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    • 1. 发明授权
    • Anti-lock hydraulic brake system
    • 防液压制动系统
    • US5188433A
    • 1993-02-23
    • US690912
    • 1991-05-28
    • Hans ReinartzHelmut SteffesPeter VolzErhard Beck
    • Hans ReinartzHelmut SteffesPeter VolzErhard Beck
    • B60T8/32B60T8/34B60T8/44B60T8/50F16F1/02
    • B60T8/341B60T8/445B60T8/5031F16F1/021Y10S303/90Y10S303/901
    • In an anti-lock brake system, a differential pressure limiter (8) is connected in front of the inlet valve (6). This causes a defined pressure gradient to always prevail at the inlet valve (6), what appreciably reduces the noise emission of the valve during an anti-lock braking operation. Since the inlet valve (6) has a slight throttling effect in its opened position, it may occur that on brake operation with cold brake fluid a pressure gradient is generated at the inlet valve (6) which results in the differential pressure limiter closing. It is therefore suggested to arrange a bimetal spring (20) in parallel to the control spring (15) of the differential pressure limiter (8), which bimetal spring expands at low temperatures and cases a force in addition to the spring force of the control spring (15) to act on the control piston.
    • PCT No.PCT / EP90 / 01215 Sec。 371日期1991年5月28日 102(e)日期1991年5月28日PCT提交1990年7月25日PCT公布。 公开号WO91 / 04893 日期为1991年04月18日。在防抱死制动系统中,差压限制器(8)连接在进气阀(6)的前面。 这导致在入口阀(6)处始终占据规定的压力梯度,在防抱死制动操作期间明显地减少了阀的噪声发射。 由于入口阀(6)在其打开位置具有轻微的节流效应,所以可能发生在用冷制动流体制动操作时,在入口阀(6)处产生压力梯度,导致差压限制器关闭。 因此,建议将双金属弹簧(20)平行布置在差压限制器(8)的控制弹簧(15)上,双金属弹簧在低温下膨胀,并且除了控制弹簧力之外还有一个力 弹簧(15)作用在控制活塞上。
    • 2. 发明授权
    • Brake pressure control apparatus
    • 制动压力控制装置
    • US5295739A
    • 1994-03-22
    • US964626
    • 1992-10-22
    • Jochen BurgdorfHelmut SteffesPeter VolzErhard BeckDalibor Zaviska
    • Jochen BurgdorfHelmut SteffesPeter VolzErhard BeckDalibor Zaviska
    • B60T8/34B60T8/48B60T8/50B60T8/32
    • B60T8/341B60T8/4809B60T8/5031B60T8/5037
    • A brake pressure control apparatus for automotive vehicles with an anti-locking control system (ABS) and/or with a traction slip control system (TSS) is presented. In the inlet line to the wheel cylinder an inlet valve is provided which affords a change-over from an orifice function into a flow limiting valve function at a predetermined wheel cylinder pressure. Flow is initially through an orifice (6) in a control slide valve piston (20), held in its initial position by a prestressing spring (23) acting through an auxiliary piston in engagement with control slide valve piston (20). An increase in pressure in the wheel cylinder (13), also exerted in the wheel cylinder pressure chamber (9), to a predetermined level, causes the auxiliary piston (27) to disengage from the control slide valve piston (20), preventing the force of the prestressing spring (23) from acting on the control slide valve piston (20). As a result, the control slide valve piston (20) is free to reach an equilibrium position corresponding to the magnitude of the remaining forces acting upon the piston (20 ). A control edge (33) on the piston (20) establishes a flow cross-sectional area (34) which, upon the filling of the wheel cylinder (13), leads to a constant nominal flow rate within the lines (19, 11, 12) to the wheel cylinder (13). The invention is distinguished in that precisely defined pressure gradients, a better adaptation to the volume accommodating curve of the wheel circuit and a better exploitation of the pump characteristic are achieved.
    • 提出了一种具有防抱死控制系统(ABS)和/或牵引滑动控制系统(TSS)的机动车辆的制动压力控制装置。 在到轮缸的入口管路中,提供了一种入口阀,其在预定的轮缸压力下从孔口功能转换成限流阀功能。 流动最初通过控制滑阀活塞(20)中的孔口(6),其通过与控制滑阀活塞(20)接合的辅助活塞作用的预应力弹簧(23)保持在其初始位置。 车轮缸(13)中也施加在轮缸压力室(9)中的压力增加到预定水平,使得辅助活塞(27)与控制滑阀活塞(20)脱离,从而防止 预应力弹簧(23)的力作用在控制滑阀活塞(20)上。 结果,控制滑阀活塞(20)能够自由地达到对应于作用在活塞(20)上的剩余力的大小的平衡位置。 活塞(20)上的控制边缘(33)建立了流动横截面积(34),其在轮缸(13)的填充时导致线(19,11, 12)到轮缸(13)。 本发明的区别在于,精确定义的压力梯度,更好地适应车轮电路的体积容纳曲线和更好地利用泵的特性。
    • 3. 发明授权
    • Brake pressure control
    • 制动压力控制
    • US5188439A
    • 1993-02-23
    • US705677
    • 1991-05-24
    • Jochen BurgdorfHelmut SteffesPeter VolzErhard BeckDalibor Zaviska
    • Jochen BurgdorfHelmut SteffesPeter VolzErhard BeckDalibor Zaviska
    • B60T8/46B60T8/34B60T8/48B60T8/50B60T15/36
    • B60T8/5037B60T8/341B60T8/4809
    • A brake pressure control for use with an automotive anti-locking control system (ABS) and/or a traction slip control system (ARS) is provided. The control comprises a pressure modulator for varying the hydraulic pressure in the wheel cylinder (13) during the brake pressure control mode, with the pressure modulator exhibiting at least one inlet valve and at least one outlet valve (21) associated with the wheel cylinder (13), at least one motor-driven pump (6) for generating a hydraulic pressure, and an electronic controller. The inlet valve is pressure actuated and comprises a piston-cylinder assembly including a piston (7) forcing, upon application of the brake pressure, a filling volume (14) into the wheel cylinder (13), followed by a throttled rise in pressure caused by a throttling flow restriction (16) defined through the piston.
    • 提供了一种用于汽车防抱死控制系统(ABS)和/或牵引滑动控制系统(ARS)的制动压力控制。 该控制器包括用于在制动压力控制模式期间改变轮缸(13)中的液压的压力调节器,压力调节器呈现出至少一个入口阀和至少一个与轮缸相关联的出口阀(21) 13),用于产生液压的至少一个电动泵(6)和电子控制器。 入口阀是压力致动的并且包括活塞 - 气缸组件,其包括活塞(7),其在施加制动压力时迫使填​​充容积(14)进入轮缸(13),随后是压力升高 通过活塞限定的节流流量限制(16)。
    • 7. 发明授权
    • Brake pressure control apparatus
    • 制动压力控制装置
    • US5176432A
    • 1993-01-05
    • US705221
    • 1991-05-24
    • Jochen BurgdorfHelmut SteffesPeter VolzErhard BeckDalibor Zaviska
    • Jochen BurgdorfHelmut SteffesPeter VolzErhard BeckDalibor Zaviska
    • B60T8/34B60T8/48B60T8/50
    • B60T8/5031B60T8/341B60T8/4809B60T8/5037Y10S303/90Y10S303/901
    • A brake pressure control apparatus for automotive vehicles with an anti-locking control system (ABS) and/or with a traction slip control system (TSS) is presented. In the inlet line to the wheel cylinder an inlet valve is provided which affords a change-over from an orifice function into a flow limiting valve function at a predetermined wheel cylinder pressure. Flow is initially through an orifice (6) in a control slide valve piston (20), held in its initial position by a prestressing spring (23) acting through an auxiliary piston in engagement with control slide valve piston (20). An increase in pressure in the wheel cylinder (13), also exerted in the wheel cylinder pressure chamber (9), to a predetermined level, causes the auxiliary piston (27) to disengage from the control slide valve piston (20), preventing the force of the prestressing spring (23) from acting on the control slide valve piston (20). As a result, the control slide valve piston (20) is free to reach an equilibrium position corresponding to the magnitude of the remaining forces acting upon the piston (20 ). A control edge (33) on the piston (20) establishes a flow-cross-sectional area (34) which, upon the filling of the wheel cylinder (13), leads to a constant nominal flow rate within the lines (19, 11, 12) to the wheel cylinder (13).
    • 提出了一种具有防抱死控制系统(ABS)和/或牵引滑动控制系统(TSS)的机动车辆的制动压力控制装置。 在到轮缸的入口管路中,提供了一种入口阀,其在预定的轮缸压力下从孔口功能转换成限流阀功能。 流动最初通过控制滑阀活塞(20)中的孔口(6),其通过与控制滑阀活塞(20)接合的辅助活塞作用的预应力弹簧(23)保持在其初始位置。 车轮缸(13)中也施加在轮缸压力室(9)中的压力增加到预定水平,使得辅助活塞(27)与控制滑阀活塞(20)脱离,从而防止 预应力弹簧(23)的力作用在控制滑阀活塞(20)上。 结果,控制滑阀活塞(20)能够自由地达到对应于作用在活塞(20)上的剩余力的大小的平衡位置。 活塞(20)上的控制边缘(33)建立了一个流动横截面积(34),其在轮缸(13)的填充时导致线(19,11)内的恒定的标称流量 ,12)连接到轮缸(13)。
    • 9. 发明授权
    • Pressure fluid-activated brake system including an anti-locking traction
slip control
    • 压力液体驱动制动系统包括防抱死牵引滑动控制
    • US4900105A
    • 1990-02-13
    • US305303
    • 1989-02-01
    • Jochen BurgdorfHans D. ReinartzHelmut SteffesPeter VolzAndre Goossens
    • Jochen BurgdorfHans D. ReinartzHelmut SteffesPeter VolzAndre Goossens
    • B60T8/175B60T8/1761B60T8/44B60T8/48
    • B60T8/4827B60T8/44Y10S303/04
    • The brake system includes a brake pressure generator with a master cylinder connected to wheel brake cylinders through master brake conduits; auxiliary pressure pumps having pump outlets in communication with the master brake conduits and pump inputs in communication with a pressure fluid reservoir through inlet conduits; wheel sensors and electronic circuits for determining the wheel rotating pattern and for generating electrical brake pressure control signals capable of controlling pressure fluid inlet and outlet valves disposed in the conduit system for slip control. The traction slip control system insures, with little effort involved, assembling and disassembling capabilities, and, in disassembled condition, complying with the control principle for a driven front axle and, in assembled condition, complying with the traction slip control mode for a driven rear axle in all speed ranges. The present invention provides an accumulator with a single connection in communication, with the master brake conduit, with an electromagnetic valve having a pressure monitoring switch coupled thereto and provided with a bypass enclosing a release valve located between the connection and the accumulator.
    • 制动系统包括制动压力发生器,主缸通过主制动管道连接到车轮制动缸; 辅助压力泵具有与主制动管道和泵输入连通的泵出口,其通过入口导管与压力流体储存器连通; 车轮传感器和电子电路,用于确定车轮旋转模式,并用于产生能够控制设置在管道系统中的压力流体入口和出口阀的电动制动压力控制信号,用于滑动控制。 牵引滑动控制系统确保了很少的努力,组装和拆卸能力,并且在拆卸状态下,符合从动前桥的控制原理,并且在组装状态下,符合驱动后轴的牵引滑动控制模式 轴在所有速度范围内。 本发明提供了一种具有与主制动管道连通的单个连接的蓄能器,其中电磁阀具有耦合到其上的压力监测开关并且设置有围绕位于连接件和蓄能器之间的释放阀的旁路。
    • 10. 发明授权
    • Electrohydraulic pressure control device
    • 电液压控制装置
    • US5700071A
    • 1997-12-23
    • US687462
    • 1996-07-29
    • Helmut SteffesDieter DinkelGunther VogelPeter Volz
    • Helmut SteffesDieter DinkelGunther VogelPeter Volz
    • B29C45/14B60R16/08B60T8/36B60T13/66F15B13/08
    • B60T8/3675B29C45/14B60R16/08
    • The invention pertains to an electrohydraulic pressure control device, with electromagnetically actuated hydraulic valves, which are arranged on a valve-holding element, with coils which extend beyond the valve-holding element, whereby the coils are provided with electrical contact elements at their parts extending beyond the valve-holding element, with a cover which covers the extending coil parts and the contact element, with a support element to hold the coils, that are positioned within the cover, whereby the cover or a portion of the cover is designed as an electromagnetic controller or for holding the connecting parts of an electronic controller. An essentially plate-like carrier element facing the coils features several slots into which form- and/or pressure-locking closing devices are engaged projecting from the outer surface of the cover.
    • PCT No.PCT / EP95 / 00266 Sec。 371日期:1996年7月29日 102(e)日期1996年7月29日PCT 1995年1月25日PCT PCT。 公开号WO95 / 20510 日期1995年8月3日本发明涉及一种电液压力控制装置,其具有电磁致动液压阀,其布置在阀保持元件上,线圈延伸超过阀保持元件,由此线圈设置有电接触 其部件延伸超过阀保持元件,其中覆盖延伸的线圈部分和接触元件的盖具有保持线圈的支撑元件,其被定位在盖内,由此盖或一部分 盖被设计为电磁控制器或用于保持电子控制器的连接部分。 面对线圈的基本上为板状的载体元件具有多个槽,形成和/或压力锁定的闭合装置从壳体的外表面接合到其中。