| Method and system to control internal combustion engine idle shut down -> Monitor Keywords |
|
|
  Method and system to control internal combustion engine idle shut downUSPTO Application #: 20070288154Title: Method and system to control internal combustion engine idle shut down Abstract: A method for controlling a compression ignition electronic control module equipped compression ignition internal combustion engine installed in a vehicle to permit engine idling to conform to requirements of a geographical location. (end of abstract)
Agent: Rader, Fishman & Grauer PLLC - Bloomfield Hills, MI, US Inventor: Dennis Michael Letang USPTO Applicaton #: 20070288154 - Class: 701112 (USPTO) The Patent Description & Claims data below is from USPTO Patent Application 20070288154. Brief Patent Description - Full Patent Description - Patent Application Claims
BACKGROUND OF THE INVENTION [0001]1. Field of the Invention [0002]The present invention relates to a method of enhanced engine idle shutdown override, wherein an engine equipped with an electronic control module (ECM) receives a signal indicating its geographic location and would conform its engine idle routines to the requirements of the particular geographical location. [0003]The present invention further relates to a method to restrict engine idle shutdown. The invention restricts extended idling only in states that do not allow extended idling but allows extended idling in states that do not restrict idling. It is contemplated that the vehicle could identify its location through means of a global positioning system and by use of a look-up table or other means, and implement the particular idling strategy permitted by the laws of that state. [0004]The present invention further relates to a method to provide for an external communication system such as a satellite tracking system to communicate to the vehicle its geographical location. Engine idling strategies could then be implemented based upon geographical location. [0005]The present invention further relates to a method to control the idle strategy of an internal combustion engine by having the driver communicate to the engine controller the vehicle geographical location. In each instance, the idling strategy would be stored in a look-up table that is conformable to the requirements of the laws of the particular state in which the vehicle is located. By identifying which state the vehicle is located, the ECM can determine whether extended idling is permitted. If the extended idling is not permitted the vehicle will shut down after reaching the maximum idling time for that state, and the idle shutdown override will not be permitted. This time limit could vary from state to state. To handle this, the ECM would, as previously stated, contain a table of maximum idle times for each state. [0006]2. Description of the Related Art [0007]Hawkins et al., U.S. Pat. No. 6,814,053 discloses an engine control system that employs a microprocessor base controller to detect engine operation in the speed range previously determined to undesirable, and responding to the detection by changing operation of the engine. In the preferred embodiment, a controller commands a parameter for adjusting engine operation to reach a different speed outside of first and second thresholds defining the undesirable range in a time period subsequent to detection. There is no disclosure of any means whereby the ECM is notified as to which geographical location of the vehicle and no indication that alternative idling strategies are contained within look-up tables for use in specified geographical locations. [0008]Thompson et al., U.S. Pat. No. 6,363,906 discloses a system and method for controlling compression ignition engines having an electronic control module with an idle shutdown feature to automatically stop the engine after idling for a period of time including determining whether the engine is being loaded and overriding the idle shutdown feature to keep the engine running when the engine is being loaded. In one embodiment, Thompson et al. '906 includes monitoring operating conditions to determine that the vehicle is stationary, monitoring the engine to determine that the engine is idling, initiating a time counter to provide an indication of idling time, determining that the engine is operating in an auxiliary power mode, determining the engine load, and automatically stopping the engine when idle time exceeds a first threshold and the engine load is less than a second threshold. Thompson et al. '906 makes it difficult for engine operators to defeat idle shutdown features by detecting current engine operation conditions to verify that the selected operating mode is consistent with the current engine operating condition. There is no showing in Thompson et al. '906 of notifying the ECM in which geographic location the vehicle is located and altering the engine idle to conform to the specific legal requirements in that particular geographic location. [0009]Thompson et al., U.S. Pat. No. 6,595,180 discloses a system and method for controlling a compression ignition engine having a electronic control module with a idle shutdown feature to automatically stop the engine after idling for a period of time including determining whether the engine has been loaded not allowing idle shutdown feature to keep the engine running when the engine is being loaded. There is no showing of notifying the ECM of its geographical location and then modifying the idle operation of the engine to conform to legal requirements of that particular geographical location. [0010]Diesel engines have a wide variety of applications including passenger vehicles, marine vessels, earth-moving and construction equipment, stationary generators, and on-highway trucks, among others. Electronic engine controllers provide a wide range of flexibility in tailoring engine performance to a particular application without significant changes to engine hardware. While diesel fuel is often less expensive, and diesel engines are more efficient than gasoline powered engines, diesel engine applications often require running the engine continuously over long periods of time. This may conflict with certain environmental regulations of various states that seek to regulate the emissions and particulates released by vehicles operating within their respective borders. In addition, it is a challenge that various states have differing regulations requiring the operator of a vehicle having a regulated engine to adapt to a variety of emission standard, based upon the geographical location of the vehicle at any given time. [0011]In many diesel engine applications, the engine operator does not own the engine, does not understand the environmental regulations in a given geographical location, does not and cannot vary the operation of the engine and does not pay for the fuel, or engine maintenance. However, the operators may pay for the fines associated with the operation of the engine. In addition, the operator often seeks maximum power and ease of operation whereas the owner strives to achieve maximum fuel economy and compliance with statutory regulations of which the operator is oftentimes unaware. To further control, engine operation and fuel efficiency, manufacturers have developed and implemented various electronic engine control features which attempt to control engine operation and optimize fuel economy while maintaining acceptable (although often not maximum) power for the particular application and operating conditions. Furthermore, features have been provided which allow the engine owner to impose operational limits on the engine as well as the engine operator to promote safety, fuel economy and compliance with emissions regulations. As such, a systems and method to control the engine idling operation to conform with environmental regulations in various geographical locations is needed to conform to regulations, improve fuel economy, operator's desire of ease of operation, and to keep the engine running in manner as permitted by regulations in various states through which the vehicle may pass. [0012]Idle shutdown is an electronic engine control feature designed to prevent unnecessary engine idling with resulting lower fuel economy and emissions to the environment. During driving situations, on-highway truck drivers often leave the engine idling for extended periods of time for various reasons, such as avoiding the difficulty in restarting the engine or keeping the vehicle warm, for example. In one implementation of an idle shutdown feature, when the engine controller determines that the vehicle is parked and the engine has been idling for some period of time, the engine controller automatically stops the engine. The idle shutdown includes an automatic override feature to prevent the engine from being automatically stopped when the engine is being used to drive auxiliary equipment in power take-off (PTO) mode. For example, the engine may be running a generator to cool a refrigerated truck, driving a pump on a fire engine, powering hydraulics for a crane or construction equipment, etc. As such, drivers may "trick" the engine controller by placing the engine in a mode, such as PTO mode, which automatically overrides the idle shutdown feature even though the engine is not actually being used to drive any auxiliary equipment. SUMMARY OF THE INVENTION [0013]The present invention addresses these concerns. The present invention is a method for operating a compression ignition internal combustion engine that will conform to the environmental regulations of various states through which the vehicle passes by conforming the idling strategies of the engine to the requirements of the state within which the vehicle is located during actual driving situations but will not interfere with the operation of the engine, for example, when it is used to power auxiliary equipment, and which will prevent an operator from operating the engine in a false PTO mode. Accordingly, the method includes a step of determining whether the engine is idling and whether the engine is located within a geographical location that restricts engine idling. The method further includes a step of determining whether the engine is loaded in a power takeoff mode. The method further includes a step of determining whether the engine idle time is greater than or equal to the allowed engine idle time within the geographical location within which the engine is operating and shutting down the engine when the engine idle time exceeds the allowed idle time. BRIEF DESCRIPTION OF THE DRAWINGS [0014]FIG. 1 is a perspective view of an internal combustion engine incorporating various features of the present invention. [0015]FIG. 2 is a block diagram illustrating a system for implementing idle shut down strategies according to the present invention. [0016]FIG. 3 is a block diagram illustrating operation of a system or method for controlling idle shut down strategies according to the present invention. DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT(S) [0017]Turning now to the drawings wherein like numbers refer to like structures, and particularly to FIG. 1, there is shown a perspective view of a compression-ignition internal combustion engine 10 incorporating various features according to the present invention. As will be appreciated by those of ordinary skill in the art, engine 10 may be used in a wide variety of applications including on-highway trucks, construction equipment, marine vessels, and stationary generators, among others. Engine 10 includes a plurality of cylinders disposed below a corresponding cover, indicated generally by reference numeral 12. In a preferred embodiment, engine 10 is a multi-cylinder compression ignition internal combustion engine, such as a 4, 6, 8, 12, 16, or 24, cylinder diesel engine, for example. Moreover, it should be noted that the present invention is not limited to a particular type of engine or fuel. [0018]Engine 10 includes an engine control module (ECM) or controller representatively indicated by reference numeral 14. ECM 14 communicates with various engine sensors and actuators via associated cabling or wires, indicated generally by reference numeral 18, to control the engine. In addition, ECM 14 communicates with the engine operator using associated lights, switches, displays, and the like as illustrated in greater detail in FIG. 2. The ECM 14 may also have the ability to communicate with Global Positioning Satellites or similar wireless forms or communication to review data useful to the operation of the engine. When mounted in a vehicle, engine 10 is coupled to a transmission via flywheel 16. As is well known by those in the art, many transmissions include a power take-off (PTO) configuration in which an auxiliary shaft may be connected to associate auxiliary equipment that is driven by the engine/transmission at a relatively constant rotational speed using the engine's variable speed governor (VSG). Auxiliary equipment may include hydraulic pumps for construction equipment, water pumps for fire engines, power generators, and any of a number of other rotationally driven accessories. Typically, the PTO mode is used only while the vehicle is stationary. However, from the description that follows, those who have ordinary skill in the art will appreciate that the present invention is independent of the particular operation mode of the engine, or whether the vehicle is stationary or moving for those applications in which the engine is used in a vehicle having a PTO mode. [0019]Referring now to FIG. 2, a block diagram illustrating a system for idle shutdown override with defeat protection according to the present invention is shown. System 30 represents the control system for engine 10 of FIG. 1. System 30 preferably includes a controller 32 in communication with various sensors 34 and actuators 36. Sensors 34 may include various position sensors such as an accelerator or brake position sensor 38. Likewise, sensor 34 may include a coolant temperature sensor 40 that provides an indication of the temperature of engine block 42. Likewise, an oil pressure sensor 44 is used to monitor engine-operating conditions by providing an appropriate signal to controller 32. Other sensors may include rotational sensors to detect the rotational speed of the engine, such as RPM sensor 88 and a vehicle speed sensor (VSS) 90 in some applications. VSS 90 provides an indication of the rotational speed of the output shaft or tail-shaft of a transmission (not shown) that may be used to calculate the vehicle speed. VSS 90 may also represent one or more wheel speed sensors that are used in anti-lock breaking system (ABS) applications, for example. [0020]Actuators 36 include various engine components that are operated via associated control signals from controller 32. As indicated in FIG. 2, various actuators 36 may also provide signal feedback to controller 32 relative to their operational state, in addition to feedback position or other signals used to control actuators 36. Actuators 36 preferably include a plurality of fuel injectors 46 which are controlled via associated solenoids 64 to deliver fuel to the corresponding cylinders. In one embodiment, controller 32 controls a fuel pump 56 to transfer fuel from a source 58 to a common rail or manifold 60. Operation of solenoids 64 controls delivery of the timing and duration of fuel injection as is well known in the art. While the representative control system of FIG. 2 with associated fueling subsystem illustrates the typical application environment of the present invention, the invention is not limited to any particular type of fuel or fueling system. Continue reading... Full patent description for Method and system to control internal combustion engine idle shut down Brief Patent Description - Full Patent Description - Patent Application Claims Click on the above for other options relating to this Method and system to control internal combustion engine idle shut down patent application. ###  How KEYWORD MONITOR works... a FREE service from FreshPatents1. Sign up (takes 30 seconds). 2. Fill in the keywords to be monitored. 3. Each week you receive an email with patent applications related to your keywords. Start now! - Receive info on patent apps like Method and system to control internal combustion engine idle shut down or other areas of interest. ### Previous Patent Application: Control apparatus and control method for internal combustion engine Next Patent Application: Guidance route search device, navigation device, and method of searching guidance route Industry Class: Data processing: vehicles, navigation, and relative location ### FreshPatents.com Support Thank you for viewing the Method and system to control internal combustion engine idle shut down patent info. IP-related news and info Results in 2.94473 seconds Other interesting Feshpatents.com categories: Software: Finance , AI , Databases , Development , Document , Navigation , Error |
||
