초록 ▼

Engine misfire is detected by using threshold values that vary depending on whether damping control is executed. First threshold values are adopted at the setting of a gearshift position to a drive position or a park position where damping control is performed to reduce the vibration of an engine. S

Engine misfire is detected by using threshold values that vary depending on whether damping control is executed. First threshold values are adopted at the setting of a gearshift position to a drive position or a park position where damping control is performed to reduce the vibration of an engine. Second threshold values are adopted at the setting of the gearshift position to a neutral position where the damping control is not performed, the second threshold values being greater than the first threshold values. Engine misfire detection is carried out by processing using the first and second threshold values.

대표청구항 ▼

The invention claimed is: 1. An engine misfire detection apparatus for detection of a misfire in an internal combustion engine included in a power output apparatus, where the power output apparatus includes the internal combustion engine, a power generation unit that is connected with an output sha

The invention claimed is: 1. An engine misfire detection apparatus for detection of a misfire in an internal combustion engine included in a power output apparatus, where the power output apparatus includes the internal combustion engine, a power generation unit that is connected with an output shaft of the internal combustion engine and utilizes at least part of output power from the internal combustion engine to generate electric power, and a motor that is capable of outputting power to a driveshaft, the engine misfire detection apparatus comprising: a rotational position detection unit that detects a rotational position of the output shaft of the internal combustion engine; a unit angle rotation time computation module that computes a unit angle rotation time, which is required for rotation of every preset unit rotational angle of the output shaft of the internal combustion engine, from the detected rotational position; a damping control execution module that performs damping control upon satisfaction of a predetermined condition, where the damping control drives at least one of the power generation unit and the motor to reduce vibration of the internal combustion engine caused by operation of the internal combustion engine; and an engine misfire detection module that detects an engine misfire based on the computed unit angle rotation time and a preset first threshold value during execution of the damping control by the damping control execution module, while detecting an engine misfire based on the computed unit angle rotation time and a preset second threshold value that is different from the first threshold value during non-execution of the damping control by the damping control execution module, wherein the engine misfire detection module detects a misfire of the internal combustion engine in response to a predetermined angle difference of the computed unit angle rotation time exceeding the preset first threshold value during execution of the damping control by the damping control execution module, and the engine misfire detection module detects a misfire of the internal combustion engine in response to the predetermined angle difference of the computed unit angle rotation time exceeding the preset second threshold value during non-execution of the damping control by the damping control execution module. 2. The engine misfire detection apparatus in accordance with claim 1, wherein the damping control execution module determines satisfaction of the predetermined condition in response to selection of either a parking position or a drive position as a gearshift position to perform the damping control, and the damping control execution module determines dissatisfaction of the predetermined condition in response to selection of a neutral position as the gearshift position not to perform the damping control. 3. The engine misfire detection apparatus in accordance with claim 1, wherein the engine misfire detection module detects an engine misfire when a rotation speed of the driveshaft is equal to 0. 4. The engine misfire detection apparatus in accordance with claim 1, wherein the engine misfire detection module uses the second threshold value, which is greater than the first threshold value, for detection of an engine misfire during non-execution of the damping control by the damping control execution module. 5. The engine misfire detection apparatus in accordance with claim 1, wherein the engine misfire detection module uses at least one of a 720-degree difference, a 360-degree difference, and a 120-degree difference of the computed unit angle rotation time as the predetermined angle difference for detection of an engine misfire. 6. A hybrid vehicle equipped with a power output apparatus and the engine misfire detection apparatus for detection of a misfire in the internal combustion engine in accordance with claim 1, wherein the power output apparatus includes the internal combustion engine, the power generation unit that is connected with the output shaft of the internal combustion engine and that utilizes at least part of output power from the internal combustion engine to generate electric power, and the motor that is capable of outputting power to the driveshaft. 7. An engine misfire detection method for detection of a misfire in an internal combustion engine included in a power output apparatus, where the power output apparatus includes the internal combustion engine, a power generation unit that is connected with an output shaft of the internal combustion engine and utilizes at least part of output power from the internal combustion engine to generate electric power, and a motor that is capable of outputting power to a driveshaft, the engine misfire detection method comprising: detecting a rotational position of the output shaft of the internal combustion engine; computing a unit angle rotation time, which is required for rotation of every preset unit rotational angle of the output shaft of the internal combustion engine, from the detected rotational position; and detecting an engine misfire based on the computed unit angle rotation time and a preset first threshold value during execution of damping control, which is performed upon satisfaction of a predetermined condition and drives at least one of the power generation unit and the motor to reduce vibration of the internal combustion engine caused by operation of the internal combustion engine, while detecting an engine misfire based on the computed unit angle rotation time and a preset second threshold value that is different from the preset first threshold value during non-execution of the damping control, wherein the detecting the engine misfire is performed in response to a predetermined angle difference of the computed unit angle rotation time exceeding the preset first threshold value during execution of the damping control, and the detecting the engine misfire is performed in response to the predetermined angle difference of the computed unit angle rotation time exceeding the preset second threshold value during non-execution of the damning control.