Electronic tractor control
First Claim
1. A unified control system in combination with a tractor having a cab, an engine, and a plurality of controlled subsystems including a rear-mounted implement hitch;
- said unified control system includinga principal control unit having a principal microprocessor associated with the cab of said tractorfirst and second subservient control units each having operating condition sensors and a subservient microprocessor, said first subservient control unit being associated with the engine of said tractor, and said second subservient control unit being associated with the rear-mounted implement hitch of said tractor, and each of said control units controlling at least one associated subsystem in response to sensed operating conditions;
communication link means connecting said control units to each other and capable of transmitting data descriptive of said sensed operating conditions from the subservient control units to said principal control unit;
data requesting means associated with one of said subservient control units for requesting from said principal control unit data descriptive of an operating condition of a subsystem associated with the other of said subservient control units; and
operating means associated with said one subservient control unit for generating control signals to an associated subsystem in response to said requested data.
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0 Petitions
Accused Products
Abstract
A method and apparatus for controlling a plurality of subsystems (66, 70) associated with an agricultural vehicle such as a tractor. Examples of such subsystems in a tractor are hitch positioning, power take off (PTO), multiple range transmissions, differential lock, diesel fuel injection, and the like.
A unified control system is provided including a central control unit having a first microprocessor (56) and a plurality of subservient control units each having a microprocessor (58, 60). Each of the subservient control unit microprocessors (58, 60) are connected for controlling at least one subsystem (66, 70) and for sensing the operating conditions of at least a single subsystem (66, 70) using sensors (68, 72). The subservient control unit microprocessors (58, 60) are also connected to the central control unit microprocessor (56) which controls communication between the subservient control unit microprocessors (58, 60). Various control criteria, including desired relationships among various subsets of the conditions, are stored in memories associated with the microprocessors. The microprocessors cycle through a series of subroutines in which various subsets of conditions are compared with the target, or desired relationships. Control signals are generated by the microprocessors for controlling the individual subsystems to bring the conditions thereof to the targeted relationships. Such relationships include, but are not limited to engine advance characteristics as a function of engine RPM and torque, transmission shift points, criteria for overriding a draft control for hitch positioning, and the like.
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Citations
9 Claims
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1. A unified control system in combination with a tractor having a cab, an engine, and a plurality of controlled subsystems including a rear-mounted implement hitch;
- said unified control system including
a principal control unit having a principal microprocessor associated with the cab of said tractor first and second subservient control units each having operating condition sensors and a subservient microprocessor, said first subservient control unit being associated with the engine of said tractor, and said second subservient control unit being associated with the rear-mounted implement hitch of said tractor, and each of said control units controlling at least one associated subsystem in response to sensed operating conditions; communication link means connecting said control units to each other and capable of transmitting data descriptive of said sensed operating conditions from the subservient control units to said principal control unit; data requesting means associated with one of said subservient control units for requesting from said principal control unit data descriptive of an operating condition of a subsystem associated with the other of said subservient control units; and operating means associated with said one subservient control unit for generating control signals to an associated subsystem in response to said requested data. - View Dependent Claims (2, 3)
- said unified control system including
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4. A method of providing unified control of an agricultural tractor having a plurality of sensors including position and draft sensors, and a plurality of controlled subsystems including an implement hitch, said tractor also being provided with means for establishing draft and intermix control signals, said method comprising the steps of:
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(a) providing a central control unit having a microprocessor, a plurality of subservient control units each having a microprocessor, and storage means associated with at least one of said microprocessors; (b) programmably selecting from data representing a plurality of target operating relationships among data representing subsets of operator designated tractor conditions and actual operating tractor conditions, and decision parameters for selection of control actions, stored in a storage means; (c) determining which of said subservient control units senses a needed subset of said operating tractor conditions data; (d) transmitting a request from the central control unit for said operating condition data to the determined microprocessor, (e) returning the requested data to said central control unit microprocessor, said returning step comprising the step of converting draft and position signals to digital form and of converting depth control and intermix control signals to digital form; (f) providing said data to a subservient microprocessor for comparison with said selected target operating relationship or decision parameters; (g) comparing said data with said selected target operating relationship or decision parameters, said comparing step comprising the steps of comparing said draft and position signals with said depth control signal in digital form, and multiplying the differences therebetween by a mixing ratio derived from the intermix control signal to provide an output control signal; (h) obtaining results of the comparison; (i) actuating, if necessary, at least one of said plurality of controlled subsystems in response to the results of said comparing step; (j) selecting a further one of said stored target operating relationships or decision parameters; and (k) programmably repeating step c-j, thereby controlling each of said plurality of controlled subsystems. - View Dependent Claims (5, 6, 7, 8)
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9. A method of providing unified control of an agricultural vehicle of the type having an engine provided with an exhaust and a transmission, said vehicle further having a plurality of controlled subsystems, comprising the steps of:
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(a) providing a central control unit having a microprocessor, a plurality of subservient control units each having a microprocessor, and a storage means associated with at least one of said microprocessors; (b) programmably selecting from data representing a plurality of target operating relationships among data representing subsets of operator designated vehicle conditions and actual operating vehicle conditions, and decision parameters for selection of control actions, stored in a storage means; (c) determining which of said subservient control units senses a needed subset of said operating vehicle conditions data; (d) transmitting a request from the central control unit for said operating condition data to the determined microprocessor; (e) returning the requested data to said central control unit microprocessor; (f) providing said data to a subservient microprocessor for comparison with said selected target operating relationship or decision parameter; (g) comparing with data with selected target operating relations or decision parameters, said comparing step comprising the step of comparing exhaust temperature data with a particular range therefore in response to detection of a drop in engine rpm; (h) obtaining results of the comparison; (i) actuating, if necessary, at least one of said plurality of controlled subsystems in response to the results of said comparing step, said actuating step comprising the step of either downshifting a transmission of said vehicle if the comparing step indicates the exhaust temperature is higher than the particular range, or of providing additional fuel to the engine if the comparing step indicates the exhaust temperature is within the particular range; (j) selecting a further one of said stored target operating relationships or decision parameters; and (k) programmably repeating steps c-j, thereby controlling each of said plurality of controlled subsystems.
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Specification