公开(公告)号：US20100170292A1

公开(公告)日：2010-07-08

申请号：US12664307

申请日：2008-06-03

申请人： Yoshinori Narikawa ,  Shuji Ikegami ,  Nobuki Matsui

发明人： Yoshinori Narikawa ,  Shuji Ikegami ,  Nobuki Matsui

IPC分类号： F25B15/00

CPC分类号： F24F3/1411 ,  F24F3/1429 ,  F24F3/147 ,  F24F11/0008

摘要： In a casing (11) of a humidity controller (10), a first heat exchanger chamber (37) which accommodates a first adsorption heat exchanger (51), and a second heat exchanger chamber (38) which accommodates a second adsorption heat exchanger (52) are arranged next to each other in the left-to-right direction. An indoor air side passage (32) and an outdoor air side passage (34) are provided on the rear panel portion (13) side of the heat exchanger chambers (37, 38), and a supply side passage (31) and exhaust side passage (33) are provided on the front panel portion (12) side of the heat exchanger chambers (37, 38). The rear panel portion (13) is provided with an outdoor air intake opening (24) and an indoor air intake opening (23) at locations close to a center of the rear panel portion (13) in the left-to-right direction. A first side panel portion (14) is provided with a supply opening (22) at a location close to the front, and a second side panel portion (15) is provided with an exhaust opening (21) at a location close to the front. A supply fan (26) is connected to the supply opening (22), and an exhaust fan (25) is connected to the exhaust opening (21). By this structure, a pressure loss at a time when air flows in the casing can be reduced.

摘要翻译： 在湿度控制器（10）的壳体（11）中，容纳第一吸附热交换器（51）的第一热交换器室（37）和容纳第二吸附热交换器（38）的第二热交换器室 52）在左右方向上彼此相邻布置。 在热交换器室（37,38）的后面板部（13）侧设置有室内空气侧通路（32）和室外空气侧通路（34），供给侧通路（31）和排气侧 通道（33）设置在热交换器室（37,38）的前面板部分（12）侧。 后板部（13）在靠近后板部（13）的中心的左右方向的位置设有室外空气吸入口（24）和室内空气吸入口（23）。 第一侧板部分（14）在靠近前部的位置处设置有供应开口（22），并且第二侧板部分（15）在靠近前部的位置设置有排气开口（21） 。 供给风扇26连接到供给开口22，排气扇25与排气口21连接。 通过这种结构，可以减少空气在壳体中流动时的压力损失。

公开(公告)号：US20100181690A1

公开(公告)日：2010-07-22

申请号：US12664290

申请日：2008-06-03

申请人： Yoshinori Narikawa ,  Shuji Ikegami ,  Nobuki Matsui

发明人： Yoshinori Narikawa ,  Shuji Ikegami ,  Nobuki Matsui

IPC分类号： F24F6/00 ,  F24F11/00

CPC分类号： F24F3/1411 ,  F24F3/1429 ,  F24F3/147 ,  F24F11/0008 ,  F24F2011/0002

摘要： According to a humidity controller (10), 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 the casing (11). 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). The humidity controller (10) alternately performs an operation in which outdoor air passes through the first adsorption heat exchanger (51) and room air passes through the second adsorption heat exchanger (52), and an operation in which outdoor air passes through the second adsorption heat exchanger (52) and room air passes through the first adsorption heat exchanger (51). In the humidity controller (10), dampers (45, 47) which face the first heat exchanger chamber (37) near a supply fan (26), are positioned at locations close to the second heat exchanger chamber (38), and dampers (46, 48) which face the second heat exchanger chamber (38) near an exhaust fan (25), are positioned at locations close to the first heat exchanger chamber (37). This structure reduces a difference between pressure losses of the air in the casing (11) during the respective operations.

摘要翻译： 根据湿度控制器（10），壳体（11）中的第一热交换器室（37）和第二热交换器室（38）在左右方向上彼此相邻布置。 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。 湿度控制器10交替地进行室外空气通过第一吸附热交换器51，室内空气通过第二吸附热交换器52的动作，室外空气通过第二吸附 热交换器52和室内空气通过第一吸附热交换器51。 在湿度控制器（10）中，靠近供应风扇（26）的面对第一热交换器室（37）的阻尼器（45,47）位于靠近第二热交换器室（38）的位置，并且风门 46），其位于靠近排气扇（25）的第二热交换器室（38）处，位于靠近第一热交换器室（37）的位置。 这种结构减少了在各个操作期间壳体（11）中的空气的压力损失之间的差异。

公开(公告)号：US08276892B2

公开(公告)日：2012-10-02

申请号：US12664290

申请日：2008-06-03

申请人： Yoshinori Narikawa ,  Shuji Ikegami ,  Nobuki Matsui

发明人： Yoshinori Narikawa ,  Shuji Ikegami ,  Nobuki Matsui

IPC分类号： B01F3/04

CPC分类号： F24F3/1411 ,  F24F3/1429 ,  F24F3/147 ,  F24F11/0008 ,  F24F2011/0002

摘要： According to a humidity controller (10), 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 the casing (11). 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). The humidity controller (10) alternately performs an operation in which outdoor air passes through the first adsorption heat exchanger (51) and room air passes through the second adsorption heat exchanger (52), and an operation in which outdoor air passes through the second adsorption heat exchanger (52) and room air passes through the first adsorption heat exchanger (51). In the humidity controller (10), dampers (45, 47) which face the first heat exchanger chamber (37) near a supply fan (26), are positioned at locations close to the second heat exchanger chamber (38), and dampers (46, 48) which face the second heat exchanger chamber (38) near an exhaust fan (25), are positioned at locations close to the first heat exchanger chamber (37). This structure reduces a difference between pressure losses of the air in the casing (11) during the respective operations.

摘要翻译： 根据湿度控制器（10），壳体（11）中的第一热交换器室（37）和第二热交换器室（38）在左右方向上彼此相邻布置。 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。 湿度控制器10交替地进行室外空气通过第一吸附热交换器51，室内空气通过第二吸附热交换器52的动作，室外空气通过第二吸附 热交换器52和室内空气通过第一吸附热交换器51。 在湿度控制器（10）中，靠近供应风扇（26）的面对第一热交换器室（37）的阻尼器（45,47）位于靠近第二热交换器室（38）的位置，并且风门 46），其位于靠近排气扇（25）的第二热交换器室（38）处，位于靠近第一热交换器室（37）的位置。 这种结构减少了在各个操作期间壳体（11）中的空气的压力损失之间的差异。

公开(公告)号：US07895856B2

公开(公告)日：2011-03-01

申请号：US12664307

申请日：2008-06-03

申请人： Yoshinori Narikawa ,  Shuji Ikegami ,  Nobuki Matsui

发明人： Yoshinori Narikawa ,  Shuji Ikegami ,  Nobuki Matsui

IPC分类号： F25D23/00

CPC分类号： F24F3/1411 ,  F24F3/1429 ,  F24F3/147 ,  F24F11/0008

摘要： In a casing (11) of a humidity controller (10), a first heat exchanger chamber (37) which accommodates a first adsorption heat exchanger (51), and a second heat exchanger chamber (38) which accommodates a second adsorption heat exchanger (52) are arranged next to each other in the left-to-right direction. An indoor air side passage (32) and an outdoor air side passage (34) are provided on the rear panel portion (13) side of the heat exchanger chambers (37, 38), and a supply side passage (31) and exhaust side passage (33) are provided on the front panel portion (12) side of the heat exchanger chambers (37, 38). The rear panel portion (13) is provided with an outdoor air intake opening (24) and an indoor air intake opening (23) at locations close to a center of the rear panel portion (13) in the left-to-right direction. A first side panel portion (14) is provided with a supply opening (22) at a location close to the front, and a second side panel portion (15) is provided with an exhaust opening (21) at a location close to the front. A supply fan (26) is connected to the supply opening (22), and an exhaust fan (25) is connected to the exhaust opening (21). By this structure, a pressure loss at a time when air flows in the casing can be reduced.

摘要翻译： 在湿度控制器（10）的壳体（11）中，容纳第一吸附热交换器（51）的第一热交换器室（37）和容纳第二吸附热交换器（38）的第二热交换器室 52）在左右方向上彼此相邻布置。 在热交换器室（37,38）的后面板部（13）侧设置有室内空气侧通路（32）和室外空气侧通路（34），供给侧通路（31）和排气侧 通道（33）设置在热交换器室（37,38）的前面板部分（12）侧。 后板部（13）在靠近后板部（13）的中心的左右方向的位置设有室外空气吸入口（24）和室内空气吸入口（23）。 第一侧板部分（14）在靠近前部的位置处设置有供应开口（22），并且第二侧板部分（15）在靠近前部的位置设置有排气开口（21） 。 供给风扇26连接到供给开口22，排气扇25与排气口21连接。 通过这种结构，可以减少空气在壳体中流动时的压力损失。

公开(公告)号：US20070209385A1

公开(公告)日：2007-09-13

申请号：US10594916

申请日：2005-03-30

申请人： Tomohiro Yabu ,  Shuji Ikegami ,  Yoshinori Narikawa

发明人： Tomohiro Yabu ,  Shuji Ikegami ,  Yoshinori Narikawa

IPC分类号： F25B17/08

CPC分类号： F24F3/1411 ,  F24F3/1429 ,  F24F13/20 ,  F25B13/00

摘要： A humidity control system (10) is disclosed which includes a refrigerant circuit (60). The refrigerant circuit (60) includes first and second absorbent-supported heat exchangers (61, 62) and performs a refrigeration cycle by the circulation of refrigerant. In addition, in the refrigerant circuit (60), the circulation direction of refrigerant is reversible. The first and second heat exchangers (61, 62) are disposed in a casing (11). In the humidity control system (10), the distribution route of air is changed such that a first air stream is passed through either one of the first and second heat exchangers (61, 61) that is functioning as an evaporator while a second air stream is passed through the other heat exchanger that is functioning as a condenser. A compressor (63), an expansion mechanism (65), and a four-way valve (64) in the refrigerant circuit (60) are disposed together with the heat exchangers (61, 62) in the casing (11).

摘要翻译： 公开了一种包括制冷剂回路（60）的调湿系统（10）。 制冷剂回路60包括第一和第二吸收支承热交换器61,62，通过制冷剂的循环进行制冷循环。 此外，在制冷剂回路（60）中，制冷剂的循环方向是可逆的。 第一和第二热交换器（61,62）设置在壳体（11）中。 在湿度控制系统（10）中，改变空气的分配路径，使得第一空气流通过作为蒸发器起作用的第一和第二热交换器（61,61）中的任一个，而第二空气流 通过用作冷凝器的另一个热交换器。 制冷剂回路（60）中的压缩机（63），膨胀机构（65）和四通阀（64）与壳体（11）中的热交换器（61,62）一起设置。

公开(公告)号：US08047014B2

公开(公告)日：2011-11-01

申请号：US10594916

申请日：2005-03-30

申请人： Tomohiro Yabu ,  Shuji Ikegami ,  Yoshinori Narikawa

发明人： Tomohiro Yabu ,  Shuji Ikegami ,  Yoshinori Narikawa

IPC分类号： F25B13/00

CPC分类号： F24F3/1411 ,  F24F3/1429 ,  F24F13/20 ,  F25B13/00

摘要： A humidity control system (10) is disclosed which includes a refrigerant circuit (60). The refrigerant circuit (60) includes first and second absorbent-supported heat exchangers (61, 62) and performs a refrigeration cycle by the circulation of refrigerant. In addition, in the refrigerant circuit (60), the circulation direction of refrigerant is reversible. The first and second heat exchangers (61, 62) are disposed in a casing (11). In the humidity control system (10), the distribution route of air is changed such that a first air stream is passed through either one of the first and second heat exchangers (61, 61) that is functioning as an evaporator while a second air stream is passed through the other heat exchanger that is functioning as a condenser. A compressor (63), an expansion mechanism (65), and a four-way valve (64) in the refrigerant circuit (60) are disposed together with the heat exchangers (61, 62) in the casing (11).

摘要翻译： 公开了一种包括制冷剂回路（60）的调湿系统（10）。 制冷剂回路60包括第一和第二吸收支承热交换器61,62，通过制冷剂的循环进行制冷循环。 此外，在制冷剂回路（60）中，制冷剂的循环方向是可逆的。 第一和第二热交换器（61,62）设置在壳体（11）中。 在湿度控制系统（10）中，改变空气的分配路径，使得第一空气流通过作为蒸发器起作用的第一和第二热交换器（61,61）中的任一个，而第二空气流 通过用作冷凝器的另一个热交换器。 制冷剂回路（60）中的压缩机（63），膨胀机构（65）和四通阀（64）与壳体（11）中的热交换器（61,62）一起设置。

公开(公告)号：US07905108B2

公开(公告)日：2011-03-15

申请号：US10574896

申请日：2004-10-08

申请人： Shuji Ikegami ,  Nobuki Matsui ,  Tomohiro Yabu ,  Junichi Teraki

发明人： Shuji Ikegami ,  Nobuki Matsui ,  Tomohiro Yabu ,  Junichi Teraki

IPC分类号： F25D23/00 ,  F25D17/00

CPC分类号： B01D53/263 ,  F24F3/1411 ,  F24F3/1429 ,  F25B13/00 ,  F25B2313/02343

摘要： An air conditioning apparatus is provided which includes a plurality of heat exchangers (11, 12, 13) for effecting heat exchange between a heating medium (such as refrigerant, cold and hot water et cetera) and air and which is adapted to separately perform sensible heat processing and latent heat processing of room air (RA). In the air conditioning apparatus, at least one heat exchanger (13) is made up of an adsorption heat exchanger (13) that supports on its surface an adsorbent, thereby preventing the increase in apparatus size and making it possible to perform operations at high COP.

摘要翻译： 提供了一种空调装置，其包括多个热交换器（11,12,13），用于在加热介质（例如制冷剂，冷热水等）和空气之间进行热交换，并且适于单独地执行明智的 室内空气（RA）的热处理和潜热处理。 在空气调节装置中，至少一个热交换器（13）由吸附热交换器（13）构成，吸附热交换器（13）表面吸附有吸附剂，从而防止了设备尺寸的增加，并且能够在高COP 。

公开(公告)号：US20080307814A1

公开(公告)日：2008-12-18

申请号：US10581191

申请日：2004-10-20

申请人： Nobuki Matsui ,  Shuji Ikegami ,  Tomohiro Yabu

发明人： Nobuki Matsui ,  Shuji Ikegami ,  Tomohiro Yabu

IPC分类号： F25B27/00

CPC分类号： F24F1/0003 ,  B01D2253/106 ,  B01D2253/108 ,  B01D2259/4508 ,  F24F3/1411 ,  F24F3/1429 ,  F24F6/00 ,  F25B13/00 ,  F25B2313/02341 ,  F25B2313/02543

摘要： A refrigerant circuit (40) is provided with an outdoor heat exchanger (54), an indoor heat exchanger (55) and two adsorption heat exchangers (56, 57). The indoor heat exchanger (55) is disposed in an indoor unit (11), while the outdoor heat exchanger (54) and the two adsorption heat exchangers (56, 57) are disposed in an outdoor unit (12). Moisture in outdoor air taken in the outdoor unit (12) is adsorbed by the adsorbent in the adsorption heat exchanger (56, 57) serving as an evaporator and the air is dehumidified. The dehumidified air is cooled by the indoor heat exchanger (55) serving as an evaporator and the air is supplied to the room space.

摘要翻译： 制冷剂回路（40）设有室外热交换器（54），室内热交换器（55）和两个吸附热交换器（56,57）。 室内热交换器55配置在室内机组11中，室外热交换器54和两个吸附热交换器56,57配置在室外机组12中。 取出在室外机12中的室外空气中的水分被作为蒸发器的吸附热交换器56,57中的吸附剂吸附，并对空气进行除湿。 除湿空气由作为蒸发器的室内热交换器（55）冷却，空气被供给到室内空间。

公开(公告)号：US06787256B2

公开(公告)日：2004-09-07

申请号：US09914379

申请日：2001-08-28

申请人： Nobuki Matsui ,  Shuji Ikegami ,  Yasunori Okamoto ,  Kazuo Yonemoto

发明人： Nobuki Matsui ,  Shuji Ikegami ,  Yasunori Okamoto ,  Kazuo Yonemoto

IPC分类号： H01M804

CPC分类号： H01M8/04029 ,  H01M8/04119 ,  H01M8/04156 ,  H01M8/0612 ,  H01M8/241 ,  H01M8/2457 ,  H01M8/2465

摘要： When humidifying, almost to water vapor saturation, reformed gas that is supplied to a hydrogen electrode of a solid polymer type fuel cell (1) and air that is supplied to an oxygen electrode of the fuel cell (1), heating for obtaining water vapor to establish such saturation is not required. For the purpose of improving the thermal efficiency of a fuel cell system, water vapor contained in hydrogen electrode exhaust gas exhausted from the hydrogen electrode of the fuel cell (1) is let to penetrate through a water vapor permeable membrane (34), whereas water vapor contained either in air that is introduced into a partial oxidation reformation section (6) or in oxygen electrode exhaust gas exhausted from the oxygen electrode is let to penetrate through the water vapor permeable membrane (34) so that the water vapor is supplied to air that is supplied to the oxygen electrode of the fuel cell (1).

摘要翻译： 当加湿几乎达到水蒸气饱和时，供给到固体聚合物型燃料电池（1）的氢电极的重整气体和供给到燃料电池（1）的氧电极的空气，加热获得水蒸汽 建立饱和度不是必需的。 为了提高燃料电池系统的热效率，使从氢燃料电池（1）的氢电极排出的氢电极废气中所含的水蒸汽能够透过水蒸气透过膜（34），而水 包含在引入部分氧化重整部分（6）的空气中或在从氧电极排出的氧电极排气中的蒸气被穿透透过水蒸汽可渗透膜（34），使得水蒸气被供给到空气 供给燃料电池（1）的氧电极。

公开(公告)号：US07730736B2

公开(公告)日：2010-06-08

申请号：US10574895

申请日：2004-10-08

申请人： Nobuki Matsui ,  Shuji Ikegami ,  Tomohiro Yabu

发明人： Nobuki Matsui ,  Shuji Ikegami ,  Tomohiro Yabu

IPC分类号： F28D5/00

CPC分类号： F25B13/00 ,  B01D53/261 ,  F24F3/1411 ,  F24F3/1429 ,  F25B2313/02343

摘要： A refrigerant circuit (40) is provided with two adsorption heat exchangers (56, 57) in addition to an outdoor heat exchanger (54) and an indoor heat exchanger (55). The indoor heat exchanger (55) and the two adsorption heat exchangers (56, 57) are disposed in an indoor unit (11), while the outdoor heat exchanger (54) is disposed in an outdoor unit (12). In the adsorption heat exchanger (56, 57) serving as an evaporator, moisture in the air is adsorbed by the adsorbent. In the adsorption heat exchanger (56, 57) serving as a condenser, moisture is desorbed from the adsorbent and then applied to the air. Then, the air dehumidified or humidified by the adsorption heat exchanger (56, 57) is supplied to a room to cope with latent heat load in the room. On the other hand, in the indoor heat exchanger (55), air is cooled or heated. Then, the air cooled or heated by the indoor heat exchanger (55) is supplied to the room to cope with sensible heat load in the room.

摘要翻译： 制冷剂回路（40）除了室外热交换器（54）和室内热交换器（55）之外还设置有两个吸附热交换器（56,57）。 室内热交换器55和两个吸附热交换器56,57设置在室内机组11中，室外热交换器54配置在室外机组12中。 在用作蒸发器的吸附热交换器（56,57）中，空气中的水分被吸附剂吸附。 在用作冷凝器的吸附热交换器（56,57）中，水分从吸附剂中解吸，然后施加到空气中。 然后，通过吸附热交换器（56,57）除湿或加湿的空气被供给到室内以应对室内的潜热负荷。 另一方面，在室内热交换器（55）中，空气被冷却或加热。 然后，将由室内热交换器（55）冷却或加热的空气供给室内，以应对室内的显热负荷。