Abstract: A control apparatus for a hybrid vehicle includes an engine, a clutch, an electric motor, an arithmetic unit, and an engine controlling unit. The motor transmits motive power on a driving wheel side of the clutch. A first traveling mode wherein the vehicle is driven by the motor and a second traveling mode wherein the vehicle is driven by the engine are provided. The arithmetic unit calculates a first target power before the clutch engages upon changeover from the first traveling mode to the second traveling mode, the first target power being for driving by the engine after the clutch engaged. The engine controlling unit controls, before the engagement of the clutch, output motive power of the engine to a second target power that is set equal to or higher than the first target power. By the configuration, the traveling performance upon changeover of the clutch is improved.

Abstract: When a driver manipulates a fuel filler lid switch, a tank shutoff valve is opened. Then, time t is calculated, and then, remaining time, obtained by subtracting elapsed time from the time t, is presented on a display device. If the fuel filler lid switch is manipulated again, the tank shutoff valve is closed to seal a fuel tank, and a message to the effect that opening action of the fuel filler lid is cancelled is presented on the display device. If the time t has elapsed without the fuel filler lid switch being manipulated again, the fuel filler lid is opened, determining that internal pressure in the fuel tank has decreased to a level predetermined to ensure that the fuel tank can be filled safely without fuel or fuel evaporative gas spouting from the fuel tank.

Abstract: A battery container which is to house a battery for a vehicle and which is to be attached between at least two frames disposed in the vehicle, includes: a bottom plate; a wall member which is raised from a circumference of the bottom plate and which includes a side wall member disposed along the frames; an outer frame which is attached to an outer side of the side wall member; and an inner frame which is attached to an inner side of the side wall member. The outer frame and the inner frame are extended in a substantially same direction along the side wall member, and the side wall member is clampingly held between the outer frame and the inner frame.

Abstract: When fuel tank internal pressure is continuously at a first predetermined pressure P1 over a first predetermined time length a fuel tank shutoff valve is opened and a vapor solenoid valve is closed to make piping internal pressure equal to the fuel tank internal pressure. Then a purge control valve is opened to emit fuel evaporative gas from the fuel tank into an intake passage. Then, when the fuel tank internal pressure is continuously at a second predetermined pressure P2 or below over the first predetermined time length the fuel tank shutoff valve is closed. When accumulated volume in high-pressure purge finishing phase reaches a second predetermined volume iv2 or above, the vapor solenoid valve is opened, and when the accumulated volume in high-pressure purge finishing phase reaches a first predetermined volume iv1 or above, the purge control valve is opened and the engine is stopped.

Abstract: When fuel tank internal pressure is at a first predetermined pressure P1 or above over a first predetermined time length t1, a fuel tank shutoff valve is opened and a vapor solenoid valve is closed to make piping internal pressure equal to the fuel tank internal pressure. Then, a purge control valve is opened to emit fuel evaporative gas from the fuel tank into an intake passage. When the fuel tank internal pressure is continuously at a second predetermined pressure P2 or below over the first predetermined time length t1, the fuel tank shutoff valve is closed, and when accumulated volume in high-pressure purge finishing phase reaches a second predetermined volume iv2 or above, the vapor solenoid valve is opened. When the accumulated volume in high-pressure purge finishing phase reaches a first predetermined volume iv1 or above, the purge control valve is opened and the engine is stopped.

Abstract: A clutch control of a hybrid vehicle can engage a clutch which not otherwise possible due to temporary factors, and can determine whether engaging members of the clutch have been successfully engaged. The clutch control controls the clutch having a pair of the engaging members which are provided in a power transmission path of the vehicle, and which are moved in the axial direction and engaged or released when switching is performed between power from a motor and power from an engine. The clutch control device has a rotation control unit for synchronizing the rotations of the engaging members when the clutch is shifted from a disengaged an engaged state, and a clutch engagement control unit for determining whether the engaging members have been engaged, based on rotational speed of the engaging members a predetermined time after axial movement of the engaging members.

Abstract: An electricity supply vehicle is provided with an electricity storage device charged with generated energy of an electric generator driven by an internal combustion engine mounted on the electricity supply vehicle or with regenerated energy of the electricity supply vehicle and is operable to supply electricity to an external equipment located outside of the electricity supply vehicle during stop of the electricity supply vehicle. The electricity supply vehicle includes: a setting unit configured to set expected supply electric energy to be supplied to the external equipment; and a determining unit configured to determine, based on the expected supply electric energy, a target charging amount of the electricity storage device to be charged during running of the electricity supply vehicle.

Abstract: A vapor solenoid valve is connected so as to lead to a canister. A vapor line connecting port and a purge line connecting port are connected to a vapor line and a purge line, respectively. When switched on and in an open position, the vapor solenoid valve connects a canister connecting port, the vapor line connecting port and the purge connecting port to each other, and thus allows a fuel evaporative gas to flow out of and into a canister or allows air to flow from an air filter. When switched off and in a CLOSED position, the vapor solenoid valve closes the canister connecting port and connects only the vapor line connecting port and the purge line connecting port to each other, and thus inhibits the fuel evaporative gas from flowing out of and into the canister.

Abstract: A control device for a hybrid vehicle includes a portion determining whether an engine torque is necessary, a portion controlling a motor to make a motor torque be a target torque, an engine rotation speed control portion controlling an engine output shaft to rotate at a target engine rotation speed for sudden start/reacceleration while the clutch being disengaged after starting the engine and before an actual rotation speed of the engine output shaft exceeds a reference target engine rotation speed in a case where the engine torque is necessary, a control portion engaging the clutch after the actual rotation speed exceeds the reference target engine rotation speed, and a portion controlling the engine so that the engine torque is assumed to be a target torque by canceling the control by the engine rotation speed control portion after the actual rotation speed exceeds the reference target engine rotation speed.