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    • 2. 发明申请
    • ARMOR STEEL STRUCTURE
    • ARMOR钢结构
    • US20110283874A1
    • 2011-11-24
    • US12947386
    • 2010-11-16
    • UDO KLASFAUSEWEHANDREAS RUWE
    • UDO KLASFAUSEWEHANDREAS RUWE
    • F41H7/02F41H5/02
    • F41H7/04
    • A three-dimensional structure for armoring a motor vehicle is made of a steel plate and has a substantial hemispherical shape. The structure is reinforced by bending edges having an X-shaped configuration extending over the entire surface of the structure. Arranged between the legs of the X-shaped portion are sections which have surface areas between the legs of the X-shaped portion. The surface area of the X-shaped portion has a generally concave curvature, whereas the surface areas of the sections 11 have convex configurations in relation to the concave surface area of the X-shaped portion.
    • 用于装载机动车辆的三维结构由钢板制成并且具有实质的半球形状。 该结构通过在结构的整个表面上延伸的具有X形构造的弯曲边缘来加强。 在X形部分的腿部之间布置有在X形部分的腿之间具有表面区域的部分。 X形部分的表面积具有大致凹曲率,而部分11的表面积相对于X形部分的凹表面积具有凸形构造。
    • 6. 发明授权
    • Method of manufacturing a composite control arm shaft for motor vehicles
and composite control arm shaft
    • 制造用于机动车辆和复合控制臂轴的复合控制臂轴的方法
    • US6059314A
    • 2000-05-09
    • US974037
    • 1997-11-19
    • Wolfgang StreubelUdo KlasfausewehKlaus Glaser
    • Wolfgang StreubelUdo KlasfausewehKlaus Glaser
    • B60G21/05B62D21/00B60G3/12B60G3/18B62D21/03
    • B60G21/051B60G2200/21B60G2204/122B60G2206/012B60G2206/11B60G2206/20B60G2206/202B60G2206/203B60G2206/80B60G2206/8201B60G2500/20
    • A method of manufacturing a composite front suspension control arm shaft for motor vehicles includes connecting two tubular longitudinal control arms to a transverse sectional member, wherein a connection portion adapted to the cross-sectional configuration of the ends of the transverse sectional member is produced at each longitudinal control arm, and wherein the ends of the transverse sectional member are positioned in an assembly position relative to the connection portions and are secured by welding thereto. The composite front suspension control arm shaft includes two tubular longitudinal control arms connected to a transverse sectional member, wherein the first length portion of each longitudinal control arm adjacent the wheel carrier is of rectangular configuration, wherein the width of the rectangular length portion is greater than the height of the length portion and a second length portion of each longitudinal control arm to be coupled to the support frame is of rectangular configuration, wherein the height of the second rectangular length portion is greater than its width, and wherein each longitudinal control arm has a connection portion adapted to the cross-sectional configuration of the ends of the transverse sectional member.
    • 一种制造用于机动车辆的复合前悬架控制臂轴的方法包括将两个管状纵向控制臂连接到横截面构件,其中在每一个处产生适于横截面构件的端部的横截面构造的连接部分 纵向控制臂,并且其中横截面构件的端部相对于连接部分定位在组装位置中,并且通过焊接固定。 复合前悬架控制臂轴包括连接到横截面构件的两个管状纵向控制臂,其中每个纵向控制臂相邻于轮架的第一长度部分是矩形构造,其中矩形长度部分的宽度大于 要连接到支撑框架的每个纵向控制臂的长度部分和第二长度部分的高度是矩形构造,其中第二矩形长度部分的高度大于其宽度,并且其中每个纵向控制臂具有 适于横截面构件的端部的横截面构造的连接部分。
    • 10. 发明授权
    • Armor steel structure
    • 装甲钢结构
    • US08376452B2
    • 2013-02-19
    • US12947386
    • 2010-11-16
    • Udo KlasfausewehAndreas Ruwe
    • Udo KlasfausewehAndreas Ruwe
    • F41H5/02
    • F41H7/04
    • A three-dimensional structure for armoring a motor vehicle is made of a steel plate and has a substantial hemispherical shape. The structure is reinforced by bending edges having an X-shaped configuration extending over the entire surface of the structure. Arranged between the legs of the X-shaped portion are sections which have surface areas between the legs of the X-shaped portion. The surface area of the X-shaped portion has a generally concave curvature, whereas the surface areas of the sections 11 have convex configurations in relation to the concave surface area of the X-shaped portion.
    • 用于装载机动车辆的三维结构由钢板制成并且具有实质的半球形状。 该结构通过在结构的整个表面上延伸的具有X形构造的弯曲边缘来加强。 在X形部分的腿部之间布置有在X形部分的腿之间具有表面区域的部分。 X形部分的表面积具有大致凹曲率,而部分11的表面积相对于X形部分的凹表面积具有凸形构造。