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    • 1. 发明申请
    • Humidity control device
    • 湿度控制装置
    • US20060179862A1
    • 2006-08-17
    • US10547938
    • 2004-03-09
    • Shuji IkegamiTakahisa SueokaTomohiro Yabu
    • Shuji IkegamiTakahisa SueokaTomohiro Yabu
    • F25D17/06F25D23/00F25D21/00F25B13/00
    • F24F3/1411B01D53/261F24F1/022F24F3/1429F24F3/147F25B13/00
    • A humidity controller apparatus comprises: a first heat exchange chamber (69) for accommodating a first heat exchanger (3), an adsorbent material being supported on a surface of said first heat exchanger (3); and a second heat exchange chamber (73), formed adjacently to said first heat exchange chamber (69), for accommodating a second heat exchanger (5), an adsorbent material being supported on a surface of said second heat exchanger (5). A first air inflow passage (63) and a first air outflow passage (65) are formed along one end surface in a thickness direction in which respective one surfaces of said two heat exchange chambers (69, 73) continue and which are arranged in a superimposed manner in the thickness direction of both said heat exchange chambers (69, 73). A second air inflow passage (57) and a second air outflow passage (59) are formed along another end surface which is an end surface where respective one surfaces of said two heat exchange chambers (69, 73) continue and which is situated face to face with said one end surface, and which are arranged in a superimposed manner in the thickness direction of both said heat exchange chambers (69, 73). Opening/closing means (35, . . . , 47, . . . ) are provided for opening and closing openings (31a, . . . , 33a, . . . ) for communication between said first heat exchange chamber (69) and said second heat exchange chamber (73), and each said inflow passage (57, 63) and each said outflow passage (59, 65).
    • 一种湿度调节装置,包括:第一热交换室(69),用于容纳第一热交换器(3);吸附材料被支撑在所述第一热交换器(3)的表面上; 以及与所述第一热交换室(69)相邻形成的用于容纳第二热交换器(5)的第二热交换室(73),吸附材料被支撑在所述第二热交换器(5)的表面上。 一个第一空气流入通道(63)和第一空气流出通道(65)沿着厚度方向的一个端面形成,其中所述两个热交换室(69,73)的相应的一个表面继续并且被布置在 在两个所述热交换室(69,73)的厚度方向上叠加。 第二空气流入通道(57)和第二空气流出通道(59)沿着另一个端面形成,该端面是所述两个热交换室(69,73)的相应一个表面相继连续的端面, 面对所述一个端面,并且在两个所述热交换室(69,73)的厚度方向上重叠地布置。 提供打开/关闭装置(35,...,47 ...),用于打开和关闭用于所述第一热交换室(69)之间连通的开口(31a,...,33a,...) 和所述第二热交换室(73)和每个所述流入通道(57,63)和每个所述流出通道(59,65)。
    • 2. 发明授权
    • Humidity control device
    • 湿度控制装置
    • US07412836B2
    • 2008-08-19
    • US10547938
    • 2004-03-09
    • Shuji IkegamiTakahisa SueokaTomohiro Yabu
    • Shuji IkegamiTakahisa SueokaTomohiro Yabu
    • F25D17/06F25D21/00
    • F24F3/1411B01D53/261F24F1/022F24F3/1429F24F3/147F25B13/00
    • A humidity controller apparatus comprises: a first heat exchange chamber (69) for accommodating a first heat exchanger (3), an adsorbent material being supported on a surface of said first heat exchanger (3); and a second heat exchange chamber (73), formed adjacently to said first heat exchange chamber (69), for accommodating a second heat exchanger (5), an adsorbent material being supported on a surface of said second heat exchanger (5). A first air inflow passage (63) and a first air outflow passage (65) are formed along one end surface in a thickness direction in which respective one surfaces of said two heat exchange chambers (69, 73) continue and which are arranged in a superimposed manner in the thickness direction of both said heat exchange chambers (69, 73). A second air inflow passage (57) and a second air outflow passage (59) are formed along another end surface which is an end surface where respective one surfaces of said two heat exchange chambers (69, 73) continue and which is situated face to face with said one end surface, and which are arranged in a superimposed manner in the thickness direction of both said heat exchange chambers (69, 73). Opening/closing means (35, . . . , 47, . . . ) are provided for opening and closing openings (31a, . . . , 33a, . . . ) for communication between said first heat exchange chamber (69) and said second heat exchange chamber (73), and each said inflow passage (57, 63) and each said outflow passage (59, 65).
    • 一种湿度调节装置,包括:第一热交换室(69),用于容纳第一热交换器(3);吸附材料被支撑在所述第一热交换器(3)的表面上; 以及与所述第一热交换室(69)相邻形成的用于容纳第二热交换器(5)的第二热交换室(73),吸附材料被支撑在所述第二热交换器(5)的表面上。 一个第一空气流入通道(63)和第一空气流出通道(65)沿着厚度方向的一个端面形成,其中所述两个热交换室(69,73)的相应的一个表面继续并且被布置在 在两个所述热交换室(69,73)的厚度方向上叠加。 第二空气流入通道(57)和第二空气流出通道(59)沿着另一个端面形成,该端面是所述两个热交换室(69,73)的相应一个表面相继连续的端面, 面对所述一个端面,并且在两个所述热交换室(69,73)的厚度方向上重叠地布置。 提供打开/关闭装置(35,...,47 ...),用于打开和关闭用于所述第一热交换室(69)之间连通的开口(31a,...,33a,...) 和所述第二热交换室(73)和每个所述流入通道(57,63)和每个所述流出通道(59,65)。
    • 3. 发明授权
    • Air conditioning system
    • 空调系统
    • US07730736B2
    • 2010-06-08
    • US10574895
    • 2004-10-08
    • Nobuki MatsuiShuji IkegamiTomohiro Yabu
    • Nobuki MatsuiShuji IkegamiTomohiro Yabu
    • F28D5/00
    • F25B13/00B01D53/261F24F3/1411F24F3/1429F25B2313/02343
    • 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.
    • 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。
    • 4. 发明申请
    • Humidity Control System
    • 湿度控制系统
    • US20070209385A1
    • 2007-09-13
    • US10594916
    • 2005-03-30
    • Tomohiro YabuShuji IkegamiYoshinori Narikawa
    • Tomohiro YabuShuji IkegamiYoshinori Narikawa
    • F25B17/08
    • F24F3/1411F24F3/1429F24F13/20F25B13/00
    • 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).
    • 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。
    • 5. 发明申请
    • Humidity controller
    • 湿度控制器
    • US20070028639A1
    • 2007-02-08
    • US10555081
    • 2004-05-24
    • Shuji IkegamiTomohiro Yabu
    • Shuji IkegamiTomohiro Yabu
    • F25D17/06B01D53/02F25D23/00
    • B01D53/265F24F3/1411F24F3/1429F24F2011/0002
    • A humidity controller apparatus (10) includes a refrigerant circuit provided with first and second heat exchangers (61, 62). An adsorbent is supported on the surface of each of the first and second heat exchangers (61, 62). The refrigerant circuit is configured to allow for switching of the circulation direction of a refrigerant by operation of a four-way selector valve. In addition, in the humidity controller apparatus (10), a switching mechanism (50) switches the distribution routes of air streams. The humidity controller apparatus (10) operates the four-way selector valve and the switching mechanism (50), whereby a first air stream is dehumidified in the heat exchanger (61) or (62), whichever is acting as an evaporator while, on the other hand, a second air stream is humidified in the heat exchanger (61) or (62), whichever is acting as a condenser. In the humidity controller apparatus (10), the operation of the refrigerant circuit and the switching time interval of the air stream distribution routes are set depending on the load of humidity control. As the humidity control load increases, the switching time interval is set smaller.
    • 一种调湿装置(10)具备设置有第一及第二热交换器(61,62)的制冷剂回路。 吸附剂被支撑在第一和第二热交换器(61,62)中的每一个的表面上。 制冷剂回路构成为能够通过四通换向阀的动作切换制冷剂的循环方向。 另外,在湿度控制装置(10)中,切换机构(50)切换空气流的配送路径。 湿度调节装置(10)操作四通换向阀和切换机构(50),由此第一空气流在热交换器(61)或(62)中被除湿,无论哪个用作蒸发器,而在 另一方面,第二气流在热交换器(61)或(62)中被加湿,无论作为冷凝器。 在湿度控制装置(10)中,根据湿度控制的负荷来设定制冷剂回路的运转和气流分配路径的切换时间间隔。 随着湿度控制负载的增加,切换时间间隔变小。
    • 6. 发明授权
    • Adsorption heat exchanger with varying adsorbent
    • 具有不同吸附剂的吸附热交换器
    • US07997098B2
    • 2011-08-16
    • US11587677
    • 2005-04-25
    • Tomohiro YabuShuji Ikegami
    • Tomohiro YabuShuji Ikegami
    • F25D23/00
    • F24F3/1411B01D53/261F24F3/1429F25B39/00F28D1/0477F28F1/32F28F13/187
    • An adsorption heat exchanger (20) is constituted by a fin-and-tube heat exchanger. In the adsorption heat exchanger (20), a first tube column (41), a second tube column (42) and a third tube column (43) are formed in order from upstream to downstream in air flow. The adsorption heat exchanger (20) is formed of a first column part (21) including the first tube column (41), a second column part (22) including the second tube column (42) and a third column part (23) including the third tube column (43). In the adsorption heat exchanger (20), a first adsorption layer (36) is formed on the fins (30) in the first column part (21), a second adsorption layer (37) is formed on the fins (30) in the second column part (22) and a third adsorption layer (38) is formed on the fins (30) in the third column part (23). The amount of adsorbent contained in each adsorption layer increases in order of the first adsorption layer (36), the second adsorption layer (37) and the third adsorption layer (38).
    • 吸附热交换器(20)由翅片管式热交换器构成。 在吸附热交换器(20)中,在空气流中从上游到下游依次形成第一管柱(41),第二管柱(42)和第三管柱(43)。 吸附热交换器(20)由包括第一管柱(41)的第一柱部分(21),包括第二管柱(42)的第二塔部分(22)和包括第二管柱 第三管柱(43)。 在吸附热交换器(20)中,在第一塔部(21)的翅片(30)上形成有第一吸附层(36),在翅片(30)上形成有第二吸附层 第二列部分(22)和第三吸附层(38)形成在第三列部分(23)中的翅片(30)上。 每个吸附层中所含的吸附剂的量按照第一吸附层(36),第二吸附层(37)和第三吸附层(38)的顺序增加。
    • 7. 发明申请
    • Air conditioning system
    • 空调系统
    • US20070125115A1
    • 2007-06-07
    • US10574895
    • 2004-10-08
    • Nobuki MatsuiShuji IkegamiTomohiro Yabu
    • Nobuki MatsuiShuji IkegamiTomohiro Yabu
    • F28D5/00F25D23/12F25D15/00F25D17/06
    • F25B13/00B01D53/261F24F3/1411F24F3/1429F25B2313/02343
    • 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.
    • 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。
    • 10. 发明授权
    • Humidity controller
    • 湿度控制器
    • US07472553B2
    • 2009-01-06
    • US10555081
    • 2004-05-24
    • Shuji IkegamiTomohiro Yabu
    • Shuji IkegamiTomohiro Yabu
    • F25D17/06F25B17/00
    • B01D53/265F24F3/1411F24F3/1429F24F2011/0002
    • A humidity controller apparatus (10) includes a refrigerant circuit provided with first and second heat exchangers (61, 62). An adsorbent is supported on the surface of each of the first and second heat exchangers (61, 62). The refrigerant circuit is configured to allow for switching of the circulation direction of a refrigerant by operation of a four-way selector valve. In addition, in the humidity controller apparatus (10), a switching mechanism (50) switches the distribution routes of air streams. The humidity controller apparatus (10) operates the four-way selector valve and the switching mechanism (50), whereby a first air stream is dehumidified in the heat exchanger (61) or (62), whichever is acting as an evaporator while, on the other hand, a second air stream is humidified in the heat exchanger (61) or (62), whichever is acting as a condenser. In the humidity controller apparatus (10), the operation of the refrigerant circuit and the switching time interval of the air stream distribution routes are set depending on the load of humidity control. As the humidity control load increases, the switching time interval is set smaller.
    • 一种调湿装置(10)具备设置有第一及第二热交换器(61,62)的制冷剂回路。 吸附剂被支撑在第一和第二热交换器(61,62)中的每一个的表面上。 制冷剂回路构成为能够通过四通换向阀的动作切换制冷剂的循环方向。 另外,在湿度控制装置(10)中,切换机构(50)切换空气流的配送路径。 湿度调节装置(10)操作四通换向阀和切换机构(50),由此第一空气流在热交换器(61)或(62)中被除湿,无论哪个用作蒸发器,而在 另一方面,第二气流在热交换器(61)或(62)中被加湿,无论作为冷凝器。 在湿度控制装置(10)中,根据湿度控制的负荷来设定制冷剂回路的运转和气流分配路径的切换时间间隔。 随着湿度控制负载的增加,切换时间间隔变小。