Speed control assembly for a self-propelled walk behind lawn mower

What is claimed is: 1. A transmission assembly for a self-propelled walk-behind lawn mower, said transmission assembly comprising: a housing; a first actuator attached to said housing; a second actuator attached to said housing; a first pulley rotatably driven by a belt extending between said first pulley and an engine, said first pulley is connected to said housing, said first pulley having an upper pulley member, a lower pulley member, and an effective diameter directly relating to a distance said upper pulley member is spaced apart from said lower pulley member, wherein said second actuator is configured to selectively move one of said upper or lower pulley members relative to the other of said upper or lower pulley members; and a drive shaft partially disposed within said housing, said drive shaft being operatively coupled to said first pulley, wherein rotation of said first pulley is transferred into rotation of said drive shaft to produce a rotational output of said drive shaft to drive a pair of ground-engaging wheels when said housing is in an engaged position, wherein translation of one of said pulley members relative to the other of said pulley members changes said distance between said upper and lower pulley members, wherein said change in said distance changes said effective diameter of said first pulley which results in a change of speed of said rotational output of said drive shaft, and wherein said first actuator is configured to move said housing selectively between an engaged position and a disengaged position, and said second actuator is configured to operate independently of said first actuator. 2. The transmission assembly of claim 1 , wherein said housing is actuated between an engaged position and a disengaged position by a speed control assembly, the speed control assembly comprising: a casing; and a knob rotatably connected to said casing, wherein said knob is rotatable between a plurality of operative positions to adjust said speed of rotational output of said drive shaft. 3. The transmission assembly of claim 2 , wherein said knob is operatively connected to said lower pulley member, wherein rotation of said knob between said plurality of operative positions results in said translation of said lower pulley member relative to said upper pulley member, thereby changing said effective diameter of said first pulley. 4. The transmission assembly of claim 3 , wherein each of the plurality of operative positions produces a different relative speed of rotational output of said drive shaft. 5. The transmission assembly of claim 3 , wherein said speed control assembly further comprises an indexer positioned within said casing, said indexer being operatively connected to said knob, wherein rotation of said knob causes translational movement of said indexer. 6. The transmission assembly of claim 5 , wherein said indexer is operatively connected to said transmission assembly such that translation of said indexer causes said transmission assembly to rotate about said drive shaft. 7. The transmission assembly of claim 1 , wherein said housing rotates about said drive shaft. 8. The transmission assembly of claim 2 , further comprising a first lever rotatably connected to said casing. 9. The transmission assembly of claim 8 , further comprising a second lever rotatably connected to said casing, wherein said rotation of at least one of said first lever and said second lever actuates a self-propelled transmission assembly between the engaged position and the disengaged position. 10. The transmission assembly of claim 9 , wherein said housing is independently movable relative to said engine and wherein rotation of one of said at least one lever causes said housing to move relative to said engine, said movement actuates said housing between said engaged position and said disengaged position. 11. The transmission assembly of claim 9 , wherein rotation of said knob of said speed control assembly is independent relative to rotation of said at least one lever of said speed control assembly. 12. The transmission assembly of claim 1 , wherein said second actuator is configured to selectively move one of said upper or lower pulley members relative to the other of said upper or lower pulley members and move said housing away from said engine in order to remove slack in said belt created by translation of one of said pulley members to decrease the effective pulley diameter. 13. The transmission assembly of claim 1 , wherein said second actuator is configured to selectively move one of said upper or lower pulley members relative to the other of said upper or lower pulley members and move said housing toward said engine in order to add slack in said belt created by translation of one of said pulley members to increase the effective pulley diameter. 14. A transmission assembly for a self-propelled walk-behind lawn mower, said transmission assembly comprising: a housing; a first pulley rotatably driven by a belt extending between said first pulley and an engine, said first pulley is connected to said housing, said first pulley having an upper pulley member, a lower pulley member, and an effective diameter, wherein said effective diameter directly relates to a distance said upper pulley member is spaced apart from said lower pulley member, wherein said lower pulley member is translatable relative to said upper pulley member; a drive shaft partially disposed within said housing, said drive shaft being operatively coupled to said first pulley wherein rotation of said first pulley is transferred into rotation of said drive shaft to produce a rotational output of said drive shaft to drive a pair of ground-engaging wheels when said housing is in an engaged position, wherein a change in said effective diameter results in a change of speed of said rotational output of said drive shaft; wherein movement of said housing selectively actuates said housing between said engaged position and a disengaged position; and a speed control assembly, said speed control assembly comprising: a casing; a knob rotatably connected to said casing, wherein said knob is rotatable between a plurality of operative positions which causes translation of said lower pulley member relative to said upper pulley members for changing said distance therebetween; and an indexer positioned within said casing, said indexer being operatively connected to said knob, wherein rotation of said knob causes translational movement of said indexer, wherein each of the plurality of operative positions produces a different relative speed of rotational output of said drive shaft, wherein said knob is operatively connected to said lower pulley member, wherein rotation of said knob translates said lower pulley member relative to said upper pulley member to change said effective diameter of said first pulley wherein movement of said housing and translation of said lower pulley member can occur independently. 15. The transmission assembly of claim 14 , further comprising a rotatable actuator operatively connected to said knob and said lower pulley member, wherein said rotatable actuator is configured to selectively translate said lower pulley member relative to said upper pulley member in response to rotation of said knob. 16. The transmission assembly of claim 15 , wherein the rotatable actuator further comprises a first bearing surface, said housing having a second bearing surface extending upwardly from said housing, said first and second bearing surfaces being in sliding contact therebetween. 17. The transmission assembly of