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    • 2. 发明授权
    • Heat exchange element and manufacturing method thereof, heat exchanger, and heat exchange ventilator
    • 换热元件及其制造方法,热交换器和热交换换气机
    • US08590606B2
    • 2013-11-26
    • US12600479
    • 2007-06-18
    • Hidemoto AraiMasaru TakadaTakanori ImaiYouichi Sugiyama
    • Hidemoto AraiMasaru TakadaTakanori ImaiYouichi Sugiyama
    • F28F3/00
    • F28D9/0062F24F12/006F28F3/027Y02B30/563Y10T29/49373
    • According to the present invention, in constituting a heat exchange element having a stacked-layer structure in which sheet-like partition members added a moisture absorbent thereto and spacing members are stacked alternately, the spacing members being joined with the partition members so as to form air flow passages together with the partition members, each of the spacing members includes a plurality of section walls that divide a space between the partition member joined under the spacing member and the partition member joined on the spacing member into a plurality of flow passages, and one or more first section walls formed with holes that bring adjacent flow passages into communication with each other and one or more second section walls formed with no hole that brings adjacent flow passages into communication with each other are alternately arranged in each of the spacing members. The present invention facilitates to constitute a light-weight total-heat type heat exchanger having high heat exchanging efficiency using the heat exchange element.
    • 根据本发明,在构成具有叠层结构的热交换元件中,其中片状分隔件向其中添加吸湿剂和间隔件交替堆叠,间隔件与分隔件接合以形成 空气流动通道与分隔构件一起,每个间隔构件包括多个分隔壁,其将在间隔构件下接合的分隔构件与接合在间隔构件上的分隔构件之间分隔成多个流动通道, 一个或多个第一部分壁形成有使相邻的流动通道彼此连通并且形成有没有孔的一个或多个第二部分壁的相邻的流动通道彼此连通的孔的交替布置在每个间隔部件中。 本发明有利于构成使用该热交换元件的具有高热交换效率的轻质全热式热交换器。
    • 3. 发明申请
    • HEAT EXCHANGE ELEMENT AND MANUFACTURING METHOD THEREOF, HEAT EXCHANGER, AND HEAT EXCHANGE VENTILATOR
    • 热交换器和热交换器通风机的换热元件及其制造方法
    • US20100147499A1
    • 2010-06-17
    • US12600479
    • 2007-06-18
    • Hidemoto AraiMasaru TakadaTakanori ImaiYouichi Sugiyama
    • Hidemoto AraiMasaru TakadaTakanori ImaiYouichi Sugiyama
    • F28F1/10B23P15/26
    • F28D9/0062F24F12/006F28F3/027Y02B30/563Y10T29/49373
    • According to the present invention, in constituting a heat exchange element having a stacked-layer structure in which sheet-like partition members added a moisture absorbent thereto and spacing members are stacked alternately, the spacing members being joined with the partition members so as to form air flow passages together with the partition members, each of the spacing members includes a plurality of section walls that divide a space between the partition member joined under the spacing member and the partition member joined on the spacing member into a plurality of flow passages, and one or more first section walls formed with holes that bring adjacent flow passages into communication with each other and one or more second section walls formed with no hole that brings adjacent flow passages into communication with each other are alternately arranged in each of the spacing members. The present invention facilitates to constitute a light-weight total-heat type heat exchanger having high heat exchanging efficiency using the heat exchange element.
    • 根据本发明,在构成具有叠层结构的热交换元件中,其中片状分隔件向其中添加吸湿剂和间隔件交替堆叠,间隔件与分隔件接合以形成 空气流动通道与分隔构件一起,每个间隔构件包括多个分隔壁,其将在间隔构件下接合的分隔构件与接合在间隔构件上的分隔构件之间分隔成多个流动通道, 一个或多个第一部分壁形成有使相邻的流动通道彼此连通并且形成有没有孔的一个或多个第二部分壁的相邻的流动通道彼此连通的孔的交替布置在每个间隔部件中。 本发明有利于构成使用该热交换元件的具有高热交换效率的轻质全热式热交换器。
    • 5. 发明申请
    • Heat exchanger
    • 热交换器
    • US20070095513A1
    • 2007-05-03
    • US11260137
    • 2005-10-28
    • Hidemoto AraiHisao YokoyaKenzou TakahashiYouichi SugiyamaMasaru TakadaMasataka Yoshino
    • Hidemoto AraiHisao YokoyaKenzou TakahashiYouichi SugiyamaMasaru TakadaMasataka Yoshino
    • F28F3/00
    • F28D21/0015F28D9/0062
    • A known heat exchanger has a lower rate of blocking the movement of moisture through the joint as compared to a joint bonded with a moisture impermeable adhesive because the corrugated and flat substrates are bonded with thermoplastic fibers by performing heating and pressurizing treatments, but has insufficient moisture permeability because both the flat substrate, which is a partition, and the corrugated substrate, which is a space retaining plate, have a poor moisture permeability. In a heat exchanger in which two types of air flows are directed across a moisture permeable partition plate spaced apart from an adjacent partition plate by a space retaining plate, and perform heat exchange between them through the partition plate, a joint is formed by bonding the partition plate and the space retaining plate using fluoro-resin or hydrocarbon resin containing a hydrophilic group to provide an excellent moisture absorption and diffusion property.
    • 与通过不透湿粘合剂接合的接头相比,已知的热交换器具有较低的阻塞水分通过接头的速率,因为通过进行加热和加压处理,波纹状和平坦的基底与热塑性纤维结合,但水分不足 渗透性,因为作为隔板的平坦基板和作为空间保持板的波纹状基板都具有差的透湿性。 在两个类型的空气流通过间隔板与相邻隔板间隔开的透湿分隔板的热交换器中,通过分隔板进行热交换,通过将接合 隔板和空间保持板,其使用含有亲水基团的氟树脂或烃树脂,以提供优异的吸湿扩散性。
    • 7. 发明申请
    • Total heat exchanging element
    • 总热交换元件
    • US20080047699A1
    • 2008-02-28
    • US11892915
    • 2007-08-28
    • Masaru TakadaHidemoto AraiYouichi SugiyamaHisao YokoyaKenzo TakahashiJunji HaradaMasayuki Tsubaki
    • Masaru TakadaHidemoto AraiYouichi SugiyamaHisao YokoyaKenzo TakahashiJunji HaradaMasayuki Tsubaki
    • F28F3/00
    • F28D21/0015F24F3/147F24F2003/1435F28D9/0062
    • When latent heat is transferred between the two airflows flowing along the respective sides of each partition member, not only a layer of moisture absorbent but also a layer of flame retardant lies in the direction of transfer of the moisture. Thus, even if the moisture is absorbed by the layer of moisture absorbent, the layer of flame retardant resists the moisture transfer so that the amount of transfer of the moisture decreases in that part with a drop in the moisture permeability of the partition member. To solve the problem, there is provided a total heat exchanging element comprising partition members and spacing members having moisture permeable portions provided with moisture permeability and flame resisting portions provided with flame retardancy, the both portions not overlapping with each other within each single member. For example, the partition members have the moisture permeable portions provided with moisture permeability, and the spacing members have the moisture resisting portions provided with flame retardancy.
    • 当在沿着每个分隔构件的相应侧面流动的两个气流之间转移潜热时,不仅一层吸湿剂而且一层阻燃剂位于水分转移的方向上。 因此,即使水分被吸湿剂层吸收,阻燃层抵抗水分转移,使得在该部分水分的转移量随分隔构件的透湿性降低而降低。 为了解决这个问题,提供了一种总热交换元件,其包括具有透湿部分和具有阻燃性的阻燃部分的透湿部分的分隔部件和间隔部件,两部分在每个单个部件内彼此不重叠。 例如,分隔构件具有透湿性的透湿部分,并且间隔部件具有提供阻燃性的防潮部分。
    • 8. 发明授权
    • Heat exchanger
    • 热交换器
    • US07320361B2
    • 2008-01-22
    • US11260137
    • 2005-10-28
    • Hidemoto AraiHisao YokoyaKenzou TakahashiYouichi SugiyamaMasaru TakadaMasataka Yoshino
    • Hidemoto AraiHisao YokoyaKenzou TakahashiYouichi SugiyamaMasaru TakadaMasataka Yoshino
    • F28F3/02
    • F28D21/0015F28D9/0062
    • A known heat exchanger has a lower rate of blocking the movement of moisture through the joint as compared to a joint bonded with a moisture impermeable adhesive because the corrugated and flat substrates are bonded with thermoplastic fibers by performing heating and pressurizing treatments, but has insufficient moisture permeability because both the flat substrate, which is a partition, and the corrugated substrate, which is a space retaining plate, have a poor moisture permeability.In a heat exchanger in which two types of air flows are directed across a moisture permeable partition plate spaced apart from an adjacent partition plate by a space retaining plate, and perform heat exchange between them through the partition plate, a joint is formed by bonding the partition plate and the space retaining plate using fluoro-resin or hydrocarbon resin containing a hydrophilic group to provide an excellent moisture absorption and diffusion property.
    • 与通过不透湿粘合剂接合的接头相比,已知的热交换器具有较低的阻塞水分通过接头的速率,因为通过进行加热和加压处理,波纹状和平坦的基底与热塑性纤维结合,但水分不足 渗透性,因为作为隔板的平坦基板和作为空间保持板的波纹状基板都具有差的透湿性。 在两个类型的空气流通过间隔板与相邻隔板间隔开的透湿分隔板的热交换器中,通过分隔板进行热交换,通过将接合 隔板和空间保持板,其使用含有亲水基团的氟树脂或烃树脂,以提供优异的吸湿扩散性。
    • 9. 发明授权
    • Total heat exchanging element
    • 总热交换元件
    • US07299862B2
    • 2007-11-27
    • US10891016
    • 2004-07-15
    • Masaru TakadaHidemoto AraiYouichi SugiyamaHisao YokoyaKenzo TakahashiJunji HaradaMasayuki Tsubaki
    • Masaru TakadaHidemoto AraiYouichi SugiyamaHisao YokoyaKenzo TakahashiJunji HaradaMasayuki Tsubaki
    • F28F13/18
    • F28D21/0015F24F3/147F24F2003/1435F28D9/0062
    • When latent heat is transferred between the two airflows flowing along the respective sides of each partition member, not only a layer of moisture absorbent but also a layer of flame retardant lies in the direction of transfer of the moisture. Thus, even if the moisture is absorbed by the layer of moisture absorbent, the layer of flame retardant resists the moisture transfer so that the amount of transfer of the moisture decreases in that part with a drop in the moisture permeability of the partition member. To solve the problem, there is provided a total heat exchanging element comprising partition members and spacing members having moisture permeable portions provided with moisture permeability and flame resisting portions provided with flame retardancy, the both portions not overlapping with each other within each single member. For example, the partition members have the moisture permeable portions provided with moisture permeability, and the spacing members have the moisture resisting portions provided with flame retardancy.
    • 当在沿着每个分隔构件的相应侧面流动的两个气流之间转移潜热时,不仅一层吸湿剂而且一层阻燃剂位于水分转移的方向上。 因此,即使水分被吸湿剂层吸收,阻燃层抵抗水分转移,使得在该部分水分的转移量随分隔构件的透湿性降低而降低。 为了解决这个问题,提供了一种总热交换元件,其包括具有透湿部分和具有阻燃性的阻燃部分的透湿部分的分隔部件和间隔部件,两部分在每个单个部件内彼此不重叠。 例如,分隔构件具有透湿性的透湿部分,并且间隔部件具有提供阻燃性的防潮部分。