Tillers for outboard motors having reversible throttle grip direction

What is claimed is: 1. A tiller for an outboard motor, the tiller comprising: a throttle grip that is manually rotatable through a first range of motion into and between an idle position in which the outboard motor is controlled at an idle speed and a first open-throttle position in which the outboard motor is controlled at an above-idle speed, and further wherein the throttle grip is oppositely rotatable through a second range of motion into and between the idle position and a second open-throttle position in which the outboard motor is controlled at the above-idle speed; a throttle shaft coupled to the throttle grip and configured so that rotation of the throttle grip causes rotation of the throttle shaft, which changes a throttle position of a throttle of the outboard motor; and a rotation direction switching mechanism that is manually positionable into a first position in which rotation of the throttle grip through the first range of motion controls the throttle of the outboard motor and alternately manually positionable into a second position in which rotation of the throttle grip through the second range of motion controls the throttle position. 2. The tiller according to claim 1 , further comprising a throttle gear configured so that rotation of the throttle shaft causes rotation of the throttle gear, which controls the throttle position. 3. The tiller according to claim 2 , further comprising opposing first and second driving gears on the throttle shaft, wherein the opposing first and second driving gears are coupled to the throttle gear so that rotation of each of the first and second driving gears causes rotation of the throttle gear, which controls the throttle position of the throttle, and wherein the first and second driving gears remain coupled to the throttle gear when the rotation direction switching mechanism is manually positioned in the first position and alternately in the second position. 4. The tiller according to claim 3 , wherein the rotation direction switching mechanism comprises a manually operable connector that is manually attachable to each of the first and second driving gears, alternatively, so that when the manually operable connector is attached to the first driving gear, rotation of the throttle grip through the first range of motion controls the throttle position, and so that when the manually operable connector is attached to the second driving gear, rotation of the throttle grip through the second range of motion controls the throttle position. 5. The tiller according to claim 4 , wherein when the manually operable connector is attached to the first driving gear, the throttle shaft is rotationally fixed to first driving gear while the throttle shaft is freely rotatable with respect to the second driving gear, and wherein when the manually operable connector is attached to the second driving gear, the throttle shaft is rotationally fixed to the second driving gear while the throttle shaft is freely rotatable with respect to the first driving gear. 6. The tiller according to claim 5 , wherein each of the first and second driving gears comprises a bevel gear and a gear hub, wherein the throttle shaft extends through the gear hub. 7. The tiller according to claim 6 , further comprising a throughbore extending through the gear hub and a corresponding throughbore formed in the throttle shaft, wherein the manually operable connector is attached to the first and second driving gears, alternatively, by inserting the manually operable connector through the throughbore in the gear hub and into the throughbore in the throttle shaft, thereby rotationally locking the gear hub to the throttle shaft. 8. The tiller according to claim 6 , wherein the throttle gear comprises a bevel gear and a lever arm that extends from the bevel gear and is coupled to a throttle arm, wherein rotation of the bevel gear rotates the lever arm, which moves the throttle arm to change the throttle position. 9. The tiller according to claim 1 , further comprising a shift lever that is manually pivotable to shift the outboard motor into forward and reverse gears, wherein manually pivoting of the shift lever in a first direction shifts the outboard motor into forward gear and wherein manually pivoting of the shift lever in an opposite, second direction shifts the outboard motor into reverse gear. 10. The tiller according to claim 9 , further comprising a clamping knob, wherein rotation of the clamping knob in a first direction clamps the throttle shaft in place and wherein rotation of the clamping knob in an opposite, second direction unclamps and allows rotation of the throttle shaft. 11. The tiller according to claim 10 , further comprising a clamping bracket that is clamped onto the throttle shaft when the clamping knob is rotated in the first direction and unclamped from the throttle shaft when the clamping knob is rotated in the second direction. 12. The tiller according to claim 10 , further comprising a tiller chassis, wherein the shift lever and clamping knob are located on opposite sides of the tiller chassis and wherein the tiller chassis, shift lever and clamping knob are configured so that the shift lever and clamping knob can be switched with each other so that pivoting the shift lever in the first direction shifts the outboard motor into reverse gear and so that pivoting of the shift lever in the opposite, second direction shifts the outboard motor into forward gear and so that rotation of the clamping knob in the first direction unclamps and allows rotation of the throttle shaft and so that rotation of the clamping knob in the opposite, second direction clamps the throttle shaft in place. 13. A tiller for an outboard motor, the tiller comprising: a throttle grip that is manually rotatable through a first range of motion into and between an idle position in which the outboard motor is controlled at an idle speed and a first open-throttle position in which the outboard motor is controlled at an above-idle speed, and further wherein the throttle grip is oppositely rotatable through a second range of motion into and between the idle position and a second open-throttle position in which the outboard motor is controlled at the above-idle speed; a throttle shaft coupled to the throttle grip and configured so that rotation of the throttle grip causes rotation of the throttle shaft; and a throttle gear configured so that rotation of the throttle shaft causes rotation of the throttle gear, which changes a throttle position of a throttle of the outboard motor; opposing first and second driving gears on the throttle shaft, wherein the opposing first and second driving gears are coupled to the throttle gear so that rotation of each of the first and second driving gears causes rotation of the throttle gear; and a manually operable connector that is manually positionable in two positions, including a first position wherein the manually operable connector couples the first driving gear to the throttle shaft so that rotation of the throttle grip through the first range of motion controls the throttle position, and alternatively in a second position wherein the manually operable connector couples the second driving gear to the throttle shaft so that rotation of the throttle grip through the second range of motion controls the throttle position. 14. The tiller according to claim 13 , wherein when the manually operable connector is in the first position, the throttle shaft is rotationally fixed to first driving gear while the throttle shaft is freely rotatable with respect to the second driving gear, and wherein when the manually operable connector is in the s