Power take-off for engine used in multi-function system and load management of such system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60W-010/30
B60W-030/188
B60W-010/06
F02B-067/04
B60W-050/00
출원번호
US-0182081
(2014-02-17)
등록번호
US-9346464
(2016-05-24)
발명자
/ 주소
Gilbert, Tod
Dahle, Peter Ivan
Pater, Maciej
출원인 / 주소
VMAC Global Technology Inc.
대리인 / 주소
Rattray, Todd A.
인용정보
피인용 횟수 :
0인용 특허 :
19
초록▼
An apparatus comprising an engine, a power take-off to be driven by the engine, one or more load services to be driven by the engine, a PTO modulator coupled to the power-takeoff output port and operable to selectively engage the power take-off to the engine to provide output rotational power, one o
An apparatus comprising an engine, a power take-off to be driven by the engine, one or more load services to be driven by the engine, a PTO modulator coupled to the power-takeoff output port and operable to selectively engage the power take-off to the engine to provide output rotational power, one or more load-service modulators coupled to the one or more load services and operable to selectively engage the one or more load services to the engine to provide service outputs, and a load controller configured to selectively operate the PTO modulator and the one or more load-service modulators to change the output from the power take-off or the one or more load services based on a condition of the engine and a load priority assigned to the power take-off or the one or more load services.
대표청구항▼
1. An apparatus comprising: an engine;a power take-off comprising a power take-off port operatively connected to be driven by the engine and connectable to a corresponding load service;one or more additional load services operatively connected to be driven by the engine;a PTO modulator coupled to th
1. An apparatus comprising: an engine;a power take-off comprising a power take-off port operatively connected to be driven by the engine and connectable to a corresponding load service;one or more additional load services operatively connected to be driven by the engine;a PTO modulator coupled to the power take-off and operable to modulate power drawn, from the engine, by the power take-off;one or more load-service modulators respectively coupled to the one or more additional load services, each load-service modulator operable to modulate power drawn, from the engine, by its corresponding additional load service; anda controller configured to control the PTO modulator and the one or more load-service modulators to thereby control the power drawn from the engine based on a detected condition of the engine and a priority as between the power take-off and the one or more additional load services;wherein the power take-off port is located remotely from a crankshaft of the engine in a location which provides space for operative connection of any one of a variety of accessory devices to the power take-off port, the apparatus comprising: a flywheel connected to rotate with the crankshaft; an engine pulley coupled to rotate with the flywheel; a power take-off pulley coupled, via the PTO modulator, to rotate with the power take-off port; and a belt entrained around the engine pulley and the power take-off pulley for transferring rotational energy therebetween. 2. The apparatus of claim 1 wherein the PTO modulator comprises a modulator having an ON state, wherein the power take-off is connected to draw power from the engine and an OFF state, wherein the power take-off is de-coupled from the engine so as not to draw power therefrom, and wherein at least one of the one or more load-service modulators comprises a modulator having an ON state, wherein its corresponding additional load service is connected to draw power from the engine and an OFF state, wherein its corresponding additional load service is de-coupled from the engine so as not to draw power therefrom. 3. The apparatus of claim 1 wherein the engine condition comprises an overload condition which comprises an engine speed being below a threshold level. 4. The apparatus of claim 1 comprising a user interface or one or more user-interface controls for user configuration of the priority as between the power take-off and the one or more additional load services. 5. The apparatus of claim 1 wherein the PTO modulator comprises a variable-speed modulator operative for controlling the power drawn, from the engine, by the power take-off by increasing and decreasing the power drawn, from the engine, by the power take-off. 6. An apparatus comprising: an engine;a power take-off comprising a power take-off port operatively connected to be driven by the engine and connectable to a corresponding load service;one or more additional load services operatively connected to be driven by the engine;a PTO modulator coupled to the power take-off and operable to modulate power drawn, from the engine, by the power take-off;one or more load-service modulators respectively coupled to the one or more additional load services, each load-service modulator operable to modulate power drawn, from the engine, by its corresponding additional load service; anda controller configured to control the PTO modulator and the one or more load-service modulators to thereby control the power drawn from the engine based on a detected condition of the engine and a priority as between the power take-off and the one or more additional load services;wherein the PTO modulator comprises a variable-speed modulator operative for controlling the power drawn, from the engine, by the power take-off by increasing and decreasing the power drawn, from the engine, by the power take-off. 7. The apparatus of claim 6 wherein the power take-off port is located remotely from a crankshaft of the engine in a location which provides space for operative connection of any one of a variety of accessory devices to the power take-off port, the apparatus comprising: a crankshaft pulley coupled to rotate with the crankshaft; a power take-off pulley coupled, via the PTO modulator, to rotate with the power take-off port; and a belt entrained around the crankshaft pulley and the power take-off pulley for transferring rotational energy therebetween. 8. The apparatus of claim 6 wherein at least one of the one or more load-service modulators comprises a variable-speed modulator operative for controlling the power drawn, from the engine, by its corresponding additional load service by increasing and decreasing the power drawn, from the engine, by its corresponding additional load service. 9. The apparatus of claim 6 wherein the engine condition comprises an overload condition which comprises an engine speed being below a threshold level and wherein the overload condition comprises the engine speed being below the threshold level, relative to a configurable desired engine speed, for a threshold period of time. 10. An apparatus comprising: an engine;a power take-off comprising a power take-off port operatively connected to be driven by the engine and connectable to a corresponding load service;one or more additional load services operatively connected to be driven by the engine;a PTO modulator coupled to the power take-off and operable to modulate power drawn, from the engine, by the power take-off;one or more load-service modulators respectively coupled to the one or more additional load services, each load-service modulator operable to modulate power drawn, from the engine, by its corresponding additional load service; anda controller configured to control the PTO modulator and the one or more load-service modulators to thereby control the power drawn from the engine based on a detected condition of the engine and a priority as between the power take-off and the one or more additional load services;wherein the engine condition comprises an overload condition which comprises an engine speed being below a threshold level; andwherein the overload condition comprises the engine speed being below the threshold level, relative to a configurable desired engine speed, for a threshold period of time. 11. The apparatus of claim 10 wherein the configurable desired engine speed is configurable to any one of a plurality of discrete speed modes, each speed mode comprising a corresponding target speed. 12. The apparatus of claim 11 comprising a user interface or one or more user-interface controls for user configuration of any one or more of: the plurality of discrete speed modes, the corresponding target speeds, the threshold periods of time; and the threshold levels. 13. An apparatus comprising: an engine;a power take-off comprising a power take-off port operatively connected to be driven by the engine and connectable to a corresponding load service;one or more additional load services operatively connected to be driven by the engine;a PTO modulator coupled to the power take-off and operable to modulate power drawn, from the engine, by the power take-off;one or more load-service modulators respectively coupled to the one or more additional load services, each load-service modulator operable to modulate power drawn, from the engine, by its corresponding additional load service; anda controller configured to control the PTO modulator and the one or more load-service modulators to thereby control the power drawn from the engine based on a detected condition of the engine and a priority as between the power take-off and the one or more additional load services;wherein the controller is configured to control the PTO modulator and the one or more load service modulators to thereby control the output power drawn from the engine based on the detected engine condition and the priority as between the power take-off and the one or more additional load services by reducing the power drawn from the engine by reducing a power drawn by a lowest priority one of the power take-off and the one or more additional load services and, if the engine condition is not alleviated after reducing the power drawn by the lowest priority one of the power take-off and the one or more additional load services to zero, then reducing a power drawn by a different one of the power take-off and the one or more additional load services. 14. An apparatus comprising: an engine;a power take-off comprising a power take-off port operatively connected to be driven by the engine and connectable to a corresponding load service;one or more additional load services operatively connected to be driven by the engine;a PTO modulator coupled to the power take-off and operable to modulate power drawn, from the engine, by the power take-off;one or more load-service modulators respectively coupled to the one or more additional load services, each load-service modulator operable to modulate power drawn, from the engine, by its corresponding additional load service; anda controller configured to control the PTO modulator and the one or more load-service modulators to thereby control the power drawn from the engine based on a detected condition of the engine and a priority as between the power take-off and the one or more additional load services;wherein the controller is configured to control the PTO modulator and the one or more load service modulators to thereby control the output power drawn from the engine based on the detected engine condition and the priority as between the power take-off and the one or more additional load services by reducing the power drawn from the engine by reducing a power drawn by a lowest priority one of the power take-off and the one or more additional load services by a first amount, the first amount less than a full power drawn by the lowest priority one of the power take-off and the one or more additional load services and, if the engine condition is not alleviated after reducing the power drawn by the lowest priority one of the power take-off and the one or more additional load services by the first amount, then reducing a power drawn by a different one of the power take-off and the one or more additional load services by a second amount, the second amount less than a full power drawn by the different one of the power take-off and the one or more additional load services. 15. The apparatus of claim 14 wherein the controller is configured to control the PTO modulator and the one or more load service modulators to thereby control the output power drawn from the engine based on the detected engine condition and the priority as between the power take-off and the one or more additional load services by further reducing the power drawn by the lowest priority one of the power take-off and the one or more additional load services by a third amount, if the engine condition is not alleviated after reducing the power drawn by the different one of the power take-off and the one or more additional load services by the second amount. 16. The apparatus of claim 14 wherein the controller is configured to control the PTO modulator and the one or more load service modulators to thereby control the output power drawn from the engine based on the detected engine condition and the priority as between the power take-off and the one or more additional load services by reducing a power drawn by a further different one of the power take-off and the one or more additional load services by a third amount, if the engine condition is not alleviated after reducing the power drawn by the different one of the power take-off and the one or more additional load services by the second amount. 17. An apparatus comprising: an engine;a power take-off comprising a power take-off port operatively connected to be driven by the engine and connectable to a corresponding load service;one or more additional load services operatively connected to be driven by the engine;a PTO modulator coupled to the power take-off and operable to modulate power drawn, from the engine, by the power take-off;one or more load-service modulators respectively coupled to the one or more additional load services, each load-service modulator operable to modulate power drawn, from the engine, by its corresponding additional load service; anda controller configured to control the PTO modulator and the one or more load-service modulators to thereby control the power drawn from the engine based on a detected condition of the engine and a priority as between the power take-off and the one or more additional load services;wherein the one or more additional load services comprise a generator and a compressor; wherein the priority as between the power-take off and the one or more additional load services specifies that the compressor has a relatively low priority as compared to the generator and the power take-off; and wherein the controller is configured to control the PTO modulator and the one or more load-service modulators to thereby control the power drawn from the engine based on the detected condition of the engine and the priority as between the power take-off and the one or more additional load services by disengaging the compressor. 18. A method for managing the load of an engine driving a power take-off and one or more additional load services, the method comprising: providing an engine, a power take-off comprising a power take-off port operatively connected to be driven by the engine and connectable to a corresponding load service; and one or more additional load services operatively connected to be driven by the engine;detecting a speed of the engine; andevaluating an overload condition based at least in part on the detected speed of the engine; andif the overload condition is positive, controlling the power drawn by at least one of the power take-off and the one or more additional services to control power drawn from the engine in accordance with a priority as between the power take-off and the one or more additional services;wherein evaluating the overload condition comprises determining that an engine speed is below a threshold level, relative to a configurable desired engine speed, for a threshold period of time. 19. A method according to claim 18 comprising using a moving average filter on a detected engine speed to determine the engine speed prior compared to the threshold level. 20. A method for managing the load of an engine driving a power take-off and one or more additional load services, the method comprising: providing an engine, a power take-off comprising a power take-off port operatively connected to be driven by the engine and connectable to a corresponding load service; and one or more additional load services operatively connected to be driven by the engine;detecting a speed of the engine; andevaluating an overload condition based at least in part on the detected speed of the engine; andif the overload condition is positive, controlling the power drawn by at least one of the power take-off and the one or more additional services to control power drawn from the engine in accordance with a priority as between the power take-off and the one or more additional services;wherein the one or more additional load services comprise a generator and a compressor; wherein the priority as between the power-take off and the one or more additional load services specifies that the compressor has a relatively low priority as compared to the generator and the power take-off; and wherein the method comprises controlling the power drawn by the at least one of the power take-off and the one or more additional services to control power drawn from the engine in accordance with the priority as between the power take-off and the one or more additional services by disengaging the compressor.
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