Air/fuel ratio control apparatus for general-purpose engine

What is claimed is: 1. An apparatus for controlling an air/fuel ratio of a general-purpose internal combustion engine that is supplied with mixed fuel containing alcohol and gasoline and stored in a fuel tank and that is connectable to a load, comprising a desired engine speed input switch adapted for an operator to input a desired speed of the engine, an engine speed detector that detects a speed of the engine, a throttle opening regulator that regulates an opening of a throttle valve installed in an air intake pipe of the engine such that the detected engine speed converges to the inputted desired engine speed, a map switch that selects one of a plurality of maps corresponding to respective rates of alcohol contained in the mixed fuel stored in the fuel tank, the respective rates of alcohol being greater than 0%, the map switch having a plurality of selectable positions corresponding to the respective rates of alcohol and selecting the one of the plurality of maps in response to a selected position, a fuel injection amount calculator that calculates a fuel injection amount of the engine based on the detected engine speed and the regulated throttle opening in accordance with the rate of the alcohol corresponding to the map selected by the map switch, and an injector that injects the fuel based on the calculated fuel injection amount, wherein the apparatus comprises: a load determiner that determines whether the load connected to the engine is kept constant; a fuel injection amount injecting increasing or decreasing unit that increases or decreases the calculated fuel injection amount to be injected, when the load connected to the engine is determined to be kept constant; an air/fuel ratio estimator that determines a minimum value of the throttle opening using the change of the throttle opening changed by the throttle opening regulator in accordance with the increase or decrease of the calculated fuel injection amount and estimates an air/fuel ratio at which an output of the engine becomes maximum based on the determined minimum value; a fuel injection amount corrector that calculates a correction coefficient based on the estimated air/fuel ratio, corrects the map by multiplying each fuel injection amount in the map corresponding to the selected position of the map switch by the calculated correction coefficient and corrects the fuel injection amount in accordance with the corrected map; and a correction coefficient storing unit that stores the calculated correction coefficient, wherein the fuel injection amount corrector determines whether the map switch has been switched before starting the engine, and corrects the map using the correction coefficient stored in the correction coefficient storing unit when the map switch has not been switched before starting the engine, whereas the fuel injection amount corrector sets the correction coefficient stored in the correction coefficient storing unit to 1 to initialize the correction coefficient when the map switch has been switched before starting the engine. 2. The apparatus according to claim 1 , wherein the fuel injection amount corrector calculates the correction coefficient based on a ratio of the calculated fuel injection amount to a fuel injection amount at which the throttle opening is minimum and corrects the fuel injection amount by the coefficient. 3. The apparatus according to claim 1 , further including: an informing device that informs an operator of a fact that the fuel injection amount is corrected. 4. The apparatus according to claim 1 , wherein the load determiner determines that the load connected to the engine is kept constant when the detected engine speed is within a predetermined range set based on the desired engine speed continuously for a predetermined time period. 5. The apparatus according to claim 1 , wherein the load determiner determines that the load connected to the engine is kept constant when the regulated throttle opening is equal to or less than a predetermined opening and a change amount of the regulated throttle opening is within a predetermined change amount continuously for a predetermined time period. 6. The apparatus according to claim 1 , wherein the load comprises at least one of a generator, a lawnmower and a snowplow. 7. The apparatus according to claim 3 , wherein the informing device comprises at least one of a lamp and a buzzer. 8. A method for controlling an air/fuel ratio of a general-purpose internal combustion engine that is supplied with mixed fuel containing alcohol and gasoline and stored in a fuel tank and that is connectable to a load, comprising a desired engine speed input switch adapted for an operator to input a desired speed of the engine, an engine speed detector that detects a speed of the engine, a throttle opening regulator that regulates an opening of a throttle valve installed in an air intake pipe of the engine such that the detected engine speed converges to the inputted desired engine speed, a map switch that selects one of a plurality of maps corresponding to respective rates of alcohol contained in the mixed fuel stored in the fuel tank, the respective rates of alcohol being greater than 0%, the map switch having a plurality of selectable positions corresponding to the respective rates of alcohol and selecting the one of the plurality of maps in response to a selected position, a fuel injection amount calculator that calculates a fuel injection amount of the engine based on the detected engine speed and the regulated throttle opening in accordance with the rate of the alcohol corresponding to the map selected by the map switch, and an injector that injects the fuel based on the calculated fuel injection amount, wherein the method comprises the steps of: determining whether the load connected to the engine is kept constant; increasing or decreasing the calculated fuel injection amount to be injected when the load connected to the engine is determined to be kept constant; determining a minimum value of the throttle opening using the change of the throttle opening changed by the throttle opening regulator in accordance with the increase or decrease of the calculated fuel injection amount and estimating an air/fuel ratio at which an output of the engine becomes maximum based on the determined minimum value; and calculating a correction coefficient based on the estimated air/fuel ratio, correcting the map by multiplying each fuel injection amount in the map corresponding to the selected position of the map switch by the calculated correction coefficient and correcting the fuel injection amount in accordance with the corrected map; and storing the calculated correction coefficient, wherein the step of calculating correction coefficient determines whether the map switch has been switched before starting the engine, and corrects the map using the stored correction coefficient when the map switch has not been switched before starting the engine, whereas sets the stored correction coefficient to 1 to initialize the correction coefficient when the map switch has been switched before starting the engine. 9. The method according to claim 8 , wherein the step of fuel injection amount correcting calculates the correction coefficient based on a ratio of the calculated fuel injection amount to a fuel injection amount at which the throttle opening is minimum and corrects the fuel injection amount by the coefficient. 10. The method according to claim 8 , further including the step of: informing an operator of a fact that the fuel injection amount is corrected. 11. The method according to claim 8 , wherein the step of load determining determines that the load connected to the engine is kept