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    • 2. 发明授权
    • Surface bearing and method for its production
    • 表面轴承及其生产方法
    • US5184799A
    • 1993-02-09
    • US850603
    • 1992-03-13
    • Franz J. WolfHubert Pletsch
    • Franz J. WolfHubert Pletsch
    • B29C33/48F16F1/377
    • F16F1/377B29C33/485
    • The invention relates to a surface bearing 1 comprising a rubber strip or plate material penetrated by hollow channels 3 and cavities 2. The cavities 2 and hollow channels 3 all lie in a single surface at least essentially parallel or complementary in shape to the principal surface of the sheet material, each cavity 2 being penetrated in each case by only one hollow channel 3. The hollow channels 3 are open on at least one side and have a clear cross-sectional area which is at least a quarter of the largest cross-sectional area of the cavities 2 penetrated by this hollow channel 3. The hollow channels 3 can extend non-parallel to at least one longitudinal axis or to the longitudinal axis of the surface bearing, thus, for example, can form an angle of 90.degree. or 45.degree. with the latter, while they are parallel or non-parallel to one another. However, in the case of polygonal or circular surface bearings, they can also be aligned so as to extend radially to the center without intersecting or touching in the center, i.e. can also be open on only one side. An opening 6 formed in the center of the novel surface bearing 1 does not impair the bearing properties, instead offering numerous constructional possibilities. Overall, cushioning soft of heavy loads, from from the buckling effect, is obtained, substantial acoustic decoupling being achieved.
    • 本发明涉及一种表面轴承1,其包括由中空通道3和空腔2穿透的橡胶条或板材料。空腔2和中空通道3都位于至少基本平行或互补的形状与主表面的单个表面 片材,每个空腔2在每种情况下仅通过一个中空通道3穿透。中空通道3在至少一个侧面上敞开,并且具有截面积至少四分之一的最大横截面积 中空通道3可以不平行于表面轴承的至少一个纵向轴线或纵向轴线延伸,因此例如可以形成90°的角度或 45°与后者,而它们彼此平行或不平行。 然而,在多边形或圆形表面轴承的情况下,它们也可以对齐以便径向延伸至中心而不在中心处相交或接触,即也可以仅在一侧打开。 形成在新颖的表面轴承1的中心的开口6不会损害轴承性能,而是提供许多构造的可能性。 总体而言,从屈曲效应出发,重负荷缓冲软,实现了大量的声学解耦。
    • 3. 发明授权
    • Torsionally resilient coupling with a connecting element
    • 与连接元件扭转弹性联轴器
    • US4601678A
    • 1986-07-22
    • US640839
    • 1984-08-15
    • Franz J. WolfHubert Pletsch
    • Franz J. WolfHubert Pletsch
    • F16D3/50F16D3/62F16D13/68F16D3/76F16D13/64
    • F16D3/50F16D13/686F16D3/62
    • Torsionally resilient coupling with, between two coupling halves, at least one movement-transforming intermediate element which transforms a rotation into a translation and is connected frictionally in rotation to one of the two coupling halves and is connected in translation to a connecting element which is in turn articulated pivotably to a resilient intermediate element which is in turn connected frictionally and integrally in rotation to the respective other coupling half. In this coupling a maximum degree of symmetry of the forces acting is achieved, and shear forces which lead to an asymmetrical stressing of the resilient intermediate elements are eliminated in that the journal pins or journal bolts by which the connecting element if articulated to the resilient intermediate element are guided in lateral slot slits.
    • 扭转弹性耦合,在两个耦合半部之间,至少一个移动转换中间元件,其将旋转变换成平移并且摩擦地连接到两个耦合半部中的一个,并以平移方式连接到连接元件 转动地枢转地枢转到弹性中间元件,弹性中间元件又旋转地连接到相应的另一个联接器半部。 在这种联接中,实现了作用力的最大对称度,并且导致弹性中间元件的不对称应力的剪切力被消除,即轴颈销或轴颈螺栓,连接元件如果铰接到弹性中间件 元件在横向槽缝中被引导。
    • 6. 发明授权
    • Suspension spring system
    • 悬挂弹簧系统
    • US4958812A
    • 1990-09-25
    • US223083
    • 1988-06-28
    • Franz J. WolfHubert Pletsch
    • Franz J. WolfHubert Pletsch
    • F16F1/42F16F3/093F16F3/08
    • F16F3/093
    • A suspension spring system includes a housing, a suspension spring located in the housing and a bistable control spring located in the housing. A load supporting member is positioned at least partially within the housing and is movable with respect to the housing. The control spring is radially compressed within the housing so that the control spring is prestressed. The control spring is shiftable between two stable final positions and is, thus, able to influence and control the spring characteristics of the suspension spring.
    • PCT No.PCT / EP87 / 00660 Sec。 371日期1988年6月28日第 102(e)日期1988年6月28日PCT提交1987年11月3日PCT公布。 出版物WO88 / 03618 日期:1988年5月19日。一种悬架弹簧系统,包括壳体,位于壳体中的悬架弹簧和位于壳体中的双稳态控制弹簧。 负载支撑构件至少部分地定位在壳体内并且可相对于壳体移动。 控制弹簧在壳体内径向压缩,使得控制弹簧被预应力。 控制弹簧可在两个稳定的最终位置之间移动,因此能够影响和控制悬架弹簧的弹簧特性。
    • 7. 发明授权
    • Spring element
    • 弹簧元素
    • US4925163A
    • 1990-05-15
    • US308335
    • 1989-02-09
    • Franz J. WolfHubert Pletsch
    • Franz J. WolfHubert Pletsch
    • F16F1/37F16F1/377F16F7/00
    • F16F1/377
    • The invention relates to a spring element (1) used for elastically supporting large loads. The spring element comprises an elastic rubber block having uniformly distributed spherical cavities (2) which are intersected by clindrical or prismatic channels (3) also formed in the rubber material. The channels (3) form groups of channels defining areas stacked on top of each other in the direction of the vector of a load to be supported, which areas neither intersect nor touch each other. These areas may be three-dimensionally-shaped areas, for example envelopes of a cone or corrugated areas, as well as mutually parallel planes oriented obliquely to the direction of the load vector. When projected onto a horizontal plane, the groups of channels (3) are either radially extending and uniformly angularly spaced if the areas are envelopes of a cone, or are mutually parallel if the areas are obliquely arranged planes. In no way, the channels (3) intersect or touch each other. Alternatively, an axial channel (6), which is at least open at one side, is arranged centrally in the direction of the load vector wherein none of the channels (3) or the spherical cavities (2) contact or intersect this central axial channel (6).
    • 本发明涉及用于弹性支撑大负载的弹簧元件(1)。 弹簧元件包括具有均匀分布的球形空腔(2)的弹性橡胶块,其与也形成在橡胶材料中的夹层或棱柱形通道(3)相交。 通道(3)形成通道,该通道限定在要被支撑的负载的矢量的方向上彼此顶部堆叠的区域,哪些区域不相交或相互接触。 这些区域可以是三维形状的区域,例如锥形或波纹区域的包络,以及相对于负载矢量方向倾斜定向的相互平行的平面。 当投影到水平平面上时,如果区域是圆锥体的包络体,那么通道组(3)可以径向延伸并均匀地成角度地间隔开,或者如果区域是倾斜布置的平面则相互平行。 通道(3)绝不相交或相互接触。 或者,至少在一侧开口的轴向通道(6)沿负载向量的中心方向布置,其中通道(3)或球形空腔(2)中没有一个与中心轴向通道 (6)。