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    • 4. 发明授权
    • Method for making leaf springs of a fiber composite material having integrated bearing eyes
    • 具有一体化轴承眼的纤维复合材料的板簧的制造方法
    • US09194451B2
    • 2015-11-24
    • US13590343
    • 2012-08-21
    • Matthias VoigtMaik SchreierHeiko KempeDirk Neyer
    • Matthias VoigtMaik SchreierHeiko KempeDirk Neyer
    • F16F1/368
    • F16F1/368F16F2224/0241F16F2238/022Y10T156/1044
    • A leaf spring made of a fiber composite material having integrated bearing holes and a method for producing is disclosed. The method comprises the steps of cutting prepreg strips of a predetermined length from a prepreg strand, removing cut-outs from the particular prepreg strip in the axial ends where a bearing hole should be formed, laying a plurality of prepreg strips one over the other in a prepreg stack in alternation so that the surfaces of the prepreg strips are flush to form a raw leaf spring forming a bearing hole by deforming an axial end of the prepreg stack in a plane perpendicular to the longitudinal extension (L) and perpendicular to the transverse extension (B) of the prepreg stack, setting the raw sheet spring to form the finished leaf spring in a mold with a suitable setting pressure and a suitable setting temperature.
    • 公开了一种由具有集成轴承孔的纤维复合材料制成的板簧和制造方法。 该方法包括以下步骤:从预浸料坯线切割预定长度的预浸料条,从在特定预浸料条上排出切口,在轴向端部形成轴承孔,将多个预浸料条彼此铺设在另一个上 预浸料坯堆叠,使得预浸料条的表面齐平,以形成通过使预浸料堆叠的轴向端部在垂直于纵向延伸部(L)并垂直于横向 预浸料堆叠的延伸部(B),设置原料片弹簧,以适当的设定压力和合适的设定温度在模具中形成成品板簧。
    • 5. 发明授权
    • Shaft assembly
    • 轴组件
    • US07946924B2
    • 2011-05-24
    • US12625745
    • 2009-11-25
    • Lüder NeugebauerJürgen MaretzkeJürgen LinzmeierMatthias Voigt
    • Lüder NeugebauerJürgen MaretzkeJürgen LinzmeierMatthias Voigt
    • F16D3/06
    • F16C3/03F16C2326/24F16D3/06Y10T403/7035
    • A telescopable shaft assembly has at least two shaft elements capable of sliding in one another as an internal shaft element and an outer shaft element connected to one another in torque transmitting manner via at least one sliding splined portion. An axial fixation defines predetermined breaking point between the shaft elements. The axial fixation becomes ineffective once a predetermined impact force acting in a telescoping direction is reached. The shaft elements are movable relative to one another, once the axial fixation has become ineffective, in low-friction manner along the sliding splined portion under the action of the impact force. When the axial fixation is effective, an annular gap is formed between a splined portion runout on a free end of the outer shaft element and an unsplined portion of the inner shaft element. The annular gap, at least in the area of the free end of the outer shaft element, is at least partially filled with a sealant.
    • 可伸缩轴组件具有至少两个能够作为内轴元件彼此滑动的轴元件和通过至少一个滑动花键部分以扭矩传递方式彼此连接的外轴元件。 轴向固定定义了轴元件之间的预定断裂点。 一旦达到以伸缩方向作用的预定冲击力,则轴向固定变得无效。 一旦轴向固定变得无效,轴元件可以在冲击力的作用下以滑动花键部分的低摩擦方式相对移动。 当轴向固定有效时,在外轴元件的自由端上的花键部分跳动和内轴元件的未平面部分之间形成环形间隙。 至少在外轴元件的自由端的区域中的环形间隙至少部分地填充有密封剂。
    • 6. 发明申请
    • Cardan shaft
    • 万丹轴
    • US20070021222A1
    • 2007-01-25
    • US11486598
    • 2006-07-14
    • Matthias Voigt
    • Matthias Voigt
    • F16D3/00
    • B60K17/22F16D3/227
    • A cardan shaft (1) having a first shaft (2) and a second shaft (3) is connected in a torque-proof manner via a constant velocity joint (9). The second shaft (3) having two separate shaft sections (4, 5) connected to one another by a connector, which mechanically fails at the impact of a predetermined axial force such that the two shaft sections (4, 5) can be coaxially shifted into one another in a displacement section (6). In order to optimize the cardan shaft for the use in a vehicle with a front traverse installation driving motor and transmission, the constant velocity joint (9) and the connector at the two shaft sections (4, 5) may be configured and adjusted to one another such that at the outset of an initial impact of a predetermined first axial force (F1), weaker than a second subsequent axial force (F2), the constant velocity joint (9) is initially telescoped along a first shift path (S1) up to a block and upon a subsequent impact of a predetermined second axial force (F2) the two shaft sections (4, 5) telescope over a second shift path (S2).
    • 具有第一轴(2)和第二轴(3)的万向轴(1)通过等速万向节(9)以扭矩保证的方式连接。 第二轴(3)具有通过连接器彼此连接的两个独立的轴部分(4,5),其在预定的轴向力的冲击下机械地失效,使得两个轴部分(4,5)可以同轴移动 在位移部(6)中彼此相接。 为了优化用于具有前横动装置驱动电动机和变速器的车辆中的万向轴,可以将等速万向节(9)和两轴部(4,5)上的连接器配置并调整为一 另一个使得在预定的第一轴向力(F1)的初始冲击开始时,比第二随后的轴向力(F 2)弱,等速度接头(9)首先沿着第一移位路径(S 1)直到块并且在预定的第二轴向力(F 2)的后续冲击时,两个轴部分(4,5)在第二移动路径(S 2)上望远镜。
    • 7. 发明申请
    • Shaft assembly
    • 轴组件
    • US20070178975A1
    • 2007-08-02
    • US11715254
    • 2007-03-07
    • Luder NeugebauerJurgen MaretzkeJurgen LinzmeierMatthias Voigt
    • Luder NeugebauerJurgen MaretzkeJurgen LinzmeierMatthias Voigt
    • F16D3/00
    • F16C3/03F16C2326/24F16D3/06Y10T403/7035
    • A telescopable shaft assembly has at least two shaft elements capable of sliding in one another as an internal shaft element and an outer shaft element connected to one another in torque transmitting manner via at least one sliding splined portion. An axial fixation defines predetermined breaking point between the shaft elements. The axial fixation becomes ineffective once a predetermined impact force acting in a telescoping direction is reached. The shaft elements are movable relative to one another, once the axial fixation has become ineffective, in low-friction manner along the sliding splined portion under the action of the impact force. When the axial fixation is effective, an annular gap is formed between a splined portion runout on a free end of the outer shaft element and an unsplined portion of the inner shaft element. The annular gap, at least in the area of the free end of the outer shaft element, is at least partially filled with a sealant.
    • 可伸缩轴组件具有至少两个能够作为内轴元件彼此滑动的轴元件和通过至少一个滑动花键部分以扭矩传递方式彼此连接的外轴元件。 轴向固定定义了轴元件之间的预定断裂点。 一旦达到以伸缩方向作用的预定冲击力,则轴向固定变得无效。 一旦轴向固定变得无效,轴元件可以在冲击力的作用下以滑动花键部分的低摩擦方式相对移动。 当轴向固定有效时,在外轴元件的自由端上的花键部分跳动和内轴元件的未平面部分之间形成环形间隙。 至少在外轴元件的自由端的区域中的环形间隙至少部分地填充有密封剂。
    • 9. 发明申请
    • Shaft Assembly
    • 轴装配
    • US20100075766A1
    • 2010-03-25
    • US12625745
    • 2009-11-25
    • Lüder NeugebauerJürgen MaretzkeJürgen LinzmeierMatthias Voigt
    • Lüder NeugebauerJürgen MaretzkeJürgen LinzmeierMatthias Voigt
    • F16D3/06
    • F16C3/03F16C2326/24F16D3/06Y10T403/7035
    • A telescopable shaft assembly has at least two shaft elements capable of sliding in one another as an internal shaft element and an outer shaft element connected to one another in torque transmitting manner via at least one sliding splined portion. An axial fixation defines predetermined breaking point between the shaft elements. The axial fixation becomes ineffective once a predetermined impact force acting in a telescoping direction is reached. The shaft elements are movable relative to one another, once the axial fixation has become ineffective, in low-friction manner along the sliding splined portion under the action of the impact force. When the axial fixation is effective, an annular gap is formed between a splined portion runout on a free end of the outer shaft element and an unsplined portion of the inner shaft element. The annular gap, at least in the area of the free end of the outer shaft element, is at least partially filled with a sealant.
    • 可伸缩轴组件具有至少两个能够作为内轴元件彼此滑动的轴元件和通过至少一个滑动花键部分以扭矩传递方式彼此连接的外轴元件。 轴向固定定义了轴元件之间的预定断裂点。 一旦达到以伸缩方向作用的预定冲击力,则轴向固定变得无效。 一旦轴向固定变得无效,轴元件可以在冲击力的作用下以滑动花键部分的低摩擦方式相对移动。 当轴向固定有效时,在外轴元件的自由端上的花键部分跳动和内轴元件的未平面部分之间形成环形间隙。 至少在外轴元件的自由端的区域中的环形间隙至少部分地填充有密封剂。