SMALL ENGINE OPERATION COMPONENTS
First Claim
Patent Images
1. A fuel system (18) for an internal combustion engine including an engine block (12), at least one combustion chamber (14) associated with the engine block, at least one piston (11) mounted for movement within the chamber (14), a shaft (7) driven by the at least one piston (11), and a flywheel (2) mounted to and rotatable with the shaft;
- comprising;
a throttle body (10) mounted to the engine, the throttle body having a plurality of openings in it, the openings serving to route fuel to the at least one combustion chamber (11);
a fuel pump (84b) mounted to the throttle body (10);
a fuel pressure regulator (20) associated with the fuel pump (84b) and mounted to the throttle body (10);
an electronic control unit (ECU) (42) mounted to the throttle body (10), the electronic control unit (42) being operatively connected to a fuel injector (45) for injecting fuel into the at least one combustion chamber; and
a fuel injector (45) mounted to the throttle body (10).
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Accused Products
Abstract
A low pressure, low cost electronic fuel injection system (18) for small hand-held two cycle engines (1) is provided which employs a number of improvements, including by way of example and not of limitation, an improved low cost injector construction (45), a throttle body integration (10) that includes mounting the operational components of the supply system on a single unit, an improved ignition module (40), a pressure regulated fuel system controlled by an electronic control unit (42) employing and an adaptive algorithm based on engine speed which controls the speed by varying the amount of fuel provided to the engine.
49 Citations
16 Claims
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1. A fuel system (18) for an internal combustion engine including an engine block (12), at least one combustion chamber (14) associated with the engine block, at least one piston (11) mounted for movement within the chamber (14), a shaft (7) driven by the at least one piston (11), and a flywheel (2) mounted to and rotatable with the shaft;
- comprising;
a throttle body (10) mounted to the engine, the throttle body having a plurality of openings in it, the openings serving to route fuel to the at least one combustion chamber (11); a fuel pump (84b) mounted to the throttle body (10); a fuel pressure regulator (20) associated with the fuel pump (84b) and mounted to the throttle body (10); an electronic control unit (ECU) (42) mounted to the throttle body (10), the electronic control unit (42) being operatively connected to a fuel injector (45) for injecting fuel into the at least one combustion chamber; and a fuel injector (45) mounted to the throttle body (10).
- comprising;
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2. In a fuel system (18) for a small internal combustion engine having an engine block (12), at least one combustion chamber (14) associated with the engine block (12), at least one piston (11) mounted for movement within the at least one chamber (14), a shaft (7) driven by the at least one piston (11), a flywheel (2) mounted to and rotatable with the shaft (7) and at least on fuel injector (45) associated with the engine (1), the improvement which comprises a throttle body (10) mounted to the engine (1), and a fuel pump (84b) integral with the throttle body (10), the throttle body (10) having a fuel circuit (10a) associated with it for delivering fuel to the at least one fuel injector (45).
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3. In a fuel system (18) for a internal combustion engine (1) having an engine block (12), at least one cylinder (15) associated with the engine (1), at least one piston (11) mounted for movement within the cylinder (15), a shaft (7) driven by the at least one piston (11), a flywheel (2) mounted to the shaft (7) and a fuel circuit (10a) for supplying fuel to the cylinder (15), the improvement which comprises a fuel injector (45) capable of delivering fuel in less than 4 ms at an engine speed of less than 12,500 revolutions per minute, the fuel injector (45) further including a motor can (30) enclosing a magnetic core (34), an electrical coil (43) mounted to the core (34), an upper body (25) sized to receive the motor can (30), a lower body (33) having an inlet (34) operatively connected to the fuel circuit and an outlet (105) operatively connected to the at least one cylinder (15), the lower body (33) being mounted to and fixed in position to the upper body (25) in the assembled position of the injector (45), a spring (44) and pin (46) positioned between the lower body (33) and the motor can (30), the spring (44) acting on the pin (46) normally to position the pin (46) toward the outlet (105) of the lower body (33).
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4. In a fuel system for a small internal combustion engine (1) having an engine block (12), at least one combustion chamber (14) associated with the engine (1), at least one piston (11) mounted for movement within the combustion chamber, a shaft (7) driven by the at least one piston (11), and a flywheel (2) mounted to the shaft (7), and at least one fuel injector (45), the improvement which comprises an electronic control unit (42), the electronic control unit (42) being operable to electrically control a fuel injector (45) for the fuel system (18), the electronic control (42) unit including a microprocessor (160), a non-volatile memory for a control algorithm, and signal conditioning circuits, the electronic control unit being mounted to a throttle body (10), and a throttle body mounted to the engine (1).
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5. A fuel circuit for an internal combustion engine (1) comprising:
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a throttle body (10) including a housing (100), the housing (100) part having at least one channel formed in it to deliver fuel to a fuel injector (45); a throttle plate (9) mounted to the throttle body (10) upstream of the fuel injector; and a fuel injector (45) positioned with respect to the throttle plate (9) to enable the injector to deliver fuel to the combustion chamber (11).
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6. A method of adjusting the operational position of a fuel injector (45) for an internal combustion engine (1) comprising the steps of:
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providing a fuel injector (45) having an upper body and a lower body (25), the upper body (25) including a motor can (30) movable with respect to the lower body (25); advancing the motor can (30) to define a first bottomed position with respect to the lower body (25); rotating the motor can (30) away from the bottomed position to define an operational range of motion for the injector (45).
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7. A throttle body (10) for an internal combustion engine comprising:
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a housing (100), the housing (100) having a plurality of channels formed in it, at least one of said channels operating to deliver fuel to a fuel injector (45); an electronic control unit (42) mounted to the throttle body (10); a throttle plate (9) operatively connected to the electronic control unit (42), the throttle plate (9) including a shaft (90) having a first end and a second end, one of said first and of said second ends of the shaft (90) being operatively connected to the electronic control unit (42) so as to provide a throttle position indication to the electronic control unit (42); and a fuel injector (45) attached to the engine and electronically connected to the electronic control unit.
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8. In a fuel system for a internal combustion engine having an engine block (12), at least one cylinder (15) associated with the engine, at least one piston (11) mounted for movement within the cylinder (15), a shaft (7) driven by the at least one piston, a flywheel (2) mounted to the shaft, the improvement which consists essentially of the integration of the components required to operate a fuel injection system (10a) into a throttle body (10), the throttle body (10) having a first plurality of parts associated with it, and an ignition module (40), the ignition module having a second plurality of parts associated with it, the ignition module (40) being operatively connected to the throttle body (10) for engine operation.
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9. A method for starting a rope pull start internal combustion engine having a flywheel (2), a fuel injection system, an electronic control (42) unit for operating the fuel injection system, the electronic control unit (42) having a smart choke algorithm and a run algorithm associated with it, and an ignition module (40) for detecting rotation of the flywheel (2) comprising:
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pulling the rope (3) to cause rotation of flywheel (2); generating a power signal in the ignition module (40); transferring power from the ignition module (40) to the electronic control unit (42); starting a smart choke algorithm in the electronic control unit (42); providing a throttle position indication (13) to the smart choke algorithm; providing an intake air temperature (167) indication to the smart choke algorithm; providing an engine temperature (168) indication to the smart choke algorithm; utilizing the sensor inputs to indicate a point in a look up table to determine the on time for the fuel injection system (10a); applying fuel from the fuel injection system (10a) to the engine based on the lookup table values for starting the engine prior to the completion of the loading of the run algorithm; and completing the run algorithm loading and transferring the fuel injection system operation from the smart choke algorithm to the run algorithm.
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10. A method for starting a rope pull start internal combustion engine having a flywheel (2), a fuel injection system (10a), an electronic control unit (42) for operating the fuel injection system (10a), the electronic control (42) unit having a smart choke algorithm and a run algorithm and an ignition module (40) for detecting rotation of the flywheel (2) comprising;
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detecting a first generated electrical pulse; applying a smart choke algorithm to determine the application of fuel from the fuel injection system (10a) to the engine when the electronic control unit (42) response time from first generated pulse to first required fuel output is less than the time required for the electronic control unit to load the run algorithm.
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11. A method of regulating fuel delivery in a fuel system (18) for operating an internal combustion engine, by changing fuel quantity available to the engine for maximizing engine efficiency at any rpm, load and throttle position, the engine including an engine block (12), at least one cylinder (15) associated with the engine, at least one piston (11) mounted for movement within the cylinder (15), a shaft (7) driven by the at least one piston (11) a flywheel (2) mounted to the shaft (7), a throttle body (10) having an electronic control unit (42) associated with it, and an ignition module (40), the ignition module being operatively arranged to detect rotation of the fly wheel (2) and being electrically connected to the electronic control unit (42), comprising the steps of:
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(a) running the engine; (b) selecting a number of revolutions to average; (c) establishing a first and second rpm value; (d) selecting a rpm deviation range; (e) determining the difference between first and second rpm values; (f) determining if the difference between first and second rpm values is greater than preset deviation range and if so proceeding with adjusting the fuel injection quantity; (g) adjusting fuel quantity by one of a increment or decrement amount; (h) starting a hunting loop; (i) observing whether the last operation conducted on the fuel regulating valve was an increment or a decrement for fuel flow through the valve; (j) incrementing fuel flow if the rpm is higher and the last operation was an increment; (k) decrementing fuel flow if rpm is higher and the last operation was a decrement; (l) incrementing fuel flow if the rpm is lower and the last operation was a decrement; (m) decrementing fuel flow if the rpm is lower and the last operation was an increment; (n) returning to rpm difference determination step; and (o) continuing the use of rpm as a control to operate the internal combustion engine at all normal operating conditions of the internal combustion engine and to control engine operation during the entire time of that operation.
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12. A method of determining cycle recognition in an internal combustion engine, the engine including an engine block (12), at least one cylinder (15) associated with the engine, at least one piston (11) mounted for movement within the cylinder (15), a shaft (7) driven by the at least one piston (11), a flywheel (2) mounted to the shaft (7), a throttle body (10) having an electronic control unit (42) associated with it, and an ignition module (40), the ignition module being operatively arranged to detect rotation of the fly wheel (2) and being electrically connected to the electronic control unit (42), comprising the steps of:
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13. A fuel system for a small internal combustion engine’
- comprising;
a crankcase powered fuel pump (84b) having an input side and an out put side; a pair of check valves (85a, 85b) operatively connected to the output side of the fuel pump; a purger bulb (8) positioned in the fuel system in relation to the fuel pump so as to require only one additional check valve (63) to direct fuel properly in the fuel system; and said one additional check valve (63) being operatively connected to the purger bulb (8).
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14. A fuel system for a small internal combustion engine (1) having an engine block (12) at least one combustion chamber (14) associated with the engine block (12), at least one piston (11) mounted for movement in the chamber (14), a shaft (7) driven by said at least one piston (11), the engine (1) having a crankcase enclosing the shaft, whereby movement of the piston (11) causes varying pressure pulsations in the crankcase, comprising:
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an injector (45) adapted to provide fuel to the combustion chamber (14); and a crankcase pulsation powered pump (84b) for supplying fuel to said fuel injector (45).
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15. A fuel system for a internal combustion engine having an engine block (12), at least one cylinder (15) associated with the engine, at least one piston (11) mounted for movement within the cylinder (15), a shaft (7) driven by the at least one piston (11), a flywheel (2) mounted to the shaft (7), including the integration of the components required to operate the fuel system into two groups, which comprises:
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a throttle body (10), the throttle body having a first plurality of parts associated with it; and an ignition module (40), the ignition module having a second plurality of parts associated with it, the ignition module being operatively connected to the throttle body for engine operation.
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16. An internal combustion engine, comprising:
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a flywheel (2) comprising a magnet attached thereto; an ignition module (40) mounted adjacent the flywheel (2), the ignition module (40) comprising a first leg (121a) and a second leg (121b) wherein a power generation coil assembly (129) is mounted on the first leg (121a) and a transformer assembly (123) is mounted on the second leg (121b); a battery (268) connected to the power generation coil assembly (129); and an electrical load (270) connected to the battery (268).
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Specification
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Current AssigneeR&C Products Pty Limited
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Original AssigneeR&C Products Pty Limited
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InventorsHajji, Mazen J., Bellistri, James T., Brower, David R., Mavinahally, Nagesh S.
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current701/103
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CPC Class CodesF02B 75/34 Ultra-small engines, e.g. f...F02D 11/10 of the electric typeF02D 2009/0232 Fuel pump rack positionF02D 2400/06 Small engines with electron...F02D 2400/18 Packaging of the electronic...F02D 31/007 controlling fuel supplyF02D 41/009 using means for generating ...F02D 41/062 for starting F02D41/061 tak...F02D 41/3005 Details not otherwise provi...F02M 49/00 Fuel-injection apparatus in...F02M 51/0635 having a plate-shaped or un...F02M 55/007 Venting meansF02M 61/14 Arrangements of injectors w...F02M 69/02 Pumps peculiar thereto elas...F02M 69/044 for injecting into the inta...F02M 69/462 Arrangement of fuel conduit...F02M 69/54 Arrangement of fuel pressur...F02N 3/02 having pull-cordsY02T 10/12 Improving ICE efficiencies
