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    • 92. 发明授权
    • Motorcycle hydraulic brake system with brake force regulator
    • 摩托车液压制动系统带制动力调节器
    • US4239294A
    • 1980-12-16
    • US60935
    • 1979-07-26
    • Jochen Burgdorf
    • Jochen Burgdorf
    • B60T8/26B62L3/08
    • B60T8/261
    • In a known motorcycle brake system with a brake force regulator, the pedal master cylinder acts on the front-wheel brake and on the rear-wheel brake, and the hand master cylinder acts only on the front-wheel brake. The brake force regulator's control behavior is influenced by the hand master cylinder. This known system has functional disadvantages because the rear-wheel brake becomes evacuated if only the hand master cylinder is actuated. The motorcycle brake system with brake force of the present invention eliminates this disadvantage by arranging for a brake caliper of the front-wheel brake to be actuated by the regulated pressure of the pedal master cylinder and the rear-wheel brake to be actuated by the non-regulated pressure of the pedal master cylinder.
    • 在具有制动力调节器的已知的摩托车制动系统中,踏板主缸作用在前轮制动器和后轮制动器上,并且主制动缸仅起作用在前轮制动器上。 制动力调节器的控制行为受到手主缸的影响。 这种已知的系统具有功能上的缺点,因为只有手动主缸被致动才能将后轮制动器抽真空。 具有本发明制动力的摩托车制动系统消除了这种缺点,即通过将前轮制动器的制动钳布置为由踏板主缸的调节压力驱动并且后轮制动器由非致动器致动 踏板主缸的调节压力。
    • 93. 发明授权
    • Vehicle braking system with a pneumatic brake booster
    • 具有气动制动助力器的车辆制动系统
    • US06755112B2
    • 2004-06-29
    • US10239285
    • 2002-09-20
    • Jochen BurgdorfPeter DrottPeter Volz
    • Jochen BurgdorfPeter DrottPeter Volz
    • F01B2526
    • B60T8/442B60T13/52B60T13/57
    • The present invention relates to a vehicle brake system with a pneumatic brake booster which includes an input member being actuated by a vehicle operator and an output member as well as a control housing that carries a movable wall and accommodates a reaction plate at least in part, wherein there is further provision of means for detecting the point of maximum boosting of the pneumatic brake booster that can be used for the actuation of another brake force boosting device. The core of the present invention lies in that a switching or sensor means is provided with senses the maximum boosting force on the basis of a maximum deformation of a reaction element that is indirectly arranged between an output element and a movable wall in that the maximum approach between the output member representative of the output force and the movable wall representative of the booster force is sensed. Further, appropriate means sense the hold time during which the mentioned signal is applied. Only when the signal is applied during the total hold time, a signal reporting the point of maximum boosting is output.
    • 本发明涉及具有气动制动助力器的车辆制动系统,其包括由车辆操作者致动的输入构件和输出构件以及承载可移动壁并且至少部分容纳反作用板的控制壳体, 其中进一步提供用于检测可用于致动另一个制动力增压装置的气动制动助力器的最大增压点的装置。本发明的核心在于提供一种切换或传感器装置 基于间接地布置在输出元件和可移动壁之间的反作用元件的最大变形来感测最大增压力,因为代表输出力的输出构件和代表助力器的可移动壁之间的最大接近 感觉到力。 此外,适当的装置检测施加所述信号的保持时间。 只有在总保持时间内施加信号时才会输出报告最大提升点的信号。
    • 94. 发明授权
    • Hydraulic vehicle brake system with wheel slip control, and valve for such a brake system
    • 具有车轮打滑控制的液压车辆制动系统,以及用于这种制动系统的阀门
    • US06398317B1
    • 2002-06-04
    • US09424214
    • 2000-03-10
    • Jochen BurgdorfPeter Volz
    • Jochen BurgdorfPeter Volz
    • B60T834
    • B60T8/34B60T8/341B60T8/4275F16K15/026F16K15/044Y10S303/901Y10T137/1789
    • The present invention relates to an automotive vehicle brake system with wheel slip control which is provided with a non-return valve, between a secondary and a primary circuit. Initially, both circuits are evacuated for filling the brake system with pressure fluid, and evacuation of the secondary circuit is effected by way of the valve that opens. The present invention teaches providing this valve with an additional device by way of which the opening pressure of the valve is automatically increased after filling the brake system with brake fluid. The opening pressure shall be increased at least to such an extent that the valve closure member remains in the closing position at least during normal operation of the brake system. It is achieved by this provision that the secondary circuit can be sufficiently evacuated for the purpose of being filled with brake fluid, without a vacuum being generated later in the secondary circuit during a braking operation.
    • 本发明涉及一种具有车轮打滑控制的机动车辆制动系统,其在次级和初级回路之间设置有止回阀。 最初,两个电路都被抽真空,用于用压力流体填充制动系统,并且通过打开的阀实现二次回路的排气。 本发明教导了向该阀提供附加装置,通过该附加装置,在用制动液填充制动系统之后阀的打开压力自动增加。 打开压力应至少提高至至少在制动系统的正常操作期间阀门关闭件保持在关闭位置的程度。 通过这一规定可以实现二次回路充分抽真空,以便在制动操作期间在次级回路中不产生真空。
    • 95. 发明授权
    • Valve for hydraulic brake system with slip control
    • 液压制动系统带滑动控制阀
    • US06318814B1
    • 2001-11-20
    • US09424147
    • 2000-02-24
    • Jochen BurgdorfPeter Volz
    • Jochen BurgdorfPeter Volz
    • B60T834
    • B60T8/34B60T8/341B60T8/4275B60T15/00Y10S303/11
    • The present invention relates to an automotive vehicle brake system with wheel slip control which is provided with a so-called filling valve, i.e., a non-return valve, between a secondary and a primary circuit. Initially, both circuits are evacuated for filling the brake system with pressure fluid, and evacuation of the secondary circuit is effected by way of the non-return valve that opens. The present invention suggests providing this valve with a blocking device which becomes effective when the brake is actuated for the first time, thereby causing pressure build-up in the primary circuit. The blocking device retains the valve closure member on the valve seat member, with the result that the non-return valve remains closed in the normal operation of the brake system. It is prevented by this provision that vacuum develops in the secondary circuit during a braking operation.
    • 本发明涉及具有车轮打滑控制的机动车辆制动系统,该系统在次级和初级回路之间设置有所谓的填充阀,即止回阀。 最初,两个电路都被抽真空,用于用压力流体填充制动系统,并且通过打开的止回阀来实现二次回路的排气。 本发明提出向该阀提供一种当制动器第一次致动时变得有效的阻塞装置,从而在初级回路中产生压力积聚。 阻塞装置将阀关闭构件保持在阀座构件上,结果是在制动系统的正常操作中止回阀保持关闭。 通过该规定防止在制动操作期间二次回路中产生真空。
    • 97. 发明授权
    • Hydraulic brake system with slip control
    • 具有滑差控制的液压制动系统
    • US5683150A
    • 1997-11-04
    • US557141
    • 1995-12-06
    • Jochen BurgdorfPeter VolzDieter Dinkel
    • Jochen BurgdorfPeter VolzDieter Dinkel
    • B60T8/48B60T8/36B60T8/42B60T8/50B60T8/44
    • B60T8/4291B60T8/363B60T8/365B60T8/3675B60T8/5025B60T8/5037Y10S303/02Y10S303/90
    • A hydraulic brake system with slip control, including a braking pressure generator hydraulically connected to at least one wheel brake by way of a main pressure line, a return line connected to the wheel brake and to the suction side of an auxiliary-pressure pump, an auxiliary-pressure line hydraulically connected to the braking pressure generator, and inlet and outlet valves inserted into the main pressure line and the return line and either closing or keeping open the pressure fluid passage in the main pressure line and in the return line, wherein a restrictor is controllable in the main pressure line between the inlet valve and the wheel brake permitting an unhindered hydraulic fluid passage in the main pressure line to the wheel brake in a first operating position, while the restrictor limits the pressure fluid flow to the wheel brake in another operating position.
    • PCT No.PCT / EP94 / 01541 Sec。 371 1995年12月8日第 102(e)日期1995年12月8日PCT提交1994年5月13日PCT公布。 公开号WO94 / 29150 PCT 日期1994年12月22日具有滑差控制的液压制动系统,包括制动压力发生器,其通过主压力线液压连接到至少一个车轮制动器,连接到车轮制动器的返回线和辅助 压力泵,液压连接到制动压力发生器的辅助压力管线,以及插入主压力管线和返回管路中的入口和出口阀,以及关闭或保持主压力管路中的压力流体通道和 返回管线,其中限流器在入口阀和车轮制动器之间的主压力管线中是可控制的,允许在第一操作位置中在主压力线路中到车轮制动器的不受阻碍的液压流体通道,而限制器限制压力流体流动 到另一个操作位置的车轮制动。
    • 98. 发明授权
    • Brake system with pump power consumption control
    • 制动系统具有泵功耗控制
    • US5454632A
    • 1995-10-03
    • US122475
    • 1993-09-24
    • Jochen BurgdorfWieland Kuhn
    • Jochen BurgdorfWieland Kuhn
    • B60T8/175B60T8/40B60T8/48B60T8/94
    • B60T8/404B60T8/405B60T8/4054B60T8/4809B60T8/94
    • A hydraulic brake system with anti-lock control and traction slip control has an electric-motor-driven hydraulic pump 6 and a motor 7 for auxiliary pressure supply during a controlled braking operation and during a traction slip control operation by way of brake management. During a traction slip control operation the speed of the hydraulic pump is reduced by way of a reduction in the power consumption of the drive motor of the pump down to a predetermined value where the speed and the noise development are low relative to values with nominal capacity. The power limitation will be cancelled in situations critical to safety and reliability or in case of certain malfunctions of the control system. The power limitation is achieved by way of relays and an ohmic series resistor or by way of a so-called semiconductor relay or electronic relay.
    • PCT No.PCT / EP92 / 00280 Sec。 371日期:1993年9月24日 102(e)日期1993年9月24日PCT提交1992年2月10日PCT公布。 出版物WO92 / 17355 日期:1992年10月15日。具有防抱死控制和牵引滑动控制的液压制动系统具有电动机驱动的液压泵6和用于在受控制动操作期间和牵引滑动控制操作期间辅助压力供应的马达7 通过制动管理。 在牵引滑动控制操作期间,液压泵的速度通过将泵的驱动电机的功率消耗降低到相对于额定容量的值的速度和噪声发展较低的预定值来减小 。 在对安全和可靠性至关重要的情况下或在控制系统发生某些故障的情况下,功率限制将被取消。 功率限制通过继电器和欧姆串联电阻器或通过所谓的半导体继电器或电子继电器实现。
    • 100. 发明授权
    • Automotive vehicle brake system with brake-slip-dependent and
traction-slip-dependent braking pressure control
    • 具有制动滑动依赖和牵引滑动的制动压力控制的汽车车辆制动系统
    • US5362140A
    • 1994-11-08
    • US949631
    • 1992-12-03
    • Jochen Burgdorf
    • Jochen Burgdorf
    • B60T8/44B60T8/175B60T8/34B60T8/42B60T8/48
    • B60T8/4881B60T8/348B60T8/4266B60T8/4275B60T8/4827B60T8/4845
    • An anti-lock-controlled brake system which, with a minimum number of locking valves between the pressure medium storage reservoir (20) and the wheel brakes (31, 32, 33, 34), is equally suitable for traction slip control with all types of brake circuit allocation. An electromagnetically operated locking valve (27) is provided in the connection line (18) from the pressure medium storage reservoir (20) to the first pressure chamber (8), while the connection through connection line (19) to the second pressure chamber (9) is controlled via the stroke of the floating piston (7) applied by the pressure of the primary brake circuit (I). The pressure build-up required in the primary brake circuit (I) at the beginning of a traction slip control operation is brought about by a pump (26) or the like which either is already provided for brake-slip-dependent braking pressure control or is additionally incorporated in the hydraulic circuitry exclusively for traction slip control.
    • PCT No.PCT / EP92 / 00346 Sec。 371日期1992年12月3日 102(e)日期1992年12月3日PCT提交1992年2月19日PCT公布。 公开号WO92 / 17357 日期:1992年10月15日。一种防抱死制动系统,其中在压力介质储存容器(20)和车轮制动器(31,32,33,34)之间具有最少数量的锁定阀同样适用 用于牵引滑动控制与所有类型的制动电路分配。 在连接管线(18)中从压力介质储存器(20)到第一压力室(8)设置电磁操作的锁定阀(27),而通过连接管线(19)连接到第二压力室 9)通过由主制动回路(I)的压力施加的浮动活塞(7)的冲程进行控制。 在牵引滑动控制操作开始时,主制动回路(I)中所需的压力积聚是由已经提供用于制动滑差相关制动压力控制的泵(26)等引起的 另外还包括在用于牵引滑动控制的液压回路中。