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    • 1. 发明授权
    • Method for growing a pipe-shaped single crystal
    • 生长管状单晶的方法
    • US4323418A
    • 1982-04-06
    • US092671
    • 1979-11-09
    • Toshio KobayashiTetsu Oi
    • Toshio KobayashiTetsu Oi
    • C30B13/00C30B13/18C30B13/20C30B15/24
    • C30B13/18Y10S117/90Y10T117/104
    • A susceptor made of a conductive material which has a melting point higher than that of a starting material and which does not react with the melt of the starting material is heated to a temperature not lower than the melting point of the starting material by the radio frequency induction heating. The starting material is fed onto the upper surface of the heated susceptor at a predetermined rate so as to melt the starting material, the resultant melt of the starting material is caused to flow from the upper surface of the susceptor via the susceptor to the lower surface thereof, the melt is crystallized in touch with a seed crystal arranged on the lower surface in advance, and the seed crystal is transferred downwards, whereby a single crystal is grown.With this method, a large-sized single crystal of an insulator or a semiconductor can be readily produced, and besides a round rod-shaped single crystal, a prism-shaped or pipe-shaped single crystal can be obtained with its sectional dimensions fluctuating little.
    • 由导电材料制成的感受器,其熔点高于起始材料的熔点,并且不与起始材料的熔体反应,通过射频加热至不低于原料熔点的温度 感应加热。 以预定的速率将起始材料以预定的速率供给到加热的基座的上表面上,以使原料熔化,使原料的所得熔体从基座的上表面经由基座流到下表面 预先将熔融物与布置在下表面上的晶种接触结晶,并将晶种向下转移,从而生长单晶。 通过这种方法,可以容易地制造绝缘体或半导体的大尺寸单晶,除了圆棒状单晶之外,也可以获得棱柱状或管状的单晶,其截面尺寸变小 。
    • 3. 发明申请
    • MANUFACTURING METHOD OF GLUTEN FREE NOODLE
    • 无糖面条的制造方法
    • US20130337125A1
    • 2013-12-19
    • US13523804
    • 2012-06-14
    • Toshio Kobayashi
    • Toshio Kobayashi
    • A23L1/162B65B55/14B65B55/19
    • A23L7/109B65B19/34B65B55/14B65B55/19
    • In a raw material preparing step, a rice powder as a primary raw material powder is added with a water to prepare a mixed raw material. In a kneading step, the mixed raw material is kneaded to form a kneaded substance. In a pressing/extending step, the kneaded substance is pressed and extended to form noodle dough sheet. In a slitting step, the noodle dough sheet is slit into predetermined noodle strand shape to obtain a continuous noodle strand However, these steps maintain a non-alpha state of the rice powder component In a packaging step, a unit-length noodle strand is accommodated in a pouch-like heat-resistant packaging container and hermetically sealed to obtain a packaged unit-length noodle strand, while maintaining a non-alpha state of the rice powder component in the noodle strand.
    • 在原料制备工序中,将作为主要原料粉末的米粉加入水中以制备混合原料。 在捏合步骤中,将混合的原料捏合以形成捏合物。 在压延/延伸步骤中,将捏合的物质压制并延伸以形成面条面片。 在切割步骤中,将面条片切成预定的面条形状以获得连续的面条。然而,这些步骤保持米粉成分的非α状态在包装步骤中,容纳单位面条 在袋状耐热包装容器中进行气密密封以获得包装的单位长度的面条,同时保持面粉条中的米粉成分的非α状态。
    • 4. 发明申请
    • REFRIGERATOR AND VACUUM HEAT INSULATING MATERIAL FOR USE IN REFRIGERATOR
    • 制冷机使用的制冷器和真空绝热材料
    • US20130313267A1
    • 2013-11-28
    • US13983507
    • 2012-08-31
    • Yoshimasa HorioShinya NagahataToshio KobayashiTarou YamaguchiShuhei SugimotoKazuya NakanishiJunichi KuritaHiroki HamanoShinya KojimaNoriyuki Miyaji
    • Yoshimasa HorioShinya NagahataToshio KobayashiTarou YamaguchiShuhei SugimotoKazuya NakanishiJunichi KuritaHiroki HamanoShinya KojimaNoriyuki Miyaji
    • F25D11/00
    • F25D11/00F25D23/06F25D2201/14
    • The present invention provides a refrigerator with improved refrigerator box strength and high heat insulating performance, which is configured such that external deformation due to entry of air into a vacuum heat insulating material, the entry of air being caused by aging degradation, is prevented. The present invention includes: a heat-insulated box including an inner casing and an outer casing, in which space between the inner casing and the outer casing is filled with a foamed heat insulating material; and a vacuum heat insulating material disposed in at least a side wall of the heat-insulated box together with the foamed heat insulating material, the vacuum heat insulating material including an outer skin material, the outer skin material including at least a core material and being decompression-sealed. The vacuum heat insulating material includes a gas adsorbent. Since the vacuum heat insulating material including the gas adsorbent is included in the side wall, which tends to be greatly distorted among the heat insulating walls of the refrigerator, the rigidity of the side wall is improved and aging degradation of the vacuum heat insulating material is suppressed. As a result, the rigidity of the heat-insulated box can be maintained for a long term, and external deformation of the outer casing of the body can be prevented.
    • 本发明提供了一种具有改善的冰箱箱强度和高绝热性能的冰箱,其被构造成使得由于空气进入真空绝热材料而导致的外部变形,由老化劣化引起的空气进入。 本发明包括:包括内壳和外壳的绝热箱,其中内壳和外壳之间的空间填充有泡沫绝热材料; 以及设置在所述隔热箱的至少侧壁中的所述真空绝热材料与所述发泡绝热材料一起,所述真空绝热材料包括外皮材料,所述外皮材料至少包括芯材,并且是 减压密封。 真空绝热材料包括气体吸附剂。 由于包括气体吸附剂的真空隔热材料包括在侧壁中,在冰箱的绝热壁之间容易发生大的变形,所以侧壁的刚性提高,真空隔热材料的老化劣化是 被压制 结果,可以长期保持隔热箱的刚性,并且可以防止身体的外壳的外部变形。