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    • 1. 发明授权
    • Controlled nozzle injection method and apparatus
    • 喷嘴喷嘴控制方法及装置
    • US06491025B2
    • 2002-12-10
    • US09737163
    • 2000-12-14
    • William R. FerryJames R. VossMartin G. Riccitelli
    • William R. FerryJames R. VossMartin G. Riccitelli
    • F02M4100
    • F02M63/0225F02M55/00F02M55/002F02M55/02F02M59/42F02M59/46F02M59/462F02M59/466F02M61/205
    • A nozzle injection apparatus for use in internal combustion engines includes a fuel pump for intermittently pressurizing fuel and an injection conduit in fluid communication with the fuel pump, the injection conduit permitting the pressurized fuel to be communicated to a fuel injection nozzle. A high pressure manifold in fluid communication with the fuel pump and the nozzle is also provided to accumulate the pressurized fuel which is residually left in the injection conduit between intermittent pressurizations of the fuel. The apparatus has low opening and closing pressures when starting the engine while ensuing high opening and closing pressures during operation of the engine. Further, the apparatus maintains high residual pressure in the injection conduit which provides higher than normal pressure to the nozzle at the end of a fuel delivery cycle to subsequently reduce exhausted pollutants.
    • 用于内燃机的喷嘴注入装置包括用于间歇地加压燃料的燃料泵和与燃料泵流体连通的喷射导管,所述喷射导管允许加压燃料连通到燃料喷射喷嘴。 还提供与燃料泵和喷嘴流体连通的高压歧管,以在燃料的间歇加压之间积聚留在注入管道中的加压燃料。 当发动机起动时,该装置具有低开启和关闭压力,同时在发动机操作期间伴随着高的开启和关闭压力。 此外,该设备在注射管道中保持高残留压力,其在燃料输送循环结束时向喷嘴提供高于常规压力,以随后减少耗尽的污染物。
    • 4. 发明授权
    • Method and apparatus for controlling fuel injection timing in a
compression ignition engine
    • 用于控制压缩点火发动机中的燃料喷射正时的方法和装置
    • US4760830A
    • 1988-08-02
    • US088474
    • 1987-08-19
    • Robert H. BullisRobert A. DiDomenicoJohn A. KimberleyThomas M. McHughChristopher A. ParentJames R. VossWalter J. Wiegand
    • Robert H. BullisRobert A. DiDomenicoJohn A. KimberleyThomas M. McHughChristopher A. ParentJames R. VossWalter J. Wiegand
    • F01B9/04F02B1/04F02B3/06F02B75/12F02D35/02F02D41/14F02D41/40F02P5/04F02M39/00
    • F02D41/401F01B9/047F02D35/022F02D35/028F02D41/1497F02B1/04F02B2075/125F02B3/06F02D35/021Y02T10/123Y02T10/44
    • The method and apparatus for generating start of combustion signals associated with the combustion events in a diesel engine (10), and for using such signals to control the timing of fuel delivery to the engine. The combustion event is sensed, as by an electrostatic (230, 330) or optical (130, 430) sensor, and signal conditioning circuitry (32) provides a start-of-combustion (SOC) signal (34) which is directly and precisely indicative of the time of the onset of combustion. The sensors (130, 230) include self-cleaning capabilities (48, 248) for extended operating life on an engine. The sensors may be incorporated in the structure of a glow plug (330, 430). The SOC signal (34) is advantageously supplied to a timing control circuit (26) which delivers a timing control signal (28) to a fuel delivery device, such as the controller (16') associated with a fuel pump (16). The control circuit (26) stores (65) one or more start of combustion values (SOC*) which indicate the desired timing, relative to an engine cycle (24), for the start of the combustion event as a function of speed (25) and load (27). One or more adjustment signals (.DELTA.SOC) are stored (75) and applied (67, 68) as a function of speed and load to adjust the desired signal (SOC*) such that the control signal (28, SOC.sub.c) is corrected for delays. The actual SOC signal (34) is compared (71) with the desired signal (66) to generate an error signal (72) which may be used to finely adjust the stored (75) .DELTA.SOC signal for particular speed and load conditions.
    • 用于产生与柴油发动机(10)中的燃烧事件相关联的燃烧信号开始的方法和装置,以及用于使用这些信号来控制向发动机输送燃料的时间。 感测燃烧事件,如静电(230,330)或光学(130,430)传感器,并且信号调节电路(32)提供燃烧起始(SOC)信号(34),其直接且精确地 指示燃烧开始的时间。 传感器(130,230)包括用于在发动机上延长使用寿命的自清洁能力(48,248)。 传感器可以结合在电热塞(330,430)的结构中。 SOC信号(34)有利地被提供给定时控制电路(26),该定时控制电路(26)将定时控制信号(28)传送到诸如与燃料泵(16)相关联的控制器(16')之类的燃料输送装置。 控制电路(26)存储(65)相对于发动机循环(24)指示作为速度的函数的燃烧事件开始的期望定时的一个或多个燃起值开始(SOC *)(25) )和负载(27)。 一个或多个调整信号(DELTA SOC)作为速度和负载的函数存储(75)并施加(67,68)以调整期望信号(SOC *),使得控制信号(28,SOCc)被校正为 延误 将实际的SOC信号(34)与期望的信号(66)进行比较(71),以产生误差信号(72),该误差信号可以用于微调特定速度和负载条件下存储的(75)DELTA SOC信号。
    • 7. 发明授权
    • Electrical fuel control system and method for diesel engines
    • 柴油机燃油控制系统及方法
    • US4502437A
    • 1985-03-05
    • US317253
    • 1981-11-02
    • James R. Voss
    • James R. Voss
    • F02D41/02F02B3/06F02D23/02F02D41/04F02D41/10F02D41/38F02D41/40F02D31/00
    • F02D41/04F02D41/407F02B3/06F02D2250/38Y02T10/44
    • An electrical governor system for a turbocharged diesel engine which eliminates objectionable puffs of smoke when gears are shifted, by limiting the rate of fuel delivery to the engine at such times. The response characteristics of the turbocharger to changes in kinetic energy of the engine exhaust flow are determined and stored in a microprocessor memory. The engine operating parameters are monitored to produce signals representative of engine speed and fuel delivery rate, and these signals are supplied to the microprocessor to cause it to generate a signal representative of the maximum rate at which fuel can then be delivered to the engine without producing objectionable exhaust smoke. The latter signal is used to control the fuel-control each automatically, through a stepping motor arrangement, at appropriate times to limit the fuel delivery rate to said maximum and thus avoid objectionable smoke puffs.
    • 一种用于涡轮增压柴油发动机的电调节器系统,其通过限制在这样的时间向发动机输送燃料的速率而消除齿轮移动时的令人反感的烟雾。 涡轮增压器对发动机排气流的动能变化的响应特性被确定并存储在微处理器存储器中。 监控发动机工作参数以产生代表发动机转速和燃油传输速率的信号,并将这些信号提供给微处理器,使其产生代表最大速率的信号,在该最大速率下燃料可以被输送到发动机而不产生 令人反感的排气烟雾。 后一种信号用于在适当的时间通过步进电动机装置自动地控制燃料控制,以将燃料输送速率限制到所述最大值,从而避免令人反感的烟雾。