DE2728295C2 - Agricultural cultivator - Google Patents

Description

The invention relates to an agricultural loading device for spreading, distributing and bringing in seeds or fertilizers, with a storage container for the material to be distributed, a separating device and a distributing and introducing device that several, evenly distributed on a driven rotating carrier, arranged in the feeding surface having penetrating distribution arms with outlet openings, the axis of rotation to the introduction surface runs essentially parallel and transversely to the direction of movement, and wherein the outlet openings an imaginary cylinder jacket surface around the axis of rotation.

In an ordering device of this type known from CH-PS 2 57 961, they are called teeth trained distribution arms on the rotating carrier in a plane perpendicular to its axis of rotation arranged so that the slit-shaped depressions drawn successively in the ground by the teeth in the direction of travel of the ordering device are aligned one behind the other, with the rotation of the teeth

in this way yet another component of movement perpendicular to the surface of the ground is conveyed, which is an additional Loosening the earth causes. This device therefore only enables fertilizers to be but not planar and in particular not in a special geometric distribution pattern To feed in the ground.

From US-PS 28 66 422 a soil cultivating machine of the aforementioned. Kind of known in the the carrier is designed as a drum-like hub on which the distribution arms in the form of needle-shaped Feed pipes are arranged in rows both in the circumferential direction and in the axial direction of the hub, the rows each lying in a plane perpendicular to the axis of the hub in the circumferential direction, and this plane Rows are slightly offset from their respective adjacent rows in the circumferential direction, so that Nowhere are two supply pipes parallel to the hub axis and therefore with the hub rotating

only one feed pipe at a time can occupy the position provided for the delivery of fertilizer.

This is the disadvantage of the CH-PS 2 57 961 known soil tillage machine, insofar as it only allows linear cultivation of the Soil concerns, but it is also disadvantageous here that the distribution of the seed or fertilizer is not the can be selected according to the respective requirement. In particular, there is just the possibility of two or several points to bring in the Verieilgut at the same time, deliberately excluded.

In one known from DE-OS 26 20147 Soil tillage machines are tool rotors carrying the distributor in at least one perpendicular to the Arranged row running in the direction of travel The axes of the tool rotors, however, do not run parallel to the application surface and transversely to the direction of movement of the soil tillage machine, but rather are slightly inclined transversely to the direction of travel from the perpendicular to the ground, so that the to Soil pointing distribution arms penetrate different depths into the soil. The inclination of the axes also causes a drive of the implement rotors when the soil tillage machine is moved, there the forces acting on the distribution arms from the ground because of the different depths of penetration of the Distribution arms only partially compensate each other. This tillage machine does not allow penetration of the material to be distributed in a geometrically defined, narrow pattern, especially since the tool gyro does not have any have their own drive, but have the Verterlarme are set in rotation from the ground in a non-controllable manner.

The invention is based on the object of providing an agricultural tilling device of the type mentioned at the beginning to create the type mentioned, with the same distance as possible between the individual seeds or fertilizer grains one below the other in a horizontal plane, as well as in a uniform depth, a very dense shelf enables.

This object is achieved according to the invention in that the distributor arms on in the direction of Axis of rotation several, evenly distributed and provided parallel to each other carriers are, and that the outlet openings each assigned to a carrier are at an acute angle λ lie against the axis of rotation inclined plane.

The progress achieved by the invention consists first of all in that by appropriate choice the carrier spacing and number of distribution arms per carrier as well as a suitable rotor speed Almost any geometric shape of the seed or fertilizer delivery can be achieved. Additionally the surface density of the deposit points can be adapted accordingly to the respective seed or fertilizer will.

In order to achieve a linear deposit of the goods to be distributed transversely to the direction of travel of the ordering device it is useful if the distribution arms are aligned when viewed in the direction of the axis of rotation. Furthermore, the Ordering device advantageously designed so that the speed of rotation of the carrier with the rotor carrying the distribution arms and its speed of movement relative to one another to the desired Distribution of the goods to be distributed can be coordinated. The rotor for the distribution arms can be through a Drive motor to be driven, to keep the ratio of driving speed and constant Rotor speed a control device is available. There is also the possibility that the distribution arms in Forward movement direction or are driven against the same.

In a preferred embodiment, the ends of the Distribution arms bent so that clogging of the outlet openings when the distribution arms penetrate into the soil is avoided. In an advantageous further development, the distribution arm can consist of a soil cultivation tool and a separate distribution pipe. The distribution pipe on the back of the Soil cultivation tool be arranged deepened.

A metered delivery of the material to be distributed can expediently be achieved in that an intermittent working, the distributing material separating conveyor is available, which depends on the Position of the distributor arms can be actuated. In particular, the delivery rate of the delivery device be adjustable. It also recommends that the height of the rotor can be adjusted by the placement depth to be able to influence the distribution material.

Since the distribution arms are intended to deliver equal amounts of the material to be distributed with one another, it is expedient that each carrier for the distribution arms is assigned a separating device for the seeds or fertilizers is connected to the storage tank via lines. In a preferred embodiment is each carrier has an adjustable and lockable tubular piece connected to the storage container included, are connected to the parallel control disks, between which one with the rotor shaft connected cell wheel is arranged whose cells are assigned to control openings in the control discs, and that a switching and control disk with openings is connected to the rotor shaft, which Has control cam for a mandrel finger, and that the jacket pipe piece has an inlet opening for the In this case, the hollow rotor shaft can be connected to a pressure source and for each Distribution arm support an inlet bore may be present, the associated control disk having a passage opening to the cells of the bucket wheel

The invention is explained in more detail below using exemplary embodiments shown in the drawing; it shows

F i g. 1 shows a schematic view of the ordering device with the rotor lying transversely as seen in the direction of travel,
F i g. 2 a section transverse to the axis of rotation,

F i g. 3 and 4 cross and longitudinal sections of a modified embodiment of a rotor,

Fig. 5 shows a possible distribution scheme for the seeds or fertilizer grains,

F i g. 6 shows a partial longitudinal section of the rotor with a distribution device in the filling station,

F i g. 7 a cross section thereof,

FIG. 8 shows a partial longitudinal section, as in FIG. 6, but with the distribution device in the discharge position,
F i g. 9 shows a cross section thereof, and

10 is a partial view of the distributing finger of the distributing device.

During operation, the ordering device A is coupled to a tractor (not shown) which moves the ordering device A forward at a certain speed in the direction of travel F and which preferably simultaneously drives the device rotor 3, as well as energy for possible input

■ serve for the seeds or fertilizer grains produced.

The ordering device A according to FIG. 1 has a storage container 1 for the seed or fertilizer, which is connected to the hollow rotor 3 via metering lines 2. The rotor 3 is firmly connected to disks 4 which enclose an acute angle λ to the axis of rotation. The disks 4 carry radial distribution arms 5, which are attached to each disk 4 in any desired but constant number.

The rotor 3 is driven by a motor 6, for example a hydraulic motor, at a certain speed of rotation. The material to be distributed is conducted from the storage container 1 via the distribution lines 2 into the hollow body of the rotor 3 by suitable devices described later, from where there is distributed distribution devices within the rotor 3 and the disks 4, which are also formed as hollow bodies, via distributing devices within the rotor 3 and the disks 4 is fed. Appropriate control pulses or other suitable means ensure that the material to be distributed is always discharged from the distribution arms 5 at the moment it reaches the lower distribution level 7. The distance t between the distribution plane 7 and the floor surface 8 can be changed. For this purpose, the rotor 3 mounted in a frame can be arranged so as to be adjustable in height relative to the floor surface 8. A change in the distance f is also possible by changing the point in time at which the material to be distributed leaves the distributing arms. This has the consequence that the material to be distributed emerges from the distribution arms when they assume different positions in relation to the vertical plane on the distribution plane 7.

As shown in FIG. 2, the distributing arms are driven in the direction of rotation U and are shaped in such a way that the material to be distributed runs out unhindered and without clogging in the direction of the arrow Z and is ejected by appropriate control or impulses in a lower position UT of each distributing arm 5. Here, the end of each distribution arm 5, viewed in the dispensing position of the distribution material, is curved against the direction of travel F. It is also conceivable to reverse the direction of rotation of the distribution arms. The curvature of the ends of the distribution arms must then be designed accordingly.

While according to FIG. 2 dispensed the distribution material through the distribution arms 5, which are designed as hollow bodies is, in the embodiment according to FIGS. 3 and 4 the material to be distributed through a distribution pipe 9 which is arranged separately from the soil cultivation tool 10 This gives the opportunity to use the soil cultivation tool 10 for soil cultivation to give optimal shape. So z. B. the soil cultivation tool 10 is a massive, curved Have the shape of a prong with a tapering end. On the one facing away from the work side At the rear, a recess is provided for the distribution pipe 9, which is housed in a protected manner.

FIG. 5 shows a depositing scheme for the distribution material, the deposit being deposited in the direction of travel FaIs in the X coordinate and the deposit being referred to transversely to the direction of travel FaIs deposit in the y coordinate. It is assumed that on each disk 4 there are also radial distribution arms 5 with the same circumferential spacing, the arms of the disks being aligned with one another. The distance a between the disks 4 on the rotor 3 and thus the distance between the laying rows in the V coordinate according to FIG. 1 is now chosen so that, with the storage according to FIG. This arrangement defines the storage distance a in the V coordinate.

The storage distance b in ^ coordinate, which is also the direction of travel F at the same time, is achieved by means of known control devices that

ίο The ratio of the rotational speed of the rotor 3 to the travel speed in the direction of travel F is kept constant. In addition, a coordinated number of distribution arms 5 per disc 4 is selected for the distances b .

is The distance between each seed and fertilizer grain and its nearest neighbor is denoted according to F i g. 5 with c, the factors described in the example are chosen so that the grain placement of the relationship

Ib

vT

is equivalent to.

With this relationship, the shelf is achieved in the form of isosceles triangles, where through other arrangement, any other form of storage can be made possible

According to the embodiments described, any number, but the same number of distribution arms per disk are arranged on each disk 4 and the individual, side by side disks 4 are attached at the same angle to the axis of rotation so that, based on the axis of rotation, each extreme end of a distribution arm closes its nearest neighbor in the direction of rotation at a constant distance follows a circular path around the axes of rotation so that this distance is at the same time the row distance of the seeds or fertilizer bodies transverse to the direction of travel
The distance between the seeds or fertilizer grains in

Direction of travel is determined by corresponding agreement of constant factor from the number of distributor arms and rotor speed on the one hand and corresponding Driving speed on the other hand generated. By appropriate arrangement and appropriate Correspondence of the components mentioned can be achieved, as shown in the exemplary embodiments that the grain deposit in a triangular formation in the form of isosceles triangles each to the The corner points of these triangles are made. This form of grain placement has proven to be particularly favorable. For this, however, it is a prerequisite that the grain deposit of each distributor is the same Rotation angle of the rotor takes place, which z. B. easily achieved by triggering compressed air pulses can be.

By appropriate selection of the distance between the panes and the number of distribution arms per pane and suitable Rotor speed for the disks can therefore be any geometric shape of the with this system Reach the grain deposit.

A major advantage is that the individual distribution arms for the grain deposit are designed in this way are that they enable the preparation of the seedbed at the same time. Are the distribution arms accordingly shaped they are quite capable of a z. B. plowed field in a favorable for the seedlings To transform the structure and at the same time to incorporate the seeds or fertilizers into the application area.

So at the same time a soil structure that is ready for seed and favorable for the growth of the seedlings is created achieved and when introducing the seeds or fertilizer grains also the optimal stand and Conditions for growth created.

In Figures 6-10, one embodiment is one Distribution device for the seeds or fertilizers shown. This facility is inside the each 4 discs housed. It enables one or a certain number of seeds or Detect fertilizer grains and feed them to the respective distributor arm 5 at a determinable moment.

In order to enable a simpler representation, the FIGS. 6 to 10 the disk 4 under a right one Angle attached to the rotor shaft 3. The distributor arms 5 must then have different angles! opposite to own the disk plane.

The distribution device according to FIGS. 6 to 10 essentially consists of the disks 4 which firmly support the distribution arms 5 and which are fastened to the driven rotor shaft 3. In addition to each disk 4, a cellular wheel 15 is attached to the rotor shaft 3, the cells 16 of which are assigned to the inlet opening for the distributor arms 5 in a radially overlapping manner. A switching and control disk 17 is attached to the rotor shaft 3 parallel to the cell wheel 15 and has cams 18 on the side surface facing away from the cell wheel 15. Furthermore, it has openings 19 which follow one another in the direction of rotation U.

The cellular wheel 15 is surrounded by adjacent ones 20 and 22, which are connected on their outer circumference to a casing pipe section 24. The control disk 20 has an opening 21 which can be transferred into congruence with the opening 19 of the switching and control disk 17. The control disk 22 has an opening 23 which is arranged at the same radial distance as the opening 21, but is offset by an angle ot (FIGS. 7 and 9) with respect to the opening 21 24 can be adjusted by an adjuster 25 in arrow directions a or b and can be locked in a determinable position.

The feed lines 2 for the seed or fertilizer S are connected to the casing pipe section 24. This seed or fertilizer S accordingly fills, as indicated in FIG.

On the inner surface of the Mantelrolirstückes 24 is a attached resilient tab 26, which with its free end 27 is radially congruent with the opening 19 the switching and control disk 17 is arranged By moving the control 25, the casing pipe piece and thus also the tab 26 can be adjusted.

There is also an opening 28 on the jacket pipe section 24

(Fig. 8) provided, which at an angle «to the opening 21 of the disk 2Gi and is arranged axially congruent with the channels of the distributor arms 5

The allocation of the seeds or fertilizer grains to the distribution arms 5 now takes place in that Via the feed lines 2, seed is directed into the collecting space 34, which through the rotor shaft 3 and the Jacket pipe section 24 on the one hand and the switching and control disk 17 and the disk 4 or not ίο shown, but possible partition on the other hand is formed. The seeds or fertilizer grains "5" located in this collecting space 34 are separated individually or recorded in a predeterminable number by the spring tab 26, or in the z. B. especially shaped, bulged end 27 is saved

By rotating the switching and control disk 17, this Federiappen 26 is through the incoming Cam 18 raised. This spring tab 26 hurls the seed or seeds after leaving the cam 18 or fertilizer grains »& <by the following Opening 19 in the cell 16 of the cell wheel 15 rotating synchronously with the indexing and control disk 17.

If the cell 16 is congruent with the opening 28 in the jacket pipe piece 24, this is the case in the cell 16 located good 29 either by centrifugal force and / or by the support of a pressure medium, for example compressed air, via the distributor arm 5 in the amount of Level 7 brought into the ground.

The supporting print medium is

example through the interior of the rotor shaft 3

introduced into the chamber 30 via an opening 35, from

where it is congruent with the opening 23 of the

Control disk 22 with cell 16 of cell wheel 15

through the distribution arm 5 with acceleration of the

Grain 29 can escape.

Seals 31, 32 and 33 prevent leakage. By adjusting the actuator 25 in the direction of arrows a or b , the seeds or fertilizer grains 29 can be introduced into the distribution arms 5 earlier or later, so that these grains are deposited at different depths in the soil.

So that the outlet openings in the circumferential direction distribution arms 5 connected successively to the rotor shaft 3 on an imaginary cylinder jacket surface come to lie radially and axially offset from one another, the arms 5 in the illustrated embodiment with a right-angled arrangement of the disk 4 be designed to be angled differently to the axis of the rotor shaft 3 in a manner not shown.

The disk 4 could also, as shown in the exemplary embodiment 1, be a so-called inclined disk be trained. The distribution and metering device described could be designed analogously to the exemplary embodiment 6 to 10.

In addition 7 sheets of drawings

Claims (14)

Patent claims: 1. Agricultural tillage device for spreading, distributing and bringing in seeds Fertilizer, with a storage container for the material to be distributed, a separating device and a distribution and introduction device, which has several on a driven rotating carrier (4) Distributing troughs (5; 9, 10) which are arranged evenly distributed and penetrate into the introduction surface (7) Has outlet openings, the axis of rotation to the introduction surface (7) substantially runs parallel and transversely to the direction of movement, and wherein the outlet openings on one around the axis of rotation are imaginary cylinder jacket surface, characterized in that that the distribution arms (5; 9, 10) on several in the direction of the axis of rotation, evenly distributed and Carriers (4) arranged parallel to one another are provided, and that each one carrier (4) associated outlet openings at an acute angle «against the axis of rotation inclined plane. 2. Apparatus according to claim 1, characterized in that the distribution arms (5; 9, 10) in the direction aligned with the axis of rotation. 3. Apparatus according to claim 1 or 2, characterized in that the speed of rotation a rotor (3) carrying the carrier (4) with the distribution arms (5; 9, 10) and its speed of movement are mutually coordinated for the desired distribution of the distribution material. 4. Apparatus according to claim 3, characterized in that the rotor (3) for the distribution arms (5; 9, 120) is driven by a drive motor (6) and that to keep the ratio of Driving speed and rotor speed a control device is available 5. Device according to one of claims 1 to 4, characterized in that the distribution arms (5; 9, 10) are driven in the forward direction of movement or in the opposite direction. 6. Device according to one of claims 1 to 5, characterized in that the ends of the Distribution arms (5; 9,10) are curved. 7. Device according to one of claims 1 to 6, characterized in that the distribution arm (5; 9, 10) consists of a soil cultivation tool (10) and a separate distribution pipe (9). 8. Apparatus according to claim 7, characterized in that the distribution pipe (9) on the back of the Soil cultivation tool (10) is arranged recessed. 9. Device according to one of claims 1 to 8, characterized in that one is intermittent working, the distributing material separating conveyor device is available, which depends on the Position of the distribution arms can be actuated. 10. Apparatus according to claim 9, characterized in that the delivery rate of the conveyor device is adjustable. 11. Device according to one of claims 3 to 10, characterized in that the rotor (3) is adjustable in height. 12. Device according to one of claims 1 to 11, characterized in that each carrier (4) a separating device for the seed or fertilizer is assigned to the distribution arms (5; 9, 10) is, which is completed in each case via lines (2) to the storage container (1) 13. The apparatus according to claim 12, characterized in that each carrier (4) of one adjustable and lockable jacket pipe section (24) connected to the storage container (1) is included, are connected to the parallel control disks (20,22), between which one with the ίο Rotor shaft (3) connected cell wheel (15) arranged is, whose cells (16) are assigned in the control disks control openings (21), and that with the rotor shaft (3) is connected to a switching and control disk (17) with openings (19), the control cams (218) for a mandrel finger (26), and that the jacket pipe piece has an inlet opening (28) for the Has distribution arms 14. The apparatus according to claim 13, characterized in that the hollow rotor shaft (3) to a Pressure source is connected and that an inlet bore (35) is provided for each distribution arm support (4) is, and that the associated control disc (22) has a passage opening (23) to the cells (16) of the Has cell wheel (15)