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    • 1. 发明授权
    • Thermal insulator
    • 绝热体
    • US07833327B2
    • 2010-11-16
    • US11814950
    • 2006-01-27
    • Chie HiraiKazutaka UekadoAkiko Yuasa
    • Chie HiraiKazutaka UekadoAkiko Yuasa
    • B01D53/02
    • F25D23/06C22C26/00C22C29/12C22C32/001C22C32/0015F25D2201/10Y10T428/1362Y10T428/231
    • An adsorbent capable of adsorbing gas low in activity such as nitrogen is used, and a thermal insulator high in production efficiency and excellent in adiabatic performance is presented. A thermal insulator has an adsorbent, a core material, and an enveloping member. The adsorbent includes Li and solid matter of hardness of 5 or more. The gas adsorbing activity becomes very high, and for embodiment by evacuating to a certain degree of vacuum by using a vacuum pump, the remaining gas is adsorbed by the adsorbent of the invention to obtain a desired degree of vacuum, so that a thermal insulator of high production efficiency is obtained. Since the heat conductivity is decreased by adsorbing gas of low activity in the enveloping member, the adiabatic performance is enhanced.
    • 使用能够吸附氮等低活性的吸附剂,具有制造效率高,绝热性优异的绝热材料。 绝热体具有吸附剂,芯材料和包封部件。 吸附剂包括Li和硬度为5以上的固体物质。 气体吸附活性变得非常高,并且通过使用真空泵将其抽真空至一定程度的真空,通过本发明的吸附剂吸附剩余的气体以获得所需的真空度,从而使绝热体 获得高生产效率。 由于通过在包络构件中吸附低活性气体来降低导热性,所以绝热性能得以提高。
    • 4. 发明申请
    • THERMAL INSULATOR
    • 热绝缘子
    • US20090007789A1
    • 2009-01-08
    • US11814950
    • 2006-01-27
    • Chie HiraiKazutaka UekadoAkiko Yuasa
    • Chie HiraiKazutaka UekadoAkiko Yuasa
    • B01D53/02
    • F25D23/06C22C26/00C22C29/12C22C32/001C22C32/0015F25D2201/10Y10T428/1362Y10T428/231
    • An adsorbent capable of adsorbing gas low in activity such as nitrogen is used, and a thermal insulator high in production efficiency and excellent in adiabatic performance is presented. A thermal insulator has an adsorbent, a core material, and an enveloping member. The adsorbent includes Li and solid matter of hardness of 5 or more. The gas adsorbing activity becomes very high, and for embodiment by evacuating to a certain degree of vacuum by using a vacuum pump, the remaining gas is adsorbed by the adsorbent of the invention to obtain a desired degree of vacuum, so that a thermal insulator of high production efficiency is obtained. Since the heat conductivity is decreased by adsorbing gas of low activity in the enveloping member, the adiabatic performance is enhanced.
    • 使用能够吸附氮等低活性的吸附剂,具有制造效率高,绝热性优异的绝热材料。 绝热体具有吸附剂,芯材料和包封部件。 吸附剂包括Li和硬度为5以上的固体物质。 气体吸附活性变得非常高,并且通过使用真空泵将其抽真空至一定程度的真空,通过本发明的吸附剂吸附剩余气体以获得所需的真空度,从而使绝热体 获得高生产效率。 由于通过在包络构件中吸附低活性气体来降低导热性,所以绝热性能得以提高。
    • 6. 发明授权
    • Portable information appliance
    • 便携式信息设备
    • US06859364B2
    • 2005-02-22
    • US10048934
    • 2001-06-06
    • Akiko YuasaYasuaki TanimotoChie Hirai
    • Akiko YuasaYasuaki TanimotoChie Hirai
    • A01N25/10A01N43/36A01N51/00G06F1/20
    • G06F1/203A01N25/10A01N43/36A01N51/00A01N47/38A01N2300/00
    • A portable information device such as a notebook type computer is provided with a highly efficient thermal insulator capable of blocking transfer of heat between an internal heating component and a device enclosure, so as to reduce temperature rise on a surface of the device. The portable information device is also provided with a highly efficient thermal insulator to block transfer of heat between the heating component and an expansion unit mounting case, thereby reducing temperature rise and preventing malfunction of an external expansion unit. The information device includes the thermal insulator to separate between the internal heating component and the device enclosure, another thermal insulator to separate between the heating component and the expansion unit mounting case, and a heat sink. The thermal insulator is a vacuum thermal insulator including inorganic fiber as a core member.
    • 诸如笔记型计算机的便携式信息设备设置有能够阻挡内部加热部件和设备外壳之间的热传递的高效热绝缘体,以便减少设备表面上的温度升高。 便携式信息装置还设置有高效的绝热体,以阻止加热部件和扩展单元安装壳体之间的热传递,从而降低温度上升并防止外部扩展单元的故障。 信息装置包括分隔在内部加热部件和装置外壳之间的隔热件,另一个用于在加热部件和膨胀单元安装壳体之间分离的隔热件以及散热器。 绝热体是以无机纤维为核心的真空绝热体。
    • 9. 发明授权
    • Refrigerator
    • 冰箱
    • US07210308B2
    • 2007-05-01
    • US10258130
    • 2000-12-28
    • Yasuaki TanimotoChie Hirai
    • Yasuaki TanimotoChie Hirai
    • F25D11/00F25D23/00
    • B65D81/18B65D81/3823B65D81/3897C03C13/00F16L59/065F25D23/062F25D2201/124F25D2201/126F25D2201/14F25D2400/04
    • By using a core made of laminated sheets of inorganic fibers having a particular shape and composition as part of a vacuum heat insulator for a heat insulation box, a heat insulation box excellent in long-term heat insulating properties and productivity can be provided. The vacuum heat insulator can be shaped easily. Therefore, a vacuum heat insulator suitable for a required heat insulation portion can be produced easily and applied to a heat insulation box. This property can increase coverage of the vacuum heat insulator on the heat insulation box, thus improving heat insulating properties of the heat insulation box. This can improve heat insulating properties and productivity of a refrigerator, thermal storage box, cold storage box, or vending machine, and contribute to energy savings.
    • 通过使用具有特定形状和组成的无机纤维的层叠片作为隔热箱的真空绝热体的一部分的芯,可以提供长期绝热性和生产率优异的隔热箱。 真空绝热体可以很容易地成型。 因此,能够容易地制造适合于所需的绝热部的真空绝热体,并将其施加到隔热箱。 这种性能可以增加绝热箱上真空绝热器的覆盖面,从而提高隔热箱的绝热性能。 这可以提高冰箱,储热箱,冷藏箱或自动售货机的隔热性能和生产率,并有助于节能。