EA026662B1 - Direct sowing seeder - Google Patents

Abstract

A seeder for application of seeds and fertilizers comprising a frame (1) resting on soil through transport wheels (5) in the back part of the seeder, storage bins (9.1, 9.2) and colters (6, 12, 20) for seeds and fertilizers. To optimize dosing and distribution of seeds and fertilizers, the seeder has at least one first dosing devise for dosing seeds placed in a separate seed storage bin (9.1), at least one second dosing device for dosing fertilizers placed in a separate fertilizer storage bin (9.2) and applied together with seeds to the same seed furrow, and at least one third dosing device for dosing fertilizers placed in the same fertilizer storage bin (9.2) and applied to soil independently of seeds to a separate furrow, said first, second and third dosing devices being adjustable independently of each other.

Description

The invention relates to a direct seeder according to the restrictive part of claim 1 of the claims.

A seeder of this type, made in the form of a direct seeder, is described in No. 10130672 A1. This direct sowing drill has chisel openers located one after another in four transverse rows and with a clearance relative to each other for seed application and a small fertilizer rate. Behind the chisel openers on the frame are openers for more fertilizer application. Simultaneously with the seeds, only a small amount of fertilizer can be applied to the sowing furrow, since a large amount of fertilizer leads to burns and / or burning of seeds. Based on this, a larger amount of fertilizer is applied to the soil between the rows of seeds using additional openers.

In this known direct seeder, a correspondingly long frame is provided in order to be able to arrange the coulters for fertilizer application. However, there are applications where it is not rational to introduce additional fertilizers into the soil when sowing seeds. In these cases, additional fertilizer coulters are not required, and the frame is too long for these applications. Maneuvering the machine becomes more difficult.

The basis of the invention is the task of optimizing the dosage and distribution of seeds and fertilizers in the seeder in relation to the requirements for laying the so-called initial fertilizer rate together with the seeds in a common furrow in the soil and for laying a larger fertilizer rate in a separate furrow in the soil.

According to the invention, this problem is solved by the fact that at least one first metering body is provided for dispensing the introduced seeds placed in a separate seed storage bin, that at least one second metering body is provided for dispensing the fertilizers placed in a separate fertilizer storage bin and introduced along with the seeds into the same furrow for sowing, and that at least one third metering body is provided for dispensing fertilizers placed in the same separate the storage hopper for fertilizers and introduced into the soil, regardless of the introduced seeds in a separate furrow, and the specified first, second and third metering bodies are made with the possibility of regulation independently of each other.

Thanks to these measures, the fertilizer rate, denoted as the initial rate, which is laid in the soil at the same time as the seeds are placed in the same furrow for sowing with the same chisel opener, due to separate dosing using different and independently regulated metering bodies (designated in the claims as the second and third metering organ) can separately and, thus, regardless of the additional fertilizer rate, which is fed into its own furrow in the soil, posited between the furrows for sowing, regulated by the second dosing body independently from the third metering body which dispenses additional fertilizer rate.

Thus, depending on the type of fertilizer and application conditions, soil and / or climatic conditions, the appropriate dosage of fertilizers can be individually adjusted.

Thus, the application and dosing of various fertilizer standards can be easily adapted to the circumstances and / or conditions of use.

At the same time, the conduct of seeds and fertilizers is provided in such a way that the seeds and the initial fertilizer rate are supplied to the corresponding chisel openers through the same pipeline, while the additional fertilizer rate is supplied to the additional openers through separate hoses.

Individual regulation of various metering bodies (designated in the application terminology as the first metering body, the second metering body and the third metering body) is carried out by means of the fact that the various metering bodies are made with the possibility of regulation independently of each other.

In order to be able to supply the appropriate number of seeds and / or fertilizers to each coulter in a simple way, it is provided that at least one dispenser is connected to each metering unit, made in the form of a pneumatic distribution head, to which pipelines with pneumatic feed, respectively branching to individual openers, and that each pipe branching off the distribution head, respectively connected to the first and second metering unit the organs using the Υ-shaped intermediate element is brought into a common pipeline leading to the chisel openers for joint placement of seeds and fertilizers.

In order to be able to carry out more fertilizers in a simple way to the coulters, it is stipulated that to the coulters intended exclusively for laying fertilizers, by means of pipelines extending from the distribution head and leading to these coulters, a distribution head is connected that is connected to the third metering body.

To make the drill so that the frame length for the coulters must be

- 1 026662 is always easily adapted to the optimal maneuvering ability in any equipment option, with or without additional coulters for fertilizer application, it is provided that the coulter for fertilizer application is located on its own frame element, which is located on or between the two parts of the seeder frame parts using specific interface devices and / or flange connections.

As a result of these measures, using the specific interface devices and / or flange connections provided on the frame in a simple way, it is possible to increase the length of the seeder frame in accordance with the coulters used for fertilizing the soil, so that in the corresponding applications on these frame elements, additionally attached using devices couplings and / or flange joints between the individual parts of the frame, have coulters for fertilizing the soil.

In one embodiment, it is provided that the frame element with the coulters for fertilizing the soil is located between two parts of the frame in front of the running wheels.

In another embodiment, it is provided that the frame element with coulters for fertilizing the soil is located behind the running wheels.

In a further embodiment, it is provided that the frame element with the coulters for fertilizing the soil is located in front of the chisel coulters for making seeds in the soil. As a result, before applying seeds, a large fertilizer rate is first laid in the soil. Due to this, there is no effect on the placement of seeds due to the laying of fertilizers in the soil.

However, it is also possible that the frame element with openers for fertilizing the soil is located behind the chisel openers for applying seeds to the soil. This location may be favorable under optimal soil conditions.

In order to create as few soil movements as possible when fertilizing the soil, it is provided that the coulters for fertilizing the soil are made in the form of disc coulters.

Moreover, depending on the application conditions, the disc coulters can be made in the form of double disc coulters or in the form of single-disc coulters.

In some applications, it may be rational if the coulters for fertilizing the soil are made in the form of chisel coulters.

In order to ensure that the coulters are well carried out at depth using attached rollers and that the coulters and corresponding rollers operate without clogging as much as possible, it is envisaged that the rollers attached to the coulters have a rotatable support disc that can be rotated and that the outer peripheral region of the support disc is separated supporting elements in the form of a bracket are located.

A favorable embodiment of the supporting elements in a simple manner is achieved by the fact that the supporting elements in the form of a bracket are made i-shaped.

In order to be able to lay both seeds and fertilizers in the soil, in accordance with the existing conditions of use, it is provided that the coulters are arranged to control the depth of their introduction into the soil. In this case, the pressing load acting on the coulters in the direction of the soil can be additionally regulated.

Further details of the invention follow from the description of embodiments. In this case, the drawings show:

FIG. 1 is a schematic diagram of a seeder made in the form of a direct seeder, in side view, FIG. 2 is a schematic diagram of a seeder made in the form of a direct seeder with an intermediate frame located behind the chisel openers and in front of the running wheels, containing the chisel openers that fertilize the soil, in side view, FIG. 3 - an intermediate frame containing a chisel opener that fertilizes the soil, in side view and on an enlarged scale, FIG. 4 is a schematic diagram of the dosage of seeds and fertilizers, as well as their transportation and supply to the coulters, FIG. 5 is a schematic diagram of the next seeder, made in the form of a direct seeder, with an intermediate frame located in front of the chisel openers containing the chisel openers that fertilize the soil, in side view, FIG. 6 is a schematic diagram of a seeder made in the form of a direct seeder, with an intermediate frame located behind the chisel openers and in front of the running wheels, containing disk coulters that fertilize the soil, in side view, and FIG. 7 is a schematic diagram of the next seeder, made in the form of a direct seeder, with an intermediate frame located in front of the chisel openers containing disk coulters that fertilize the soil, in side view.

The seeder, made in the form of a direct seeder seeder, has a main frame 1. In the rear area, the main frame 1 has a certain flange interface 2 containing flange elements 3 that connect the front 1.1 and rear 1.2 frames to which the main frame is divided

1. On the front side of the front frame 1.1, there is a drawbar 4, which is attached to the towing device of the agricultural tractor. On the rear side of the rear frame 1.2, both running wheels 5 are located at a distance from each other.

Between the drawbar 4 and the driving wheels 5 on the front frame 1.1, one after another in four transverse rows and with a clearance relative to each other, are seeder coulters made in the form of chisel openers 6, as shown in FIG. 1. Chisel openers 6 are located on the front frame 1.1 with the ability to move in height using a parallelogram suspension 7, which has upper and lower levers. On the rear frame 1.1 behind the chisel openers 6 are running wheels.

The rollers 8 are connected to the coulters 6 for conducting them at a depth 8. The rollers 8 connected to the coulters 6 have a support disk mounted for rotation. On the outer peripheral region of the supporting disk of the roller 8 at a distance from each other are supporting elements in the form of a bracket. The supporting elements in the form of a bracket are made i-shaped. The coulters 6 are arranged to control the depth of their introduction into the soil.

On the frame 1 is a node 9 storage bins with separate storage bins

9.1 and 9.2 for placement of seeds and fertilizers. Using metering and dispensing devices 10 (not shown in detail) through the pipelines to the chisel openers 6, seeds and fertilizers are introduced into the soil in controlled quantities.

In the embodiment of FIG. 2 between the front 1.1 and the rear 1.2 frames with the help of flange coupling devices 2 and flange elements 3 there is an intermediate frame 1.3 for lengthening the main frame 1. On the intermediate frame 1.3 with the help of holders 11 are openers 12, which are made in the form of chisel openers and are intended for introduction more fertilizer to the soil. The coulters 12 for fertilizing the soil are located relative to each other at a double distance compared to the chisel openers 6, namely in such a way that the coulters 12 for fertilizing are located relative to each other at a double distance compared to the rows of seeds. The chisel openers 6 for applying seeds to the soil and the coulters 12 for applying fertilizers are arranged with respect to each other so that the coulters 12 for applying fertilizers are located between two rows of seeds held in the soil by the chisel openers 6. In this embodiment, the coulters 12 for applying fertilizers in the soil are located in front of the running wheels 5.

To conduct at a depth to the coulters 12 can also be attached rollers corresponding to the above rollers 8. The coulters 12 are also located with the ability to control the depth of their introduction into the soil.

In addition, in particular, in order to be able to easily adapt the application and dosing of various fertilizer standards to the circumstances and / or conditions of use, the following equipment for the seeder is provided, as shown in FIG. 4.

For dispensing individual materials, at least one first dispensing organ 13 is provided for dispensing seeds for dispensing the seeds to be dispensed, for dispensing an initial fertilizer rate, at least one second dispensing organ

14.1 for the purpose of dosing fertilizers applied together with the seeds to the same sowing furrow, for dosing an additional fertilizer rate of at least one third metering organ 14.2 for the purpose of dosing fertilizers applied to the soil regardless of the seeds applied to a single furrow.

Transportation pipelines are connected to individual metering bodies 13, 14.1, 14.2

15.1, 15.2, 15.3 with pneumatic feed with corresponding distribution heads 10.1,

10.2, 10.3. The seeds and the initial fertilizer rate distributed by the distribution heads 10.1 and 10.2 through the pipelines 16 leading to the individual openers 6 of the seeder, with the help of Υ-shaped intermediate elements 17, respectively, are reduced to the pipeline 18 leading to the openers 6 of the seeder. The distribution head 10.3 distributes the larger amount of fertilizer individually to the coulters 12, which place the fertilizer in the soil.

Thus, the fertilizer rate, denoted as the initial rate, which is laid at the same time as the seeds are placed in the same furrow for sowing, is applied to the soil using the same chisel opener 6 as the seeds. Due to the separate dosing by different and independently regulated dosing bodies 14.1 and 14.2 (designated in the claims and the above text as the second and third dosing bodies), it is separate and, thus, regardless of the additional fertilizer rate, which is placed in its own the furrow in the soil between the respective furrows for sowing is regulated using the second metering organ 14.1, regardless of the third metering organ 14.2, which doses an additional Orm fertilizers.

Depending on the type of fertilizer and application conditions, soil and / or climatic conditions, the appropriate dosage of fertilizers is regulated individually.

In this case, the conduct of seeds and fertilizers is provided in such a way that the seeds and the initial

- 3,026,662 the fertilizer rate is supplied to the corresponding chisel-type openers 6 of the seeder through the same pipe 18, while the additional fertilizer rate is supplied to the additional coulters 12 through separate hoses 19.

The individual regulation of various metering organs (designated in the application terminology as the first metering organ 13, the second metering organ 14.1 and the third metering organ 14.2) is provided with the ability to regulate the various metering organs independently.

A distributing device 10, made in the form of a pneumatic distribution head 10.1, 10.2, 10.3, is connected to each metering body 13, 14.1, and 14.2, to which pneumatic supply pipelines 16, 18, 19, branching to individual openers, are respectively connected. In addition, each pipeline branching from the distribution head 10.1 and 10.2, respectively connected to the first 13 and second 14.1 metering bodies, by means of an Υ-shaped intermediate element 17 is brought into a common pipe 18 leading to the chisel-shaped openers for joint placement of seeds and fertilizers. To the coulters 12, intended exclusively for laying fertilizers, by means of pipelines 19 extending from the distribution head 10.3 and leading to these coulters 12, a distribution head 10.3 is connected, which is connected to the third metering body 14.2.

In this embodiment, the coulters for fertilizing the soil are made in the form of chisel openers 12.

It is also possible to implement openers for fertilizing the soil in the form of single disc or double disc openers, as described below.

The seeder according to FIG. 5 differs from the seeder according to FIG. 2 in that the frame element, made in the form of an intermediate frame 1.3, containing coulters 12 for fertilizing the soil, is located in the main frame 1 with flange elements 3 in front of the chisel-shaped coulters 6 for applying seeds to the soil.

The seeder according to FIG. 6 differs from the seeder according to FIG. 2 in that the coulters located on the intermediate frame 1.3 for applying fertilizers to the soil are made in the form of disc coulters 20.

The seeder according to FIG. 7 differs from the seeder according to FIG. 5 in that the coulters located on the intermediate frame 1.3 for applying fertilizers to the soil are made in the form of disc coulters 20.

Disc coulters for fertilizing the soil can be made in the form of single-disc coulters or in the form of double disc coulters.

Disc coulters 20 may be formed at their periphery with gears (not shown).

Claims (6)

1. A seeder for applying seeds and fertilizers, containing a frame (1), resting in the rear area of the seeder on the soil through the driving wheels (5), storage bins (9.1, 9.2) and coulters (6, 12, 20) for seeds and fertilizers, to which the supply of seeds and fertilizers located in the storage bins (9.1, 9.2) is provided through the metering bodies in adjustable quantities using pneumatic conveying and distribution devices, while the coulters (6) for making seeds are made in the form of chisel openers with at least one placed after them and on the side next to them is the roller (8) and are arranged one after another in several transverse rows, as well as at a distance relative to each other transversely to the direction of movement of the seeder, and at a distance from the chisel-type openers (6) with the aim of fertilizing the soil at least additional openers (12, 20) for fertilizing are located in one transverse row, while the openers (12, 20) for applying fertilizers are preferably arranged transversely relative to each other at a double distance compared to chisel-shaped coulters kami (6), moreover, chisel openers (6) and coulters (12, 20) for fertilizing are preferably arranged with respect to each other so that the coulters (12, 20) for fertilizing are located between two rows of seeds carried out in soil with chisel openers (6), characterized in that it further comprises at least one first metering organ (13) for dispensing the introduced seeds, placed in a separate storage hopper (9.1) for seeds, at least one second metering organ (14.1) for fertilizer dosing at least one third metering body (14.2) for dispensing fertilizers placed in the same separate storage hopper (9.2) for fertilizers and introduced along with the seeds into the same furrow for sowing, and at least one third metering body (14.2) for dispensing fertilizers placed in the same separate storage hopper (9.2) for fertilizers and introduced into the soil, irrespective of the introduced seeds, into a separate furrow, the indicated first, second and third metering bodies (13, 14.1, 14.2) being made with the possibility of regulation independently of each other. 2. A seeder according to claim 1, characterized in that at least one distribution device (10), made in the form of a pneumatic distribution head (10.1, 10.2, 10.3), is attached to each metering body (13, 14.1, 14.2), to which respectively, pipelines (16, 19) are connected with pneumatic feed, branching to individual coulters, with each pipeline 3. A seeder according to one of claims 1 and 2, characterized in that to the coulters (12, 20), intended exclusively for laying fertilizers, using pipelines (19) extending from the distribution head (10.3) and leading to these coulters ( 12, 20), a distribution head (10.3) is connected, which is in connection with the third metering body (14.2). 4. The seeder according to one of claims 1 to 3, characterized in that the coulters (12, 20) for fertilizing are located on the frame’s own element (1.3), which is located on two parts (1.1, 1.2) of the seeder frame (1) or between these two parts using specific interface devices and / or flange connections. - 4 026662 (16), branching off from the distribution head (10.1, 10.2), respectively attached to the first and second metering bodies (13, 14.1), by means of the Υ-shaped intermediate element (17) is reduced to a common pipeline (18) leading to chisel openers (6) for joint placement of seeds and fertilizers. - 5,026,662 FIG. 3 FIG. 4 FIG. 5 5. A seeder according to one of claims 1 to 4, characterized in that the coulters (20) for applying fertilizers to the soil are made in the form of disc coulters. 6. Direct seeder according to claim 5, characterized in that the disc coulters (20) for applying fertilizers to the soil are made in the form of single-disc coulters or double disc coulters. 7. The seeder according to one of paragraphs.5 and 6, characterized in that the disc coulters (20) on their periphery are toothed. 8. A seeder according to one of claims 1 to 4, characterized in that the coulters (20) for applying fertilizers to the soil are made in the form of chisel openers. 9. A seeder according to one of claims 1 to 8, characterized in that the rollers (8) attached to the coulters (12, 20) have a support disk mounted for rotation and that support bearings are located on the outer peripheral region of the support disk at a distance from each other elements in the form of a bracket. 10. The seeder according to claim 9, characterized in that the supporting elements in the form of a bracket are made Iobraznymi. 11. A seeder according to one of claims 1 to 10, characterized in that the coulters (6, 12, 20) are made with the possibility of controlling the depth of their introduction into the soil. FIG. one FIG. 2 - 6,026,662 FIG. 7