WO2023186557A1

WO2023186557A1 - Tractor-mounted agricultural machine

Info

Publication number: WO2023186557A1
Application number: PCT/EP2023/056713
Authority: WO
Inventors: Daniel Mertens; Jens Koch; Robert Goretzko; Per-Christian Heisel
Original assignee: Amazonen-Werke H. Dreyer SE & Co. KG
Priority date: 2022-03-29
Filing date: 2023-03-16
Publication date: 2023-10-05
Also published as: DE102022107348A1

Abstract

The invention relates to a tractor-mounted agricultural machine (10) for placing granular material on an agricultural land, comprising a number of juxtaposed, individually depth-guided coulters (28, 28a, 28b) each of which is designed to produce and/or form in the soil (B) of the agricultural land a deposit furrow extending in the direction of travel (F) for granular material, and a number of deposit elements (30, 30a, 30b) each of which is designed to deposit granular material in the deposit furrows produced and/or formed by the coulters (28, 28a, 28b).

Description

Agricultural cultivation machine

Description

The invention relates to an agricultural cultivation machine according to the preamble of patent claim 1.

Agricultural cultivation machines, which are used to spread granular material onto an agricultural area, often have several tine shares arranged next to one another, which are used to create and/or form deposit furrows that extend in the direction of travel. The granular material is then deposited into the depositing furrows created and/or formed by the tine shares via storage devices on the agricultural cultivation machine.

In practice it has been shown that the quality of the furrows created and/or formed by the tine shares depends to a considerable extent on the current soil properties and the type and amount of residual vegetation on and in the soil. In particular, uncrushed organic material can significantly impair furrow generation and furrow formation and/or clog the machine.

The object on which the invention is based is therefore to improve furrow generation and/or formation when using attachment machines with tine shares.

The object is achieved by an agricultural cultivation machine of the type mentioned at the outset, the agricultural cultivation machine according to the invention comprising one or more leading soil cultivation tools, which are arranged in front of the tine shares in the direction of travel and are designed to clean the soil for the creation and / or formation of storage furrows Prepare tine shares.

By preparing the ground using the leading tillage tools, the quality of the furrows created and/or formed by the tine shares can be significantly increased. This means that cultivation machines with tine shares can also be used on soils are used which have a large amount of residual organic matter, for example straw.

The cultivation machine can be a seed drill. The attachment may be a trailed or carried machine.

The tine shares are particularly suitable for direct sowing, so that the cultivation machine can also be a seed drill that can be used for direct sowing. With direct sowing, additional operations for complex preparation of the soil are unnecessary. The attachment can include a front attachment and/or a rear attachment. The attachment machine can, for example, consist of one or two attachments.

A coulter pressure adjustment device for adjusting the coulter pressure can be arranged on the support structures that carry the tine shares. The respective coulter pressure adjustment devices can, for example, enable the coulter pressure to be adjusted individually or for groups. For example, the agricultural cultivation machine has a first group of tine coulters arranged next to one another transversely to the direction of travel, with a second group of tine coulters arranged next to one another transversely to the direction of travel being arranged offset in the direction of travel from the first group of tine coulters. One or more share pressure adjustment devices can be assigned to the front group of tine shares. One or more share pressure adjustment devices can be assigned to the rear group of tine shares. The coulter pressure adjustment devices can work hydraulically, pneumatically, mechanically or electrically.

It can be provided that individual, several or all coulters are subjected to an individual coulter pressure. In particular, it can be provided that the coulters are subjected to individual coulter pressure in groups. Groups with individual coulter pressure can correspond to sections of the implement and/or the front or rear groups mentioned above. If the front or rear group is subjected to an individual coulter pressure, a different articulation of the coulters of the front or rear group can be advantageously compensated for. The tine shares of the agricultural cultivation machine preferably have a furrow opening edge on the front and enclosing an obtuse angle with the direction of travel vector for opening and/or shaping the storage furrow. To create and/or shape the storage furrow, tine shares working on the handle are preferably used.

Such tine shares have self-retraction into the ground. This reduces the coulter pressure required to penetrate the ground and improves the clearance of the furrow created. The penetration depth of the tine shares is limited by a depth guide roller, which acts as a counter bearing to the tine shares. The depth control roller can also cause the seeds and/or soil to be pressed down.

The storage devices can include storage lines, in particular seed storage lines, and/or storage channels, in particular seed storage channels, and/or shot tubes. The storage devices preferably have a storage opening through which the material is discharged in the direction of the storage furrow.

In a preferred embodiment of the agricultural cultivation machine according to the invention, one or more leading tillage tools are designed as cutting disks, which are designed to slit the soil of the agricultural area, in particular parallel to the direction of travel. Preferably, at least one cutting disc is assigned to each set of tines or each group of sets of tines. Preferably, the cutting disk assigned to a set of tines runs at least approximately in line with the set of tines. If there are several rows of tine shares, at least one cutting disc can only be assigned to the tine shares of one row or to the tine shares of several rows. Preferably, even with several rows of tine shares, each tine share is assigned a cutting disc, which runs at least approximately in line with the respective tine share. The one or more leading soil cultivation tools can also be double arrangements of two cutting disks, so that, for example, two cutting disks share a suspension. The leading cutting discs reduce the amount of soil that splashes up reduced. This allows a higher driving speed to be implemented, so that the processing process, for example the sowing process, is significantly accelerated. Furthermore, plant residues are cut through by the cutting discs, which significantly reduces the risk of blockages when creating and/or forming furrows. Furthermore, due to the reduced earth movement, more soil is available for furrow formation, which is thus improved.

It is also advantageous to have an agricultural cultivation machine in which one or more leading tillage tools are designed as tillage rollers. The attachment may include one or more tillage rollers. The soil cultivation rollers can be arranged laterally offset from one another and/or coaxially to one another. Alternatively or additionally, soil cultivation rollers can be arranged at a distance from one another in the longitudinal direction. The tillage rollers extend over the full (working) width of the cultivation machine in order to achieve full-surface cultivation.

The agricultural cultivation machine according to the invention is further advantageously developed in that the one or more soil cultivation rollers are set up to press down plant populations located on the soil of the agricultural area. The one or more tillage rollers preferably push standing plant populations forward in a controlled manner and at the same time bend them over. The tine shares can then be guided through a plant population, particularly in the direction of travel, which supports the creation and/or formation of furrows.

Furthermore, an agricultural cultivation machine according to the invention is advantageous, in which the one or more soil cultivation rollers are set up to slit the soil of the agricultural area, in particular transversely to the direction of travel. This allows extremely shallow tillage, for example for the emergence of volunteer rapeseed, with simultaneous new sowing with tine shares. The tillage rollers have knife blades that run transversely to the direction of travel for slitting the soil. The knife blades are preferably distributed over the circumference of the tillage roller, whereby the distribution of the knife blades over the circumference of the tillage roller can be uniform. Between the longitudinal axis of the knife blades and the transverse axis running perpendicular to the direction of travel, there can be an inclination angle in the range of 0 to 30 degrees, preferably in the range of 0 to 15 degrees, so that the knife blades run slightly obliquely to the transverse axis. This causes the knife blades to penetrate continuously into the ground. This means that less force is required to penetrate the ground and the knife roller runs more smoothly.

In another preferred embodiment of the agricultural cultivation machine according to the invention, one or more soil cultivation rollers are designed as knife rollers. The axis of rotation of the knife roller or axes of rotation of the knife rollers extend transversely to the direction of travel. The knives and the knife blades of the knife roller also extend transversely to the direction of travel, so that the ground is slit by the knife roller transversely to the direction of travel.

An agricultural cultivation machine according to the invention is also preferred, in which the one or more soil cultivation rollers are arranged in front of the one or more cutting disks in the direction of travel. In this case, the one or more soil cultivation rollers are preferably designed as knife rollers, so that both one or more knife rollers and one or more cutting disks run in front of the tine shares. In this case, the one or more soil cultivation rollers push standing plant residues forward in a controlled manner and at the same time bend them over, at the same time slitting the soil transversely to the direction of travel and cutting up plants on the ground. The cutting discs also ensure that the ground is slit in the direction of travel, so that the tine shares run through a ground that has already been pre-slit in two directions.

In a further preferred embodiment, the agricultural cultivation machine according to the invention has a support beam running transversely to the direction of travel, on which support structures each carry a tine group are attached. The support beams are preferably designed as profile rails. The profile rail can be a frame component having profiled edge elements. The tine shares are attached to the profiled edge elements using the support structures. For this purpose, the support structures have an upper recess with which the support structures are suspended on an upper profiled edge element of the frame component. After hanging, the support structures can then be clamped to the frame component using a clamping element.

In another preferred embodiment, the agricultural cultivation machine according to the invention has a front attachment and a rear attachment. Preferably one or more or all of the tillage rollers are designed as components of the front attachment. Alternatively or additionally, one or more or all of the soil cultivation rollers can be designed as components of the rear attachment. The front attachment can further include a storage container for granular material, which can be referred to as a front tank. The front attachment can include a roller frame. A central tillage roller can be designed as part of the front attachment and side tillage rollers can be designed as parts of the rear attachment. The central tillage roller can be arranged below the storage container of the front attachment. The result is a simple structure below the front tank and an optimal rear attachment in terms of focus, as space remains free in the middle of the rear attachment and the rear attachment can therefore be brought closer to the tractor. In addition, a secure overlap of the tillage rollers can be ensured by wider rear tillage rollers. The rear attachment can include another storage container, which can be referred to as a rear tank. Fertilizer and/or seeds can be stored in the front tank. Fertilizer and/or seeds can also be stored in the rear tank. The granular material can therefore be seeds and/or fertilizer.

If the tillage rollers are designed as components of the front attachment, they can be provided as an alternative or in addition to packer wheels. If the tillage rollers are alternatively too Packer wheels are provided, weight can be advantageously saved, so that a larger payload is possible. If the tillage rollers are provided in addition to packer wheels, this results in improved depth control of the tillage rollers of the front attachment.

The front attachment preferably comprises one or more soil cultivation rollers designed as knife rollers. The knife rollers on the front attachment can be advantageously combined with cutting disks on the rear attachment, so that the cutting disks have the shortest possible longitudinal distance to the tine shares and run in a line with the tine shares.

The one or more soil cultivation rollers can be attached to a pivotable or foldable boom, so that the soil cultivation rollers can be folded in and out or pivoted in and out via the boom using a suitable actuator, for example one or more hydraulic cylinders.

An agricultural cultivation machine is also preferred in which the tine shares are designed as components of the rear attachment. The agricultural cultivation machine does not necessarily have to have a front attachment.

Preferred embodiments of the invention are explained and described in more detail below with reference to the accompanying drawings. Show:

1a shows a machine assembly with an agricultural cultivation machine according to the invention in a perspective view;

Fig. 1b shows a machine combination with an agricultural machine according to the invention in a side view

2 shows a sowing coulter of an agricultural cultivation machine according to the invention in a side view; 3 shows another seed coulter of an agricultural cultivation machine according to the invention in a side view;

4 shows a soil cultivation roller designed as a knife roller of an agricultural cultivation machine according to the invention in a perspective view;

5 shows a machine assembly with an agricultural cultivation machine according to the invention in a perspective view;

Fig. 6 shows the machine assembly shown in Fig. 5 in one

side view;

7 shows a machine assembly with an agricultural cultivation machine according to the invention in a perspective view;

Fig. 8 shows the machine assembly shown in Fig. 7 in one

side view;

9 shows a machine assembly with an agricultural cultivation machine according to the invention in a perspective view;

Fig. 10 shows the machine assembly shown in Fig. 9 in one

side view;

11 shows a machine assembly with an agricultural cultivation machine according to the invention in a perspective view;

Fig. 12 shows the machine assembly shown in Fig. 11 in one

side view; and

Fig. 13 shows a machine combination with an agricultural machine according to the invention in a side view. 1 shows a machine assembly 100 with a carrier vehicle 102 designed as a tractor, on which a cultivation machine 10 for spreading granular material, for example seeds and / or fertilizer, is attached. The cultivation machine 10 is therefore a seed drill. The attachment 10 includes a front attachment 12 and a rear attachment 14. The front attachment 12 includes a storage container 16a in which the material to be distributed is stored. The front attachment 12 is connected to a front linkage 104 of the carrier vehicle 102. The material is conveyed from the storage container 16a to the rear extension 14 via a delivery line 20 in order to be able to be deposited on the ground B of the agricultural area via the storage devices 30a, 30b of the rear extension 14.

The rear attachment 14 also includes a storage container 16b, in which material to be distributed is stored. The material from the storage container 16a is conveyed to storage devices via the distribution device 22a. These storage devices can be the storage devices 30a, 30b (Fig. 1b) or other storage devices which are arranged in front of the storage devices 30a in the direction of travel F (Fig. 1a). The material from the storage container 16b is conveyed to the storage devices 30a, 30b via the distribution device 22b. In the case shown, the distribution devices 22a, 22b are distributor heads in which material flowing in via a main delivery line designed as a riser pipe is divided into a large number of material storage lines, the material storage lines leading to the storage devices 30a, 30b.

The rear attachment 14 of the attachment machine 10 includes a soil cultivation roller 24, which is designed as a knife roller. The tillage roller 24 is used to push down the plant population protruding from the soil B of the agricultural area and to slit the soil B of the agricultural area transversely to the direction of travel F. The soil cultivation roller 24 presses standing plant populations forward in a controlled manner and at the same time bends them. In addition to pressing down and bending, the plant material is cut by the soil cultivation roller 24 designed as a knife roller. In the direction of travel F behind the soil cultivation roller 24, two rows of cutting disks 26a, 26b are arranged offset from one another in the direction of travel F. The front row of cutting disks 26a in the direction of travel F and the rear row of cutting disks 26b in the direction of travel F serve to slit the soil B of the agricultural area parallel to the direction of travel F.

The other storage devices mentioned above, which are arranged in front of the storage devices 30a in the direction of travel F, can be arranged in the area of the soil cultivation roller 24 or in the area of the cutting disks 26a, 26b. This is useful if, for example, fertilizer from the storage container 16a is to be distributed close to the surface via the distribution device 22a and subsequent material deposit lines between the distribution device 22a and the deposit devices and then incorporated. This is shown in Fig. 1a.

Alternatively, for example, fertilizer from the storage container 16a can be distributed together with seeds from the storage container 16b via the storage devices 30a, 30b. For this purpose, in the area of the storage devices 30a, 30b, for example in the area of storage lines 48, material storage lines are brought together between the distribution device 22a or 22b and the storage devices 30a, 30b. This is shown in Fig. 1b.

In the direction of travel F, behind the cutting disks 26a, 26b, a first row of individually depth-guided tine coulters 28a is arranged, which are used to create and / or form storage furrows extending in the direction of travel F for the material in the soil B of the agricultural area. The soil cultivation roller 24a and the cutting disks 26a are therefore leading soil cultivation tools, which are arranged in front of the tine shares 28a in the direction of travel F and serve to prepare the soil B for the creation and / or formation of the storage furrows by the tine shares 28a. Each tine group 28a is assigned a cutting disk 26a, with the tine shares 28a and the cutting disks 26a assigned to the respective tine shares 28a running at least approximately in one line. Immediately behind the tine shares 26a there are storage devices 30a designed as material storage channels, via which the material can be transported into the material storage channels Tine shares 28a can be stored in the depositing furrows created and/or shaped. The tine shares 28a are guided in depth via the depth guide rollers 32a. There can optionally be harrows behind the depth guide rollers 32a, but the examples shown do not have these.

In the direction of travel behind the tine shares 28a is the second row of tine shares 28b. A cutting disk 26b is assigned to each of the tine shares 28b. The tine shares 28b and the cutting disks 26b assigned to the respective tine shares 28b run at least approximately in a line. Immediately behind the tine shares 28b there are storage devices 30b designed as material storage channels. The tine shares 28b are individually depth-guided via the depth guide rollers 32b. There are harrows 34b behind the depth guide rollers 32b.

2 shows a short version of a sowing coulter 35. The sowing coulter 35 comprises a support structure 36, which carries a tine coulter 28. The support structure 36 can be attached to a support beam of the agricultural cultivation machine 10 that runs transversely to the direction of travel F, the support beam being designed as a profile rail. The support structure 36 includes an upper recess 38, via which the support structure 36 can be hung in the profile rail. Below the recess 38 there is a tensioning element 40, via which the support structure 36 can be clamped after it has been hung on the support beam.

A coulter pressure adjustment device 42 for individually adjusting the coulter pressure is arranged on the support structure 36. The coulter pressure adjustment device 42 includes a hydraulic cylinder. The multi-part support structure 36 includes support arms 44a, 44b, the length of which determines the total length of the seed coulter 35.

The tine share 28 has a furrow opening edge 46 on the front and enclosing an obtuse angle W with the direction of travel vector for opening and/or shaping the storage furrow. To create and/or shape the storage furrow, the tine coulter 28 works on the handle.

Immediately behind the tine group 28 is the material deposit channel of the deposit device 30. The material is transported via the deposit line 48 to a Storage opening of the storage device 30 is conveyed so that the material can be delivered via the storage opening into the storage furrow created and/or formed by the tine group 28.

Behind the storage device 30 there is a depth guide roller 32 for depth guidance of the tine share 28.

3 shows a long version of a seed coulter 35, the support arms 44a, 44b of the multi-part support structure 36 being designed to be longer in order to achieve a greater overall length than in the exemplary embodiment shown in FIG.

4 shows a tillage roller 24 designed as a knife roller. The tillage roller 24 is used to slit the soil B of the agricultural area transversely to the direction of travel F. For this purpose, the tillage roller 24 has a plurality of knives 50 arranged transversely to the direction of travel F, with the knife blades 52 also run transversely to the direction of travel.

Soil cultivation roller 24 is, for example, divided into three roller segments lying next to one another in the transverse direction. The knives 50 of the roller segments overlap in the transverse direction. The knives 50 of the respective roller segments are evenly distributed over the circumference of the soil cultivation roller 24. The soil cultivation roller 24 shown is used as a leading soil cultivation tool, which is to be arranged in front of the tine shares 28 of an agricultural machine 10 in the direction of travel F. By means of the tillage roller 24 designed as a knife roller, the soil B of the agricultural area can be prepared for the creation and/or formation of storage furrows by the tine shares 28.

5 and 6 show an agricultural cultivation machine 10, in which two rows of cutting disks 26a, 26b act as leading ones

Soil cultivation tools can be used for the tine shares 28a, 28b. A leading soil cultivation roller 24 designed as a knife roller is omitted in this exemplary embodiment. The cutting disks 26a of the front row are assigned to the tine shares 28a. The cutting disks 26b of the back row are assigned to the tine shares 28b.

7 and 8 show an attachment machine 10 in which a soil cultivation roller 24 designed as a knife roller is used as the leading soil cultivation tool. The knife blades 52 of the tillage roller 24, which run transversely to the direction of travel F, serve to slit the soil B transversely to the direction of travel F. By slitting the soil, the soil B is prepared for the creation and/or formation of storage furrows by the tine shares 28a, 28b.

9 and 10, both a soil cultivation roller 24 designed as a knife roller and two rows of cutting disks 26a, 26b are used as leading soil cultivation tools for the tine shares 28a, 28b. The soil B of the agricultural area is slit transversely to the direction of travel by the knife blades 52 of the tillage roller 24 designed as a knife roller. The ground B of the agricultural area is slit parallel to the direction of travel F by the cutting disks 26a, 26b. A grid of slots is created on the ground B of the agricultural area, with the tine shares 28a, 28b of the attachment machine 10 being guided through the slots extending in the direction of travel F. The soil slits in the longitudinal and transverse directions result in ideal soil preparation, so that storage furrows can be created and/or formed with a comparatively high quality.

11 and 12 show a mounted machine 10, which includes both a front attachment 12 and a rear attachment 14. On the front attachment 12 there is a soil cultivation roller 24 designed as a knife roller, which is used for soil preparation. The tillage roller 24 is attached to a roller frame of the front attachment 12. For further soil preparation, the rear attachment 14 includes two rows of cutting discs 26a, 26b.

13 shows a mounted machine 12, in which a central tillage roller 24a is mounted on a roller frame of the front attachment 12 is attached. There are side tillage rollers 24b, 24c on the rear attachment 14. The tillage rollers 24a-24c are designed as knife rollers and are designed to slit the soil B of the agricultural area transversely to the direction of travel F. The central soil processing roller 24a on the front attachment 12 is arranged below the storage container 16a, so that an optimal rear attachment 14 can be implemented, since the space remains free in the middle of the rear attachment 14 and the rear attachment 14 can be brought closer to the carrier vehicle 102 of the machine group 100 . The central tillage roller 24a on the front attachment 12 and the side tillage rollers 24b, 24c on the rear attachment 14 overlap in sections, so that continuous slitting in the transverse direction is ensured.

The attachments shown in FIGS. 11 to 13 have soil cultivation rollers 24 in addition to packer wheels 13, whereby improved depth control of the soil cultivation rollers is achieved. Alternatively, it is possible for the tillage rollers to replace the packer wheels 13 shown.

In the embodiment shown, the rear attachment 14 further comprises a series of cutting discs 26, which are also used for soil preparation and run in a line with the tine shares 28a, 28b.

Reference symbol list

10 cultivation machine

12 front attachment

13 packer wheels

14 rear attachment

16a, 16b storage containers

20 delivery line

22a, 22b distribution devices

24, 24a-24c tillage rollers

26, 26a, 26b cutting discs

28, 28a, 28b tine shares

30, 30a, 30b storage devices

32, 32a, 32b depth guide rollers

34a, 34b harrow

35 sowing coulters

36 multi-part support structure

38 recess

40 clamping element

42 coulter pressure adjustment device

44a, 44b support arms

46 furrow opening edge

48 filing line

50 knives

Knife blades

100 machine network

102 carrier vehicle

104 front linkage

B floor

F direction of travel

Claims

[Patent claims]

1. Agricultural cultivation machine (10) for spreading granular material onto an agricultural area, with several individually depth-controlled tine shares (28, 28a, 28b) arranged side by side, each of which is designed to provide a deposit furrow for granular material extending in the direction of travel (F). to produce and/or form in the soil (B) of the agricultural area; and a plurality of deposit devices (30, 30a, 30b), each of which is designed to deposit granular material into the deposit furrows generated and/or formed by the tine coulters (28, 28a, 28b); characterized by one or more leading soil cultivation tools, which are arranged in front of the tine shares (28, 28a, 28b) in the direction of travel (F) and are designed to prepare the soil (B) for the creation and / or formation of storage furrows by the tine shares (28, 28a, 28b).

2. Agricultural cultivation machine (10) according to claim 1, characterized in that one or more leading soil cultivation tools are designed as cutting disks (26, 26a, 26b), which are designed to cut the soil (B) of the agricultural area, in particular parallel to the direction of travel (F), to slash.

3. Agricultural cultivation machine (10) according to claim 1 or 2, characterized in that one or more leading soil cultivation tools are designed as soil cultivation rollers (24, 24a-24c).

4. Agricultural cultivation machine (10) according to claim 3, characterized in that the one or more soil cultivation rollers (24, 24a-24c) are designed to work on the Soil (B) of the agricultural area

to push down plant populations.

5. Agricultural cultivation machine (10) according to claim 3 or 4, characterized in that the one or more soil cultivation rollers (24, 24a-24c) are set up to cultivate the soil (B) of the agricultural area, in particular transversely to the direction of travel (F). , to slit.

6. Agricultural cultivation machine (10) according to one of claims 3 to

5, characterized in that one or more soil cultivation rollers (24, 24a-24c) are designed as knife rollers.

7. Agricultural cultivation machine (10) according to one of claims 3 to

6, characterized in that the one or more soil cultivation rollers (24, 24a-24c) are arranged in front of the one or more cutting disks (26, 26a, 26b) in the direction of travel (F).

8. Agricultural cultivation machine (10) according to one of the preceding claims, characterized by a support beam running transversely to the direction of travel (F), to which support structures 36 carrying a set of tines (28, 28a, 28b) are attached, the support beam preferably being designed as a profile rail is.

9. Agricultural cultivation machine (10) according to one of the preceding claims, characterized by a front attachment (12) and a rear attachment (14), preferably one, several or all soil cultivation rollers (24, 24a-24c) being designed as components of the front attachment (12). are and/or one, several or all soil cultivation rollers (24, 24a-24c) are designed as components of the rear attachment (14). Agricultural cultivation machine (10) according to claim 9, characterized in that the tine shares (28, 28a, 28b) are designed as components of the rear attachment (14).