WO2011152719A1 - Device for removing weeds from lawns - Google Patents

Device for removing weeds from lawns Download PDF

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Publication number
WO2011152719A1
WO2011152719A1 PCT/NL2011/050378 NL2011050378W WO2011152719A1 WO 2011152719 A1 WO2011152719 A1 WO 2011152719A1 NL 2011050378 W NL2011050378 W NL 2011050378W WO 2011152719 A1 WO2011152719 A1 WO 2011152719A1
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WO
WIPO (PCT)
Prior art keywords
cutting
cutting elements
lawn
driven shaft
movement
Prior art date
Application number
PCT/NL2011/050378
Other languages
French (fr)
Inventor
Marinus Reincke
Original Assignee
Maredo B.V.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Maredo B.V. filed Critical Maredo B.V.
Publication of WO2011152719A1 publication Critical patent/WO2011152719A1/en

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Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01BSOIL WORKING IN AGRICULTURE OR FORESTRY; PARTS, DETAILS, OR ACCESSORIES OF AGRICULTURAL MACHINES OR IMPLEMENTS, IN GENERAL
    • A01B45/00Machines for treating meadows or lawns, e.g. for sports grounds
    • A01B45/02Machines for treating meadows or lawns, e.g. for sports grounds for aerating
    • A01B45/026Scarifiers comprising a knife reel actively driven around a substantially horizontal shaft
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01DHARVESTING; MOWING
    • A01D34/00Mowers; Mowing apparatus of harvesters
    • A01D34/01Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus
    • A01D34/412Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters
    • A01D34/42Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a horizontal axis, e.g. cutting-cylinders
    • A01D34/52Cutting apparatus

Definitions

  • the invention relates to a device for removing weeds from lawns, comprising: a frame, a movement feature arranged on the frame for moving the device in a direction of movement across the ground, a driven shaft which is mounted in bearings in the frame, parallel to the lawn and perpendicular to the direction of movement, a drive device which causes the driven shaft to rotate, at least two discs mounted on and driven by the driven shaft, at least two cutting elements which are fixedly attached to the
  • Grass blades die as a result of lawns being used and due to environmental factors. Said dying grass blades provide a felt layer which separates the ground from the open air. This results in a lack of oxygen, as a result of which furthermore healthy grass may die. At this location, weed clumps may establish themselves. Weed clumps do not impose high demands on the ground and, in many cases, are stronger than grass clumps. For this reason, weed clumps can also become established in a healthy existing lawn, as soon as an empty spot becomes available. When the weeds have become established, they will start to propagate by developing and spreading the seeds formed on the weed clumps. The use of chemical and/or biological weed killers is being restricted more and more.
  • a first aspect of the invention provides a device wherein the cutting elements are not mounted perpendicular to the driven shaft, but at an angle to the centre axis of the driven shaft, in which case a cutting direction of the cutting elements substantially corresponds to the direction of movement at the location where the lawn is being cut.
  • Weed clumps not only comprise plants of a completely different variety to grass (coarse-leafed and rapid-growing plants), but also other undesirable types of grass, such as, for example, annual meadow grass (Poa Annua) which establishes itself in golf greens. Poa Annua is not desired there, as it has different playing qualities and colors differently.
  • the present invention provides a mechanical device which pulls these weed clumps out.
  • Desirable grass consists of thin shoots of grass above ground and a good, deep root system below ground. Weeds are often coarse-leaved, contain relatively thick shoots and initially take root in the upper layer of the lawn. As a result thereof, the weed clumps can be pulled out in a simple manner at an early stage while causing minimal damage to the desirable grass clumps, provided that the lawn is combed out thoroughly in all directions.
  • the present invention is provided with cutting elements which are fixedly attached to the driven shaft and are situated in a plane which is not perpendicular to the centre axis of the driven shaft. As a result thereof, each cutting element will make its own cut in the lawn.
  • the lateral distance between the various cutting elements is determined by the angle of the plane in which they have been placed relative to the driven shaft, as well as by the number of cutting elements which is provided on the periphery of this plane.
  • the cutting direction of the cutting elements during cutting of the lawn is substantially the same direction as the direction of movement of the frame. As a result thereof, the cutting element rotates in the direction of movement out of the lawn and a weed clump is pulled out.
  • the degree of pulling out is determined by the speed of rotation, the cutting angle of the cutting element to the lawn, the thickness of the cutting element, the lateral distance between the cuts and the set working depth of the cutting element.
  • the user can change the various settings and can thus change the intensity of the removal operation of the weeds in a simple manner.
  • the present invention is provided with relatively thin cutting blades which cut between the grass clumps. Damage to the grass clumps cannot be avoided, but said damage is small and the grass clump will survive it. In particular when the weed clump has been pulled out and the grass clump gets more air, water and oxygen
  • Fig. 1 shows a perspective view of the device according to a first embodiment of the invention
  • Fig. 2 shows a cut-away side view
  • Fig. 3 shows a detail view of the pulling-out operation in more detail
  • Fig. 4 shows a diagrammatic longitudinal section along the driven shaft with cutting discs from Fig. 1,
  • Fig. 5 shows the cutting pattern of a verticulator device
  • Fig. 6 shows the pulling-out action of the weed-pulling device.
  • Fig.l, Fig. 2 and Fig. 3 show the device for removing weeds.
  • the device consists of a main frame 1 with non-limiting fastening means 3 and 5 by means of which the device can be attached to a driving vehicle for moving the device across the ground in a direction of movement.
  • the device rests on the lawn by means of support wheels 4.
  • the device rests on the lawn by means of support roller 6, by means of which the working depth can also be adjusted.
  • the device is provided with a driven shaft 20 which is mounted in bearings and runs parallel to the lawn, perpendicular to the direction of movement, and a drive device 7 which causes the driven shaft to rotate.
  • the drive device can be coupled to an external drive source, for example the driving vehicle.
  • the pulled-out weeds are collected in collecting device 2.
  • Fig. 2 diagrammatically shows the operation in a cut-away side view.
  • the driven shaft 20 is situated in a plane parallel to the lawn and perpendicular to the direction of movement 10.
  • a plurality of discs 17 is mounted on this shaft.
  • Cutting elements 17a are fixedly attached around the circumference of disc 17.
  • the cutting elements 17a can form a single part of or be incorporated into the disc 17 and be mounted directly on the driven shaft 20 by means of another part of the disc.
  • the disc 17 is then mounted on this driven shaft 20 so as to be not perpendicular with respect to the centre axis of the driven shaft and is driven by said shaft 20.
  • the speed of rotation and the direction of rotation of the cutting elements 17a can be adjusted by means of the drive device 7.
  • the direction of rotation 12 of the cutting elements is thus that, during cutting through the lawn 22, the cutting direction of the cutting elements 17a substantially corresponds to the direction of movement 10 of the device.
  • the cutting elements pull out the weed clumps 13 and throw these 11 into the collecting device 2.
  • the device may furthermore be provided with a guide plate 24 and 21, positioned tangentially to the cutting elements 17a, in the position where the cutting elements emerge from the ground.
  • Fig. 3 shows in detail the point in time when the cutting element 17a pulls out the weeds at location 25 and then forces these 1 1 in the direction of the collecting device 2, Fig. 2, along the guide plate 24 and 21.
  • This is one function of guide plate 24.
  • the other function can also be seen in Fig. 3, namely bending the weed clump 13a over in the direction of movement during the movement 10 of the entire device 1 , Fig. 2, so that cutting element 17a can pull the weed clump out of the lawn from the roots. This is advantageous if the weed clump has already produced seeds.
  • the exit angle Al of the ⁇ cutting element is important, as the magnitude of the angle determines to what degree cutting and/or pulling out takes place. It is conceivable that if the cutting angle Al is 90°, more cutting takes place, whereas if the cutting angle is 180°, more pulling out takes place. As weed clumps differ, this angle Al, which is formed by the angle at which the cutting elements 17a are mounted on the cutting disc 17, may, in another embodiment, be set beforehand.
  • the cutting elements 17a may be screwed on the disc 17 at a predetermined angle Al .
  • the working depth D2 also affects the final result. If the weed clump 13b is more developed, it is more deeply rooted and the working depth will have to be increased in order to pull out the weed clump. To this end, the working depth D2 is adjusted. In an embodiment of the device, the working depth D2 can be adjusted within a range from 0 to 10 mm.
  • Fig. 4. shows the oblique position of the discs 17 with the cutting elements 17a in a longitudinal section along the driven shaft 20.
  • the angle A2 which is not 90 degrees, ensures that the cutting elements 17a which are mounted on the cutting disc, each make their own cut next to one another 30 in the lawn 22 during the rotation of the driven shaft 20 with the mounted discs 17.
  • the distance between the individual slots is determined by the oblique position of the cutting elements, angle A2, in combination with the number of cutting elements along the circumference of the disc 17.
  • Fig. 5. shows the cutting pattern of a known verticulator device.
  • a number of cutting blades 42 are mounted perpendicularly on the drive shaft.
  • the drive shaft 20 runs parallel to the lawn 15 and perpendicular to the direction of movement 10.
  • the direction of rotation 40 on the lawn 15 is opposite to the direction of movement 10.
  • a cutting element 42a of cutting blade 42 hits the weed clump 41, it will cut off a number of leaves in the downward direction.
  • the weed clump 41 itself will not be pulled out, as the cutting direction is directed towards the ground layer 22. If seeds have formed on the weed stems, there is a significant risk of these falling off and being planted directly in the ground, thus creating a considerable risk of the development of ⁇
  • a verticulator device continuously cuts slots 43 at a distance LI. It will be clear that these slots cannot be situated too close to one another, as otherwise this would result in too much damage on the lawn 15. There is also a significant risk that the slots 43 would open up further in case of draught, which adversely affects the healing process of the lawn. Verticulators are suitable for cutting out a felt layer 23 which forms on the ground 22 over time, but are not suitable for pulling out weed clumps 41, due to their excessive speed of rotation.
  • Fig. 6. shows the cutting pattern of the present device for pulling out weeds.
  • the direction of rotation 12 is different as, at the location of the lawn 15, it moves in the same direction as the direction of movement 10.
  • the result thereof is that cutting element 17a will pull out the weed clump 41 from below.
  • the cutting elements, in this case mounted on disc 17, are at an angle A2, Fig. 4, to the drive shaft 20.
  • each cutting element 17a will make its own cut 52 in the lawn 15 during rotation 12. This produces many, non-continuous slots which are close to one another and are separated by a distance L2.
  • the lateral distance in between is determined by the number of cutting elements per disc and the angle at which the cutting element is mounted on the drive shaft 20.
  • the lawn 15 is thus treated much more intensely than is the case with the verticulator device from Fig. 5.
  • Fig. 5 if there is a weed clump 41 between the continuous slots 43, then this will not even be cut.
  • Fig. 6 it is much less likely that a weed clump 41 can escape one of the cutting elements.
  • the non-continuously cut slots 50, 52 have a certain length L4 which depends on the speed of rotation 12 of the cutting elements. The distance L3 between two slots cut by the same cutting element, is determined by the speed of movement 10. In short, the ratio between the speed of movement 10 and the speed of rotation 12 partly determines the intensity of the pulling-out operation.
  • the invention relates to a device for removing weed clumps from existing lawns.
  • the invention can be summarized as follows.
  • the device comprises a frame holding a drive shaft, parallel to the lawn and perpendicular to the direction of movement, which is provided with discs comprising cutting elements.
  • the frame can be coupled to a driving vehicle in order to move the device across the ground in a direction of movement.
  • the discs with cutting elements are fixedly attached to the driven shaft at an angle which is not perpendicular, but which may be adjustable.
  • the cutting direction of the cutting elements in the lawn substantially corresponds to the direction of movement.
  • the cutting elements which are distributed across the circumference of the discs will cut short slots into the lawn at a small distance next to one another and pull out weed clumps.
  • the speed of movement determines the distance between the cut slots of the same cutting element, thus making it easy for the user to change the intensity of the operation.

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  • Life Sciences & Earth Sciences (AREA)
  • Environmental Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Soil Sciences (AREA)
  • Soil Working Implements (AREA)

Abstract

The invention relates to a device for removing weed clumps from existing lawns. The device comprises a frame (1) holding a driven shaft (20), parallel to the lawn and perpendicular to the direction of movement, which is provided with discs (17) comprising cutting elements (17a). The frame (1) can be coupled to driving vehicle for moving the device across the ground in a direction of movement. The discs (17) with cutting elements (17a) are fixedly attached to the driven shaft (20) at an angle which is not perpendicular, but which may be adjustable. Also, the cutting direction of the cutting elements (17a) in the lawn substantially corresponds to the direction of movement. As a result thereof, the cutting elements which are distributed across the circumference of the discs (17), will cut short slots into the lawn at a small distance next to one another and pull out weed clumps. The speed of movement determines the distance between the cut slots of the same cutting element (17a), thus making it easy for the user to change the intensity of the operation.

Description

DEVICE FOR REMOVING WEEDS FROM LAWNS.
The invention relates to a device for removing weeds from lawns, comprising: a frame, a movement feature arranged on the frame for moving the device in a direction of movement across the ground, a driven shaft which is mounted in bearings in the frame, parallel to the lawn and perpendicular to the direction of movement, a drive device which causes the driven shaft to rotate, at least two discs mounted on and driven by the driven shaft, at least two cutting elements which are fixedly attached to the
circumference of the disc.
Grass blades die as a result of lawns being used and due to environmental factors. Said dying grass blades provide a felt layer which separates the ground from the open air. This results in a lack of oxygen, as a result of which furthermore healthy grass may die. At this location, weed clumps may establish themselves. Weed clumps do not impose high demands on the ground and, in many cases, are stronger than grass clumps. For this reason, weed clumps can also become established in a healthy existing lawn, as soon as an empty spot becomes available. When the weeds have become established, they will start to propagate by developing and spreading the seeds formed on the weed clumps. The use of chemical and/or biological weed killers is being restricted more and more. Thus, it is becoming increasingly difficult to combat weed clumps in existing lawns. In practice, there are few, if any, mechanical devices which can remove weeds effectively. In some cases, verticulators are being used; initially in order to combat the felt layer, but also in the hope of damaging the weed clumps to such an extent that they die.
It is an object of the invention to provide a device which is configured to substantially remove the weed clumps from a lawn.
In order to achieve this object, a first aspect of the invention provides a device wherein the cutting elements are not mounted perpendicular to the driven shaft, but at an angle to the centre axis of the driven shaft, in which case a cutting direction of the cutting elements substantially corresponds to the direction of movement at the location where the lawn is being cut. P
Pulling weeds is not possible by means of a known verticulator device, as the direction of rotation of the cutting elements actually pushes the weed clumps into the lawn, the speed of rotation is high and because all cutting elements are positioned in one plane perpendicular to the centre axis of the driven shaft.
Weed clumps not only comprise plants of a completely different variety to grass (coarse-leafed and rapid-growing plants), but also other undesirable types of grass, such as, for example, annual meadow grass (Poa Annua) which establishes itself in golf greens. Poa Annua is not desired there, as it has different playing qualities and colors differently.
The present invention provides a mechanical device which pulls these weed clumps out. Desirable grass consists of thin shoots of grass above ground and a good, deep root system below ground. Weeds are often coarse-leaved, contain relatively thick shoots and initially take root in the upper layer of the lawn. As a result thereof, the weed clumps can be pulled out in a simple manner at an early stage while causing minimal damage to the desirable grass clumps, provided that the lawn is combed out thoroughly in all directions.
The present invention is provided with cutting elements which are fixedly attached to the driven shaft and are situated in a plane which is not perpendicular to the centre axis of the driven shaft. As a result thereof, each cutting element will make its own cut in the lawn. The lateral distance between the various cutting elements is determined by the angle of the plane in which they have been placed relative to the driven shaft, as well as by the number of cutting elements which is provided on the periphery of this plane. In addition, the cutting direction of the cutting elements during cutting of the lawn is substantially the same direction as the direction of movement of the frame. As a result thereof, the cutting element rotates in the direction of movement out of the lawn and a weed clump is pulled out. The degree of pulling out is determined by the speed of rotation, the cutting angle of the cutting element to the lawn, the thickness of the cutting element, the lateral distance between the cuts and the set working depth of the cutting element. The user can change the various settings and can thus change the intensity of the removal operation of the weeds in a simple manner. For this purpose, the present invention is provided with relatively thin cutting blades which cut between the grass clumps. Damage to the grass clumps cannot be avoided, but said damage is small and the grass clump will survive it. In particular when the weed clump has been pulled out and the grass clump gets more air, water and oxygen
Further advantageous embodiments of the invention are described in the dependent claims.
The invention will be described in more detail with reference to the non-limiting exemplary embodiment which is illustrated in the following figures, in which:
Fig. 1 shows a perspective view of the device according to a first embodiment of the invention,
Fig. 2 shows a cut-away side view,
Fig. 3 shows a detail view of the pulling-out operation in more detail,
Fig. 4 shows a diagrammatic longitudinal section along the driven shaft with cutting discs from Fig. 1,
Fig. 5 shows the cutting pattern of a verticulator device, and
Fig. 6 shows the pulling-out action of the weed-pulling device.
Fig.l, Fig. 2 and Fig. 3 show the device for removing weeds. The device consists of a main frame 1 with non-limiting fastening means 3 and 5 by means of which the device can be attached to a driving vehicle for moving the device across the ground in a direction of movement. At the front, the device rests on the lawn by means of support wheels 4. At the back, the device rests on the lawn by means of support roller 6, by means of which the working depth can also be adjusted. Furthermore, the device is provided with a driven shaft 20 which is mounted in bearings and runs parallel to the lawn, perpendicular to the direction of movement, and a drive device 7 which causes the driven shaft to rotate. The drive device can be coupled to an external drive source, for example the driving vehicle. The pulled-out weeds are collected in collecting device 2.
Fig. 2 diagrammatically shows the operation in a cut-away side view. In the figure, it is indicated diagrammatically that weed clumps 13 are larger in size and their roots 14 do not extend as far as the more deeply rooted roots 16 of the desirable grass clumps 15. The driven shaft 20 is situated in a plane parallel to the lawn and perpendicular to the direction of movement 10. A plurality of discs 17 is mounted on this shaft. Cutting elements 17a are fixedly attached around the circumference of disc 17. In an embodiment, the cutting elements 17a can form a single part of or be incorporated into the disc 17 and be mounted directly on the driven shaft 20 by means of another part of the disc. The disc 17 is then mounted on this driven shaft 20 so as to be not perpendicular with respect to the centre axis of the driven shaft and is driven by said shaft 20. The speed of rotation and the direction of rotation of the cutting elements 17a can be adjusted by means of the drive device 7. The direction of rotation 12 of the cutting elements is thus that, during cutting through the lawn 22, the cutting direction of the cutting elements 17a substantially corresponds to the direction of movement 10 of the device. When emerging from the lawn 22, the cutting elements pull out the weed clumps 13 and throw these 11 into the collecting device 2.
The device may furthermore be provided with a guide plate 24 and 21, positioned tangentially to the cutting elements 17a, in the position where the cutting elements emerge from the ground. Fig. 3 shows in detail the point in time when the cutting element 17a pulls out the weeds at location 25 and then forces these 1 1 in the direction of the collecting device 2, Fig. 2, along the guide plate 24 and 21. This is one function of guide plate 24. The other function can also be seen in Fig. 3, namely bending the weed clump 13a over in the direction of movement during the movement 10 of the entire device 1 , Fig. 2, so that cutting element 17a can pull the weed clump out of the lawn from the roots. This is advantageous if the weed clump has already produced seeds. These seeds are often attached to the stalks of the plant. When cutting element 17a moves past these seeds, these seeds may fall and germinate again in the soil. In order to prevent this from happening, the weed clump 13a is bent forwards. The degree of bending can be adjusted by changing the distance Dl . The exit angle Al of the Γ cutting element is important, as the magnitude of the angle determines to what degree cutting and/or pulling out takes place. It is conceivable that if the cutting angle Al is 90°, more cutting takes place, whereas if the cutting angle is 180°, more pulling out takes place. As weed clumps differ, this angle Al, which is formed by the angle at which the cutting elements 17a are mounted on the cutting disc 17, may, in another embodiment, be set beforehand. In an embodiment, the cutting elements 17a may be screwed on the disc 17 at a predetermined angle Al . Apart from the angle Al, the working depth D2 also affects the final result. If the weed clump 13b is more developed, it is more deeply rooted and the working depth will have to be increased in order to pull out the weed clump. To this end, the working depth D2 is adjusted. In an embodiment of the device, the working depth D2 can be adjusted within a range from 0 to 10 mm.
Fig. 4. shows the oblique position of the discs 17 with the cutting elements 17a in a longitudinal section along the driven shaft 20. The angle A2, which is not 90 degrees, ensures that the cutting elements 17a which are mounted on the cutting disc, each make their own cut next to one another 30 in the lawn 22 during the rotation of the driven shaft 20 with the mounted discs 17. The distance between the individual slots is determined by the oblique position of the cutting elements, angle A2, in combination with the number of cutting elements along the circumference of the disc 17. In a device which is not discussed in any more detail, it is possible to adjust the angle A2 centrally by means of an adjustment mechanism, as a result of which the lateral distance between the cuts 30 changes. Fig. 5. shows the cutting pattern of a known verticulator device. A number of cutting blades 42 are mounted perpendicularly on the drive shaft. The drive shaft 20 runs parallel to the lawn 15 and perpendicular to the direction of movement 10. The direction of rotation 40 on the lawn 15 is opposite to the direction of movement 10. As soon as a cutting element 42a of cutting blade 42 hits the weed clump 41, it will cut off a number of leaves in the downward direction. The weed clump 41 itself will not be pulled out, as the cutting direction is directed towards the ground layer 22. If seeds have formed on the weed stems, there is a significant risk of these falling off and being planted directly in the ground, thus creating a considerable risk of the development of Γ
new weed clumps. It can also clearly be seen that a verticulator device continuously cuts slots 43 at a distance LI. It will be clear that these slots cannot be situated too close to one another, as otherwise this would result in too much damage on the lawn 15. There is also a significant risk that the slots 43 would open up further in case of draught, which adversely affects the healing process of the lawn. Verticulators are suitable for cutting out a felt layer 23 which forms on the ground 22 over time, but are not suitable for pulling out weed clumps 41, due to their excessive speed of rotation.
Fig. 6. shows the cutting pattern of the present device for pulling out weeds. First of all, the direction of rotation 12 is different as, at the location of the lawn 15, it moves in the same direction as the direction of movement 10. The result thereof is that cutting element 17a will pull out the weed clump 41 from below. In addition, the cutting elements, in this case mounted on disc 17, are at an angle A2, Fig. 4, to the drive shaft 20. As a result thereof, each cutting element 17a will make its own cut 52 in the lawn 15 during rotation 12. This produces many, non-continuous slots which are close to one another and are separated by a distance L2. The lateral distance in between is determined by the number of cutting elements per disc and the angle at which the cutting element is mounted on the drive shaft 20. The lawn 15 is thus treated much more intensely than is the case with the verticulator device from Fig. 5. In Fig. 5, if there is a weed clump 41 between the continuous slots 43, then this will not even be cut. In Fig. 6, it is much less likely that a weed clump 41 can escape one of the cutting elements. The non-continuously cut slots 50, 52 have a certain length L4 which depends on the speed of rotation 12 of the cutting elements. The distance L3 between two slots cut by the same cutting element, is determined by the speed of movement 10. In short, the ratio between the speed of movement 10 and the speed of rotation 12 partly determines the intensity of the pulling-out operation. As this ratio can be changed simply and quickly while working with the device, it is easy for the user to rapidly increase the intensity of the operation in the case of lawns containing many weeds. Another important difference is the fact that the speed of rotation 12 of the device in Fig. 6 is lower than that in Fig. 5. Pulling out takes place at a lower speed of rotation than cutting out. In an embodiment of the device according to the invention, the speed of rotation of the cutting elements is in the range from 500 to 800 rotations per minute. The invention relates to a device for removing weed clumps from existing lawns. The invention can be summarized as follows. The device comprises a frame holding a drive shaft, parallel to the lawn and perpendicular to the direction of movement, which is provided with discs comprising cutting elements. The frame can be coupled to a driving vehicle in order to move the device across the ground in a direction of movement. The discs with cutting elements are fixedly attached to the driven shaft at an angle which is not perpendicular, but which may be adjustable. Also, the cutting direction of the cutting elements in the lawn substantially corresponds to the direction of movement. As a result thereof, the cutting elements which are distributed across the circumference of the discs, will cut short slots into the lawn at a small distance next to one another and pull out weed clumps. The speed of movement determines the distance between the cut slots of the same cutting element, thus making it easy for the user to change the intensity of the operation.

Claims

8 Claims
1. The invention relates to a device for removing weeds from lawns, comprising: a frame,
- a movement feature arranged on the frame for moving the device in a direction of movement across the ground,
- a driven shaft which is mounted in bearings in the frame, parallel to the lawn and perpendicular to the direction of movement,
- a drive device which causes the driven shaft to rotate,
at least two discs mounted on and driven by the driven shaft, and
- at least two cutting elements which are fixedly attached to the circumference of the disc,
wherein the cutting elements are not mounted perpendicular to the driven shaft, but at an angle to the centre axis of the driven shaft, in which case a cutting direction of the cutting elements substantially corresponds to the direction of movement at the location where the lawn is being cut.
2. Device according to Claim 1 , wherein the device is provided with a guide plate, positioned tangentially to the cutting elements, in the position where the cutting elements emerge from the ground.
3. Device according to Claim 1 , wherein the angle at which the cutting elements are mounted on the driven shaft is adjustable.
4. Device according to Claim 1, wherein the angle and the distance of the guide plate with respect to the lawn are adjustable.
5. Device according to Claim 1 , wherein the cutting angle of the cutting elements, being the angle between the lawn which is in front and the cutting edge of the emerging cutting element, determines the degree of cutting and/or pulling out.
6. Device according to Claim 5, wherein the cutting angle is adjustable.
7. Device according to Claim 1 , wherein the speed of rotation of the cutting elements can be adjusted by means of the drive device.
8. Device according to Claim 1 , wherein the speed of rotation of the cutting elements is adjustable in the range from 500-800 rotations per minute.
9. Device according to Claim 1, wherein a collecting device collects the cut material.
10. Device according to Claim 1 , wherein the cutting elements form a single unit with the disc and, with another part of the disc, are directly attached to the driven shaft.
PCT/NL2011/050378 2010-05-31 2011-05-30 Device for removing weeds from lawns WO2011152719A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
NL1037992A NL1037992C2 (en) 2010-05-31 2010-05-31 DEVICE FOR REMOVING WEED FROM GRASS FIELDS.
NL1037992 2010-05-31

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WO2011152719A1 true WO2011152719A1 (en) 2011-12-08

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GB2494275A (en) * 2011-08-25 2013-03-06 Richard Campey Ltd Method and equipment for treating turf
GB2499257A (en) * 2012-02-13 2013-08-14 Richard Campey Ltd Method and equipment for treating turf
US9119388B2 (en) 2013-03-15 2015-09-01 Harvest Moon Automation Inc. Selectively eradicating plants
WO2016074270A1 (en) * 2014-11-14 2016-05-19 上虞市冠业电器有限公司 Cutting device
CN110419315A (en) * 2019-09-02 2019-11-08 安徽农业大学 A kind of foreign body eliminating apparatus and its control method
FR3088801A1 (en) * 2017-12-06 2020-05-29 Sebraf DEVICE FOR DECOMPACTING AND HOMOGENEIZING A FIBER OR PARTICLE MATERIAL FOR THE PURPOSE OF APPLYING IT TO THE GROUND

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