Safety system for engine shutdown, and methods of implementing the same

What is claimed is: 1 . A method of manufacturing an engine powered machine, the method comprising: a) providing an engine unit, the engine unit comprising: an engine having a shaft; a fuel-air mixer fluidly coupled to the engine to provide a mixture of fuel and air; an ignition coil operatively connected to the engine to provide a plurality of sparks; a fuel solenoid operatively connected to the fuel-air mixer to control fuel flow to the fuel-air mixer, the fuel solenoid movable between an open position in which fuel is free to flow through the fuel solenoid and an open position in which the fuel solenoid prevents fuel flow through the fuel solenoid; an engine side wiring harness coupled to the engine and operatively connected to the ignition coil and the fuel solenoid; and a first coupler, the first coupler operatively connected to the engine side wiring harness; b) providing a machine, the machine comprising a chassis, a safety switch, a working tool comprising a shaft, a fuel supply, a machine side wiring harness, and a second coupler, wherein the fuel supply, the working tool, and the machine side wiring harness are coupled to the chassis and the machine side wiring harness is operatively connected to the safety switch and the second coupler; c) coupling the engine unit to the chassis of the machine, the coupling comprising: operatively connecting the fuel supply to the fuel solenoid; coupling the engine to the chassis and the shaft of the engine to the shaft of the working tool; and coupling the first coupler to the second coupler. 2 . The method of claim 1 wherein the engine unit further comprises a relay coupled to the engine. 3 . The method of claim 2 wherein the relay is operatively connected to the fuel solenoid via the engine side wiring harness, the relay alterable between a first state in which the relay supplies power to the fuel solenoid and a second state in which the relay cuts off power from the fuel solenoid, wherein the relay is normally in the first state and is configured to transition from the first state to the second state upon receiving a safety switch activated signal generated by the safety switch. 4 . The method of claim 3 wherein the engine unit further comprises: a plurality of permanent magnets coupled to the shaft of the engine; and a stator winding mounted to the engine in a fixed position and positioned adjacent to the plurality of permanent magnets such that a current is induced in the stator winding when the shaft of the engine rotates; wherein upon activation of the safety switch, the stator winding is short circuited to produce a braking torque on the shaft. 5 . The method of claim 4 wherein the stator winding comprises a plurality of coils disposed around the engine shaft. 6 . The method of claim 4 wherein the engine unit further comprises a second relay, the second relay being operatively coupled to the stator winding via the engine side wiring harness, the second relay alterable between a first state in which the stator winding is not short circuited and a second state in which the stator winding is short circuited by the second relay. 7 . The method of claim 1 wherein the first coupler is a multi-pin connector comprising a plurality of terminals. 8 . A method of shutting down an engine powered machine, the method comprising: a) providing a machine, the machine comprising: an engine unit in a running state, the engine unit comprising: an engine having a shaft; a fuel-air mixer fluidly coupled to the engine to provide a mixture of fuel and air; an ignition coil operatively connected to the engine to provide a plurality of sparks; a fuel solenoid operatively connected to the fuel-air mixer to control fuel flow to the fuel-air mixer, the fuel solenoid movable between an open position in which fuel is free to flow through the fuel solenoid and an open position in which the fuel solenoid prevents fuel flow through the fuel solenoid; an engine side wiring harness coupled to the engine and operatively connected to the ignition coil and the fuel solenoid; and a first coupler, the first coupler operatively connected to the engine side wiring harness; a chassis, the engine unit coupled to the chassis; an engine side wiring harness coupled to the chassis and operatively connected to a safety switch and a second coupler, the second coupler being operatively connected to the first coupler; a fuel supply coupled to the chassis and operatively connected to the fuel solenoid; a working tool comprising a shaft, the shaft of the working tool being operatively coupled to the shaft of the engine; b) activating the safety switch, the safety switch generating a safety switch activated signal; c) simultaneously removing power from the fuel solenoid and disabling the ignition coil in response to the safety switch activated signal, the fuel solenoid moving from the open position to the closed position and the ignition coil no longer providing the plurality of sparks to the engine, the engine unit transitioning from the running state to a shutdown state. 9 . The method of claim 8 wherein the engine unit further comprises a first relay providing power to the fuel solenoid when the engine unit is in the running state and interrupting power to the solenoid upon activation of the safety switch. 10 . The method of claim 9 wherein the first relay is coupled to the engine. 11 . The method of claim 10 wherein the engine side wiring harness comprises a first relay connector, the first relay connector comprising a first coil terminal, a second coil terminal, a supply terminal, a normally open terminal, and a normally closed terminal. 12 . The method of claim 11 wherein the engine side wiring harness further comprises a fuel solenoid connector operatively coupled to the fuel solenoid, the fuel solenoid connector being coupled to the normally closed terminal of the first relay connector of the engine side wiring harness. 13 . The method of claim 12 wherein the engine side wiring harness further comprises a protection diode installed between the first coil terminal of the first relay connector and the first coupler. 14 . The method of claim 9 wherein the first relay is configured to alternate between a first state in which the relay supplies power to the fuel solenoid and a second state in which the relay cuts off power from the fuel solenoid when the engine unit is in the running state, wherein the first relay is normally in the first state and configured to transition from the first state to the second state upon receiving the safety switch activated signal. 15 . The method of claim 8 wherein the first and second couplers are pin connectors. 16 . The method of claim 15 wherein the first and second pin connectors each comprise a plurality of terminals. 17 . The method of claim 8 wherein the engine unit further comprises: a plurality of permanent magnets coupled to the shaft of the engine; and a stator winding mounted to the engine in a fixed position and positioned adjacent to the plurality of permanent magnets such that a current is induced in the stator winding when the shaft of the engine rotates; wherein step c) further comprises the stator winding being short circuited to produce a braking torque on the shaft. 18 . The method of claim 17 further comprising a first relay coupled to the engine, the first relay providing power to the fuel solenoid when the engine unit is in the running state and interrupting power to the solenoid upon activation of the safe