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    • 3. 发明授权
    • Oil cooler mounting structure
    • 油冷却器安装结构
    • US06263962B1
    • 2001-07-24
    • US09437515
    • 1999-11-10
    • Shuji KomodaShinichi HamadaYasutoshi Yamanaka
    • Shuji KomodaShinichi HamadaYasutoshi Yamanaka
    • F28F300
    • B01D27/005B01D35/18B01D35/306B01D2201/4023F01M11/03F01M2011/033Y10S165/916
    • An oil cooler is fixed to an engine via an installation stay provided around an outer periphery of the oil cooler. Thus, the load applied to a core portion is reduced, and the load is dispersed on entire portion of the oil cooler. Thus, the respective stresses applied to respective portions of the oil cooler are very small, and a deformation of the core portion is prevented. Furthermore, since the respective stresses on any portion of the oil cooler is reduced, it is possible to make the oil cooler with aluminum whose strength is lower than that of iron. Furthermore, since the thickness of the installation stay can be reduced, difference in the thermal expansion quantity caused by difference in coefficients of linear expansion of the bolt and the installation stay is significantly reduced, and the loose bolt of the bolt caused by difference in coefficients of linear expansion is prevented.
    • 油冷却器通过设置在油冷却器外周周围的安装支柱固定在发动机上。 因此,施加到芯部的负荷减小,负荷分散在油冷却器的整个部分。 因此,施加到油冷却器的各个部分的各个应力非常小,并且防止了芯部的变形。 此外,由于油冷却器的任何部分上的各应力减小,因此可以使强度低于铁的铝制成油冷却器。 此外,由于可以减小安装支柱的厚度,所以由于螺栓的线性膨胀系数的差异和安装支架的差异导致的热膨胀量的差异显着降低,螺栓的松动螺栓由系数差 线性膨胀被阻止。
    • 4. 发明授权
    • Heat exchanger and brazing method
    • 热交换器和钎焊方法
    • US06427768B2
    • 2002-08-06
    • US09793313
    • 2001-02-26
    • Shuji KomodaTakayoshi HaradaShinichi Hamada
    • Shuji KomodaTakayoshi HaradaShinichi Hamada
    • F28D103
    • B23K1/203B23K1/0012B23K2101/14F28D9/0012F28F21/08Y10S165/916
    • An assembly (oil cooler unit), under the state where first and second plates (130, 140) prevent a heat exchange core (110) from falling from a casing (120), is provisionally assembled, and this oil cooler unit is dipped in a flux to apply the flux. A seal surface plate (150) is then assembled to the second plate (140) and is brazed by heat-brazing in an inert gas atmosphere. Since a flux residue on the seal surface plate (150) can be drastically reduced in this manner after brazing is complete, the seal surface plate (150) can secure predetermined surface texture even after brazing is complete while the number of process steps necessary for applying the flux is reduced.
    • 临时组装在第一和第二板(130,140)防止热交换芯(110)从壳体(120)掉落的状态下的组件(油冷却器单元),并将该油冷却器单元浸入 助焊剂应用助焊剂。 然后将密封表面板(150)组装到第二板(140)上,并通过在惰性气体气氛中的热钎焊进行钎焊。 由于在钎焊完成之后,密封面板(150)上的焊剂残留物可以以这种方式大大降低,所以即使在钎焊完成之后,密封面板(150)也可以确保预定的表面纹理,同时施加必要的工艺步骤 通量减少。
    • 5. 发明申请
    • Heat exchanger
    • 热交换器
    • US20070256822A1
    • 2007-11-08
    • US11386988
    • 2006-03-22
    • Shuji Komoda
    • Shuji Komoda
    • F28F3/08
    • F28F21/084F28D9/0043F28D2021/0089F28F19/004F28F19/06
    • Oil passages 113 through which oil passes are formed with plates 111, 112 composed of aluminum or an aluminum alloy in an oil cooler, according to the present invention, that is a heat exchanger with an extended life. Moreover, fins 123a composed of a material having a corrosion potential more negative than those of the plates 111, 112 are arranged in cooling water passages 123 through which cooling water, for exchanging heat with oil, passes. A sacrificial corrosive layer 301 having a corrosion potential more negative those of the plates 111, 112 and the fins 123a is formed on each of the surfaces on the sides of the cooling water passages 123 of the plates 111, 112. As a result, the sacrificial corrosive layer 301 is preferentially corroded, and not only the plates 111, 112 but also the fins 123a can be protected. Consequently, the pressure-proof strength of the oil cooler can be maintained, and the product life can be improved.
    • 油通过的油道113在油冷却器中由铝或铝合金构成的板111,112形成,这是本发明的长寿命的热交换器。 此外,由具有比板111,112的腐蚀电位更负的材料构成的散热片123a设置在冷却水通道123中,与冷却水交换的冷却水通过该通道123通过。 在板111,112的冷却水通道123的侧面的每个表面上形成具有与板111,112和翅片123a的腐蚀电位更加相反的腐蚀电位的牺牲腐蚀层301。结果, 牺牲腐蚀层301被优先腐蚀,不仅可以保护板111,112,还可以保护翅片123a。 因此,可以保持油冷却器的耐压强度,并且可以提高产品寿命。
    • 7. 发明授权
    • Blower device
    • 鼓风机
    • US5513951A
    • 1996-05-07
    • US220014
    • 1994-03-28
    • Shuji KomodaKazuhiro TakeuchiAkira Yamanaka
    • Shuji KomodaKazuhiro TakeuchiAkira Yamanaka
    • F04D29/38F04D29/66
    • F04D29/661F04D29/386
    • The present invention relates to a fan having a plurality of equiangularly spaced, radially extending blades. The spacing provided between adjacent blades is substantially constant along the entire radial length of the blade for increasing a blowing efficiency, while also allowing a mold separation operation along the axial direction during the formation of the fan using a mold. In a case where the blade is a sweep-forward blade, the number of the blades is seven or more and has a sweep-forward angle of the blades between 35 to 45 degrees. Finally, in case where an electric motor for rotating the fan is supported by stays, the number of stay member and the number of blades, which are not evenly dividable by each other, should satisfy a relationship of 2,000
    • 本发明涉及具有多个等角度间隔的径向延伸的叶片的风扇。 相邻叶片之间设置的间距沿刀片的整个径向长度基本上是恒定的,用于提高吹塑效率,同时还允许在使用模具形成风扇期间沿轴向进行模具分离操作。 在叶片是前掠叶片的情况下,叶片的数量为七个以上,并且叶片的前掠角在35度至45度之间。 最后,在用于使风扇旋转的电动机由支架支撑的情况下,彼此不能均匀分割的支撑件数量和叶片数量应满足2000