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公开(公告)号:EP3149354A1
公开(公告)日:2017-04-05
申请号:EP15729111.3
申请日:2015-06-02
申请人: Lisega SE
CPC分类号: F16F1/12 , F16F1/04 , F16F1/041 , F16F1/128 , F16F15/067 , F16L3/205 , F16L3/2053 , F16M11/28
摘要: The invention relates to a telescopable spring support (1) which comprises a housing (2), a pressure plate (5), a load pipe (6), and a pressure spring (7) and which is designed to elastically support components in a load direction (X). The housing (2) has a stand side (A) and an upper side (B), and the pressure plate (5) is arranged in the housing (2) and can be moved within the housing (2) in the load direction (X). The pressure spring (7) is arranged between the pressure plate (5) and the stand side (A) and applies a spring force to the pressure plate (5), said spring force being directed towards the upper side (B) in the load direction (X). The load pipe (6) is connected to the pressure plate (5) and, in each position of the pressure plate (5), extends outwards from the interior of the housing (2) through an opening arranged on the upper side (B) of the housing (2). The housing (2) comprises a stand housing (4) and a movable housing (3). The movable housing (3) can be moved towards the stand housing (4) in the load direction (X), wherein the stand housing (4) has a stand side (A), and the movable housing (3) has the opening.
摘要翻译: 本发明涉及一种可伸缩的弹簧支撑件(1),其包括壳体(2),压力板(5),负载管(6)和压力弹簧(7),并且被设计成弹性支撑部件 负载方向(X)。 壳体(2)具有支架侧(A)和上侧(B),并且压板(5)布置在壳体(2)中并且能够在壳体(2)中沿负载方向( X)。 压力弹簧(7)设置在压板(5)和支架侧(A)之间,并向压板(5)施加弹簧力,所述弹簧力在负载中朝向上侧(B) 方向(X)。 负载管(6)与压板(5)连接,并且在压板(5)的每个位置通过设置在上侧(B)的开口从壳体(2)的内部向外延伸, (2)。 壳体(2)包括支架壳体(4)和可动壳体(3)。 可移动的壳体(3)能够沿负载方向(X)移动到支架壳体(4),其中支架壳体(4)具有支架侧(A),并且可动壳体(3)具有开口。
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公开(公告)号:EP3268630A1
公开(公告)日:2018-01-17
申请号:EP16709770.8
申请日:2016-03-11
申请人: Lisega SE
CPC分类号: F16F1/128 , F16F2226/04 , F16F2230/0041 , F16F2230/36 , F16L3/205 , F16L3/2053
摘要: The invention relates to a spring carrier (100, 200) for use in plant construction to resiliently support a load, said spring carrier (100, 200) comprising a casing tube (1) designed as a hollow cylinder, the cylinder axis of which extends in a longitudinal direction and the inner surface of which surrounds an inner cross-section of the tube, the spring carrier (6) further comprising a spring plate (4), a base plate (3) and a spring (5) which, in an operational position, are placed inside the casing tube (1) and, in the longitudinal direction, between an upper boundary element and a lower boundary element; the spring (5) is located between the base plate (3) and the spring plate (4) in the longitudinal direction and applies a spring force, which acts parallel to the longitudinal direction, to the spring plate (4) and the base plate (3); the spring plate (4) is connected to a support element (6) for resiliently supporting a component and can move in the longitudinal direction within a movement zone delimited by the boundary elements. The lower boundary element includes a projecting arrangement having retaining projections (7) on the inner surface of the casing tube (1), while the base plate (3) includes a recessed arrangement on the outer surface thereof facing the inner surface of the casing tube (1); the projecting arrangement and the recessed arrangement are designed to correspond to one another in such a way that in a mounting position in which the base plate (3) is arranged in a first angular position relative to the casing tube (1) in relation to a rotation about the cylinder axis inside the casing tube (1), the entire projecting arrangement can be placed next to the base plate (3) perpendicular to the longitudinal direction, and in an operational position in which the base plate (3) is
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公开(公告)号:EP3149355A1
公开(公告)日:2017-04-05
申请号:EP15725066.3
申请日:2015-06-02
申请人: LISEGA SE
IPC分类号: F16F9/512
摘要: The invention relates to a valve (1) to ensure pressure compensation between subchambers (21, 22) of a hydraulic damper (2), wherein the valve (1) comprises a first side (100) for connection to a first subchamber (21) and a second side (200) for connection to a second subchamber (22), the valve (1) is designed to shut off in its rest position a flow of fluid between the two sides (100, 200) and comprises, when deflected from its rest position, a passage channel with a passage cross-section for admitting the flow of fluid, the valve (1) comprises two valve elements (3, 4) guided towards each other and movable towards each other along a path of movement in a movement direction x, one of the two valve elements (3, 4) is designed as a moving element (4) and the other valve element as a seat element (3), a pressure can be applied to the moving element (4), on the load side thereof, by a fluid coming from the first side (100), generating an effective force for moving the moving element (4) in the moving direction x, and the moving element (4) is connected to a spring system (5) which applies to the moving element (4) a spring force, generating a restoring force opposite to the effective moving force. At least one of the valve elements (3, 4) comprises a cylinder section comprising a plurality of passages (6), the passage channel runs through at least some of the passages (6) and the passage cross-section is limited by a cross-section of these passages (6), while the other valve element (3, 4) comprises a closed cylindrical surface (7) which lies on the one valve element (3, 4) in the rest position, shutting off the flow of fluid, and the passage cross-section can be adjusted by the deflection of the valve (1) as a result of the movement of the moving element (4) towards the seat element (3) in the direction of movement x, the passage cross-section increasing with the deflection.
摘要翻译: 本发明涉及一种用于确保液压阻尼器(2)的子室(21,22)之间的压力补偿的阀(1),其中阀(1)包括用于连接到第一子室(21)的第一侧(100) 以及用于连接到第二子室(22)的第二侧(200),所述阀(1)被设计成在其静止位置处切断两侧(100,200)之间的流体流,并且当偏转 其静止位置,具有用于允许流体流动的通道横截面的通道通道,所述阀(1)包括两个阀元件(3,4),所述两个阀元件(3,4)被引导朝向彼此并沿着运动路径朝向彼此移动 移动方向x,两个阀元件(3,4)中的一个被设计为移动元件(4),另一个阀元件被设计为座椅元件(3),可以向移动元件(4)施加压力, 在其负载侧,通过来自第一侧(100)的流体,产生用于移动移动元件(4)i的有效力 在移动方向x上,并且移动元件(4)连接到弹簧系统(5)上,弹簧系统(5)施加弹簧力,产生与有效移动力相反的恢复力。 至少一个阀元件(3,4)包括一个包括多个通道(6)的气缸部分,通道通过至少一些通道(6),通道横截面被十字 这些通道(6)的截面,而另一个阀元件(3,4)包括在静止位置位于一个阀元件(3,4)上的封闭的圆柱形表面(7),从而关闭流体流 ,并且通过由于移动元件(4)沿着移动方向x向座元件(3)移动而导致的阀(1)的偏转可以调节通道横截面, 截面随着偏转而增加。
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