Multiple compressor system and method for locomotives
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B61C-003/00
B61C-017/00
F02D-023/00
F02D-029/02
F02D-041/00
F02D-041/04
출원번호
US-0093949
(2011-04-26)
등록번호
US-9302682
(2016-04-05)
발명자
/ 주소
Graab, Donald Dietrich
Backus, Bruce Edward
출원인 / 주소
NORFOLK SOUTHERN CORPORATION
대리인 / 주소
Goodwin Procter LLP
인용정보
피인용 횟수 :
2인용 특허 :
10
초록▼
A system and method for maintaining a supply of compressed air on a locomotive. In one embodiment of the invention a compressed air system for a railroad locomotive comprises: a first air compressor; a second air compressor; a layover heater for maintaining the temperature of engine coolant; and a c
A system and method for maintaining a supply of compressed air on a locomotive. In one embodiment of the invention a compressed air system for a railroad locomotive comprises: a first air compressor; a second air compressor; a layover heater for maintaining the temperature of engine coolant; and a control system, wherein the first air compressor, the second air compressor, the layover heater, and the control package can be powered by at least one of the following power sources: an onboard electrical power source; or an offboard power source, wherein the layover heater can utilize heat generated by the first air compressor and the second air compressor to maintain the temperature of engine coolant, and wherein the control system operating the compressed air system utilizes a first logic when the power source is the onboard electrical power source and a second logic when the power source is the off board power source.
대표청구항▼
1. A compressed air system for a railroad locomotive comprising: a first air compressor;a second air compressor;a layover heater for maintaining a temperature of an engine coolant; anda control system, said control system operatively connected to said first air compressor, said second air compressor
1. A compressed air system for a railroad locomotive comprising: a first air compressor;a second air compressor;a layover heater for maintaining a temperature of an engine coolant; anda control system, said control system operatively connected to said first air compressor, said second air compressor, and said layover heater, wherein said control system controls said layover heater and said first and second air compressors by:monitoring demand for electrical power by said first air compressor, said second air compressor, and said layover heater; andprioritizing and allocating electrical power to said first air compressor, said second air compressor, and said layover heater to maintain a desired level of compressed air and a desired coolant temperature; andwherein said control system operating the compressed air system (a) utilizes a first control logic when the first air compressor, the second air compressor, and the layover heater are powered by an onboard electrical power source, and(b) utilizes a second control logic different from the first control logic when the first air compressor, the second air compressor, and the layover heater are powered by an offboard electrical power source;further comprising a heat exchanger, wherein the control system controls heat generated by at least one of the first air compressor and the second air compressor to maintain the temperature of the engine coolant. 2. The compressed air system of claim 1, wherein the first air compressor, the second air compressor, the layover heater, and the control system is powered by at least one of the following power sources: the onboard electrical power source;or an offboard power source. 3. The compressed air system of claim 2, wherein the offboard power source comprises alternating current supplied from a power grid. 4. The compressed air system of claim 1, wherein the control system is configured to monitor a current air pressure of the compressed air system and energize either the first air compressor, the second air compressor, or both the first air compressor and second air compressor simultaneously. 5. The compressed air system of claim 4, wherein the first air compressor and the second air compressor are configured to run in an unloaded state. 6. The compressed air system of claim 1, wherein the second logic is configured to maintain the engine coolant temperature by one of the following: the layover heater;the heat exchanger; or combination of the layover heater and the heat exchanger. 7. A method of operating a compressed air system for a locomotive, said compressed air system comprising an engine, a first air compressor, a second air compressor, a layover heater, and a control system, comprising: determining that the engine is not shutdown;energizing the first air compressor to provide air pressure to the compressed air system; andmonitoring air pressure within the compressed air system; andcontrolling said layover heater and said first and second air compressors by:monitoring demand for electric power by said first air compressor and said layover heater; andprioritizing and allocating electric power to said first air compressor and said layover heater to maintain a desired level of compressed air and a desired coolant temperature; andwherein said first and second air compressors are controlled based on: (a) a first control logic when the first air compressor, the second air compressor, and the layover heater are powered by an onboard electrical power source, and(b) a second control logic different from the first control logic when the first air compressor, the second air compressor, and the layover heater are powered by an offboard electrical power source;monitoring a temperature of an engine coolant; andmaintaining the temperature of the engine coolant based on said monitoring step,wherein said maintaining step comprises:using a heat exchanger to provide cooling for an oil supply used by at least one of the first air compressor and the second air compressor; andcontrolling the heat exchanger to provide heating for the engine coolant. 8. The method of claim 7, further comprising: energizing the second air compressor if the monitored air pressure drops below a predetermined level, such that both the first air compressor and the second air compressor are simultaneously energized; andcontrolling said layover heater in coordination with said energizing of said first and second air compressors. 9. The method of claim 7, further comprising: running the first air compressor in an unloaded condition if the monitored air pressure is above a predetermined level. 10. A method of operating a compressed air system for a locomotive, said compressed air system comprising an engine, a first air compressor, a second air compressor, a layover heater, a heat exchanger, a source of shore power, and a control system, comprising: determining that the engine is shutdown;connecting the source of shore power to the compressed air system;monitoring air pressure within the compressed air system;determining a demand for air pressure; andenergizing the first air compressor to provide air pressure to the compressed air system if said determining step requires air pressure to satisfy demand; andcontrolling said layover heater and said first and second air compressors by: monitoring demand for electric power by said first air compressor and said layover heater; andprioritizing and allocating electric power to said first air compressor and said layover heater to maintain a desired level of compressed air and a desired coolant temperature; andwherein said first and second air compressors are controlled based on:(a) a first control logic when the first air compressor, the second air compressor, and the layover heater are powered by an onboard electrical power source, and(b) a second control logic different from the first control logic when the first air compressor, the second air compressor, and the layover heater are powered by an offboard electrical power source;monitoring a temperature of an engine coolant; andmaintaining the temperature of the engine coolant based on said monitoring step,wherein said maintaining step comprises:using a heat exchanger to provide cooling for an oil supply used by at least one of the first air compressor and the second air compressor; andcontrolling the heat exchanger to provide heating for the engine coolant. 11. The method of claim 10, further comprising: energizing the second air compressor if the monitored air pressure drops below a predetermined level, such that both the first air compressor and the second air compressor are simultaneously energized; andcontrolling said layover heater based on said energizing of said first and second air compressors. 12. The method of claim 10, further comprising: running at least one of the first air compressor or the second air compressor in an unloaded condition if the monitored air pressure is above a predetermined level. 13. The method of claim 10, wherein said maintaining step comprises: using the layover heater to provide heating for the engine coolant. 14. The method of claim 13, wherein the layover heater is powered by the source of shore power.
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이 특허에 인용된 특허 (10)
Rusconi David M. (P.O. Box 2846 Redwood City CA 94064), Apparatus and method for cold weather protection of large diesel engines.
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