1 while ventilating the sanitary space 6. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了节省空间,提高施工工作效率,以及通过收集热量同时节省能量,同时快速通风卫生空间,来实现室内空气供应和空调。 解决方案:该通风空调装置包括:供气扇17,用于从室外空气供应开口10吸入空气,并从室内空间1的供应开口12吹出空气;抽吸风扇14,用于吸入 来自诸如浴室3,卫生间4和厕所5的卫生间6的吸入口16的空气,并且从室外排气口8,压缩机40,空气中的第一热交换器26吹出空气 供气风扇17的主干侧,膨胀机构41,排气风扇14的空气侧的第二热交换器29,以及使制冷剂依次通过压缩机40循环的制冷剂回路39,第一热量 交换器26,膨胀机构41和第二热交换器29,或者依次通过压缩机40,第二热交换器29,膨胀机构41和第一热交换器26,热量在第一热交换器26和 第二 热交换器29,并且在使卫生间6通风的同时将加热或冷却空气供应到室内空间1.(C)2009,JPO&INPIT
    • 10. 发明专利
    • Cogeneration device
    • 加工设备
    • JP2009047339A
    • 2009-03-05
    • JP2007212979
    • 2007-08-17
    • Honda Motor Co Ltd本田技研工業株式会社
    • YURI NOBUYUKI
    • F24H1/00F01P3/20F02G5/04
    • F24D5/04F24D2200/26F24H2240/06Y02E20/14
    • PROBLEM TO BE SOLVED: To provide a cogeneration device supplying electric power according to demand when the power supply is requested when there is not thermal demand, in the cogeneration device producing hot air by utilizing exhaust heat of an internal combustion engine. SOLUTION: In this cogeneration device 10 comprising at least a power generation unit composed of a generator 20 capable of being connected with a power supply passage 16 of AC power to a commercial power source 12, and an internal combustion engine 22 for driving the generator 20, the intake air is distributed to an exhaust heat exchanger 36 and an exhaust heat exchanger 42 connected with a cooling water circulation passage 34 of the internal combustion engine, and a sensible-heat heat exchanger 44b and a latent-heat heat exchanger 44c connected with an air sucking/exhausting passage 44a of a combustion gas of a burner 44 to exchange heat, a blower 46 is disposed to supply the produced hot air into a room from a hot air passage, a damper is disposed to selectively connect the hot air passage to any of the inside and outside of a room, and the motion of the damper is controlled according to an operating state. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:在通过利用内燃机的排气产生热空气的热电联产装置中,提供在不需要热量时要求供电时根据需要提供电力的热电联供装置。 解决方案:在该热电联产装置10中,至少包括由能够与商用电源12的交流电力的供电路16连接的发电机20构成的发电单元,以及用于驱动的​​内燃机22 发电机20将进气分配到与内燃机的冷却水循环通路34连接的排气热交换器36和排气热交换器42以及显热热交换器44b和潜热热交换器 44c与燃烧器44的燃烧气体的吸气/排气通道44a连接以进行热交换,设置鼓风机46以将热空气从热空气通道供应到房间中,设置阻尼器以选择性地连接 热空气通道到房间的内部和外部的任何一个,并且阻尼器的运动根据操作状态被控制。 版权所有(C)2009,JPO&INPIT