An automatic starting system includes a choke or similar apparatus. The apparatus includes at least a choke plate, a choke arm, and a control arm. The choke plate is configured to control a ratio of fuel and air for an engine. The choke arm is fixedly coupled with the choke plate. The control arm adjustably coupled with the choke arm. The control arm and the choke arm cooperate to move the choke plate into multiple positions, which correspond to multiple ratios of fuel and air for the engine.

An air/fuel mixing apparatus configured for use with an internal combustion engine including a carburetor including a body defining a passageway therethrough and a choke valve positioned in the passageway, a solenoid, and a thermal switch configured to energize or de-energize the solenoid. The solenoid is configured to move the choke valve between the choke open position and the choke closed position, wherein the solenoid includes a rotary shaft coupled to a choke lever, and a thermostatic element coupled to the rotary shaft. The thermostatic element expands and constricts based on a temperature of the engine and restricts the movement of the choke valve between the choke closed position and a partially-open position when the solenoid is not energized.

An air/fuel mixing apparatus configured for use with an internal combustion engine including a carburetor including a body defining a passageway therethrough and a choke valve positioned in the passageway, a solenoid, and a thermal switch configured to energize or de-energize the solenoid. The solenoid is configured to move the choke valve between the choke open position and the choke closed position, wherein the solenoid includes a rotary shaft coupled to a choke lever, and a thermostatic element coupled to the rotary shaft. The thermostatic element expands and constricts based on a temperature of the engine and restricts the movement of the choke valve between the choke closed position and a partially-open position when the solenoid is not energized.

An engine control device that regulates fuel to be supplied to an engine including: a starting fuel supply valve that supplies starting fuel to air to the engine or to an air-fuel mixture of air and fuel in starting the engine; an engine temperature detection unit that detects an engine temperature of the engine; an engine speed detection unit that detects the engine speed of the engine; and a control unit that controls the starting fuel supply valve to open and close to control the engine, in which the control unit controls an opening time of the starting fuel supply valve according to the engine temperature and the engine speed.

A choke removal mechanism for an autochoked engine includes an actuator arm which is configured to have an actuated state and an idle state, an actuator which is configured to be mechanically coupled to the actuator arm, a choke which is configured to have an open state and a closed state, and a choke spring which is configured to be mechanically coupled to the choke and the actuator arm, where the choke spring is configured to mechanically link the actuator arm to the choke such that when the actor arm is in the actuated state the choke is in the open state and when the actuator arm is in the idle state the choke is in the closed state.

A choke removal mechanism for an autochoked engine includes an actuator arm which is configured to have an actuated state and an idle state, an actuator which is configured to be mechanically coupled to the actuator arm, a choke which is configured to have an open state and a closed state, and a choke spring which is configured to be mechanically coupled to the choke and the actuator arm, where the choke spring is configured to mechanically link the actuator arm to the choke such that when the actor arm is in the actuated state the choke is in the open state and when the actuator arm is in the idle state the choke is in the closed state.

The invention concerns a method for controlling the fuel supply to an internal combustion engine at start-up. The fuel supply system can be set in at least two start modes, a lean mode and a rich mode, and the selection of mode is based on an evaluation of a previous start attempt or successful run. The invention also concerns a carburettor (10) having a fuel supply system including a main fuel path (13) with an actively controlled fuel valve (26) and an idling fuel path (14) branching off from the main fuel path (13) downstream of the valve (26). The fuel supply system further includes a start fuel line (23, 423) starting upstream (FIG. 1) or downstream (FIG. 4) of the fuel valve (26) and ending in at least one start fuel outlet near and downstream of a choke valve.

A choke removal mechanism for an autochoked engine includes an actuator arm which is configured to have an actuated state and an idle state, an actuator which is configured to be mechanically coupled to the actuator arm, a choke which is configured to have an open state and a closed state, and a choke spring which is configured to be mechanically coupled to the choke and the actuator arm, where the choke spring is configured to mechanically link the actuator arm to the choke such that when the actor arm is in the actuated state the choke is in the open state and when the actuator arm is in the idle state the choke is in the closed state.

A choke removal mechanism for an autochoked engine includes an actuator arm which is configured to have an actuated state and an idle state, an actuator which is configured to be mechanically coupled to the actuator arm, a choke which is configured to have an open state and a closed state, and a choke spring which is configured to be mechanically coupled to the choke and the actuator arm, where the choke spring is configured to mechanically link the actuator arm to the choke such that when the actor arm is in the actuated state the choke is in the open state and when the actuator arm is in the idle state the choke is in the closed state.