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公开(公告)号:US20100170281A1
公开(公告)日:2010-07-08
申请号:US12665287
申请日:2008-06-10
申请人: Akira Kamino , Nobuki Matsui
发明人: Akira Kamino , Nobuki Matsui
IPC分类号: F25B15/00
CPC分类号: A61L9/22 , A61L2209/134 , A61L2209/16 , A61L2209/22 , F24F3/1411 , F24F3/1429 , F24F2003/1664
摘要: A closed space forming unit (41-48) forms a closed space (37, 38) around an adsorption member (51, 52) supporting thereon an adsorbent for desorbing and adsorbing moisture. An active species generating unit (101, 102) supplies active species, for decomposing odorous components, into the closed space (37, 38).
摘要翻译: 闭合空间形成单元(41-48)在其上支撑有用于解吸和吸附水分的吸附剂的吸附构件(51,52)周围形成封闭空间(37,38)。 活性物种产生单元(101,102)将用于分解异味成分的活性物质供应到封闭空间(37,38)中。
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公开(公告)号:US20100170280A1
公开(公告)日:2010-07-08
申请号:US12664261
申请日:2008-06-03
申请人: Yoshinori Narikawa , Nobuki Matsui
发明人: Yoshinori Narikawa , Nobuki Matsui
IPC分类号: F25B15/00
CPC分类号: F24F3/1411 , F24F3/1429 , F24F3/147 , F24F3/16 , F24F11/0008
摘要: In the casing (11) of a humidity controller (10), a first bypass passage (81) is provided along one of side plates facing each other, and a second bypass passage (82) is provided along the other side plate. In the casing (11), a first heat exchanger chamber (37) and a second heat exchanger chamber (38) are arranged next to each other in the left-to-right direction in a space between the two bypass passages (81, 82). A first adsorption heat exchanger (51) is accommodated in the first heat exchanger chamber (37), and a second adsorption heat exchanger (52) is accommodated in the second heat exchanger chamber (38). Adsorbents are carried on the adsorption heat exchangers (51, 52). During the operation in which humidity of the air is not controlled, a first bypass damper (83) and a second bypass damper (84) are opened, and the air flows through the bypass passages (81, 82) to be drawn into a supply fan (26) or a exhaust fan (25). Thus, accumulation of odor substances in the adsorption heat exchangers (51, 52) during the operation in which humidity of the air is not controlled, can be reduced.
摘要翻译: 在湿度控制器(10)的壳体(11)中,沿着彼此面对的一个侧板设置第一旁通通路(81),沿另一侧板设置第二旁通通路(82)。 在壳体11中,第一热交换器室37和第二热交换器室38沿着左右方向彼此相邻配置在两个旁路通路81,82 )。 第一吸附热交换器51容纳在第一热交换器室37中,第二吸附热交换器52容纳在第二热交换器室38中。 吸附剂载持在吸附热交换器(51,52)上。 在没有控制空气湿度的操作中,打开第一旁通风阀83和第二旁通风阀84,并且空气流过旁路通路81,82以被吸入供给 风扇(26)或排风扇(25)。 因此,可以减少在不控制空气湿度的操作中吸附热交换器(51,52)中的气味物质的积聚。
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公开(公告)号:US20090308099A1
公开(公告)日:2009-12-17
申请号:US11921955
申请日:2006-06-16
申请人: Nobuki Matsui , Satoshi Ishida , Tomohiro Yabu
发明人: Nobuki Matsui , Satoshi Ishida , Tomohiro Yabu
IPC分类号: F25B15/00
CPC分类号: F24F3/1429 , F24F3/001 , F24F3/1411 , F24F13/30 , F25B13/00 , F25B2341/0653 , Y02B30/72
摘要: A humidity control system (10) includes a refrigerant circuit (50) in which an adsorption heat exchanger (51, 52) carrying an adsorbent thereon is connected. During a regeneration action of a humidification operation of the humidity control system (10), outdoor air passes through the adsorption heat exchanger (51, 52) from upstream towards downstream in the flow of refrigerant. Therefore, the air can be effectively increased in temperature at the air inflow end of the adsorption heat exchanger (51, 52), thereby preventing freezing of dew condensation water.
摘要翻译: 湿度控制系统(10)包括连接有吸附剂的吸附热交换器(51,52)的制冷剂回路(50)。 在湿度控制系统(10)的加湿运转的再生动作中,室外空气从制冷剂流的上游向下游流过吸附热交换器(51,52)。 因此,能够有效地提高吸附热交换器(51,52)的空气流入端的温度,从而防止结露水的冻结。
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公开(公告)号:US20090229294A1
公开(公告)日:2009-09-17
申请号:US11921227
申请日:2006-05-30
申请人: Nobuki Matsui
发明人: Nobuki Matsui
CPC分类号: F24F11/0008 , F24F3/1411 , F24F3/1429 , F24F11/30 , F24F2013/221 , F24F2110/20 , F24F2221/54 , G05D22/02
摘要: An air conditioning system (1) includes a first humidity controller (10), a second humidity controller (20), a first air conditioner (30), a second air conditioner (40), and a interlock control means (3). The first humidity controller (10) humidifies an indoor perimeter zone while the second humidity controller (20) humidifies an indoor interior zone. The first air conditioner (30) heats/cools the indoor perimeter zone while the second air conditioner (40) heats/cools the indoor interior zone. Upon input of dew condensation occurrence information, the first humidity controller (10) performs a dew removal operation while the first humidity controller (20), the first air conditioner (30), and the second air conditioner (40) continue respective operations at input of the dew condensation occurrence information.
摘要翻译: 空调系统(1)包括第一湿度控制器(10),第二湿度控制器(20),第一空调机(30),第二空调机(40)和互锁控制装置(3)。 第一湿度控制器(10)在第二湿度控制器(20)加湿室内内部区域的同时加湿室内周边区域。 第一空调装置(30)对室内周边区域进行加热/冷却,第二空调装置(40)对室内内部区域进行加热/冷却。 当第一湿度控制器(20),第一空调机(30)和第二空调机(40)输入结露发生信息时,第一湿度调节器(10)进行除霜操作, 的露水发生信息。
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公开(公告)号:US20090165484A1
公开(公告)日:2009-07-02
申请号:US11920744
申请日:2006-05-30
申请人: Nobuki Matsui
发明人: Nobuki Matsui
CPC分类号: F24F11/0008 , F24F3/1411 , F24F3/1429 , F24F11/83 , F25B13/00 , F25B2313/02741 , F25B2500/27 , F25B2600/0251 , F25B2600/0253 , F25B2700/02 , F25B2700/1931 , F25B2700/1933 , F25B2700/2104 , Y02B30/741
摘要: A humidity controller includes a differential pressure detection means (93, 97) for detecting a difference between high voltage and low voltage in a refrigeration cycle of a refrigerant circuit (50) and a control means (30) for controlling the capacity of the compressor (53). The control means (30) reduces the capacity of the compressor (53) when a detected value of the differential pressure detection means (93, 97) exceeds a reduction threshold. Further, the control means (30) stops the compressor (53) when the detected value of the differential pressure detection means (93, 97) exceeds a stop threshold higher than the reduction threshold.
摘要翻译: 湿度控制器包括用于检测制冷剂回路(50)的制冷循环中的高压和低压之间的差压检测装置(93,97)和用于控制压缩机的容量的控制装置(30) 53)。 当差压检测装置(93,97)的检测值超过降低阈值时,控制装置(30)降低压缩机(53)的容量。 此外,当差压检测装置(93,97)的检测值超过比降档阈值高的停止阈值时,控制装置(30)停止压缩机(53)。
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公开(公告)号:US20090084121A1
公开(公告)日:2009-04-02
申请号:US11921296
申请日:2006-05-30
申请人: Nobuki Matsui , Yoshinori Narikawa
发明人: Nobuki Matsui , Yoshinori Narikawa
CPC分类号: F24F3/1411 , F24F3/1429 , F25B13/00 , F25B2600/21 , F25B2600/2513
摘要: A humidity control system (10) includes a refrigerant circuit (50) including a compressor (53), a first adsorption heat exchanger (51) carrying an adsorbent thereon, an expansion valve (55) adjustable in opening and a second adsorption heat exchanger (52) carrying an adsorbent thereon, supplies humidity-controlled air to a room by operating alternately in a first batch mode in which the second adsorption heat exchanger (52) adsorbs moisture in air and the first adsorption heat exchanger (51) releases moisture to air and a second batch mode in which the first adsorption heat exchanger (51) adsorbs moisture in air and the second adsorption heat exchanger (52) releases moisture to air, and controls the opening of the expansion valve (55), when a valve control start time has come a predetermined time after the start of each batch mode, so that the degree of superheat of refrigerant in the refrigerant circuit (50) reaches a predetermined value.
摘要翻译: 湿度控制系统(10)包括:制冷剂回路(50),包括压缩机(53),在其上承载吸附剂的第一吸附热交换器(51),可开启的膨胀阀(55)和第二吸附热交换器 52),其上携带有吸附剂,通过以第一间歇模式交替操作向空间供应湿气控制的空气,其中第二吸附热交换器(52)吸收空气中的水分,并且第一吸附热交换器(51)将空气释放到空气中 以及第二批次模式,其中第一吸附热交换器(51)吸收空气中的水分,并且第二吸附热交换器(52)在气门控制开始时将水分释放到空气中,并且控制膨胀阀(55)的打开 每批次模式开始之后的时间已经到了预定时间,使得制冷剂回路(50)中制冷剂的过热度达到预定值。
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公开(公告)号:US07357002B2
公开(公告)日:2008-04-15
申请号:US10573984
申请日:2004-10-21
IPC分类号: F25B43/04
CPC分类号: F25B13/00 , F25B43/043 , F25B2313/0272
摘要: An air conditioning device has a heat source unit and a utilization unit connected via a refrigerant connection pipe to form a refrigerant circuit, and has a cooler, a secondary receiver, and a separation membrane device. The cooler cools at least a portion of the refrigerant that flows through the liquid-side refrigerant circuit as the compressor is operated and the refrigerant in the refrigerant circuit is recirculated. The secondary receiver separates the refrigerant cooled by the cooler into a liquid refrigerant and a gas refrigerant that includes non-condensable gas. The separation membrane device has a separation membrane for separating the non-condensable gas from the gas refrigerant obtained by gas-liquid separation, and discharges the non-condensable gas thus separated to the outside of the refrigerant circuit.
摘要翻译: 空调装置具有通过制冷剂连接管连接而形成制冷剂回路的热源单元和利用单元,具有冷却器,二次接收器和分离膜装置。 当压缩机被操作并且制冷剂回路中的制冷剂被再循环时,冷却器冷却流经液体侧制冷剂回路的制冷剂的至少一部分。 二次接收器将由冷却器冷却的制冷剂分离成液体制冷剂和包括不可冷凝气体的气体制冷剂。 分离膜装置具有用于将不可冷凝气体与通过气液分离获得的气体制冷剂分离的分离膜,并且将这样分离的不可冷凝气体排出到制冷剂回路的外部。
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公开(公告)号:US20070144189A1
公开(公告)日:2007-06-28
申请号:US10593474
申请日:2005-03-24
申请人: Satoshi Ishida , Nobuki Matsui , Tomohiro Yabu
发明人: Satoshi Ishida , Nobuki Matsui , Tomohiro Yabu
CPC分类号: F24F3/1411 , F24F3/1429 , F24F11/30 , F24F11/65 , F24F2110/20 , F24F2203/021 , F25B13/00 , F25B49/02 , F25B2313/02741 , F25B2500/26 , F25B2600/01 , F25B2700/02 , F25B2700/2104
摘要: The invention provides an air conditioner that is capable of performing optimal control in accordance with the environment of an indoor space at startup, and a method of controlling such. The air conditioner forms a refrigerant circuit, having a first heat exchanger, a second heat exchanger, thermistors, humidity sensors, a temperature sensor, ventilation fans, a compressor, a casing, a control unit, and the like. The control unit is connected to the temperature sensor, the humidity sensors, a storage unit, a timer, a manual input unit, air passageway switching mechanisms, a four-way switching valve, and an expansion valve. In the stage before the air conditioner starts normal operation after startup, the control unit performs a priority control operation that prioritizes either the sensible heat process or the latent heat process.
摘要翻译: 本发明提供了能够根据启动时的室内空间的环境进行最优控制的空调机及其控制方法。 空调器形成具有第一热交换器,第二热交换器,热敏电阻,湿度传感器,温度传感器,通风扇,压缩机,壳体,控制单元等的制冷剂回路。 控制单元连接到温度传感器,湿度传感器,存储单元,定时器,手动输入单元,空气通道切换机构,四通切换阀和膨胀阀。 在启动后空调开始正常运行的阶段,控制单元执行优先权控制操作,其优先于显热处理或潜热处理。
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