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    • 1. 发明授权
    • Method and apparatus for determining fuel mixture adjustment values for
fuel burning engines
    • 用于确定燃料燃烧发动机的燃料混合物调整值的方法和装置
    • US4271804A
    • 1981-06-09
    • US12533
    • 1979-02-15
    • Valerio BianchiPeter-Jurgen SchmidtReinhard LatschJosef Wahl
    • Valerio BianchiPeter-Jurgen SchmidtReinhard LatschJosef Wahl
    • F02D41/04F02D21/08F02D41/14F02D41/26F02D41/34F02D45/00F02M7/00F02P5/145F02M7/18
    • F02P5/1455F02D41/1475F02D41/2454F02D41/26F02D41/005F02D41/2487Y02T10/46
    • A method for determining adjustment values for a fuel supply device which supplies a fuel mixture to a fuel-burning engine for optimum performance by additionally influencing the preset adjustment values of the fuel supply device itself from values supplied by a storage means containing an engine performance log of adjustment values whereby said performance adjustment values are continuously changed and replaced by values which reflect instantaneous operating engine characteristics. Each replaced value forms the basis for computing a new value upon a change in engine operating characteristics. The apparatus disclosed comprises a fuel supply device, such as a carburetor, which has its adjustment values preset due to its construction, a storage means containing engine performance adjustment values for correcting the preset values of the supply device in response to engine operating characteristics, and a second storage means connected to the fuel supply device and to the first storage means wherein the performance values from said first storage means are continuously adjusted from the engine operating characteristics and stored for use by the fuel supply device for optimum engine operating performance.
    • 一种用于确定燃料供应装置的调节值的方法,该燃料供应装置通过额外地影响燃料供给装置本身的预设调节值,由包含发动机性能指标的存储装置提供的值来向燃料燃烧发动机提供燃料混合物以获得最佳性能 的调整值,由此所述性能调整值被连续地改变并被反映瞬时操作发动机特性的值代替。 每个替换值构成了在发动机运行特性变化时计算新值的基础。 所公开的装置包括燃料供应装置,例如化油器,其具有由于其结构而预设的调节值;存储装置,其包含用于响应于发动机操作特性来校正供应装置的预设值的发动机性能调节值;以及 连接到燃料供应装置和第一存储装置的第二存储装置,其中来自所述第一存储装置的性能值根据发动机操作特性连续地调节并存储供燃料供应装置使用以获得最佳发动机操作性能。
    • 3. 发明授权
    • Apparatus for metering an air-fuel mixture to an internal combustion
engine
    • 用于将空气 - 燃料混合物计量到内燃机的装置
    • US4674459A
    • 1987-06-23
    • US696462
    • 1985-01-30
    • Eberhard BlocherFerdinand GrobPeter-Jurgen SchmidtManfred SchmittJosef Wahl
    • Eberhard BlocherFerdinand GrobPeter-Jurgen SchmidtManfred SchmittJosef Wahl
    • F02D41/34F02D41/14F02D41/24
    • F02D41/2496F02D41/1408F02D41/2422F02D41/2451F02D41/2438F02D41/2464
    • The invention is directed to an apparatus for metering an air-fuel mixture to an internal combustion engine. The apparatus includes a characteristic field set up with operating quantities of the internal combustion engine for anticipatorily controlling engine variables that influence the air-fuel mixture and a control arrangement, responsive to at least one engine variable, for correctively influencing the characteristic field values. The characteristic field values are stored in the characteristic field and selected in dependence on operating quantities of the internal combustion engine. The characteristic field values are modified by means of different control methods to correctively influence the same. More specifically, the control methods include a control to a minimal specific fuel consumption in the lower and part-load ranges as well as a control to maximum power in the upper load range as may be necessary. This control arrangement can be realized, on the one hand, with an extreme-value control which is superposed either on the air or quantity of fuel delivered to the motor or, on the other hand, with a direct control of the air ratio .lambda. with an exhaust gas probe, for example. With the apparatus of the invention, a minimal specific fuel consumption with reduced exhaust gas emissions are realized while at the same time ensuring a satisfying driving behavior of the vehicle.
    • 本发明涉及一种用于计量内燃机的空气 - 燃料混合物的装置。 该装置包括设置有用于预测控制影响空气 - 燃料混合物的发动机变量的内燃机的操作量的特征场和响应于至少一个发动机变量的用于校正地影响特征场值的控制装置。 特征场值存储在特征场中,并根据内燃机的工作量进行选择。 通过不同的控制方法修改特征字段值以对其进行纠正。 更具体地,控制方法包括在较低和部分负载范围内对最小特定燃料消耗的控制以及可能需要在上负载范围内的最大功率的控制。 一方面,该控制装置可以实现一种极端值控制,该极值控制叠加在空气中或者传送到电动机的燃料量上,或者另一方面可以直接控制空气比λ 排气探针。 利用本发明的装置,实现了具有减少的废气排放的最小比燃料消耗,同时确保了车辆的令人满意的驾驶行为。
    • 5. 发明授权
    • Method and apparatus for controlling the operating parameters of an
internal combustion engine
    • 用于控制内燃机的运行参数的方法和装置
    • US4166437A
    • 1979-09-04
    • US819189
    • 1977-07-26
    • Valerio BianchiReinhard LatschPeter-Jurgen Schmidt
    • Valerio BianchiReinhard LatschPeter-Jurgen Schmidt
    • F02D41/34F02B1/04F02D41/14F02D41/24F02M25/07F02P5/15F02D5/00
    • F02D41/1498F02D41/1487F02D41/149F02D41/2429F02P5/15F02B1/04F02D2200/1015Y02T10/46
    • In the operation of an internal combustion engine, certain operating parameters, for example the length of fuel injection pulses, the ignition timing and the exhaust gas recycle rate can be adjusted on the basis of information related to state variables of the engine, for example the engine speed, the induction tube pressure, the air flow rate and the like. In particular, the injection pulse length may be determined from data stored in a memory and addressed by a pair of numbers related to the instantaneous values of engine speed and air flow rate. This type of open loop control is rapid and may be very exact but does not account for long-range changes in engine behavior due to wear, etc. For this reason, additional circuitry senses a further state variable, for example, the oxygen content of the exhaust gas or the engine roughness, and uses this information in a feedback loop to generate a correction signal which is then applied in a rate multiplier to the basic fuel injection datum. The closed loop control is effective only in certain operational domains which are indicated by load-related conditions, e.g., the throttle valve opening.
    • 在内燃机的运转中,可以基于与发动机的状态变量有关的信息来调整某些运行参数,例如燃料喷射脉冲的长度,点火正时和废气再循环率,例如 发动机转速,感应管压力,空气流量等。 特别地,喷射脉冲长度可以根据存储在存储器中并通过与发动机转速和空气流量的瞬时值相关的一对数来寻址的数据来确定。 这种类型的开环控制是快速的并且可能是非常精确的,但是不考虑由于磨损等导致的发动机行为的长距离变化。因此,附加电路感测另外的状态变量,例如氧气含量 排气或发动机粗糙度,并且将该信息用于反馈回路中以产生校正信号,然后将校正信号以速率倍增器施加到基本燃料喷射数据。 闭环控制仅在由负载相关条件(例如节气门开度)指示的某些操作区域中有效。
    • 6. 发明授权
    • Apparatus for the control of air admission to the exhaust system of an
internal combustion engine including a safety circuit means
    • 用于控制进入包括安全电路装置的内燃机的排气系统的空气的装置
    • US4024707A
    • 1977-05-24
    • US575995
    • 1975-05-09
    • Peter Jurgen SchmidtHarald Kizler
    • Peter Jurgen SchmidtHarald Kizler
    • F01N3/22F02D35/00F02D41/14F01N3/10
    • F01N3/222F01N3/22F01N3/227F02D35/0038F02D41/1454
    • An internal combustion engine which is provided with an exhaust gas treatment system, such as thermal or catalytic reactors, includes a primary regulating system for admitting fresh air to the exhaust system for the chemical processes taking place in the reactors. This fresh air regulation depends on the engine rpm and on the induction tube pressure. There is also provided a secondary air control system, including a three-way valve and an electronic controller and an oxygen probe, located in the exhaust manifold. The probe supplies the controller with a signal related to the oxygen concentration in the exhaust gas and the controller uses this signal to actuate the three-way valve which admits either induction tube pressure or, alternatively, exhaust system pressure, to a control chamber in the primary regulating system, thereby influencing the quantity of fresh air supplied to the exhaust manifold of the engine.
    • 设置有诸如热或催化反应器的废气处理系统的内燃机包括用于将新鲜空气引入排气系统以用于在反应器中进行的化学过程的初级调节系统。 这种新鲜空气调节取决于发动机转速和感应管压力。 还提供了二次空气控制系统,其包括位于排气歧管中的三通阀和电子控制器以及氧气探头。 探头向控制器提供与排气中的氧气浓度相关的信号,并且控制器使用该信号来致动三通阀,其将感应管压力或可选的排气系统压力引导到控制室中 主调节系统,从而影响供应给发动机排气歧管的新鲜空气量。
    • 9. 发明授权
    • Digital frequency-control circuit
    • 数字频率控制电路
    • US3935538A
    • 1976-01-27
    • US499337
    • 1974-08-21
    • Harald KizlerBernd PrzybylaPeter-Jurgen Schmidt
    • Harald KizlerBernd PrzybylaPeter-Jurgen Schmidt
    • B60N2/32B60T8/172B62D33/06H03L7/00H03K5/00
    • H03L7/00B60N2/32B60T8/172B62D33/0612
    • Clock pulses are multiplied by a ratio less than 1 of which the numerator is controlled by a reversible counter. The multiplier output pulses initiate new countdown cycles of a second counter beginning with the clock pulse following the onset of an input frequency pulse and ending with the clock pulse following the onset of the next input frequency pulse. The state of the count at the end of the cycle determines whether the reversible counter will be left unchanged, advanced, or counted back and hence, whether the multiplier output frequency will be left unchanged, increased or reduced. The initial countdown value of the second counter is provided by a long term store which determines the frequency multiplication ratio. The circuit is usable to multiply a variable input frequency in a vehicle brake anti-lock system.
    • 时钟脉冲乘以小于1的比例,其中分子由可逆计数器控制。 乘法器输出脉冲启动第二个计数器的新的倒计时循环,从输入频率脉冲开始之后的时钟脉冲开始,并在下一个输入频率脉冲开始之后以时钟脉冲结束。 循环结束时的计数状态决定了可逆计数器是否保持不变,高位或倒计时,因此乘法器输出频率是否保持不变,增加或减少。 第二计数器的初始倒计时值由确定倍频比的长期存储器提供。 该电路可用于在车辆制动防抱死系统中乘以可变输入频率。
    • 10. 发明授权
    • Fuel controlled injection system
    • 燃油控制注射系统
    • US4651697A
    • 1987-03-24
    • US678011
    • 1984-11-30
    • Bernhard BonsePeter-Jurgen Schmidt
    • Bernhard BonsePeter-Jurgen Schmidt
    • F02D41/34F02D41/02F02D41/14F02D43/00F02D41/40
    • F02D43/00F02D41/1408
    • A method of controlling fuel mixture supply to an internal combustion engine having fuel injection system in which the quantity of fuel is metered in dependency on gas pedal position and the quantity of air is subsequently metered in dependency on the position of the throttling plate. The method employs a preliminary control with superposed extreme value regulation. For this purpose, the injection time interval or the throttle plate position are adjusted in dependency on the gas pedal position and on the rotary speed of the engine. During the operation of the engine, test cycles are continuously established and according to the reaction of the engine to the tests, the adjustment of the injection time interval and of the throttle plate position are made. The method is suitable particularly for internal combustion engine used in motor vehicles.
    • 控制向具有燃料喷射系统的内燃机的燃料混合物供应的方法,其中根据加油踏板位置和空气量计量燃料量随后根据节流板的位置进行计量。 该方法采用具有重叠极值调节的初步控制。 为此,根据加速踏板位置和发动机的转速来调节喷射时间间隔或节流板位置。 在发动机运转中,连续建立试验循环,根据发动机对试验的反应,进行喷油时间间隔和节流板位置的调整。 该方法特别适用于机动车辆中使用的内燃机。