CONTROL SYSTEM AND METHOD FOR OPERATING AN AGRICULTURAL MACHINE AS WELL AS AN AGRICULTURAL MACHINE

Abstract

A control system for an agricultural machine for performing agricultural work processes includes a location determination module and a machine management system.) The work processes are plannably retrievable by means of a planning system from a memory of the machine management system. In the control system, operational speeds are defined allowing for machine-specific and environment-specific load limits.

Claims

1. A control system of an agricultural machine, comprising: a location determination module, a machine management system for controlling, regulating and/or parameterizing working implements attached to the machine, wherein control, regulation and/or parameter settings configured by means of a planning system can be transmitted to the machine management system, wherein load limits, in particular, operational-speed-dependent load limits, of at least one working implement are stored in the planning system and/or in the memory of the machine management system and/or can be retrieved therefrom and the operational speed of the agricultural machine can be controlled, regulated and/or parameterized in such a manner that these load limits are not exceeded, and preferably are not permanently exceeded.

2. The control system according to claim 1, wherein a maximum operational speed, a minimum operational speed and/or an operational speed range is configured by the machine management system and/or the planning system as a function of the load limits.

3. The control system according to claim 1, wherein the operational speed range is configured in such a manner that the at least one working implement can be controlled and/or regulated within said range by the machine management system in such a manner that load limits are not exceeded.

4. The control system according to claim 1, wherein the working implements perform movements brought about by motorized actuators which can be controlled, regulated and/or parameterized by the machine management system, wherein the motorized actuators are controlled without feedback and/or the motorized actuators are regulated, in particular, depending on feedback from movements of the actuators and/or of the working implements, which are detected by sensors, and/or comprises parameterization of a setpoint of the work processes to be performed by the agricultural machine.

5. The control system according to claim 1, wherein the planning system is computer-assisted and is designed to generate relevant control, regulation and/or parameterization commands based on setpoints of an agricultural work process.

6. The control system according to claim 1, wherein the load limits are defined by machine-specific load limits, preferably by mechanical loads, by thermal loads, by power ratings, by centrifugal forces, and/or gradient limits.

7. The control system according to claim 1, wherein the load limits are defined by environment-specific load limits, preferably by distance limits, drift limits, geographic data, soil conditions, climatic conditions and/or spectral properties.

8. The control system according to claim 1, the load limits are defined by a combination of machine-specific load limits and environment-specific load limits.

9. The control system according to claim 1, wherein the load limits are stored as fixed nominal values in the machine management system and/or in the planning system, and/or that the load limits can be transmitted to the machine management system and/or the planning system from a database, and/or that the load limits are generated computer-assisted by means of the machine management system and/or the planning system.

10. The control system according to claim 1, wherein a minimum time of the load limits is defined, as a result of which short-term violations of the load limits have no effect on the agricultural machine and/or the work processes performed by the agricultural machine, wherein the minimum time is at least 0.1 second or at least 1 second or at least 5 seconds.

11. The control system according to claim 1, wherein the load limits are defined by a limit range, as a result of which loads within this limit range have no effect on the agricultural machine and/or the work processes performed by the agricultural machine.

12. The control system according to claim 1, wherein the agricultural machine is preferably a spreader and/or soil cultivation machine, wherein the working implement comprises: a spreader boom with spreader nozzles attached thereto, and/or a coulter bar with coulters attached thereto, and/or a frame construction with soil cultivation tools attached thereto.

13. A method for operating an agricultural machine, comprising: providing a location determination module, providing an agricultural machine with a machine management system for controlling, regulating and/or parameterizing working implements attached to the machine, planning of control, regulation and/or parameter settings and transmission of the control, regulation and/or parameter settings to the machine management system, defining and/or generating location-specific load limits, evaluating the planned location-specific work processes and evaluating maximum possible load limits, defining an operational speed of the agricultural machine in such a manner that load limits are not exceeded.

14. The method according to claim 13, wherein a maximum operational speed, a minimum operational speed and/or an operational speed range is configured by means of the machine management system and/or the planning system as a function of the load limits, wherein the operational speed range is configured in such a manner that the at least one working implement can be controlled, regulated and/or parameterized within said range by means of the machine management system in such a manner that load limits are not exceeded.

15. An agricultural machine, comprising: a control system according to claim 1, wherein the machine is an autonomous agricultural machine, preferably an autonomous soil cultivation and/or spreader machine.

16. A control system of an agricultural machine having at least one working implement attached thereto, the control system comprising: a location determination module, a planning system, a machine management system for controlling the at least one working implement using control settings configured by the planning system and transmitted to the machine management system, wherein operational-speed-dependent load limits, of the at least one working implement, are stored in the planning system or in a memory of the machine management system and are retrievable therefrom and the operational speed of the agricultural machine can be controlled in such a manner that the load limits are not exceeded.

17. The control system according to claim 16, wherein a maximum operational speed, a minimum operational speed and/or an operational speed range is configured by the planning system as a function of the load limits.

18. The control system according to claim 17, wherein the operational speed range is configured in such a manner that the at least one working implement can be controlled within said range by the machine management system in such a manner that load limits are not exceeded.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0065] The drawings show:

[0066] FIG. 1 a lateral view of a variant of the embodiment of an agricultural machine,

[0067] FIG. 2 a schematic top view of agricultural land across which an agricultural machine is moved,

[0068] FIG. 3 an exemplary process sequence of a method according to the invention for operating an agricultural machine.

DETAILED DESCRIPTION

[0069] The embodiments shown in FIGS. 1 to 3 coincide at least in part such that similar or identical parts are provided with the same reference numbers and, for the explanation thereof, reference is also made to the description of the other embodiments and figures in order to avoid repetition. The embodiments illustrated merely represent examples of how the inventive control system, the inventive method and the inventive agricultural machine may be designed and executed and do not represent any conclusive limitation.

[0070] The lateral view of FIG. 1 shows a variant of the embodiment of an agricultural machine 10. The agricultural machine 10 is designed as an autonomous agricultural machine 10 in the form of a self-propelled autonomous spreader machine (field sprayer).

[0071] The field sprayer is used for carrying out agricultural work processes, expediently in particular for spreading in particular liquid media, e.g. fertilizers, crop protection agents or the like over agricultural land by means of a working implement 12 in the form of a spreader boom (sprayer boom) with spreader elements attached thereto (e.g. spreader nozzles or spraying nozzles).

[0072] It is possible that the agricultural machine 10 is not designed to be self-propelling but, for example, may be moved, preferably pulled, by a driven towing vehicle, e.g. a tractor. It is also possible that the agricultural machine 10 alternatively or additionally comprises soil cultivation tools and/or coulters as working implement 12.

[0073] For example, the machine 10 may alternatively be designed as a fertilizer spreader or a seeder. According to an alternative variant of the embodiment, the machine 10 may also be a machine for soil cultivation and/or sowing and, for example, comprise a working implement 12 for soil cultivation and/or sowing of agricultural seed, fertilizer or the like. The machine 10 may also be an autonomous carrier vehicle to which in turn soil cultivation tools, coulters or spreader boom (e.g. sprayer boom) or the like may be attached. The machine 10 may also be or have a towing vehicle (e.g. tractor) suitable for agriculture. A machine for soil cultivation and/or sowing or for spreading crop protection agents may in turn be attached to the towing vehicle or may be pulled by it over arable land. The machine 10 could also be a harvesting machine such as a forage harvester or combine harvester or the like. In general, the machine 10 may thus be any machine which is suitable for agricultural use.

[0074] The machine 10 comprises a control system with a machine management system 14 by means of which the working implements 12 (e.g. spreader boom) which perform the respective work processes and are attached to the machine 10 can be controlled, regulated and/or parameterized. The working implements 12 performing movements brought about by means of motorized actuators (e.g. motor, cylinder, actuator, actuating drive or the like), which actuators can be expediently controlled, regulated and/or parameterized by means of the machine management system 14, in particular can be expediently controlled, regulated and/or parameterized location-specifically (e.g. location-dependent).

[0075] For location determination or for determining the actual location of the agricultural machine 10, said machine also comprises a location determination module 16, in particular a satellite-assisted location determination device 16 (e.g. GPS location determination device, a Galileo location determination device, a Glonass location determination device or a Beidou location determination device).

[0076] FIG. 2 shows a schematic top view of agricultural land across which an agricultural machine 10, in particular, an autonomous agricultural machine 10 according to FIG. 1, is moved.

[0077] The machine 10 is moved within a boundary 20 of the useful area, along defined and/or definable routes 22. The routes 22 may be planned or predetermined by means of a planning system. In addition, work processes of the agricultural machine 10 may be planned location-specifically by means of the planning system and/or may be retrieved from a memory of the machine management system 14.

[0078] The planning system can also be used, for example to define the position of a supply vehicle 24 for the agricultural machine 10 such that in each case the position which the machine 10 should approach in each case, for example, when its filling level has reached a defined minimum.

[0079] A restricted area 26 (e.g. lake, river, road or similar) is shown adjacent to the area of agricultural land. The restricted area 26, for example, may be such that no crop protection agents may be applied over it or up to a defined minimum distance from it. It may be achieved by means of the planning system according to the invention that the work processes are planned and/or configured in such a manner that work processes correspondingly adapted to such restricted areas are carried out by the agricultural machine 10.

[0080] The control system preferably provides that, in particular, operational-speed-dependent load limits, of at least one working implement 12 are stored in the planning system and/or in the memory of the machine management system 14 and/or can be retrieved therefrom and that an operational speed of the agricultural machine 10 is limited in such a manner that the load limits (e.g. machine-specific load limits or environment-specific load limits) are not exceeded.

[0081] FIG. 3 shows an exemplary process sequence of a method according to the invention for operating an agricultural machine 10.

[0082] In a step S1, the method comprises providing a location determination module 16.

[0083] In addition, the method in step S1 comprises provision of an agricultural machine 10 with a machine management system 14 for controlling, regulating and/or parameterizing working implements 12 attached to the agricultural machine 10.

[0084] In step S2, the method comprises planning control, regulation and/or parameter settings and transmission of the control, regulation and/or parameter settings to the machine management system 14.

[0085] In step S3, the method comprises defining and/or generating location-specific load limits as well as evaluating the planned location-dependent work processes and maximum possible load limits.

[0086] In step S4, the method also comprises defining an operational speed of the agricultural machine in such a manner that load limits are not exceeded.

[0087] In this case, it may, in particular, be provided that the step S4 comprises defining a maximum operational speed or specifying a minimum operational speed or specifying an operational speed range within which the machine may be moved without exceeding load limits.

[0088] Although the invention has been described with reference to particular embodiments, it is apparent to a person skilled in the art that various changes can be made and equivalents can be used as a substitute without departing from the scope of the invention. In addition, many modifications can be carried out without departing from the associated scope. Consequently, the invention should not be limited to the embodiments disclosed but rather should include all embodiments falling within the scope of the appended claims. In particular, the invention also claims protection for the subject matter and the features of the dependent claims regardless of the claims referred to.

LIST OF REFERENCE NUMBERS

[0089] 10 agricultural machine [0090] 12 working implement [0091] 14 machine management system [0092] 16 location determination module [0093] 20 boundary [0094] 22 route [0095] 24 supply vehicle [0096] 26 restricted area [0097] S1-S4 method steps