Tiller assembly for a marine outboard engine

What is claimed is: 1. A tiller assembly for a marine outboard engine, comprising: a base adapted to pivot relative to a steering axis of the marine outboard engine and defining an axis of rotation that is perpendicular to the steering axis; a tiller arm pivotably connected to the base to pivot relative to the base about the axis of rotation for adjusting an angular position of the tiller arm relative to the base; one of the base and the tiller arm defining a recess, the recess being coaxial with the axis of rotation and being at least partially defined by a female tapered surface; a shaft extending through the base and the tiller arm, the shaft extending through the recess, the shaft defining the axis of rotation, the shaft having a first threaded portion; a clamping fitting connected to the shaft and received at least in part in the recess, the clamping fitting being rotationally fixed relative to another one of the base and the tiller arm, the clamping fitting having a male tapered surface received at least in part in the recess; and a handle, at least one of the handle and the clamping fitting having a second threaded portion engaged with the first threaded portion, wherein rotation of the first threaded portion relative to the second threaded portion in a pre-determined direction causes the male tapered surface of the clamping fitting to press against the female tapered surface of the recess. 2. The tiller assembly of claim 1 , wherein: the other one of the base and the tiller arm defines a plurality of first splines disposed circumferentially about the axis of rotation; and the clamping fitting has a plurality of second splines engaging the plurality of first splines. 3. The tiller assembly of claim 1 , further comprising at least one resilient member arranged in compression so as to press the male tapered surface of the clamping fitting against the female tapered surface of the recess. 4. The tiller assembly of claim 3 , wherein the at least one resilient member is arranged in compression between: one of the handle and the shaft, and one of the base and the tiller arm, so as to push the male tapered surface of the clamping fitting against the female tapered surface of the recess. 5. The tiller assembly of claim 3 , wherein the at least one resilient member is disposed between the handle and the clamping fitting. 6. The tiller assembly of claim 1 , wherein: the clamping fitting has the second threaded portion; the female tapered surface of the recess faces away from the handle; and the rotation of the first threaded portion relative to the second threaded portion in the pre-determined direction causes the shaft to rotate in the pre-determined direction about the axis of rotation and to thereby press the male tapered surface of the clamping fitting toward the handle against the female tapered surface of the recess. 7. The tiller assembly of claim 2 , wherein: the recess has a cylindrical portion and a frusto-conical portion; the cylindrical portion and the frusto-conical portion are coaxial with the axis of rotation; and the frusto-conical portion extends and narrows from the cylindrical portion toward the handle. 8. The tiller assembly of claim 7 , wherein: the recess is a first recess defined in a portion of the base; the clamping fitting is a first clamping fitting; the base defines a second recess in the portion of the base opposite the first recess, the second recess having a cylindrical portion and a female tapered surface that are coaxial with the axis of rotation, the female tapered surface of the second recess extending and narrowing from the cylindrical portion of the second recess toward the first recess; the tiller arm defines the plurality of first splines and a plurality of third splines disposed circumferentially about the axis of rotation; and the tiller assembly further includes a second clamping fitting, the second clamping fitting slidably engaging the shaft and comprising a male tapered surface and a plurality of fourth splines disposed circumferentially about the axis of rotation, the second clamping fitting being received at least in part in the second recess, the male tapered surface of the second clamping fitting pressing against the female tapered surface of the second recess, the plurality of fourth splines of the second clamping fitting engaging the plurality of third splines of the tiller arm. 9. The tiller assembly of claim 8 , wherein: the tiller arm defines a first arm at a rear end of the tiller arm, the first arm defining a first aperture coaxial with the axis of rotation, the first aperture comprising the plurality of first splines therein; the tiller arm defines a second arm at the rear end of the tiller arm, the second arm defining a second aperture coaxial with the axis of rotation, the second aperture comprising the plurality of third splines therein; the first and second clamping fittings are slidable relative to the tiller arm along the axis of rotation and are rotationally fixed relative to the tiller arm; and the portion of the base defining the first and second recesses therein is received between the first arm and the second arm. 10. The tiller assembly of claim 9 , wherein: the second clamping fitting is disposed between the first clamping fitting and the handle; the tiller assembly further includes at least one resilient member disposed between the handle and the second clamping fitting; and the handle presses the at least one resilient member against the second clamping fitting. 11. The tiller assembly of claim 3 , wherein: the handle has the second threaded portion; the clamping fitting is rotationally fixed relative to the shaft; and the handle is rotatable relative to the shaft in the pre-determined direction, the handle rotating relative to the shaft in the pre-determined direction causing the first threaded portion to operate against the second threaded portion to thereby press the handle against the at least one resilient member, the at least one resilient member thereby pressing against the clamping fitting. 12. The tiller assembly of claim 1 , wherein the male tapered surface of the clamping fitting and the female tapered surface of the recess each have a smooth frusto-conical surface. 13. The tiller assembly of claim 12 , wherein the frusto-conical surfaces of the clamping fitting and the recess define an angle with the axis of rotation, the angle being between 7 degrees and 45 degrees. 14. The tiller assembly of claim 13 , wherein the angle is between 14 and 16 degrees. 15. A marine outboard engine, comprising: a stern bracket attachable to a watercraft; a swivel bracket pivotably connected to the stern bracket to pivot relative to the stern bracket about a tilt/trim axis; a drive unit pivotably connected to the swivel bracket for pivoting with the swivel bracket about the tilt/trim axis and for pivoting relative to the swivel bracket about the steering axis; and the tiller assembly of claim 1 , the base of the tiller assembly being attached to the drive unit for pivoting the drive unit about the steering axis. 16. A tiller assembly kit for a marine outboard engine, comprising: a base for being connected to the marine outboard engine to pivot relative to a steering axis of the marine outboard engine, the base defining an axis of rotation that is perpendicular to the steering axis when the base is connected to the marine outboard engine; a tiller arm for being pivotably connected to the base to pivot relative to the base about the axis of rotation for adjusting an angular position of