NL1026442C2 - Ground working equipment is used in connection with planting seed and comprises frame with forward movement devices - Google Patents

Abstract

The ground working equipment (41) is used for planting of seed, such as grass, and comprises a frame (1) which is accommodated in a housing (40), with forward movement devices, such as a support wheel (9) and a first working device, such as a disk (10). Both wheel and disk rotate around shafts (11,12) connected with a sub-frame (13). This sub-frame is pivotably connected with the main frame (1) via a shaft (14). The connection between the sub-frame and the main frame is formed by a coupling shaft (16). The first disk has a peripheral edge which is sharpened and cuts a groove in the ground (7). A second ground working disk (20) is also incorporated. The first disk splits the ground open and the second disk contributes to widening the cut. The seed (6) via a funnel (23) fixed to the sub-frame is positioned between the two disks, and is discharged to the required depth. Finally, a rear roller (9) is moved over the open groove (24) which it closes and compacts.

Description

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The invention relates to a soil working device for working soil comprising a frame, moving means arranged on the frame for moving in a direction of travel and on processing means arranged on the frame. The invention also relates to a method for applying seeds to cultivated soil, comprising providing seeds, arranging a slot in the soil to be processed and arranging seeds in the slot.

The invention preferably relates to a soil cultivating device wherein the cultivating means - a soil cultivating means for making a cut in the form of preferably at least a first disc for cutting a slot in the soil rotatably around a first axis of rotation. the frame is arranged, and - comprises at least one slot processing means for opening the slot, and wherein the first disc and the slot processing means preferably have a point of contact.

It is known to provide a slot in a substrate such as for sowing grass. The seeds are placed in the groove. A special application is the so-called overseeding, whereby new seed is applied in an existing field.

A known embodiment of a soil cultivating device, such as for overseeding, comprises two angled discs arranged at an angle, which cut into the soil, such as an existing turf, which fold open the cut and let the seed fall into it. Another known embodiment is a soil tillage device such as a sowing machine with one angled disc, against which a fixed coulter is mounted which pushes the trench made further open. The seed is applied between the rotating, cutting disc and the stationary coulter.

It is noted that by opening the slot or cut is meant allowing the free application of seeds to a working depth in the ground between the chopped sods of the field.

With the known machines, each disc is pressed into the ground under load. A rear roller that extends over the full machine width must ensure that the slots made are closed again.

A problem with a known soil cultivating device is, in particular, when there is a tough substrate, such as when there is a lot of felt, that a perfect cut does not occur, but a forced pressed serrated slot. The sown seed will then not end up in the slot, but on the ground, where it is difficult to germinate.

The object of the invention is to improve the cutting of the slot for sowing.

The object of the invention is preferably achieved in that the point of contact of the first disc with the slot processing means lies in the direction of travel for a vertical plane through the first axis of rotation and the first disc protrudes in the direction of travel beyond the slot processing means. As a result, first a cut or slot will be cut into the soil, which is then opened by the slot processing means, so that, for example, seed can be introduced into it. Other operations can also be carried out by opening, such as applying fertilizer and / or applying a fluid. According to the invention, applying 1 026442 * 3 the cut with the first disc is followed fairly directly by opening that cut with the slot processing means.

The processing means are preferably movably coupled to the frame by adjusting means. As a result, the respective positions of the processing means can be adjusted relative to each other. In particular, the adjusting means are adapted to move the processing means relative to each other in a direction of travel. This makes it possible to adjust settings, for example in accordance with the properties and conditions of the soil to be worked.

In the embodiment according to the invention the first disc has a peripheral edge, which is sharply edged, for example, whereby the soil is cut, so that a slot is obtained. Such an embodiment can be manufactured at a low cost price.

Preferably, the slot processing means is a second axis of rotation rotatable to the second disc mounted on the frame. This makes it possible to open the cut made with the first disc. The second disc will also be able to rotate, as a result of which the slot processing means becomes immobile with respect to the cut to be opened. In contrast to the state of the art in which a coulter is used, according to the invention no movement / friction of the ground relative to the second disc will occur, as a result of which the opening takes place less forcefully.

According to another embodiment, the object of the invention is achieved in that the soil cultivating means comprise two discs 30 rotatably mounted around an axis on the frame, wherein a first disc protrudes beyond the second disc in the direction of travel. The soil is hereby cut by the first disc and then opened by the rotating second disc. The rotation reduces the damage to the 1026442-4 soil. Preferably, at least one of the discs is placed at an angle other than 0 * with respect to the direction of movement on the frame. This will cause one ""! of the discs force the soil sideways outwards.

In a preferred embodiment, the soil tillage means, that is, the first disc and the slot tillage means, have a point of contact. The two processing means are then two separate parts that come together at the point of contact. The point of contact is located near the surface to be treated.

That point of contact can be set precisely with the adjusting means.

In a preferred embodiment, the point of contact lies in the direction of travel for a vertical plane through the first axis of rotation of the first disc. The first disc projects beyond the slot processing means at a working height, that is, the place where the processing means come into contact with the substrate. This allows the cut made in the ground to be opened in one smooth movement. This is an improvement of known embodiments according to the prior art, wherein a coulter is arranged along a first disc. The fixed coulter moves with a certain working speed along the stationary ground.

It is advantageous to have the first disc protrude past the second disc in the direction of travel, preferably beyond the point of contact with the second disc. As a result, first the cut is formed in the ground and then it is opened. The point of contact does not lie on the peripheral edge of the first disc, but at a point on the inner circumference of the first disc. Because the point of contact lies on the inner circumference, the first disc protrudes beyond the slot processing means, in particular the second disc.

The soil tillage device is preferably provided with sowing means for arranging a seed in the opened slot in the soil. A first soil tillage device can be used as a sowing device, in particular as a sowing device. design. The sowing means are arranged in the 1 | . ; direction of travel behind the point of contact of the processing means.

! It is advantageous to connect at least one processing means, preferably the first disc, to the frame by means of a first sub-frame. This allows the first disc to move independently of the rest of the frame. This has in particular positive influences for the soil tillage depth. All processing means are preferably coupled to the frame via a sub-frame.

In a preferred embodiment, the first and second rotation axes of the first and second discs are not in line with each other. As a result, two discs are obtained which have a V-shape. The V-shape is extremely well suited for opening the formed cut.

The soil cultivating device is preferably provided with a tensioning device arranged on the frame for coupling the soil cultivating device to a vehicle. The tensioning device is preferably provided with a spacer means with which it is possible to tilt the soil cultivating device relative to the vehicle. This allows the editing depth to be set and changed.

The soil cultivating device is preferably provided with drive means arranged on the frame. This makes the soil tillage device itself movable.

The frame is preferably provided with a number of processing means arranged next to each other. As a result, the soil 30 can be worked over a larger width with one soil tillage device, in particular grass can be sown.

The soil cultivating device preferably comprises a rear roller coupled to the frame and arranged in the direction of travel behind the cultivating means. The rear roller closes the opened slot after applying the seeds therein.

The soil cultivating device according to the invention is preferably provided with a number of sub-frames and a number of rear rollers which are arranged on different sub-frames. This allows a better pressure distribution and a more stable working depth for the soil tillage implement.

Advantageously, at least one of the tillage means is mounted on the frame at an angle of less than 90 ° with the usual direction of movement of the soil tillage device. Preferably, at least one of the axis of rotation of the processing means makes an angle of less than 90 "with the direction of movement.

The invention also relates to a method for arranging seeds in worked soil, comprising - providing seeds, - moving over the ground at a speed of movement, - arranging a slot in the ground to be worked by making a cut opening said cut in the ground and after making the cut so that a slit is formed, and - arranging seeds in the slit. The invention is characterized in that the opening of the cut comprises forcing the ground 25 outwards to at least one side with a disc, the disc rotating depending on the speed of movement. As a result, first the cut is formed, which is then opened, the cut being at least partly opened by the action of the disc, which moves with the ground depending on the speed of movement. The speed of movement of that part of the disc that is used to open the cut will be very close to the speed of movement. In contrast to the prior art, no fixed coulter is used to open the slot, but a moving element, such as preferably the disc.

The invention will be further described with reference to the accompanying figures, in which: Figure 1 shows a perspective view of a first embodiment of the invention,

Figure 2 shows a top view of the first embodiment of Figure 1,

Figure 3 shows a cross-sectional view of the first embodiment according to Figure 1,

Figure 4 shows a perspective view of a partially cut-away second embodiment of a part of a soil cultivating device according to the invention, Figure 5 shows a detail according to arrow V in Figure 4,

Figure 6 shows a top view of the second embodiment according to Figure 4,

Figure 7 shows a cross-sectional view of the second embodiment according to Figure 4, Figure 8 shows a view of a soil tillage device 41 according to a further embodiment.

Figure 1 shows a first embodiment of a soil tillage device according to the invention. Shown are parts of the soil tillage device, such as the frame 25. The detail according to figure 1 is a part of a conventional soil tillage device 41 as shown, for example, in figure 8 or Dutch patent 9101552. The complete content of this patent, in particular the parts that In this application, reference is made to reference to the construction of a number of tillage means side by side in the tillage implement.

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The soil tillage device 41 can be pulled by a vehicle 2 shown in Figure 3 or Figure 8. To that end; use is made of the coupling means indicated with generally 1 | Reference numeral 3 formed by a rigid hinged! 5 connection 4 and a spacer 5. This will be discussed below.

The detail shown in Figure 1 is incorporated in a housing 40 of the soil tillage device 41. The housing 1 also accommodates the frame 1. The soil tillage device 10 according to the invention is a sowing machine for sowing seeds 6 into the soil 7 such as the lawn 8.

The soil tillage device 41 according to the invention is movable over the lawn by the moving means, which in the present invention are formed inter alia by the support wheel 9 and tillage means 10 in the form of a first disc 10. Both the support wheel 9 and the disc 10 are rotatably around an axis 11 and 12 respectively connected to frame part 13, which is part of a sub-frame. The sub-frame 13 is pivotally connected via shaft 14 to frame 1. The sub-frame part 13 can pivot around the shaft 14 according to arrow 15. The rotating connections are advantageously formed by a bearing. The connection between frame 13 and frame 1 is formed by a coupling means 16 in the form of a shaft.

First disc 10 has a peripheral edge 17. That peripheral edge is slightly sharp. The weight of the soil cultivating device is supported by the moving means in the form of support wheel 9 and disc 10 and this weight has the result that disc 1 with its peripheral edge 17 cuts through the soil 7, whereby a cut or slot is created.

The first soil tillage means 10 forms a cut in the ground 7 when moving over the lawn 8 as according to arrow 19, that is to say in the direction of movement. The ground 7 will closely connect to the disc on either side of the disc 10.

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Because the peripheral edge 17 is somewhat sharp, the ground 8 is split evenly. The embodiment as a disk in the example shown has the advantage that the disk rotates at such a speed that there is hardly any longitudinal movement of the disk and cut soil. Soil and cutting part of the disc do not slide past each other, so that hardly any friction occurs and no 'plowing' effect occurs.

As a second cultivating means for the soil, a second disc 20, which is shown partially cut away in Figure 1, is connected by means of a bearing with sub-frame 13. The bearing is not shown. The axis 16 of disc 20 is not parallel to the axis 12 of the first disc 10. It is at an angle as indicated by arrow 21. That angle 15 can be made adjustable. Setting means are not shown.

By moving according to arrow 19 over ground 7, both first disc 10 and second disc 10 will rotate clockwise according to the view of figure 1.

Second disc 20 is positioned so that it touches the first disc 10 at a location slightly inwardly located from the outer edge 17 of first disc 10. That point of contact is situated around and near the location just above the field 8, while the first disc 10 penetrates that field with a thickness D. The tangent point is therefore approximately equal to D above the deepest point of first disc 10.

When advancing according to arrow 19, the first disc will first split the ground by making a cut. The cut becomes deeper as the disc 10 moves further according to arrow 19, and only slightly wider. From the point of contact near 22, the second disc 20 does its work and 1026442 opens the shaped cut such that an opening is formed. This opening is more clearly visible in Figure 2. i Seed 6 can now go through funnel 23 that is attached to! the sub-frame 13 are positioned between the discs 10, 5 and 20. The depth of arranging of the seeds 6 is substantially equal to D.

Moving on further in the direction of arrow 19 has the result that the rear roller 9 will move over the opened trench soil. The rear roller 9 will close the opened slot by the pressure exerted on that wheel. The slot is indicated by reference numeral 24.

Between sub-frame 13 and frame 1, in addition to the coupling via shaft 16, a second coupling is made by means of the spring 25. This is connected at a distance from the shaft 14 to sub-frame 13 and frame part 1. Spring means 25 is biased about move the position frame part 13 shown from figure 1 from frame part 1. In fact, a suspension for frame part 1 is thus formed.

Figure 2 shows a top view of the first embodiment according to Figure 1, as it is seen that the axis 12 of the first disc 10 is not aligned with the axis 26 of disc 20. Seen from above, according to arrow 19, first disc 10 protrudes past second disc 20. The point of contact 22 of the second disc 20 on the first disc 10 lies slightly behind the front protruding part of first disc 10 and on the inner circumference of first disc 10.

Thus, first disc 10 can first make the cut in the ground 7 and only then will the two disc 20 perform its processing, namely the folding open of the slot 30 formed in this way into a slot 24.

A space is created between the discs 10 and 20, i.e. in the opened slot of the ground, and seed can be positioned by means of funnel 23. The 1 (^ 26442-11) discs are mounted on the frame in such a way that they have a V-shape # as is clearly visible in Figure 2.

Both discs 10 and 20 are at an angle of less than 1 . 90 * positioned relative to the direction of movement 19.

The support wheel 9 is arranged in line with each of the processing means 10,20 for closing the opened slot. In this way a number of working means (not shown) are arranged next to each other in the soil working device according to the invention. Each of the combination of processing means is mounted on a subframe 13, and is followed in the direction of movement by a support wheel 9.

Each of the sub-frame assemblies of processing means 10,20 and support wheel 9 is connected to frame part 1 by means of a pivot connection with a shaft 16 and by coupling means in the form of a spring 25 with frame part 1, so that a number of independent resilient frame parts be obtained. Depending on local conditions, the total weight of the soil tillage device is transferred to the moving means 9, 10.

In Figure 3 the seed delivery device 27 is visible which intermittently or continuously delivers seed 6 into funnel 23. The intervals may depend on the speed of movement 19, or the seed delivery 25 is independent of the speed of movement 9.

In Figure 3, G denotes gravity due to the total weight of the soil tillage implement. The gravity must be compensated by upward forces Fwen Fd on support wheel 9 and disc 10 respectively. The working depth D is dependent on the soil resistance

Fd. That resistance determines the extent to which spring 25 is depressed, and finally the weight G = (support load on roll = Fw) + (support load on disks = Fd). Because 1026442 12 rear roller / support wheel 9 is mounted on the sub-frame 13, a more constant cutting depth is obtained. The rear roller 9 does not have to follow all the unevenness over the full width of the machine, but can follow its own path independently of the adjacent support wheels. The total weight is distributed over a number of overseeding sub-frames 13 that are placed side by side in the device. Should one of such sub-frames suddenly cut through a softer spot, then it is not possible for the discs 10, 20 to cut deeper because they are directly connected to the support wheel 9. A more constant seeding depth is therefore obtained.

Figure 3 also shows the coupling means 3 which couple the frame 1 of the soil cultivating device according to the invention to a floating vehicle 2.

The soil tillage device according to the invention is kept at a distance via the rigid connection 4, while the variable distance controller 5 allows tilting of the frame and thus of the soil tillage device. This also determines the working depth of the device. After all, by reducing the distance with spacer 5, more pressure will be exerted on the first disc 10, whereby the working depth is increased. The working depth will also depend on spring means 25, the weight of the soil tillage device and force Fd.

Figure 4 shows a second embodiment of a detail of a soil tillage device according to the invention. Equal parts are indicated with the same numbers.

Arrow V indicates a detail that is shown in Figure 5. The detail shows the point of contact 22 of disc 20 on the inner circumference of disc 10. That point of contact lies slightly above the base surface 7.

By placing the first disc 10 and second disc 20 at an angle to each other, the V-13 shape as shown in the plan view of Figure 6 is obtained. The discs make an angle with each other which is shown with arrow 21 in figure 4.

The processing means 20 and 10 are mounted bearing-mounted on sub-frame 13 which is hingedly connected to frame 1 via a shaft 16. The spring 25 provides a suspension on the frame 1.

Several such sub-frames mounted around an axis are included in the soil cultivating device according to the invention, whereby the soil is cultivated in a similar manner in a similar manner as in the example shown in Figs. 1-3.

Support wheel 30 in the second embodiment is a rear roller which is journalled to soil tillage implement 15 (not shown) and which extends behind the whole of adjacent sub-frames with tillage means (comparable figure 8). The rear roller 30 has the width of the soil tillage device.

In this embodiment the tangent point 22 is higher on the first disc 10 than in the first embodiment.

Because sub-frame 13 is arranged loosely on the soil tillage device by means of the spring 25, it is possible that the tillage means 10 and 20 penetrate the soil 7 deeper if, for example, there is a reduced soil resistance. This is now not absorbed by a rear roller mounted on the sub-frame. Even when the operations penetrate deeper into the ground, the point of contact must still be above the ground surface, which can be ensured by placing this point of contact higher on the first disc 10.

By adjusting the position of the two processing means, in the first two embodiments the two disks, such that at the point of contact of the two processing means, one disk projects beyond the other processing means, that disk will cut the work perform and ': act as a' master '. That one disc has an overlap of 1 '! relative to the other processing means.

; The second processing means will mainly be concerned with unfolding the cut made and acting as such as a "slave". During the unrolling of both processing means in / through the ground, the master cuts and opens the slave.

The present invention cuts easier, pollutes less, closes slots better and guarantees a fixed cutting depth.

Today, professional lawns are increasingly being sown. By overseeding is meant: sowing new grass seed in an existing grass field. There are a number of reasons why overseeding has become important: - Increasing sporting activities put more stress on lawns.

- Reduced fertilizer and chemical use make the existing grass vulnerable.

- Newer types of grass seed are often more resistant to certain uses.

- The lawn cannot be taken out of the running, so renovation is not an option.

25 - Climate changes cause a heavier grass load.

In all these cases, overseeding is the only option to provide the grass with new grass seeds. Because overseeding has become increasingly important, there are also more requirements for 30 overseeders. A number of important properties are: - The grass seed must be introduced at a constant adjustable depth.

1026442 15 - The sown grass seed must be well covered and stored.

; 1 - As little damage as possible to the existing grass cover.

I * i. - Results as quickly as possible.

! '5 - A high return.

The present invention also relates to overseeding machines that first make a slot. The grass seed can be introduced into the slot simultaneously during the making of the trench, or afterwards by folding open the cut made.

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Claims (14)

1. Ground cultivating device for working soil 5 comprising a frame / moving means arranged on the frame for moving in a direction of travel and processing means arranged on the frame, wherein the moving means - at least a first disc for cutting a slot in the ground, which is arranged rotatably on a first axis of rotation on the frame, and - comprises at least one slot processing means for opening the slot, and wherein the first disc and the slot processing means have a point of contact, characterized in that the point of contact in the direction of travel for a vertical plane lies through the first axis of rotation and the first disc extends in the direction of travel beyond the slot processing means. 2. Tillage implement as claimed in claim 1, characterized in that at least one of the tillage means is movably coupled to the frame by adjusting means. 3. Tillage implement as claimed in claim 1 or 2, characterized in that the slot tillage means is a second disc which is rotatably arranged around a second axis of rotation on the frame. A soil cultivating device at least dependent on claim 3, characterized in that the first and second axis of rotation do not lie in line with each other. 5. Tillage device as claimed in any of the claims 1-4, characterized in that the point of contact is positioned at a height that is substantially equal to a depth of a tillage with the first disc. 1026442 i-: A soil cultivating device according to any one of claims 1-5, characterized in that the soil cultivating device | is provided with sowing means for applying seed in the trench in the ground. 7. Tillage implement as claimed in any of the foregoing claims, characterized in that at least one tillage means is arranged on a sub-frame which is coupled to the frame. 8. Tillage implement as claimed in any of the foregoing claims, characterized in that the frame is provided with a. tensioning device for coupling the soil tillage device to a vehicle. 9. Tillage implement as claimed in any of the foregoing claims, characterized in that the frame 15 is provided with drive means. A soil cultivating device as claimed in any one of the preceding claims, characterized in that the frame is provided with a number of working means arranged next to each other. A soil cultivating device according to any one of the preceding claims, characterized in that the soil cultivating device comprises a rear roller coupled to the frame, which roller is arranged behind the cultivating means in the direction of travel. 12. A soil cultivating device as claimed in claim 11, characterized in that the frame is provided with a number of sub-frames which is provided with a rear roller. 13. Tillage implement as claimed in any of the foregoing claims, characterized in that the first axis of rotation makes an angle smaller than 90 'with the direction of movement. 14. Method for applying seeds in worked soil, comprising - providing seeds, 1026442 - moving over the soil at a speed of movement - arranging a slot in the soil to be worked by making a cut in the soil and opening said cut after application of the cut so that a slot is formed, and - arranging seeds in the slot, characterized in that the opening of the cut comprises forcing the cut soil outwards to at least one side with a disc, wherein the disc rotates depending on the speed of movement. 1026442