Solenoid autochoke for an engine

What is claimed is: 1. A choke system for an internal combustion engine, comprising: a carburetor having an air intake, a choke valve disposed in the air intake, and a choke lever coupled to the choke valve, wherein the choke valve is movable between a closed position and an open position; a mechanical linkage coupled to the choke lever; and a solenoid attached to the carburetor and coupled to the mechanical linkage so activation of the solenoid moves the choke valve, wherein the solenoid is activated in response to activation of a starter system of an internal combustion engine, thereby moving the choke valve via the mechanical linkage to the closed position; wherein the mechanical linkage comprises a single lever having a first end coupled to the choke lever and a second end coupled to the solenoid, and the mechanical linkage is rotatable about a pivot point between the first end and the second end; wherein the solenoid is configured to be energized at a voltage lower than an operational voltage of a starter motor of the internal combustion engine. 2. The choke system of claim 1 , wherein the solenoid includes a plunger, wherein movement of the plunger causes movement of the choke valve, wherein the plunger is movable between an extended position and a retracted position, wherein the plunger moves in a direction parallel to a flow of air through the air intake, and wherein the plunger moves from the extended position to the retracted position in response to activation of the starter system of the internal combustion engine, thereby moving the choke valve via the mechanical linkage to the closed position. 3. The choke system of claim 1 , wherein the pivot point is disposed closer to the second end than to the first end. 4. The choke system of claim 1 , further comprising: a manual choke mechanism configured to be coupled to a manual input device so that the choke valve is moved to the closed position in response to movement of the manual input device. 5. The choke system of claim 4 , wherein the manual choke mechanism comprises a first member and a second member, the first member configured to move in response to movement of the manual input device and the second member coupled to the mechanical linkage and selectively coupled to the first member so that movement of the manual input device is transferred to the mechanical linkage via the first member and second member to move the choke valve to the closed position. 6. The choke system of claim 5 , wherein the first member is biased to a position in which the first member is decoupled from the second member. 7. An engine starting system, comprising: a battery; a starter motor electrically coupled to the battery; a starter switch electrically coupled between the battery and the starter motor; an ignition actuator configured to close the starter switch when the ignition actuator is in a start position; a carburetor having an air intake and a choke valve disposed in the air intake; and an automatic choke mechanism coupled to the choke valve, the automatic choke mechanism comprising a solenoid electrically coupled to the starter switch and mechanically coupled to the choke valve; wherein the solenoid includes a plunger moveable in a direction parallel to a flow of air through the air intake between an extended position and a retracted position; wherein the solenoid is configured to be energized at a voltage lower than an operational voltage of the starter motor; and wherein the plunger moves to the retracted position to close the choke valve when the starter switch is closed and moves to the extended position to open the choke valve when the starter switch is open. 8. The engine starting system of claim 7 , further comprising: a thermal switch electrically coupled in series with the starter switch and the solenoid, the thermal switch configured to open in response to a threshold engine temperature, thereby cutting power to the solenoid. 9. The engine starting system of claim 8 , further comprising: a diode electrically coupled in parallel around the solenoid and electrically coupled to ground, the diode configured to reduce remanence in the solenoid due to repeated cycling of the solenoid. 10. The engine starting system of claim 7 , further comprising: a diode electrically coupled in parallel around the solenoid and electrically coupled to ground, the diode configured to reduce remanence in the solenoid due to repeated cycling of the solenoid. 11. The engine starting system of claim 7 , further comprising: a choke lever coupled to the choke valve; a mechanical linkage mechanically coupling the solenoid to the choke valve, the mechanical linkage comprising a single lever having a first end coupled to the choke lever and a second end, and the linkage is rotatable about a pivot point between the first end and the second end. 12. The engine starting system of claim 11 , wherein the second end of the mechanical linkage is coupled to the automatic choke mechanism. 13. The engine starting system of claim 12 , further comprising: a manual choke mechanism coupled to the second end of the mechanical linkage and configured to be coupled to a manual input device so that the choke valve is closed in response to movement of the manual input device. 14. The engine starting system of claim 13 , wherein the manual choke mechanism comprises a first member and a second member, the first member configured to move in response to movement of the manual input device and the second member coupled to the mechanical linkage and selectively coupled to the first member so that movement of the manual input device is transferred to the mechanical linkage via the first member and second member to close the choke valve. 15. The engine starting system of claim 14 , wherein the first member is biased to a position in which the first member is decoupled from the second member. 16. A method for adjusting the position of a choke valve, comprising: providing a choke valve in the air passage of a carburetor; providing a linkage external to the carburetor and coupled to the choke valve; providing an automatic choke mechanism electrically coupled to a starting system for an engine, the automatic choke mechanism comprising a solenoid coupled to the linkage and oriented parallel to the air passage, and the starting system comprising a starter motor electrically coupled to the solenoid; and energizing the solenoid at a voltage lower than an operational voltage of the starter motor upon activation of the starting system, thereby rotating the linkage and closing the choke valve. 17. The method of claim 16 , wherein the starting system further comprises a battery and a starter switch, with the starter motor electrically coupled to the battery, the starter switch electrically coupled between the battery and the starter motor, and the solenoid electrically coupled to the starter switch, and further comprising; energizing the solenoid when the starter switch is closed. 18. The method of claim 16 , further comprising: providing a manual choke mechanism, the manual choke mechanism comprising a first member and a second member coupled to the linkage; moving the first member to engage the second member, thereby rotating the linkage with the second member to adjust the choke valve.