公开(公告)号：US06269289B1

公开(公告)日：2001-07-31

申请号：US09513459

申请日：2000-03-03

申请人： Nobusuke Toukura ,  Hiroaki Nishijima ,  Masayuki Yasuoka

发明人： Nobusuke Toukura ,  Hiroaki Nishijima ,  Masayuki Yasuoka

IPC分类号： G01P1500

CPC分类号： B60W30/188 ,  B60W30/1819 ,  B60W2510/0657 ,  B60W2510/1005 ,  B60W2520/10 ,  B60W2520/105 ,  B60W2530/16 ,  B60W2530/20

摘要： A process of forming a value of standard resistance for an automotive vehicle and a vehicle control system are disclosed. The process comprises sensing operating parameters indicative of operating conditions of the vehicle power train during operating an engine to keep the automotive vehicle rolling over the surface of a flat road in steady running state at each of said predetermined number of reading points of vehicle speed, A value of driving torque produced by the power train is derived from the sensed operating parameters at each of the predetermined number of reading points of vehicle speed. Finally, the derived values of driving torque are set as known standard resistance values at the predetermined number of reading points of vehicle speed, respectively.

摘要翻译： 公开了形成机动车辆和车辆控制系统的标准电阻值的处理。 该过程包括在操作发动机期间感测指示车辆动力传动系的操作条件的操作参数，以在车辆速度A的所述预定数量的读取点的每一个处保持机动车辆在平稳道路的表面上滚动在平稳行驶状态 由传动系产生的驱动转矩的值是根据车速的每个预定数量的读取点处的感测操作参数导出的。 最后，驱动转矩的导出值分别设定为车速的预定读数点的已知标准电阻值。

公开(公告)号：US06282465B1

公开(公告)日：2001-08-28

申请号：US09521660

申请日：2000-03-08

申请人： Hiroaki Nishijima ,  Nobusuke Toukura ,  Masayuki Yasuoka

发明人： Hiroaki Nishijima ,  Nobusuke Toukura ,  Masayuki Yasuoka

IPC分类号： B60K4122

CPC分类号： B60W10/10 ,  B60W10/04 ,  B60W10/06 ,  B60W10/101 ,  B60W30/1819 ,  B60W30/188 ,  B60W2520/10 ,  B60W2530/16 ,  B60W2710/105 ,  F16H59/18 ,  F16H59/44 ,  F16H61/66 ,  F16H2059/142 ,  Y10T477/692

摘要： A driving force control system for an automotive vehicle comprises a vehicle speed sensor detecting an operating parameter indicative of a speed of the vehicle and generating a vehicle speed signal indicative of said detected operating parameter. An ordinary target driving force generator determines an ordinary target driving force in response to operator manipulation of the accelerator pedal and the vehicle speed. The ordinary target driving force is a predetermined target value of driving force required to keep the vehicle rolling over the surface of a flat road that has 0% gradient. A running resistance increment generator determines an increment in running resistance from a standard resistance that is indicated by the ordinary target driving force. A corrected target driving force generator receives the ordinary target driving force, the vehicle speed and the running resistance increment. It determines corrected target driving force. The corrected target driving force generator keeps setting the ordinary target driving force as the corrected target driving force when the vehicle speed signal is low.

摘要翻译： 用于机动车辆的驱动力控制系统包括检测指示车辆的速度的操作参数并产生指示所述检测到的操作参数的车速信号的车速传感器。 普通目标驱动力发生器响应于操作者对加速踏板的操纵和车速来确定普通的目标驱动力。 普通目标驱动力是将车辆滚动到具有0％梯度的平坦道路的表面上所需的驱动力的预定目标值。 运行电阻增量发生器根据由普通目标驱动力指示的标准电阻来确定运行电阻的增量。 修正后的目标驱动力发生器接收普通目标驱动力，车速和行驶阻力增量。 它确定校正的目标驱动力。 当车速信号为低时，校正后的目标驱动力发生器将常规目标驱动力保持为校正目标驱动力。

公开(公告)号：US06625531B2

公开(公告)日：2003-09-23

申请号：US09891377

申请日：2001-06-27

申请人： Masayuki Yasuoka ,  Nobusuke Toukura

发明人： Masayuki Yasuoka ,  Nobusuke Toukura

IPC分类号： B60K4112

CPC分类号： B60W10/06 ,  B60W10/04 ,  B60W10/101 ,  B60W10/109 ,  B60W10/115 ,  B60W30/18 ,  B60W30/1819 ,  F16H37/086 ,  F16H61/66 ,  F16H61/664 ,  F16H2037/0886 ,  Y10T477/619

摘要： An IVT controller determines whether the operation mode of an infinitely variable transmission (IVT) is a power recirculation mode or a CVT direct mode, and selects an inertial torque computing equation corresponding to the operation mode. The inertia torque accompanying a speed change of the IVT is computed using the computing equation. An engine controller adjusts the opening of an electronic control throttle, and adjusts the torque of the engine so that computed inertia torque is eliminated.

摘要翻译： IVT控制器确定无级变速器（IVT）的操作模式是功率再循环模式还是CVT直接模式，并且选择对应于操作模式的惯性力矩计算公式。 使用计算公式计算伴随IVT的速度变化的惯性转矩。 发动机控制器调节电子控制节流阀的开度，并调节发动机的转矩，消除计算出的惯性转矩。

公开(公告)号：US6148257A

公开(公告)日：2000-11-14

申请号：US149218

申请日：1998-09-08

申请人： Shusaka Katakura ,  Masayuki Yasuoka ,  Nobusuke Toukura ,  Shojiro Sato ,  Yoshinori Iwasaki ,  Katsuhiko Tsuchiya ,  Hideaki Watanabe

发明人： Shusaka Katakura ,  Masayuki Yasuoka ,  Nobusuke Toukura ,  Shojiro Sato ,  Yoshinori Iwasaki ,  Katsuhiko Tsuchiya ,  Hideaki Watanabe

IPC分类号： B60W10/04 ,  B60W10/06 ,  B60W10/10 ,  B60W10/101 ,  F02D9/02 ,  F02D29/00 ,  F02D41/00 ,  F02D41/04 ,  F02D45/00 ,  F16H59/74 ,  F16H61/24 ,  F16H61/66 ,  F16H63/50 ,  G06F7/70

CPC分类号： B60W10/06 ,  B60W10/04 ,  B60W10/101 ,  B60W30/18 ,  B60W30/1819 ,  F16H61/66 ,  Y10T477/619 ,  Y10T477/623

摘要： In a vehicle equipped with a continuously variable transmission, sensors detect a vehicle speed, an accelerator depression degree and an output rotation speed of the transmission. The minimum required drive shaft drive torque is calculated from the vehicle speed and the accelerator depression degree. A target input rotation speed of the transmission for achieving the minimum required drive shaft drive torque with the least engine fuel consumption is calculated according to the vehicle speed. The input rotation speed is controlled to this target input rotation speed. The target engine output torque to generate the minimum required drive shaft drive torque is calculated, and an engine throttle opening is controlled to obtain this torque. As a result, the required vehicle drive force is obtained with the minimum engine fuel consumption.

摘要翻译： 在配备有无级变速器的车辆中，传感器检测车辆速度，加速器抑制度和变速器的输出转速。 根据车速和加速器减速度计算最小驱动轴驱动扭矩。 根据车速计算用于实现具有最少发动机燃料消耗的最小所需驱动轴驱动转矩的变速器的目标输入转速。 输入转速被控制到该目标输入转速。 计算用于产生最小所需驱动轴驱动扭矩的目标发动机输出扭矩，并且控制发动机节气门开度以获得该扭矩。 结果，以最小的发动机燃料消耗获得所需的车辆驱动力。

公开(公告)号：US06565481B2

公开(公告)日：2003-05-20

申请号：US09891361

申请日：2001-06-27

申请人： Nobusuke Toukura ,  Masayuki Yasuoka ,  Hirofumi Shimizu

发明人： Nobusuke Toukura ,  Masayuki Yasuoka ,  Hirofumi Shimizu

IPC分类号： B60K4104

CPC分类号： B60W30/186 ,  B60W10/06 ,  B60W10/109 ,  F16H37/086 ,  F16H61/6649 ,  F16H2037/088 ,  Y10T477/6217 ,  Y10T477/675 ,  Y10T477/679 ,  Y10T477/68

摘要： An input torque limiting device for an infinitely variable transmission connected to an engine, wherein the transmission can vary a speed ratio up to infinity. In the input torque limiting device, the maximum torque which can be input is computed according to the output/input speed ratio which is an inverse of the speed ratio, without adversely affecting the durability and performance of the infinitely variable transmission, and the engine torque is controlled not to exceed the maximum torque. In this way, in the infinitely variable transmission, input of an excessive torque when the speed ratio is in the vicinity of infinity is prevented.

摘要翻译： 一种用于连接到发动机的无级变速传动装置的输入转矩限制装置，其中变速器可以将速比变化到无穷大。 在输入转矩限制装置中，可以输入的最大转矩根据速度比的倒数的输出/输入速比进行计算，而不会对无级变速器的耐久性和性能产生不利影响，并且发动机扭矩 控制不超过最大扭矩。 以这种方式，在无级变速器中，防止了当速比在无穷大附近时过大转矩的输入。

公开(公告)号：US06345222B1

公开(公告)日：2002-02-05

申请号：US09548269

申请日：2000-04-12

申请人： Nobusuke Toukura ,  Masayuki Yasuoka ,  Yoshinori Iwasaki ,  Tomoya Kimura

发明人： Nobusuke Toukura ,  Masayuki Yasuoka ,  Yoshinori Iwasaki ,  Tomoya Kimura

IPC分类号： G06G770

CPC分类号： B60W10/06 ,  B60W10/04 ,  B60W10/101 ,  B60W30/1819 ,  B60W30/188 ,  F16H61/66

摘要： An ordinary target driving force is generated against a detected value of the vehicle operator depression of an accelerator pedal and a detected value of the vehicle speed. The ordinary target driving force is a driving force required to keep the vehicle rolling on a flat horizontal road at the detected value of vehicle speed with the detected value of the vehicle operator depression of the accelerator pedal. A running resistance increment, i.e., an increase of running resistance from a standard running resistance, is calculated. A preliminary driving force correction is determined in response to the running resistance increment. The preliminary driving force correction is subjected to variation. The preceding old value of a driving force correction is subtracted from a current value of the preliminary driving force to give a variation in driving force correction. This variation is limited to fall in a range between an upper and a lower limit to give a limited driving force correction variation. The preceding old value of the driving force correction is added to the limited driving force correction variation to give the driving force correction. This driving force correction is added to the ordinary target driving force to give a corrected target driving force. To realize the corrected target driving force, engine torque and CVT ratio are adjusted.

摘要翻译： 相对于车辆操作者按下加速踏板的检测值和车速的检测值产生普通的目标驱动力。 普通目标驱动力是车辆在车辆驾驶员按下加速器踏板的检测值的情况下以车速的检测值将车辆保持在平坦的水平路面上的滚动所需的驱动力。 计算运行阻力增量，即从标准行驶阻力增加行驶阻力。 响应于运行阻力增量确定初步驱动力校正。 初步驱动力校正受到变化。 从预驱动力的当前值中减去驱动力校正的前一旧值，以给出驱动力校正的变化。 该变化被限制在上限和下限之间的范围内，以给出有限的驱动力校正变化。 将驱动力校正的前一个旧值加到有限的驱动力校正变化中，以给出驱动力校正。 该驱动力校正被添加到普通目标驱动力以给出校正的目标驱动力。 为了实现校正的目标驱动力，调整发动机扭矩和CVT比。

公开(公告)号：US06330504B1

公开(公告)日：2001-12-11

申请号：US09547884

申请日：2000-04-12

申请人： Nobusuke Toukura ,  Mikio Nozaki ,  Daisuke Yoshinoya ,  Masayuki Yasuoka

发明人： Nobusuke Toukura ,  Mikio Nozaki ,  Daisuke Yoshinoya ,  Masayuki Yasuoka

IPC分类号： F02D2902

CPC分类号： F16H61/66 ,  B60W10/06 ,  B60W10/107 ,  B60W30/188 ,  B60W2510/0638 ,  B60W2520/10 ,  B60W2530/16 ,  B60W2540/10 ,  B60W2550/13 ,  B60W2550/402 ,  B60W2710/105 ,  F02D11/105 ,  F02D41/021 ,  F16H2059/142 ,  F16H2059/666 ,  Y10T477/675

摘要： A driving force control system is provided for an automotive vehicle powertrain. The driving force control system has an accelerator pedal sensor to detect the vehicle's operator depression of an accelerator pedal of the vehicle, a vehicle speed sensor to detect a vehicle speed of the vehicle, and a powertrain control module. The powertrain control modules includes a microprocessor to determine an ordinary target driving force in response to the vehicle's operator depression of the accelerator pedal and the vehicle speed, to determine a running resistance increment, to determine a driving force correction in response to the vehicle's operator depression and the driving force correction, and to determine a corrected target driving force after correcting the ordinary target driving force with the driving force correction.

摘要翻译： 为汽车动力总成提供驱动力控制系统。 驱动力控制系统具有加速踏板传感器，用于检测车辆的操作者对车辆的加速器踏板的下压，车速传感器，用于检测车辆的车速，以及动力系控制模块。 动力系控制模块包括微处理器，用于响应于车辆的操作者按下加速器踏板和车速来确定普通的目标驱动力，以确定行驶阻力增量，以响应于车辆操作者的压力来确定驱动力校正 以及驱动力校正，并且通过驱动力校正来确定校正普通目标驱动力之后的校正目标驱动力。

公开(公告)号：US06308128B1

公开(公告)日：2001-10-23

申请号：US09521887

申请日：2000-03-09

申请人： Hiroaki Nishijima ,  Nobusuke Toukura ,  Masayuki Yasuoka

发明人： Hiroaki Nishijima ,  Nobusuke Toukura ,  Masayuki Yasuoka

IPC分类号： F16H6110

CPC分类号： B60W30/188 ,  B60W2530/16 ,  B60W2540/10 ,  B60W2540/12 ,  B60W2550/142 ,  B60W2710/105 ,  F02D11/105 ,  F02D41/021

摘要： A driving force control system for an automotive vehicle comprises an ordinary target driving force generator. It determines an ordinary target driving force in response to operator manipulation of the accelerator pedal and vehicle speed. The ordinary target driving force is a predetermined target value of driving force required to keep the vehicle rolling over the surface of a flat road that has 0% gradient. A running resistance increment generator determines an increment in running resistance from a standard resistance that is predetermined for the vehicle. A corrected target driving force generator receives the ordinary target driving force, the vehicle speed and the running resistance increment. It determines corrected target driving force. The corrected target driving force generator restrains the corrected target driving force in response to idle and brake signals from an idle switch and a brake switch.

摘要翻译： 用于机动车辆的驱动力控制系统包括普通目标驱动力发生器。 它响应于操作者对加速踏板的操纵和车速而确定普通的目标驱动力。 普通目标驱动力是将车辆滚动到具有0％梯度的平坦道路的表面上所需的驱动力的预定目标值。 运行电阻增量发生器根据对车辆预定的标准电阻来确定行驶阻力的增量。 修正后的目标驱动力发生器接收普通目标驱动力，车速和行驶阻力增量。 它确定校正的目标驱动力。 校正后的目标驱动力发生器响应于来自怠速开关和制动开关的怠速和制动信号来限制校正的目标驱动力。

公开(公告)号：US06306062B1

公开(公告)日：2001-10-23

申请号：US09518691

申请日：2000-03-03

申请人： Nobusuke Toukura ,  Hiroaki Nishijima ,  Masayuki Yasuoka

发明人： Nobusuke Toukura ,  Hiroaki Nishijima ,  Masayuki Yasuoka

IPC分类号： B60R4104

CPC分类号： B60W10/06 ,  B60W10/04 ,  B60W10/10 ,  B60W30/18 ,  B60W30/1819 ,  B60W2530/16 ,  B60W2550/142 ,  B60W2710/0666 ,  B60W2710/105 ,  F16H59/66 ,  Y10T477/675 ,  Y10T477/679

摘要： A driving force control system for an automotive vehicle comprises a controller. The controller determines standard resistance (RLDTRQ) in response to vehicle speed (VSP), and it also determines an increment in running resistance (RESTRQ) from the standard resistance (RLDTRQ). The controller determines driving force correction (ADDFD) in response to the increment in running resistance (RESTRQ). The controller adds the driving force correction (ADDFD) to ordinary target driving force (tTd#n) to provide corrected target driving force (tTd). The controller converts the increment in running resistance (RESTRQ) into the driving force correction (ADDFD) at a rate that is variable in response to the increment in running resistance (RESTRQ).

摘要翻译： 用于机动车辆的驱动力控制系统包括控制器。 控制器根据车速（VSP）确定标准电阻（RLDTRQ），并且还根据标准电阻（RLDTRQ）确定运行电阻（RESTRQ）的增量。 控制器响应运行阻力（RESTRQ）的增加量来确定驱动力校正（ADDFD）。 控制器将驱动力校正（ADDFD）添加到普通目标驱动力（tTd＃n）以提供校正的目标驱动力（tTd）。 控制器以运行阻力（RESTRQ）的增量可变的速率将运行阻力（RESTRQ）的增量转换为驱动力校正（ADDFD）。

公开(公告)号：US5722500A

公开(公告)日：1998-03-03

申请号：US727086

申请日：1996-10-08

申请人： Nobusuke Toukura ,  Shojiro Sato ,  Takayoshi Nabeta ,  Tadayuki Akiyama

发明人： Nobusuke Toukura ,  Shojiro Sato ,  Takayoshi Nabeta ,  Tadayuki Akiyama

IPC分类号： F16H59/22 ,  F16H59/24 ,  F16H59/42 ,  F16H59/44 ,  F16H59/48 ,  F16H61/662

CPC分类号： F16H61/66254 ,  F16H59/22 ,  F16H59/24 ,  F16H59/42 ,  F16H59/44 ,  F16H59/48 ,  Y10T477/621 ,  Y10T477/62423

摘要： An apparatus for controlling a continuously variable transmission for use with an automotive vehicle. The transmission is operable at a variable speed ratio for transmitting a drive from its input shaft to its output shaft. A target value for the speed of rotation of the input shaft of the transmission is calculated based on the sensed vehicle operating conditions including vehicle acceleration. A correction factor per predetermined unit time is calculated based on the sensed vehicle acceleration when the sensed vehicle acceleration exceeds a threshold value with the accelerator pedal released. The correction factor is added to the target input shaft speed value to correct the target input shaft speed value in an increasing direction at intervals of the predetermined unit time. The threshold value is decreased as the vehicle speed increases. The speed ratio is controlled to bring the input shaft speed into coincidence with the corrected target value.