COMPENSATION SYSTEM FOR AN AGRICULTURAL MACHINE, AND DISTRIBUTION MACHINE AND METHOD FOR COMPENSATING FOR GROUND UNEVENNESS FOR AN AGRICULTURAL MACHINE

Abstract

Disclosed is a compensation system for an agricultural machine comprising a distributor boom mounted on a chassis in a height-adjustable manner. The distributor boom has side parts which are pivotably arranged to the left and right on a central part, and a plurality of distribution elements arranged thereon which are connected to a storage container for material to be distributed. A vertical position of the distributor may be changed by an actuating device. A data processer is configured to generate actuating signals for the actuating device for changing the vertical position. To prevent collisions of the distributor boom with the ground while at the same time minimizing drift, a sensor device is configured to detect rotation of the chassis or the distributor boom in the direction of travel and the data processer is configured to generate actuating signals for the actuating device based upon the rotation.

Claims

1. A compensation system for an agricultural machine, preferably a field sprayer and/or fertilizer spreader, comprising a chassis bearing components of the agricultural machine and a distributor boom which is mounted on the chassis in a height-adjustable manner relative to the chassis and which has a central part and side parts which are pivotably arranged to the left and right on the central part, as well as a plurality of distribution elements which are arranged thereon and which are connected and/or connectable to a storage container for at least one material to be distributed, wherein a vertical position of the distributor boom relative to the chassis may be changed by an actuating device, also comprising a data processing device which is configured to generate actuating signals for the actuating device for changing the vertical position, and a sensor device, wherein the sensor device is configured to detect a rotation of the chassis and/or the distributor boom in the direction of travel and the data processing device is configured to generate actuating signals for the actuating device, using the rotation.

2. The compensation system according to claim 1, wherein the sensor device is configured to detect a rotation of the chassis and/or the distributor boom in the direction of travel relative to a reference plane, wherein the reference plane is defined, preferably, by a ground surface and/or an artificial horizon and/or a horizontal line and/or an orientation of the gravitational acceleration.

3. The compensation system according to claim 1, wherein the sensor device and/or the data processing device is configured to detect a direction of rotation of the rotation in the direction of travel.

4. The compensation system according to claim 1, wherein, upon a right oriented direction of rotation, the data processing device is configured, to generate an actuating signal for the actuating device such that no change is carried out to the vertical position of the distributor boom relative to the chassis.

5. The compensation system according to claim 1, wherein, upon a right oriented direction of rotation, the data processing device is configured, to generate an actuating signal for the actuating device such that a change is carried out to the vertical position of the distributor boom relative to the chassis by the actuating device, preferably, such that an increase in the vertical position and/or a reduction in the vertical position of the distributor boom relative to the chassis is carried out.

6. The compensation system according to claim 1, wherein, upon a left-oriented direction of rotation, the data processing device is configured, to generate an actuating signal for the actuating device such that a change is carried out to the vertical position of the distributor boom relative to the chassis by the actuating device, preferably, such that an increase in the vertical position of the distributor boom relative to the chassis is carried out.

7. The compensation system according to claim 1, wherein the sensor device is configured to detect a rotation, an inclination and/or an angular rate of the chassis and/or the distributor boom in the direction of travel.

8. The compensation system according to claim 1, wherein the sensor device is formed by at least one inclination sensor and/or acceleration sensor and/or angular rate sensor.

9. The compensation system according to claim 1, wherein the sensor device is formed by at least one angular rate sensor, which angular rate sensor is configured to detect an angular rate of the chassis and/or the distributor boom in the direction of travel and that the data processing device and/or the sensor device is configured to calculate by time integration of the angular rate an inclination of the chassis and/or the distributor boom in the direction of travel.

10. The compensation system according to claim 1, wherein the data processing device is configured to generate actuating signals for the actuating device using the vehicle geometry of the agricultural machine and the inclination of the chassis and/or of the distributor boom caused by the rotation of the chassis and/or the distributor boom in the direction of travel.

11. The compensation system according to claim 1, wherein the data processing device is configured to generate actuating signals as a function of a rotation of the chassis and/or the distributor boom in the direction of travel, such that a vertical position of the distributor boom relative to the chassis is changed such that an actual distance of the distributor boom relative to a ground surface is kept at least substantially constant and/or is kept within defined and/or definable limit values.

12. The compensation system according to claim 1, wherein the data processing device is configured, in a first operating mode and in a second operating mode to generate actuating signals for the actuating device, wherein in the first operating mode actuating signals are generated for the actuating device on the basis of actual distances of the distributor boom relative to a ground surface detected by distance sensors arranged on the distributor boom, and wherein in the second operating mode actuating signals are generated for the actuating device on the basis of a rotation of the chassis and/or the distributor boom in the direction of travel detected by the sensor device.

13. The compensation system as claimed in claim 1, wherein the data processing device is configured in a third operating mode to generate actuating signals for the actuating device, wherein in the third operating mode actuating signals are generated for the actuating device on the basis of actual distances of the distributor boom relative to a ground surface detected by distance sensors arranged on the distributor boom, and on the basis of a rotation of the chassis and/or the distributor boom in the direction of travel detected by the sensor device.

14. The compensation system according to claim 1, characterized in that the data processing device is configured in a first operating mode, a second operating mode and/or a third operating mode to generate actuating signals for the actuating device, wherein a change of operating mode is initiated on the basis of a threshold value, wherein the threshold value is defined by at least one of the following, a maximum and/or minimum rotation of the chassis and/or the distributor boom in the direction of travel, and/or a minimum time in which a rotation of the chassis and/or the distributor boom in the direction of travel is present, and/or a distance travelled in which a rotation of the chassis and/or the distributor boom in the direction of travel is present.

15. A distribution machine, preferably a field sprayer and/or fertilizer spreader for dispensing agricultural materials to be distributed, such as seed, fertilizer and/or plant protection agent, having a compensation system, characterized in that the compensation system is configured according to claim 1.

16. A method for compensating for ground unevenness for an agricultural machine, preferably field sprayer and/or fertilizer spreader, comprising a chassis bearing components of the agricultural machine and a distributor boom which is mounted on the chassis in a height-adjustable manner relative to the chassis and which has a central part and side parts which are pivotably arranged to the left and right on the central part, as well as a plurality of distribution elements which are arranged thereon and which are connected and/or connectable to a storage container for at least one material to be distributed, wherein a vertical position of the distributor boom relative to the chassis may be changed by an actuating device, also comprising a data processing device which is configured to generate actuating signals for the actuating device for changing the vertical position, and a sensor device, characterized by a detection of a direction of rotation of a rotation of the chassis and/or the distributor boom in the direction of travel by a sensor device and a generation of actuating signals for the actuating device by the data processing device, using the direction of rotation.

17. The method according to claim 16, characterized in that the data processing device is configured, in a first operating mode, a second operating mode and/or a third operating mode to generate actuating signals for the actuating device, wherein, in the first operating mode, actuating signals are generated for the actuating device on the basis of actual distances of the distributor boom relative to a ground surface, detected by distance sensors arranged on the distributor boom, and wherein in the second operating mode actuating signals are generated for the actuating device on the basis of a rotation of the chassis and/or the distributor boom in the direction of travel detected by the sensor device, and wherein in the third operating mode actuating signals are generated for the actuating device on the basis of actual distances of the distributor boom relative to a ground surface detected by distance sensors arranged on the distributor boom, and on the basis of a rotation of the chassis and/or the distributor boom in the direction of travel detected by the sensor device.

Description

DESCRIPTION OF THE DRAWINGS

[0085] The preferred embodiments and features of the invention described above are able to be combined together in any manner. Further details and advantages of the invention are described hereinafter with reference to the accompanying drawings. The size ratios of the individual elements to one another in the figures do not always correspond to the actual size ratios, since some shapes are simplified and other shapes are shown enlarged in comparison with other elements, for greater clarity. In the drawings:

[0086] FIG. 1 shows a perspective view of an embodiment of an agricultural machine,

[0087] FIG. 2 shows a side view of an embodiment of an agricultural machine with a rotation of the chassis and the distributor boom in the direction of travel, having a left-orientated direction of rotation,

[0088] FIG. 3 shows a side view of an embodiment of an agricultural machine with a rotation of the chassis and the distributor boom in the direction of travel, having a right-oriented direction of rotation,

[0089] FIG. 4 shows a block diagram of a data processing device which is configured to generate actuating signals for the actuating device, using different operating modes.

DETAILED DESCRIPTION

[0090] The embodiments shown in FIGS. 1 to 4 at least partially coincide so that parts which are similar or identical are provided with the same reference numerals, and for the description thereof reference is also made to the description of the other embodiments and/or figures in order to avoid repetition. The embodiments which are shown merely represent examples as to how the compensation system according to the invention, the distribution machine according to the invention and the method according to the invention may be embodied and designed, and do not constitute a final limitation thereof.

[0091] An embodiment of an agricultural machine 10 according to the invention, preferably a field sprayer and/or a fertilizer spreader, is disclosed in the perspective view of FIG. 1 and the side views of FIGS. 2 and 3. The agricultural machine 10 is designed as a distribution machine in the form of a field sprayer. The agricultural machine 10 is additionally designed as a self-propelled field sprayer, with an engine unit 12 and a driver's cab 14 for an operator.

[0092] The agricultural machine 10, respectively the distribution machine, comprises, preferably, a compensation system as described herein. Preferably, the distribution machine comprises a compensation system according to one of the claims. The agricultural machine 10, respectively the distribution machine, is configured for executing a method for compensating for ground unevenness as described herein, preferably a method according to the method claims.

[0093] According to the exemplary embodiments, the agricultural machine 10 comprises a chassis 16 bearing components of the agricultural machine 10, with a running gear 18 and a frame construction 20. The agricultural machine 10 additionally comprises a storage container 22 for carrying and providing agricultural material to be distributed. For distributing the material to be distributed, the agricultural machine 10 additionally comprises a distributor boom 24 which is mounted on the chassis 16 in a height-adjustable manner relative to the chassis 16.

[0094] The distributor boom 24 is shown in a working position and extends over a large working width (for example 24 metres, 30 metres or more) transversely to the direction of travel FR. The distributor boom 24 is made up of a central part 26 and side parts 28 which are pivotably arranged to the left and right on the central part by means of pivot axes. Moreover, a plurality of distribution elements which are connected and/or connectable to the storage container 22 are attached to the distributor boom 24 for distributing agricultural material to be distributed.

[0095] For changing a vertical position A of the distributor boom 24 relative to the chassis 16, respectively relative to a ground surface 30 (for example a target surface, plant population and/or the like), the agricultural machine 10 comprises an actuating device 50, which actuating device 50, for example, may be formed by one or more actuator(s) (for example hydraulic cylinders and/or pneumatic cylinders) which may be signal-connected and/or signal-connectable in a wired and/or wireless manner to a data processing device 100 (see FIGS. 2 and 3 in dashed lines).

[0096] As is disclosed in FIGS. 2 and 3, a vertical position A, for example, may refer to a relative distance of the distributor boom 24 from the chassis 16, and/or to a reference point/reference axis of the chassis 16.

[0097] The data processing device 100 is designed and/or configured, preferably, to generate (for example to calculate) actuating signals for the actuating device 50.

[0098] The compensation system and/or the chassis 16 also comprises a sensor device 60, wherein the sensor device 60 is configured to detect a rotation (for example in the form of an angular rate and/or inclination and/or the like) of the chassis 16 and/or the distributor boom 24 in the direction of travel FR.

[0099] It should also be mentioned that the rotation in the direction of travel FR may also encompass a proportion of a rotation of the chassis 16 transversely to the direction of travel FR, since generally corresponding ground unevenness is not oriented and/or travelled over exactly perpendicular to the direction of travel FR. Thus in the context of the invention, the definition of a rotation in the direction of travel FR also encompasses a rotation transversely to the direction of travel FR, which rotation transversely to the direction of travel FR, however, preferably causes a rotation of the chassis 16 and/or the distributor boom 24 in turn in the direction of travel FR.

[0100] According to the invention, it is provided that the data processing device 100 is configured to generate actuating signals for the actuating device 50, using the rotation.

[0101] It may be provided that the sensor device 60 is configured to detect a rotation of the chassis 16 and/or the distributor boom 24 in the direction of travel FR in relation to, i.e. relative to, a reference plane, wherein the reference plane may be defined, for example, by a ground surface 30 and/or an artificial horizon and/or a horizontal line H and/or an orientation of the gravitational acceleration EB.

[0102] As is disclosed in FIGS. 1 to 3, the direction of travel FR corresponds to a direction of longitudinal extent of the agricultural machine 10 and/or a forward direction of the agricultural machine 10. Additionally, a rotation in the direction of travel FR is defined, in particular, by a rotation of the chassis 16 and/or the distributor boom 24 about a rotational axis D oriented transversely to the direction of travel FR. Wherein the rotational axis D according to the exemplary embodiment is formed by an axis of the chassis 18. A different axis/rotational axis might also be conceivable.

[0103] As is disclosed in FIG. 2, the rotation of the chassis 16 and/or the distributor boom 24 shown has a left-oriented direction of rotation (for example angular rate −) which, for example, may be caused by uphill travel. In order to avoid damage to the distributor boom 24, by the changing actual distance Z, it may also be provided, upon a left-oriented direction of rotation, that the data processing device 100 is configured to generate an actuating signal for the actuating device 50 such that by means of the actuating device 50 a change to the vertical position A (and thus to the actual distance Z) of the distributor boom 24 relative to the chassis 16 is carried out, preferably such that the vertical position A of the distributor boom 24 is increased relative to the chassis 16.

[0104] As is disclosed in FIG. 3, the rotation of the chassis 16 and/or the distributor boom 24 shown has a right-oriented direction of rotation (for example rotation rate+) which may be caused, for example, by driving into a trench. Since the actual distance of the distributor boom 24 relative to the ground surface 30 is increased thereby, a change to the vertical position A relative to the chassis 16 is not absolutely necessary but it may accordingly be provided thereby that, with a right-oriented direction of rotation, the data processing device 100 is configured to generate an actuating signal for the actuating device 50 such that no change is carried out to the vertical position A of the distributor boom 24 relative to the chassis 16.

[0105] The sensor device 60 may be formed by at least one inclination sensor and/or acceleration sensor and/or an angular rate sensor, to detect a rotation of the chassis 16 and/or the distributor boom 24.

[0106] For determining an actual distance Z and/or target distance Z of the distributor boom 24 relative to the ground surface 30, the agricultural machine 10 comprises a sensor arrangement comprising at least one distance sensor 70 and/or said sensor arrangement is assigned, preferably, to the distributor boom 24.

[0107] The sensor arrangement may be formed by one or more distance sensors 70 (for example an ultrasound sensor, laser sensor and/or the like) measuring an actual distance Z between the distributor boom 27 and the ground surface 30 (for example a plant population and/or target surface). In particular, the sensor arrangement is configured to detect an actual distance Z between the distributor boom 24, expediently the distribution elements of the distributor boom 24 relative to the ground surface 30.

[0108] Further details of the invention are disclosed in the block diagram of FIG. 4. The data processing device 100 comprises a computer unit 110 in which, in particular, a control and/or regulating program may be stored, and which control and/or regulating program may be configured in turn to generate actuating signals for the actuating device 50.

[0109] According to FIG. 4 it is possible that the data processing device 100 is configured in a first operating mode and in a second operating mode to generate actuating signals for the actuating device 50, wherein in the first operating mode actuating signals are generated for the actuating device 50 on the basis of actual distances Z of the distributor boom 24 relative to a ground surface 30 detected by means of distance sensors 70 arranged on the distributor boom 24, and wherein in the second operating mode actuating signals are generated for the actuating device 50 on the basis of a rotation of the chassis 16 and/or the distributor boom 24 in the direction of travel FR detected by means of the sensor device 60.

[0110] In order to improve the compensation of ground unevenness further, it may also be provided that the data processing device 100 is configured in a third operating mode to generate actuating signals for the actuating device 50, wherein in the third operating mode actuating signals are generated for the actuating device 50 on the basis of actual distances Z of the distributor boom 24 relative to a ground surface 30 detected by means of distance sensors 70 arranged on the distributor boom 24, and on the basis of a rotation of the chassis 16 and/or the distributor boom 24 in the direction of travel FR detected by means of the sensor device 60

[0111] As is also disclosed in FIG. 4, the data processing device 100 may also be configured to generate actuating signals for the actuating device 50, using further sensor data Xn.

[0112] While the invention has been described with reference to specific exemplary embodiments, it is obvious to a person skilled in the art that various changes may be carried out and equivalents used as replacements without departing from the scope of the invention. In addition, many modifications may be carried out without departing form the associated scope of the invention. As a result, the invention is not intended to be limited to the disclosed exemplary embodiments but is intended to encompass all of the exemplary embodiments which fall within the scope of the accompanying claims. In particular, the invention also claims protection for the subject matter and the features of the subclaims independently of the claims made by way of reference.

LIST OF REFERENCE NUMERALS

[0113]

TABLE-US-00001  10 Agricultural machine, distribution machine  12 Engine unit  14 Driver's cab  16 Chassis  18 Running gear  20 Frame construction  22 Storage container  24 Distributor boom  26 Central part  28 Side part  30 Ground surface  50 Actuating device  60 Sensor device  70 Distance sensor 100 Data processing device 110 Computer unit FR Direction of travel H Horizontal line EB Gravitational acceleration A Vertical position Z Target distance; actual distance D Rotational axis Xn Sensor data