A generator set for a transport refrigeration unit that is operable at a first frequency and a second frequency. The generator set includes a generator and a prime mover. The generator set is controlled by an electronic control unit (ECU) that is coupled to a controller. The ECU is configured to mon
A generator set for a transport refrigeration unit that is operable at a first frequency and a second frequency. The generator set includes a generator and a prime mover. The generator set is controlled by an electronic control unit (ECU) that is coupled to a controller. The ECU is configured to monitor the engine operation condition to obtain an engine operation condition value; whereas the controller is configured to receive the engine operation condition value and compare the value with an engine operation condition threshold. When the engine operation condition value, for example, exceeds the engine operation condition threshold, the controller instructs the ECU to operate the engine at a first speed; and when the engine operation condition value, for example, is below the engine operation condition threshold, the controller instructs the ECU to operate the engine at a second speed that is slower than the first speed.
대표청구항▼
1. A method of operating a prime mover of a generator set comprising: an electronic control unit of the prime mover obtaining an engine operation condition value of the prime mover;the electronic control unit transmitting the engine operation condition value of the prime mover to a controller;the co
1. A method of operating a prime mover of a generator set comprising: an electronic control unit of the prime mover obtaining an engine operation condition value of the prime mover;the electronic control unit transmitting the engine operation condition value of the prime mover to a controller;the controller comparing the engine operation condition value of the prime mover with an engine operation condition threshold;the controller instructing the electronic control unit of the prime mover to operate the prime mover at a first operating speed when the engine operation condition value of the prime mover exceeds the engine operation condition threshold; andthe controller instructing the electronic control unit of the prime mover to operate the prime mover at a second operating speed that is lower than the first operating speed when the engine operation condition value of the prime mover is less than the engine operation condition threshold. 2. The method of claim 1, wherein the engine operation condition value of the prime mover is at least one of an amount of fuel delivered to the engine, an air intake flow, or a shaft speed of the engine. 3. The method of claim 1, wherein the engine operation condition value of the prime mover is an engine load of the prime mover. 4. A generator set comprising: an engine with an electronic control unit; anda controller;wherein the electronic control unit is configured to provide an engine operation condition value, and the controller is configured to generate an engine operation instruction based on the engine operation condition value; andwherein when the engine operation condition value exceeds an engine operation condition threshold, the controller is configured to instruct the electronic control unit to operate the engine at a first speed, andwhen the engine operation condition value is less than the engine operation condition threshold, the controller is configured to instruct the electronic control unit to operate the engine at a second speed that is lower than the first speed. 5. The generator set of claim 4, wherein the engine operation condition value of the engine is at least one of an amount of fuel delivered to the engine, an air intake flow, or a shaft speed of the engine. 6. The generator set of claim 4, wherein the engine operation condition value of the engine is an engine load of the engine. 7. A method of operating a prime mover of a generator set comprising: an electronic control unit of the prime mover obtaining an engine operation condition value of the prime mover;the electronic control unit transmitting the engine operation condition value of the prime mover to a controller;the controller comparing the engine operation condition value of the prime mover with an upshift engine operation condition threshold;the controller instructing the electronic control unit of the prime mover to operate the prime mover at a first operating speed when the engine operation condition value of the prime mover exceeds the upshift engine operation condition threshold;the controller comparing the engine operation condition value of the prime mover with a downshift engine operation condition threshold; andthe controller instructing the electronic control unit of the prime mover to operate the prime mover at a second operating speed that is lower than the first speed when the operation condition value of the prime mover is less than the downshift engine operation condition threshold. 8. The method of claim 7, further comprising: maintaining the prime mover at the first operating speed when the engine operation condition value of the prime mover is lower than the upshift engine operation condition threshold. 9. The method of claim 7, further comprising: maintaining the prime mover at the second operating speed when the engine operation condition value of the prime mover is higher than the upshift engine operation condition threshold. 10. The method of claim 7, wherein the engine operation condition value of the prime mover is an engine load of the prime mover. 11. The method of claim 7, wherein the engine operation condition value of the prime mover is at least one of an amount of fuel delivered to the engine, an air intake flow, or a shaft speed of the engine. 12. The method of claim 1, further comprising: the controller instructing the electronic control unit of the prime mover to change the operating speed of the prime mover from the first operating speed to the second operating speed when the controller determines that the engine operation condition value of the prime mover is below the engine operation condition value for a first minimum time period. 13. The method of claim 1, further comprising: the controller instructing the electronic control unit of the prime mover to change the operating speed of the prime mover from the second operating speed to the first operating speed when the controller determines that the engine operation condition value of the prime mover is above the engine operation condition value for a second minimum time period. 14. The method of claim 1, wherein the engine operation condition threshold is a first value when the prime mover is operating at the first operating speed and is a second value when the prime mover is operating at the second operating speed. 15. The generator set of claim 4, further comprising: a generator;wherein the electronic control unit is configured to control operation of the engine and configured to monitor and obtain the engine operation condition, andwherein the controller is configured to communicate with the electronic control unit, monitor an operation status of the generator, and configured to monitor and control operation of the generator set. 16. The generator set of claim 4, wherein the electronic control unit includes a processor and is configured to send the engine operation condition value of the prime mover to the controller, and wherein the controller includes a processor and is configured to compare the engine operation condition value of the prime mover with the engine operation condition threshold to generate the engine operation instruction. 17. The generator set of claim 4, wherein the engine operation condition threshold is a first value when the prime mover is operating at the first operating speed and is a second value when the prime mover is operating at the second operating speed. 18. The generator set of claim 4, further comprising a controller panel that includes: the controller,a memory unit connected to the controller,a timer incorporated into the controller, andan operator interface connected to the controller. 19. The method of claim 7, wherein the upshift engine operation condition threshold is a first percentage full rated engine output torque, and the downshift engine operation condition threshold is a second percentage full rated engine output torque, wherein the first percentage full rated engine output torque is greater than the second percentage full rated engine output torque. 20. The method of claim 7, further comprising: the controller calculating an engine load of the prime mover based on the engine operation condition value of the prime mover.
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이 특허에 인용된 특허 (18)
Yamaki Yasuhito (Tokyo JA) Aiage Kunio (Gyoda JA), Automatic control system for a gasoline-powered combustion engine.
Brendel Thomas Edward ; Reason John Robert ; Morse Douglas Herbert ; Lane L. Thomas ; Rusert Mead Robert, Integrated electronic refrigerant management system.
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