EP4453682A1 - Configuration system and method for operating an agricultural work machine, and agricultural work machine - Google Patents

Abstract

The invention relates to a configuration system (10) of an agricultural work machine (100) for carrying out agricultural work processes, comprising a control device (20), a determining device (40) and an evaluation program (50), wherein a travel speed and/or a route can be configured preferably by means of a planning system (30), so that the actual loads on the work elements (1) ascertained on the basis of actual values of the work elements (1) do not exceed load limit values or approximately correspond to said load limit values. The invention additionally relates to a method for operating an agricultural work machine (100), and to an agricultural work machine (100).

Description

Configuration system and method for operating an agricultural working machine and agricultural working machine

DESCRIPTION

The invention relates to a configuration system for an agricultural working machine. The invention also relates to a method for configuring an agricultural working machine with a configuration system. In addition, the invention relates to an agricultural working machine, preferably an autonomous agricultural working machine.

Agricultural working machines are used to carry out agricultural work processes. A wide variety of working elements can be attached to the working machines for this purpose, which working elements can preferably be configured by means of a control device.

In addition, semi-autonomous or fully autonomous agricultural machines and vehicles are increasingly being used in agricultural engineering. Such a vehicle was registered, for example, in German patent application no. 10 2018 108024.

In order to achieve optimal process results using the working machines, it is usually customary to plan work processes in advance using a planning system, i.e. to define in advance, preferably site-specifically, which movements the work elements carrying out the work processes should carry out.

EP 1 847 897 B1 discloses a method for controlling an agricultural machine system, in which a route for the machine system is created by means of a planning system, the route comprising useful lanes and wherein the useful lanes are each assigned work step sequences which are processed depending on the position, so that when it is reached a defined work process can be carried out in a defined position.

EP 1602 267 A2 describes an agricultural working machine, with the working machine being assigned a working element and a route planning system for generating routes or useful lanes on an agricultural area, and with the route planning system being designed for dynamic adjustment of routes. where the dynamic adjustment based on optimization criteria such as the shortest route / processing time or a small proportion of unproductive auxiliary times.

Agricultural working machines are thus known from the prior art in which optimized travel routes are generated by means of planning systems such as route planning systems .

It is therefore the object of the invention to provide an agricultural working machine with which disadvantages of conventional techniques can be avoided. The object of the invention is preferably to provide a configuration system for an agricultural working machine in which driving speeds and/or lanes can be configured based on actual values of the working elements and/or actual loads, taking into account predefined load limit values.

This object is achieved by a configuration system having the features of independent claim 1, by a method having the features of method claim 8, and by an agricultural working machine having the features of independent claim 9. Advantageous embodiments and developments of the invention are in the dependent claims and of the following description with partial reference to the figures.

The invention relates to a configuration system for an agricultural working machine.

According to the invention, the configuration system comprises a control device which is formed for configuring working elements attached to the working machine, preferably based on actual values of the working elements, taking into account predefined load limit values, preferably load limit values dependent on driving speed.

The configuration system also includes a determination device that is set up to determine actual values of the working elements that are dependent on the operation.

The configuration system also includes an evaluation program which is set up to define respective actual loads on the work elements based on the actual values of the work elements. The configuration system also includes a planning system, through which the driving speed and/or a lane can be configured in such a way that the actual loads on the working elements do not exceed the load limit values or approximately correspond to them.

As a result of the measures according to the invention, a configuration system is created in which the driving speed and/or the lane of the agricultural working machine can be configured in such a way that the actual loads on the working elements do not exceed the load limit values and/or approximately correspond to them.

According to the invention, it is provided that the configuration includes controlling and/or regulating and/or parameterizing.

According to a further aspect of the invention, it is possible for the load limit values, which are preferably dependent on the driving speed, of at least one working element to be stored in a memory, preferably in the planning system, and/or to be able to be called up by it. It can thus be expediently achieved that load limit values are not exceeded.

To determine and define the respective location of the agricultural working machine, the configuration system can include a location determination module, preferably be connected to such a module. The location determination module can be satellite-based and, for example, a GPS location determination device, a Galileo location determination device, a Glonass location determination device or a BeiDou location determination device.

According to a further aspect of the invention, it is possible for the actual values of the working elements to preferably include a driving speed, drive speeds, mechanical loads and/or thermal loads.

According to a further aspect of the invention, it is possible for the actual values of the working elements to be defined taking into account the respective vehicle geometry, working element geometry, angular velocity and/or the respective steering angle. It is possible that at least one curve radius is determined by means of a respective steering angle and a vehicle geometry and/or that at least one curve radius is determined by means of a respective steering angle and a working element geometry and/or that at least one driving speed is determined by means of an angular velocity and a curve radius. The steering angle can be determined by an angle that is defined by a longitudinal axis of the vehicle and a steering angle of at least one front wheel and/or rear wheel.

The steering angle can be defined by the steering angle of at least one front wheel and/or rear wheel. This allows front-wheel steering and/or rear-wheel steering and/or all-wheel steering.

The planning system is preferably designed so that depending on the actual values of the working elements and/or depending on the actual loads on the working elements, taking into account the load limit values, driving speeds and/or lanes for the agricultural working machine can be defined and/or selected. The desired criteria or criteria can be selected before field work and/or during field work by an operator using a user interface, e.g. of the working machine, or can be defined by the configuration system.

In order to provide an autonomous (e.g. semi-autonomous or fully autonomous) agricultural working machine, according to a preferred embodiment variant it can be provided that the work processes to be carried out by means of this machine can be planned, preferably site-specifically, by means of a planning system and can be transmitted to the control device or from a memory of the planning system can be called up and can be carried out accordingly by means of the agricultural working machine or by means of working elements attached to the agricultural working machine.

The planning system can be detached, i.e. preferably not a direct component of the working machine. The control, regulation and/or parameterization commands configured by means of the planning system can be transmitted to the control device.

According to a further embodiment, the planning system can also be part of

Be the control device, ie preferably be an onboard system of the control device. The agricultural working machine can expediently preferably be designed as an autonomous agricultural working machine, for example as a partially autonomous working machine or as a fully autonomous working machine. The work machine can be a distribution and/or soil cultivation machine, in which the working element is a distribution boom (e.g. spray boom) with distribution elements or distribution nozzles (e.g. spray nozzles) attached thereto and/or a coulter rail with seed coulters attached and/or a frame construction with soil cultivation tools attached is.

However, the working machine can also be a harvesting machine (e.g. combine harvester, forage harvester), in which the working element can be a harvesting attachment, for example. Alternatively, the work machine can also be an agricultural towing vehicle (e.g. tractor). The work machine can be designed as a self-propelled work machine. However, the working machine can also be a working machine towed by a towing vehicle or a working machine attached to a towing vehicle, in which case the configuration system, preferably the control device, can be designed to control, regulate and/or parameterize working processes of both the working machine and the towing vehicle . The working machine can thus be any type of working machine that is suitable for agricultural use.

A wide variety of work processes can be carried out by means of the agricultural working machine, for which purpose at least one working element can be attached to the working machine. Examples of work processes are, for example, the distribution of crop protection products, the distribution of seeds, the distribution of fertilizers, tillage, harvesting of crops, transport of agricultural goods, driving along a lane that is preferably planned in advance by means of the planning system, preferably at a defined driving speed and/or towing an implement by means of an agricultural towing vehicle.

Depending on the respective work process, a wide variety of work elements can in turn be attached to the agricultural work machine, preferably also work elements that execute different work processes. The respective work processes to be carried out by means of the work elements can in turn be coordinated with one another, and each control, regulation and/or parameterization commands of a work element depending on the control, regulation and/or parameterization commands of at least one further work element by means of the planning system and/or or can be configured or defined by means of the control device. In a further embodiment, the planning system can be computer-aided and designed in such a way that it can output and/or generate corresponding control, regulation and/or parameterization commands by specifying targets for an agricultural work process and/or by specifying work results of agricultural work processes, with the Output is preferably expediently carried out taking into account load limit values.

According to a further embodiment variant, the planning system can include or have a graphic display device (e.g. terminal, mobile end device, or the like). In addition or as an alternative, the graphic display can also be signal-connected and/or signal-connectable to the control device.

The configuration of lanes and/or driving speeds can take place in advance, i.e. for example by simulating the actual values of the working machine. As an alternative or in addition to this, lanes and/or a driving speed can be configured during operation of an agricultural working machine using measured actual values of the working machine.

Any assemblies, components, elements or the like can be used as working elements, by means of which agricultural work processes can be carried out directly and/or indirectly. Examples of such working elements are drive units, distribution units, tillage tools, distribution booms (e.g. spray booms) or the like.

The load limit values can be transmitted from a database (e.g. data cloud) to the control device and/or the planning system or retrieved from such a database.

The load limit values can be generated with the aid of a computer, preferably by a work program, by means of the control device and/or by means of the planning system. As an example, a load limit value based on a load on a component detected by a sensor can be mentioned here, for example, wherein the work program can be designed to define a load limit value, e.g. a maximum permissible stress, based on the load and the properties of the component. According to a further embodiment variant, a minimum time of the load limit values can be defined so that, for example, briefly exceeding the load limit values has no effect on the agricultural working machine and/or the work processes carried out using it. The minimum time can be, for example, at least 0.1 second or at least 1 second or at least 5 seconds.

According to a further embodiment variant, the load limit values can be defined by a limit range. This means that the load limit values can include a defined and/or definable limit range within which load limit values have no effect on the agricultural working machine and/or the work processes carried out using it. This means that the load limit values are defined by a limit range, as a result of which loads within this limit range have no effect on the agricultural working machine and/or the work processes carried out using it.

The control device has, e.g /or control loop is suitably designed for hydraulic and/or pneumatic and/or electrical signal and/or command transmission. Which signal and/or command transmission can also take place wirelessly (e.g. via WLAN).

In the context of the invention, the concept of the control device preferably includes all of the components for signal and/or command transmission. Correspondingly, computer units, CPUs and/or the like are also included. Correspondingly, control devices integrated in the respective sensors or sensor units or sensor arrangements are also included. It should also be pointed out that the signals and/or data from the sensors/measuring devices/detection devices and/or the like can each be used as feedback for a controlled and/or regulated variable.

It should also be pointed out that the terms "control" and "regulate" and "control device" and "regulation device" can refer to electronic and/or pneumatic and/or hydraulic controls or regulations that, depending on the training, control tasks and/or control tasks can take over. Even if the term "tax" is used herein is used, "rules" can also be appropriately included. Likewise, when using the term "rules" a "control" can also be included.

To avoid repetition, it should be pointed out that the embodiments and features according to the invention can be freely combined with the device and/or the method in any way. Accordingly, all embodiments and features according to the invention are disclosed and claimable for both the device and the method.

The method includes providing a control device for configuring working elements of the agricultural working machine, preferably based on actual values of the working elements, taking into account predefined load limit values, preferably load limit values dependent on the driving speed.

The method also includes determining the actual values of the working elements, which are dependent on the operation, by means of the determining device.

The method also includes defining the actual loads of the work items based on the actual values of the work items using an evaluation program.

The method also includes configuring the travel speed and/or lane, preferably by means of a planning system, such that the actual loads on the work items will not exceed or approximate the load limits.

The invention also relates to an agricultural working machine which has a control system as described herein and/or which is designed to carry out a method as disclosed herein.

The working machine is preferably designed as an autonomous (e.g. partially autonomous or fully autonomous) agricultural working machine, preferably as an autonomous soil tillage and/or spreading machine.

Further details and advantages of the invention are described below with reference to the accompanying drawings. The proportions of the individual elements to one another in the figures do not always correspond to the real proportions, since some shapes are simplified and other shapes are exaggerated relative to other elements for clarity of illustration. Show it:

FIG. 1 shows a side view of an embodiment variant of an agricultural working machine 100,

FIG. 2 shows a schematic plan view of an agricultural area over which an agricultural working machine 100 is being moved,

FIG. 3a shows a schematic plan view of an agricultural working machine 100 and the working elements 1,

Figure 3b shows a schematic plan view of two wheels of an agricultural working machine 100.

FIG. 4a shows a schematic plan view of the agricultural working machine 100 and the working elements 1 while driving straight ahead, according to FIG. 3a,

FIG. 4b shows a schematic plan view of the agricultural working machine 100 and the working elements 1 while cornering.

The embodiments shown in FIGS. 1 to 4 correspond at least in part, so that similar or identical parts are provided with the same reference numbers and for their explanation reference is also made to the description of the other embodiments or figures in order to avoid repetition.

FIG. 1 shows an embodiment variant of an agricultural working machine 100, the agricultural working machine 100 being designed in the form of a self-propelled autonomous distribution machine (field sprayer).

The field sprayer is used to carry out agricultural work processes, expediently preferably for the distribution of preferably liquid media, e.g. fertilizer, pesticides or the like by means of a working element 1 in the form of a distribution boom (spray boom) with distribution elements (e.g. distribution nozzles or spray nozzles) attached thereto over an agricultural area .

It is possible that the agricultural working machine 100 is not designed to be self-propelled, but for example driven by a towing vehicle, e.g. B. a tractor, moved, preferably pulled, is. It is also possible for the agricultural working machine 100 to have soil tillage tools and/or sowing coulters as a working element 1 as an alternative or in addition. For example, work machine 100 may alternatively be embodied as a fertilizer spreader or a seed drill. According to an alternative embodiment variant, the working machine 100 can also be a machine for tilling the soil and/or for sowing and can, for example, comprise a working element 1 for tilling the soil and/or for sowing agricultural seed, fertilizer or the like. The work machine 100 can also be an autonomous carrier vehicle, to which in turn tillage tools, seed coulters or distribution linkage (for example a sprayer linkage) or the like can be attached.

The working machine 100 can also be or have a towing vehicle (eg tractor) suitable for agriculture. A machine for soil cultivation and/or for sowing or for the distribution of crop protection agents can in turn be attached to the towing vehicle or can be pulled over a field by means of this machine. The work machine 100 could also be a harvesting machine such as a forage harvester or combine harvester or the like. In general, the working machine 100 can thus be any working machine that is suitable for agricultural use.

The configuration system 10 can include at least one module, preferably two or more modules. The control device 20 and/or the planning system 30 and/or the determination device 40 and/or the evaluation program 50 can be integrated in the configuration system 10 .

The configuration system 10 of the agricultural working machine 100 comprises a control device 20, by means of which the working elements 1 of the agricultural working machine 100 can be configured, preferably based on specifications of the planning system 30, the actual values of the working elements 1 taking into account predefined load limit values, preferably load limit values dependent on the driving speed, being operable .

A determination device 40 is set up to determine operation-dependent actual values of the working elements (1).

An evaluation program 50 is set up to determine the respective actual loads on the working elements 1 based on the actual values of the working elements 1 . The driving speed V and/or the lane 3 of the agricultural working machine 100 can be configured using the planning system 30 in such a way that the actual loads on the working elements 1 do not exceed the load limit values or approximately correspond to them.

To define the location or to determine the current location of the agricultural working machine 100, this also includes a location determination module 2, preferably a satellite-based location determination device 2 (e.g. GPS location determination device, a Galileo location determination device, a Glonass location determination device or a BeiDou location determination device).

FIG. 2 shows a schematic plan view of an agricultural area over which an agricultural working machine 100, preferably an autonomous agricultural working machine 100 according to FIG. 1, is being moved.

The agricultural working machine 100 is moved within a boundary 4 of the usable area along a defined and/or definable lane 3 . The lane 3 can be planned or specified using a planning system 30 . In addition, work processes of the agricultural working machine can be planned site-specifically and/or retrieved from a memory of the control device 20 by means of the planning system 30 .

The actual values of the working elements 1 include a vehicle geometry X, a driving speed V, a working element geometry G, an angular velocity co and/or a steering angle L. Using the planning system 30, it is possible, depending on the actual values of the working elements and/or in To define and/or select a driving speed V and/or a lane 3 for the agricultural working machine 100 as a function of the actual loads on the working elements, taking into account the load limit values.

The planning system 30 can also be used to define, for example, the position of a supply vehicle 6 for the agricultural working machine 100, so that the position to which the working machine 100 is to move is defined when, for example, its filling level has reached a defined minimum.

Adjacent to the agricultural area is a restricted area 5 (eg lake, river, road or the like). The blocking surface 5, for example, is such that this or up to a defined Minimum distance to this, for example, no pesticides may be applied. What is achieved by means of the planning system 30 according to the invention is that the work processes are planned and/or configured in such a way that correspondingly adapted work processes are carried out by means of the agricultural working machine 100 at such restricted areas.

Figure 3a shows a schematic plan view of the agricultural working machine 100 and the working elements 1.

The dimensions of the agricultural working machine 100 are defined by a vehicle geometry X. The vehicle geometry X, preferably a wheelbase RS, can be used together with a steering angle L to determine a curve radius R. It is alternatively or additionally possible to determine the curve radius R by means of the working element geometry G and a steering angle L.

Figure 3b shows a schematic top view of two wheels of an agricultural working machine 100.

The steering angle L can be defined from a longitudinal axis A of the vehicle and a steering angle B of at least one front wheel. The steering angle B describes the inclination of the front wheel in relation to the longitudinal axis A.

For example, the agricultural working machine 100 can alternatively or additionally have active rear-wheel steering or all-wheel steering. Accordingly, a steering angle L would result from a longitudinal axis A of the vehicle and a steering angle B of at least one front wheel and/or rear wheel.

A wheelbase RS can be determined from the distance between a central axis of at least one front tire and a central axis of at least one rear tire.

FIG. 4a shows a schematic plan view of the agricultural working machine 100 and the working elements 1 while driving straight ahead, according to FIG. 3a.

The angular velocity co remains constant at every point of the vehicle 100 and the working elements 1. As a result, at least one driving speed V can be determined from an angular speed co and a curve radius R. Figure 4b shows a schematic plan view of the agricultural machine 100 and the

Working elements 1 during cornering. The vehicle geometry X, preferably a wheelbase RS, can be used together with a steering angle L to determine a curve radius R. It is alternatively or additionally possible to determine the curve radius R by means of the working element geometry G and a steering angle L. In addition, a driving speed V can be determined by means of an angular speed co and a curve radius R.

Although the invention has been described with reference to specific embodiments, it will be apparent to those skilled in the art that various changes may be made and equivalents substituted without departing from the scope of the invention. In addition, many modifications can be made without leaving the associated area. Accordingly, the invention should not be limited to the disclosed embodiments, but should include all embodiments falling within the scope of the appended claims. Preferably, the invention also claims protection for the subject-matter and features of the subclaims independently of the claims referred to.

Reference list:

Working element A longitudinal axis

Location determination module B steering angle

Lane G work feature geometry

Limit L steering angle

Restricted area R radius

Supply vehicle RS wheelbase

V driving speed

Configuration system CO angular velocity

Control device X vehicle geometry

planning system

determination device

evaluation program

Agricultural working machine

Claims

Configuration system and method for operating an agricultural working machine and agricultural working machine CLAIMS Configuration system (10) for an agricultural working machine (100), comprising a control device (20) which is set up to configure working elements (1) of the agricultural working machine (100), preferably based on actual values of the working elements (1). Taking into account predefined load limit values, preferably load limit values dependent on driving speed, a determination device (40) which is set up to determine actual values of the working elements (1) dependent on the operation, an evaluation program (50) which is set up based on the actual values of the working elements (1) to define respective actual loads on the working elements (1), characterized in that a driving speed (V) and/or a lane (3), preferably by means of a planning system (30), can be configured in such a way that the actual loads of the working elements (1) do not exceed the load limit values or approximately correspond to them. Configuration system (10) according to Claim 1, characterized in that configuring includes controlling and/or regulating and/or parameterizing. Configuration system (10) according to Claim 2, characterized in that the load limit values, preferably dependent on driving speed, of at least one working element (1) are stored in a memory, preferably of the planning system, and/or can be called up by it. Configuration system (10) according to one of the preceding claims, characterized in that the configuration system comprises at least one location determination module (2). Configuration system according to one of the preceding claims, characterized in that the actual values of the working elements (1) Preferably a driving speed (V), input speeds mechanical loads And/or include thermal loads. Configuration system according to claim 5, characterized in that the actual values of the working elements (1) taking into account a respective vehicle geometry (X), Working element geometry (G), angular velocity (co), and / or a respective steering angle (L) are defined. Configuration system (10) according to one of the preceding claims, characterized in that by means of a respective steering angle (L) and a vehicle geometry (X) at least one curve radius (R) is determined and / or - That at least one curve radius (R) is determined by means of a respective steering angle (L) and a working element geometry (G) and/or that at least one driving speed (V) is determined by means of an angular velocity (co) and a curve radius (R). Method for configuring an agricultural working machine (100), with a configuration system (10), comprising: Providing a control device (20) for configuring working elements (1) of the agricultural working machine, preferably based on actual values of the working elements (1) taking into account predefined load limit values, preferably load limit values dependent on driving speed, Determination of the operation-dependent actual values of the working elements (1) using the determination device (40), Defining the actual loads on the working elements (1) based on the actual values of the working elements (1) using an evaluation program (50), 17 Configuring the driving speed (V) and/or the lane (3), preferably by means of a planning system (30), so that the actual loads on the working elements (1) do not exceed the load limit values or approximately correspond to them. 9. Agricultural working machine (100), characterized by a configuration system (10) according to one of claims 1 to 8 and/or for carrying out a method according to claim 8, wherein the agricultural working machine (100) is an autonomous agricultural working machine (100), preferably is an autonomous tillage and/or spreading machine.