DUAL CUT HEADER ASSEMBLY

Abstract

A dual cut header assembly including a header, a chopper suspended from the header, and an actuator system comprising one or more cylinders. The actuator system solely connects the chopper to the header. The dual cut header assembly further includes at least one sensor for measuring a state of the chopper and an actuator steering module connected to the actuator system. The header is configured to be lifted by an agricultural vehicle to cut crop material from a field at a first height. The chopper is configured to cut the crop material at a second height lower than the first height. The actuator steering module is configured to automatically adapt the distance based on the measured state of the chopper.

Claims

1. A dual cut header assembly comprising; a header; a chopper suspended from the header; an actuator system comprising one or more cylinders, and the actuator system solely connecting the chopper to the header; at least one sensor for measuring a state of the chopper; and an actuator steering module connected to the actuator system, wherein the header is configured to be lifted by an agricultural vehicle to cut crop material from a field at a first height, the chopper is configured to cut the crop material at a second height lower than the first height, and the actuator steering module is configured to automatically adapt the distance based on the measured state of the chopper.

2. The dual cut header assembly according to claim 1, wherein the state of the chopper is one of a height of the chopper with respect to a ground surface and a pressure exerted by the chopper on the ground surface.

3. The dual cut header assembly according to claim 1, wherein the actuator steering module is configured to carry at least 50% of the weight of the chopper so that a pressure exerted by the chopper on a ground surface is limited to 50% of its weight.

4. The dual cut header assembly according to claim 1, wherein the at least one sensor is a height sensor for measuring a height between a ground surface and the chopper, and wherein the actuator steering module is adapted for keeping the height within a predetermined range.

5. The dual cut header assembly according to claim 4, wherein the predetermined range is selectable via a user interface by an operator of the agricultural vehicle.

6. The dual cut header assembly according to claim 4, wherein the height sensor is an optical sensor.

7. The dual cut header assembly according to claim 4, wherein the one or more cylinders of the actuator system are in the form of one or more hydraulic cylinders.

8. The dual cut header assembly according to claim 7, further comprising a hydraulic proportional valve, and wherein the actuator steering module is connected to the hydraulic proportional valve so that the actuator system is controllable to keep the height within the predetermined range.

9. The dual cut header assembly according to claim 1, wherein the first height is selectable by an operator of the agricultural vehicle.

10. The dual cut header assembly according to claim 1, wherein the chopper is cantilevered from the header by the actuator system.

11. The dual cut header assembly according to claim 1, wherein the dual cut header assembly is a sunflower header.

12. The dual cut header assembly according to claim 1, wherein the chopper is configured for floating over a ground surface such that the chopper does not touch the ground surface.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] For the purpose of illustration, there are shown in the drawings certain embodiments of the present invention. It should be understood, however, that the invention is not limited to the precise arrangements, dimensions, and instruments shown. Like numerals indicate like elements throughout the drawings. Some embodiments of apparatus and/or methods in accordance with embodiments of the present invention are now described, by way of example only, and with reference to the accompanying drawings, in which:

[0023] FIG. 1 illustrates a dual cut header assembly mounted to an agricultural combine;

[0024] FIG. 2 illustrates a schematic setup of a first embodiment for use in the dual cut header assembly of the invention; and

[0025] FIG. 3 illustrates a schematic setup of a second embodiment for use in the dual cut header assembly of the invention.

DETAILED DESCRIPTION OF THE DRAWINGS

[0026] FIG. 1 illustrates a dual cut header assembly 1 in a real life situation. The dual cut header assembly 1 comprises a header 2 and a chopper 3. The dual cut header assembly 1 is connected to an agricultural vehicle 5, particularly to an agricultural combine 5 via the feeder 4 thereof. The agricultural combine 5 typically comprises a lifting device for varying the height of the feeder 4, so that the header assembly 1 can be lifted via the feeder 4.

[0027] Lifting of the header assembly 1 allows the header 2 to be positioned at a first height H1. The chopper 3 is connected to the header 2 solely via an actuator 6. The actuator 6 thereby provides the structural connection between the chopper 3 and the header 2 such that the carrying, i.e., lifting, forces are transmitted entirely through the actuator 6. The actuator 6 allows the distance between the chopper 3 and the header 2 to be adjusted. The chopper 3 therefore operates at a second height H2, which is significantly smaller than the first height H1. Thereby, crop material 7 such as sunflowers can be harvested in an efficient way. The top segment of the crop material 7 is cut by the header 2, and gathered via the feeder 4 into the agricultural combine 5. Furthermore, the chopper 3 cuts the stalks and stems 8 at a second height H2 so that only short stubble remains after the chopper 3 has passed. The short stubble is illustrated in the figure with reference number 9. The distance between the header 2 and the chopper 3 is according to the invention automatically controlled. To this end, the actuator 6 is automatically steered by an actuator steering mechanism. FIG. 2 illustrates a first embodiment of such steering mechanism.

[0028] FIG. 2 shows two actuators 6A and 6B which are preferably one-way hydraulic cylinders. These hydraulic cylinders 6A and 6B are mounted between the header 2 and the chopper 3 at a horizontal distance from each other. One end of the hydraulic cylinders 6A and 6B is connected to an accumulator 10. Via the accumulator 10 a substantially constant pressure can be provided at the one end 13 of the hydraulic cylinder 6A and 6B. Due to this substantially constant pressure, a predetermined force F can be exerted by the hydraulic cylinders 6. This force F is typically an upward force exerted on the chopper 3 so that at least part of the weight of the chopper 3 is lifted by the hydraulic cylinder 6A and 6B. A pressure sensor 11 may be provided for measuring directly or indirectly the pressure in the accumulator 10 thereby also measuring the pressure in the hydraulic cylinders 13.

[0029] By measuring the pressure 11, the force F can be determined since the force F is directly related to the pressure in the cylinder 6. By regulating the pressure in the first end 13 of the cylinders 6, a predetermined part of the weight of the chopper 3 is carried via the actuators 6 by the header 2. This allows to regulate the remaining pressure that is exerted by the chopper on the ground surface. In combination with sliding skids 14, provided at an underside of the chopper 3, the chopper 3 can be slid over the ground surface without bulldozer effect. This is not only the result of a sliding skid, but also of the accumulators 6 carrying at least a part of the weight of the chopper 3.

[0030] The accumulator 10 is preferably connected to the agricultural vehicle 5 via a quick-coupling 12 to a valve. This valve, connected to the coupling 12, can be an on/off valve and can be used to regulate the pressure in the accumulator 10, measured by sensor 11, within a predetermined range. As described above, the pressure is directly proportional to the force F exerted by the cylinders 6. Most existing agricultural combines 5 have, at a front end thereof, some remaining couplings 12 comprising or connected to on/off valves for connection of external elements. An advantage of the set-up of FIG. 2 is that therefore it can be used by any existing agricultural combine 5.

[0031] The system may further comprise a blocking valve 15 for blocking the free hydraulic connection between the accumulator 10 and the hydraulic cylinders 6. Via this blocking element, the position of the hydraulic cylinders can be substantially fixed, so that the chopper can be lifted from the ground surface.

[0032] FIG. 3 schematically illustrates a further embodiment of the invention. Thereby, FIG. 3 also shows a hydraulic cylinder 6, mountable between the header 2 and the chopper 3 of the dual cut header assembly 1. In the embodiment of FIG. 3, the sensor 11 is a height sensor 11. This height sensor 11 is adapted to measure the height of the chopper with respect to the ground surface. This height sensor 11 can be a contact sensor or a contactless sensor such as an optical sensor. The sensor output of the distance sensor 11 is processed by a module 16, which based on the measured height 11 steers a proportional valve 12. The proportional valve 12 is in the figure schematically illustrated, and the skilled person will understand that this proportional valve 12 is typically located on the combine 15. In an alternative configuration, a proportional valve 12 is provided at the header and hydraulically connected to the hydraulic system of the combine 15. Via the proportional valve 12 the cylinder 6 can be controlled, and the force exerted by the cylinder can be adjusted. When the embodiment of FIG. 3 is implemented, the chopper typically floats over the ground surface at a distance from the ground surface. A drawback of this embodiment is that a proportional valve 12 should be provided to control the actuator 6. Such proportional valve 12 is more expensive and is in conventional existing agricultural combines not always free for use.

[0033] Based on the figures and the description, the skilled person will be able to understand the operation and advantages of the invention as well as different embodiments thereof. It is however noted that the description and figures are merely intended for understanding the invention, and not for limiting the invention to certain embodiments or examples used therein. Therefore it is emphasized that the scope of the invention will only be defined in the claims.

[0034] These and other advantages of the present invention will be apparent to those skilled in the art from the foregoing specification. Accordingly, it is to be recognized by those skilled in the art that changes or modifications may be made to the above-described embodiments without departing from the broad inventive concepts of the invention. It is to be understood that this invention is not limited to the particular embodiments described herein, but is intended to include all changes and modifications that are within the scope and spirit of the invention.