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公开(公告)号:US08701425B2
公开(公告)日:2014-04-22
申请号:US12522466
申请日:2007-09-04
申请人: Hiroyuki Morimoto , Takeshi Sugimoto , Fumio Matsuoka , Tetsuya Yamashita , Koji Yamashita , Takeyuki Maegawa
发明人: Hiroyuki Morimoto , Takeshi Sugimoto , Fumio Matsuoka , Tetsuya Yamashita , Koji Yamashita , Takeyuki Maegawa
CPC分类号: F25D21/04 , F24F1/022 , F24F3/1423
摘要: A refrigeration air conditioning system having a moisture adsorption means regenerated by discharged condensation heat or other discharged heat of a low temperature range in the refrigeration cycle, and exerting stable cooling performance even at a dry-bulb temperature of 0° C. or less. A desiccant rotor, holds an adsorbent having pore sizes of, for example, 1-1.4 nm in a space at a predetermined temperature range of a dry-bulb temperature of 0° C. or less. Forming of frost on an evaporator is prevented by supplying the dehumidified air by the desiccant rotor to the evaporator disposed on a leeward side thereof in a freezing room as the desiccant rotor is rotated, while the adsorbent having adsorbed moisture is dried and recovers its adsorbing ability by supplying the air dried by discharged heat from a condenser on the windward side thereof to the desiccant rotor outside of the freezing room.
摘要翻译: 一种制冷空调系统,其具有通过在制冷循环中排出的冷凝热或其他低温范围的排放热而再生的吸湿装置,并且即使在干球温度为0℃以下也能施加稳定的冷却性能。 干燥剂转子在干球温度为0℃以下的规定温度范围的空间内保持孔径例如为1-1.4nm的吸附剂。 当干燥剂转子旋转时,通过将除湿转子供给到设置在冷风室的背风侧的蒸发器上,同时吸附了水分的吸附剂被干燥并回收其吸附能力,从而防止了在蒸发器上形成霜 通过将排出的热量的空气从冷风机的风向侧的冷凝器供给到冷冻室外的干燥剂转子。
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公开(公告)号:US20100282455A1
公开(公告)日:2010-11-11
申请号:US12670787
申请日:2008-07-25
申请人: Takeyuki Maegawa , Hiroyuki Morimoto , Takeshi Sugimoto , Tetsuya Yamashita , Koji Yamashita , Fumio Matsuoka
发明人: Takeyuki Maegawa , Hiroyuki Morimoto , Takeshi Sugimoto , Tetsuya Yamashita , Koji Yamashita , Fumio Matsuoka
CPC分类号: F28F1/32 , B01D53/265 , F28D1/0477 , F28F13/187 , F28F2255/20 , Y10T29/49378
摘要: A heat exchanger is used which has heat transfer tubes acting as flow paths of a refrigerant and metal fins having pores opened inward from the surfaces thereof for adsorbing and desorbing moisture in air within the range of a relative pressure of 0.1 to 0.9 so as to transfer heat of the heat transfer tubes to air, wherein the pores have a diameter of 1 to 20 nm and a depth of 1 to 100 μm.
摘要翻译: 使用热交换器,其具有作为制冷剂和金属翅片的流动路径的传热管,其具有从其表面向内开口的孔,用于在相对压力为0.1至0.9的范围内吸收和解吸空气中的水分,以便转移 传热管对空气的热量,其中孔的直径为1〜20nm,深度为1〜100μm。
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公开(公告)号:US20100000243A1
公开(公告)日:2010-01-07
申请号:US12522466
申请日:2007-09-04
申请人: Hiroyuki Morimoto , Takeshi Sugimoto , Fumio Matsuoka , Tetsuya Yamashita , Koji Yamashita , Takeyuki Maegawa
发明人: Hiroyuki Morimoto , Takeshi Sugimoto , Fumio Matsuoka , Tetsuya Yamashita , Koji Yamashita , Takeyuki Maegawa
CPC分类号: F25D21/04 , F24F1/022 , F24F3/1423
摘要: To obtain a refrigeration air conditioning system having a dehumidifying function by means of a moisture adsorption means, allowing the moisture adsorption means to be regenerated by use of discharged condensation heat or other discharged heat of a low temperature range in the refrigeration cycle, and exerting stable cooling performance even at a dry-bulb temperature of 0° C. or less.A desiccant rotor 1, being a moisture adsorption means, is made to hold an adsorbent having pore sizes of 5 μm or less, more preferably 20 nm or less, and furthermore preferably 1-1.4 nm in a space at a predetermined temperature range of a dry-bulb temperature of 0° C. or less. Forming of frost on an evaporator 20d is prevented by supplying the air dehumidified by the desiccant rotor 1 to the evaporator 20d disposed on the leeward side thereof in a freezing room as the desiccant rotor 1 is rotated, while the adsorbent having adsorbed moisture is made dried and made to recover its adsorbing ability by supplying the air dried by discharged heat from a condenser 20b disposed on the windward side thereof to the desiccant rotor 1 at the outside of the freezing room.
摘要翻译: 为了通过吸湿装置获得具有除湿功能的制冷空调系统,通过使用冷冻循环中的排出的冷凝热或其他低温范围的排出热量使水分吸附装置再生,并施加稳定 即使在干球温度为0℃以下的情况下,也可以进行冷却性能。 作为吸湿装置的干燥剂转子1被制成为在一个预定的温度范围的空间内保持孔径为5μm以下,更优选为20nm以下,进一步优选为1-1.4nm的吸附剂 干球温度为0℃以下。 当干燥剂转子1旋转时,通过将由干燥剂转子1除湿的空气供给到设置在其背风侧的蒸发器20d的冷冻室中,从而防止了蒸发器20d上的霜的形成。 通过将设置在其迎风侧的冷凝器20b的排出的热量的空气供给到冷冻室外的干燥剂转子1而使其吸附能力恢复。
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公开(公告)号:US20100170273A1
公开(公告)日:2010-07-08
申请号:US12676244
申请日:2007-09-20
申请人: Hiroyuki Morimoto , Takeshi Sugimoto , Fumio Matsuoka , Koji Yamashita , Tetsuya Yamashita , Kouji Fukui , Takeyuki Maegawa
发明人: Hiroyuki Morimoto , Takeshi Sugimoto , Fumio Matsuoka , Koji Yamashita , Tetsuya Yamashita , Kouji Fukui , Takeyuki Maegawa
CPC分类号: F24F3/1423 , B01D53/06 , B01D53/261 , B01D53/265 , F24F2203/1016 , F24F2203/1068 , F24F2203/1084
摘要: In a range of a wind velocity of 0.5 to 3.5 (m/s) in a refrigeration cycle, when combining absorbent having a small dependency on the wind velocity and the refrigeration cycle, it is not possible to vary dehumidification capability by changing the wind velocity and matching with an actual load is poor. In a refrigerating and air conditioning apparatus having a refrigerator 20 in which refrigerant is put, and having a compressor 20a for compressing the refrigerant, a condenser 20b, and a throttle device 20c, and an evaporator 20d, and a desiccant rotor 1, which is water adsorption means, an adsorbent is supported with the desiccant rotor 1, whose time constant at a water adsorption equilibrium becomes small as a wind velocity increases in the range of the wind velocity of 0.5 to 3.5 m/s, the condenser 20b is disposed upwind of the desiccant rotor 1, and the evaporator 20d is disposed downwind of the desiccant rotor 1.
摘要翻译: 在制冷循环中的风速为0.5〜3.5(m / s)的范围内,当组合对风速和制冷循环依赖性小的吸收剂时,不可能通过改变风速来改变除湿能力 并且与实际负载匹配差。 在具有制冷剂的制冷剂20的制冷空调装置中,具有用于压缩制冷剂的压缩机20a,冷凝器20b和节流装置20c以及蒸发器20d以及干燥剂转子1 水吸附装置,吸附剂由干燥剂转子1支撑,干燥剂转子1在风速为0.5-3.5m / s的范围内随着风速的增加而在水吸附平衡时的时间常数变小,冷凝器20b是逆风的 的干燥剂转子1,并且蒸发器20d设置在干燥剂转子1的下风向。
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公开(公告)号:US20100107681A1
公开(公告)日:2010-05-06
申请号:US12526587
申请日:2008-03-26
申请人: Hiroyuki Morimoto , Takeshi Sugimoto , Fumio Matsuoka , Koji Yamashita , Tetsuya Yamashita , Takeyuki Maegawa
发明人: Hiroyuki Morimoto , Takeshi Sugimoto , Fumio Matsuoka , Koji Yamashita , Tetsuya Yamashita , Takeyuki Maegawa
CPC分类号: F28F1/32 , F24F1/0059 , F24F1/027 , F24F3/14 , F24F11/30 , F24F13/222 , F24F2011/0002 , F24F2110/20 , F28F13/187 , F28F17/005
摘要: Heat exchangers 40, 40a, 40b for performing heat exchange between a refrigerant and air include fins 45, 45a, 45b for heat transfer, each of which has fine pores each having a diameter ranging from 1 to 3.5 nm for adsorbing water contained in the air by a capillary condensation phenomenon. Preferably, the fine pores are distributed having a different diameter in accordance with the position of the fins 45, 45a, 45b on the surface.
摘要翻译: 用于在制冷剂和空气之间进行热交换的热交换器40,40a,40b包括用于传热的翅片45,45a,45b,每个具有细孔,每个孔具有1至3.5nm的直径以吸附空气中所含的水 通过毛细管凝结现象。 优选地,细孔根据表面上的翅片45,45a,45b的位置分布具有不同的直径。
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公开(公告)号:US09574816B2
公开(公告)日:2017-02-21
申请号:US13641885
申请日:2010-05-26
申请人: Mamoru Hamada , Fumitake Unezaki , Akira Morikawa , Satoshi Ueyama , Koji Yamashita , Hiroyuki Morimoto , Yuji Motomura , Tetsuya Yamashita , Yusuke Otsubo
发明人: Mamoru Hamada , Fumitake Unezaki , Akira Morikawa , Satoshi Ueyama , Koji Yamashita , Hiroyuki Morimoto , Yuji Motomura , Tetsuya Yamashita , Yusuke Otsubo
CPC分类号: F25D21/08 , F24F11/42 , F24F13/222 , F25B47/02 , F25B49/02 , F25B2400/01 , F25B2700/111 , F25D21/02 , F25D21/14 , F25D2321/1413 , F25D2600/02
摘要: A refrigeration cycle that is formed by connecting a compressor, a condenser, an expansion valve, and an evaporator and that performs cooling operation; an evaporator heating device that heats the evaporator; a drain pan that receives drain-water from the evaporator and drains the drain-water; a drain-pan heating device that heats the drain pan; a frost detecting device including a light-emitting element that emits light to the evaporator and a light-receiving element that receives reflected light from the evaporator and outputs a voltage according to the reflected light; and a control device that controls on-off operation of the evaporator heating device and the drain-pan heating device. The control device determines a frosting condition on the evaporator from an output of the frost detecting device and individually controls the evaporator heating device and the drain-pan heating device in accordance with the determination result.
摘要翻译: 通过连接压缩机,冷凝器,膨胀阀和蒸发器并进行制冷运转而形成的制冷循环; 蒸发器加热装置,其加热蒸发器; 排水盘,其从蒸发器接收排水并排放排水; 排水盘加热装置,其加热排水盘; 一种霜检测装置,包括向蒸发器发光的发光元件和接收来自蒸发器的反射光的光接收元件,并根据反射光输出电压; 以及控制装置,其控制蒸发器加热装置和排水盘加热装置的开关动作。 所述控制装置根据所述判定结果,根据所述霜检测装置的输出,确定所述蒸发器的结霜状况,并分别控制所述蒸发器加热装置和所述排水盘加热装置。
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公开(公告)号:US20130031921A1
公开(公告)日:2013-02-07
申请号:US13641885
申请日:2010-05-26
申请人: Mamoru Hamada , Fumitake Unezaki , Akira Morikawa , Satoshi Ueyama , Koji Yamashita , Hiroyuki Morimoto , Yuji Motomura , Tetsuya Yamashita , Yusuke Otsubo
发明人: Mamoru Hamada , Fumitake Unezaki , Akira Morikawa , Satoshi Ueyama , Koji Yamashita , Hiroyuki Morimoto , Yuji Motomura , Tetsuya Yamashita , Yusuke Otsubo
CPC分类号: F25D21/08 , F24F11/42 , F24F13/222 , F25B47/02 , F25B49/02 , F25B2400/01 , F25B2700/111 , F25D21/02 , F25D21/14 , F25D2321/1413 , F25D2600/02
摘要: A refrigeration cycle that is formed by connecting a compressor, a condenser, expansion means, and an evaporator and that performs cooling operation; an evaporator heating device that heats the evaporator; a drain pan that receives drain-water from the evaporator and drains the drain-water; a drain-pan heating device that heats the drain pan; frost detecting means including a light-emitting element that emits light to the evaporator and a light-receiving element that receives reflected light from the evaporator and outputs a voltage according to the reflected light; and a control device that controls on-off operation of the evaporator heating device and the drain-pan heating device. The control device determines a frosting condition on the evaporator from an output of the frost detecting means and individually controls the evaporator heating device and the drain-pan heating device in accordance with the determination result.
摘要翻译: 通过连接压缩机,冷凝器,膨胀装置和蒸发器并进行冷却运行而形成的制冷循环; 蒸发器加热装置,其加热蒸发器; 排水盘,其从蒸发器接收排水并排放排水; 排水盘加热装置,其加热排水盘; 霜检测装置,包括向蒸发器发光的发光元件和接收来自蒸发器的反射光并且根据反射光输出电压的光接收元件; 以及控制装置,其控制蒸发器加热装置和排水盘加热装置的开关动作。 控制装置根据结霜检测装置的输出确定蒸发器上的结霜状况,并根据确定结果分别控制蒸发器加热装置和排水盘加热装置。
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公开(公告)号:US09657955B2
公开(公告)日:2017-05-23
申请号:US13056390
申请日:2008-10-29
申请人: Koji Yamashita , Hiroyuki Morimoto , Yuji Motomura , Takeshi Hatomura , Naoki Tanaka , Shinichi Wakamoto , Takashi Okazaki , Yusuke Shimazu
发明人: Koji Yamashita , Hiroyuki Morimoto , Yuji Motomura , Takeshi Hatomura , Naoki Tanaka , Shinichi Wakamoto , Takashi Okazaki , Yusuke Shimazu
CPC分类号: F24F3/065 , F24F11/83 , F25B13/00 , F25B25/005 , F25B2313/003 , F25B2313/006 , F25B2313/0231 , F25B2313/0233 , F25B2313/02741 , F25B2339/047
摘要: To obtain an air-conditioning apparatus that does not make a refrigerant circulate up to an indoor unit and further can achieve energy-saving. A refrigeration cycle is configured by connecting a compressor that pressurizes a refrigerant, a four-way valve that switches a circulation path of the refrigerant, a heat source side heat exchanger that performs heat exchange, expansion valves for pressure-adjusting the refrigerant, and a plurality of intermediate heat exchangers that performs heat exchange between the refrigerant and the heat medium to heat and cool the heat medium, with piping. A heat medium circuit is configured by connecting intermediate heat exchangers, pumps that pressurize the heat medium, and a plurality of use side heat exchangers that perform heat exchange between the heat medium and the air in the indoor space, with piping.
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公开(公告)号:US09599378B2
公开(公告)日:2017-03-21
申请号:US13884986
申请日:2011-01-31
CPC分类号: F25B29/003 , F25B1/10 , F25B13/00 , F25B25/005 , F25B2313/023 , F25B2313/0231 , F25B2313/0272 , F25B2313/02732 , F25B2313/02741 , F25B2400/121 , F25B2700/21152
摘要: A heat pump hot-water supply apparatus controls a second expansion device during a heating operation so as to adjust the amount of refrigerant flowing through an injection pipe, and controls a third expansion device during a cooling operation so as to adjust the amount of refrigerant flowing through the injection pipe.
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公开(公告)号:US09587861B2
公开(公告)日:2017-03-07
申请号:US13816982
申请日:2010-09-14
申请人: Koji Yamashita , Hiroyuki Morimoto , Yuji Motomura , Junichi Ue , Shinichi Wakamoto , Naofumi Takenaka
发明人: Koji Yamashita , Hiroyuki Morimoto , Yuji Motomura , Junichi Ue , Shinichi Wakamoto , Naofumi Takenaka
CPC分类号: F25B30/02 , F25B13/00 , F25B25/005 , F25B2313/006 , F25B2313/023 , F25B2313/0231 , F25B2313/0272 , F25B2313/02732 , F25B2313/02741 , F25B2500/01
摘要: In an air-conditioning apparatus, an expansion device, a second refrigerant flow switching device, and heat exchangers related to heat medium, connected between the expansion device and the second refrigerant flow switching device such that a heat source side refrigerant flows in parallel, are connected in a part of refrigerant passages, and an expansion device, a second refrigerant flow switching device, and heat exchangers related to heat medium, connected between the expansion device and the second refrigerant flow switching device such that the heat source side refrigerant flows in series, are connected in the rest of the refrigerant passages.
摘要翻译: 连接在膨胀装置和第二制冷剂流量切换装置之间的空调装置,膨胀装置,第二制冷剂流量切换装置和与热介质相关的热交换器,使得热源侧制冷剂并联流动 连接在制冷剂通路的一部分上,以及膨胀装置,第二制冷剂流量切换装置和与热介质相关的热交换器,连接在膨胀装置和第二制冷剂流量切换装置之间,使得热源侧制冷剂串联 连接在其余的制冷剂通道中。
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