Title of Invention	CUTTING TOOL FOR CUTTING STALKS
Abstract	A cutting tool (1) for cutting plants (2) including stalks, especially cane, includes a bar (4). The bar (4) extends over a working width (34) of the cutting tool (1). A knives set (7) is arranged on the bar (4). The Knives set (7) includes an upper knife unit (8) and a lower knife unit (9). The upper knife unit (8) includes a plurality of blades (10) including a cutting portion (14). The upper knife unit (8) declines downwardly towards the cutting portion (14). The lower knife unit (9) includes a plurality of blades (12) also including a cutting portion (14). The lower knife unit (9) also downwardly declines towards the cutting portion (14). A plurality of driving elements (18, 19) serves to drive the blades (10, 12) to reciprocate in opposite directions within a cutting region (36). A plurality of guiding elements (27, 28) connects the upper knife unit (8) and the lower knife unit (9) to the bar (4). In a working position of the cutting tool (1), the cutting portions (14) are located at least as low as the lower edge (26) of the bar (4) and the lower edge of the driving elements (18, 19) such that there is a free space (25) being located within the cutting region (36).

Title of Invention

CUTTING TOOL FOR CUTTING STALKS

Abstract

A cutting tool (1) for cutting plants (2) including stalks, especially cane, includes a bar (4). The bar (4) extends over a working width (34) of the cutting tool (1). A knives set (7) is arranged on the bar (4). The Knives set (7) includes an upper knife unit (8) and a lower knife unit (9). The upper knife unit (8) includes a plurality of blades (10) including a cutting portion (14). The upper knife unit (8) declines downwardly towards the cutting portion (14). The lower knife unit (9) includes a plurality of blades (12) also including a cutting portion (14). The lower knife unit (9) also downwardly declines towards the cutting portion (14). A plurality of driving elements (18, 19) serves to drive the blades (10, 12) to reciprocate in opposite directions within a cutting region (36). A plurality of guiding elements (27, 28) connects the upper knife unit (8) and the lower knife unit (9) to the bar (4). In a working position of the cutting tool (1), the cutting portions (14) are located at least as low as the lower edge (26) of the bar (4) and the lower edge of the driving elements (18, 19) such that there is a free space (25) being located within the cutting region (36).

Full Text	CROSS REFERENCE TO RELATED APPLICATIONS This application claims priority to co-pending German Patent Application No. DE 10 2007 007 985.2 entitled "Schneidwerk zum Abschneiden von stangeligem Schnittgut", filed February 17, 2007. FIELD OF THE INVENTION The present invention generally relates to a cutting tool for cutting plants including stalks. Such plants including stalks are to be understood as substantially upright growing plants being made of a comparatively hard and fibrous material. Especially, such plants are cane, corn and the like. After cutting such plants, rigid remainders of the stalks remain located on the ground. BACKGROUND OF THE INVENTION A cutting tool for cutting material to be cut, especially grass or crop, is known from German Patent No. DE 40 35 528 C2. The known cutting tool includes a bar extending over the working width of the cutting tool. The bar is supported on a supporting element such as a carrier or a plate via which the cutting tool is suspended at a frame of a vehicle, for example a single-axle tool. A knives set including an upper knife and a lower knife is movably supported on the bar. The upper knife and the lower knife each include blades which are driven by driving elements to reciprocate in opposite directions in a cutting portion. The upper knife and the lower knife are movably supported on the bar by guiding elements. The bar, the connecting element, the driving elements and the guiding elements extend partly above and partly below the knife set including the upper knife and the lower knife. Sliding shoes being located in the center portion and/or in the outer portions of the bar serve to maintain a constant distance of the knives set with its cutting portion with respect to the ground during operation of the known cutting tool. Similar cutting tools are also known from German Patent No. DE 29 22 579 C2 corresponding to US Patent No. US 4,418,520 and from German Patent No. DE 31 02 861 C2. The arrangement of the guiding elements with respect to the knives set is to be seen from these prior art references. The known cutting tools are used for cutting material to be cut including stalks such as grass, clover, corn, and the like. A harvesting machine for cutting cane including a plurality of cutting tools is known from German Patent Application No. DE 36 31 889 A1. The cutting tools either serve for cutting the foliage or for cutting the stalks. The cutting tool for cutting the stalks of the cane includes rotatingly driven cooperating pairs of cutting discs. A knife holder which is designed to be openable to easily replace the upper knife is known from German Patent Application No. DE 25 27 266 A1. Replacing the upper knife does not take place in the working position, but in a maintenance position of the cutting tool. The cutting tool includes a bar being supported on a connecting element of the machine and extending over the working width of the cutting tool. A knives set including an upper knife and a lower knife is supported on the bar, the blades being driven to reciprocate in opposite directions. The prior art reference does not contain any disclosure concerning the kind of the drive and the design of the driving elements for the upper knife and the lower knife. The upper knife is supported on the bar by the openable knife holders which act as guiding elements. The lower knife is also supported from below by a lower guiding element. The lower guiding element fulfills the function of guiding elements for the lower knife. The lower guiding element serving to guide the lower knife extends from the cutting portion of the knives set of the cutting tool in a way to protrude in a downward direction. Furthermore, locking screws for adjusting the openable knife holder are provided. There is no free space not including connecting elements, driving elements or guiding elements below the cutting portion of the knives set. A cutting tool for cutting grass and other plants is known from US Patent No. US 3,538,690. The known cutting tool includes a bar extending over the working width, a knives set including an upper knife and a lower knife being supported on the bar. The upper knife as well as the lower knife includes blades being driven to reciprocate in a cutting portion. The upper knife and the lower knife have an L-shaped angled design. The upper knife and the lower knife with the angled portions are resilienty suspended in rubber bearings, a plurality of rubber bearings being arranged to extend over the working width. The upper knife and the lower knife are arranged to be horizontal such that the cutting portion of the knives is located at a higher place than the bottom surface of the lower knife. The L-shaped angled upper knife and lower knife may be arranged in different relations with respect to one another. In these different positions, the space below the cutting portion of the knives being arranged to be horizontal is either blocked or free. A corn cutter including a cutting tool is known from German Patent No. DE 28 28 766 C2 corresponding to US Patent No. US 4,267,689. The known cutting tool includes a bar extending over the working width. The bar includes a knives set including an upper knife and a lower knife which are supported by guiding elements. The guiding elements for the upper knife and the lower knife extend into a space below the plane being formed by the upper knife and the lower knife. The prior art reference does not contain any indication with respect to relative positioning of the bar and the guiding elements or of the knives set. The knives set includes cutting portions and non-cutting portions being distributed over the working width. A mowing tool including an upper knife and a lower knife is known from German Patent No. DE 11 76 415 B. When being used, the upper knife and the lower knife are arranged to be horizontal. The known mowing tool includes elements extending into the space below the horizontal plane of the knives set. A mowing tool including an upper knife and a lower knife is known from German Patent No. DE 198 26 289 C1. The upper knjfe and the lower knife each include a knife back and cutting elements being located on the knife back. The upper knife and/or the lower knife are driven to reciprocate. The cutting elements of the upper knife or of the lower knife are arranged at least with two different divisions on their respective knife back. A front mowing tool being located on mowing shoes at the left hand side and at the right hand side is known from German Patent Application No. DE 27 16 482 A1. The mowing tool includes a bar on which an upper knife and a lower knife are located. The upper knife and the lower knife are supported by guiding elements being arranged in a spaced apart manner over the working width. The prior art reference does not show in detail how the guiding elements are connected to the lower knife. A cutting plane is formed between the upper knife and the lower knife, the cutting plane being arranged to be parallel to the ground. SUMMARY OF THE INVENTION A cutting tool for cutting plants including stalks includes a bar. The bar has a lower edge and is designed and arranged to substantially extend over a working width of the cutting tool. A knives set is being arranged on the bar. The knives set includes an upper knife unit and a lower knife unit. The upper knife unit includes a plurality of blades including a cutting portion. The upper knife unit is designed and arranged to be downwardly declined towards the cutting portion. The lower knife unit includes a plurality of blades including a cutting portion. The lower knife unit is designed and arranged to be downwardly declined towards the cutting portion. A plurality of driving elements having a lower edge is designed and arranged to drive the blades to reciprocate in opposite directions within a cutting region. A plurality of guiding elements is designed and arranged to connect the upper knife unit and the lower knife unit to the bar. The cutting portions of the blades of the upper knife unit and the lower knife unit in a working position of the cutting tool are located at least as low as the lower edge of the bar and the lower edge of the driving elements such that there is a free space being located within the cutting region. Preferably, the cutting portions of the blades of the upper knife unit and the lower knife unit in a working position of the cutting tool are located below the lower edge of the bar and the lower edge of the driving elements. In the prior art, rotatingly driven cutting elements have been used for cutting plants including stalks, especially cane. Such known cutting tools have the drawback that the remaining part of the stalk protruding from the ground has a cut surface which is not flat, but instead uneven and fibrous. As a result, a plurality of stalks grows later starts growing in that uneven surface. This is not desired. When using cutting tools including a knives set including an upper knife and a lower knife which are driven to reciprocate, one may attain a comparatively smooth cut surface when cutting cane. However, the remainders of the stalks or stems located on the ground and protruding in an upward direction are inflexible and unbendable such that the cutting tool contacting these stalks is deflected and moved, respectively, in an upward direction. Consequently, the knives set including the upper knife and the lower knife continuously reaches a higher position with respect to the ground such that the height of the remaining stalks continuously increases, especially when the stalks grow close to one another in the direction in which the cutting tool is moved. Additionally, it needs to be taken into account that the plants may have their greatest diameter at that location and that it may be difficult to cut such a great diameter. The diameter may be in a region of approximately 50 mm or even more. A major reason for the undesired deflection and displacement, respectively, of the knives set in the prior art and the step-like cut resulting therefrom (while there is an increase of the height of the parts of the stalks remaining on the ground) is the relative arrangement of the bar at the known cutting tools as they are used for cutting grass, crop and other flexible material to be cut. With the novel cutting tool, it is possible to cut material to be cut such as plants including stalks, especially cane, corn and the like, close to the ground and at a constant distance from the ground while the cut surfaces are clean and smooth. In the novel cutting tool, the cutting portions of the blades of the knives set are located at least as low as the lower edge of the bar in the working position of the cutting tool. The cutting portions of the blades of the knives set are to be understood as the parts and sections, respectively, of the blades of the upper knife and of the lower knife which realize the cut at the material to be cut due to their reciprocating movement in opposite directions. Usually, these cutting portions of the blades of the knives set are located approximately in the first third of the front of the blades. The bar extends over the working width of the cutting tool. Due to the arrangement of the cutting portions of the blades of the knives set below the lower edge of the bar, the above described deflecting effect and the harvest losses resulting therefrom in the prior art are prevented. The relative arrangement may be determined by the design and arrangement of the respective elements, especially the bar, with respect to the knives set. The angle of declination of the blades of the knives set with respect to the horizontal ground also has a positive effect. The knives set is designed and arranged to be downwardly declined towards the front in the working position. In this way, the free space attained below the bar is further increased. The free space is a space below the cutting region of the knives set of the cutting tool. No connecting elements, driving elements, guiding elements or other elements are located in this free space. The cutting region of the knives set of the cutting tool is to be understood as the width of the cutting tool perpendicular to the working direction in which actual cutting of the material to be cut including stalks is realized, meaning in which the cutting tool fulfills its cutting function. No connecting elements, driving elements or guiding elements are located in the cutting portion of the knives set of the cutting tool such that this space remains free from the above described elements and such that the cutting tool does not contact the remaining stalks of the cut material, and the cutting tool is not dislocated in an upward direction. The connecting units serving to connect the cutting tool with a frame of a vehicle or of a chassis usually are located in the center region, meaning symmetric with respect to the vertical longitudinal plane of the cutting tool. For example, they may be made of a connecting plate or a connecting carrier. In this way, this connecting unit is located at a place at which most of the stalks to be cut are located during operation of the cutting tool. The described relative arrangement also applies to the driving elements for the upper knife unit and the lower knife unit at least when these driving elements are located in a center portion. When using an outer drive, the relative arrangement is of no importance or only of less importance. Due to the fact that the guiding elements are also not located in the region of the free space, the novel cutting tool is guided on the ground at a constant distance without getting dislocated by the remainders of the stalks during harvesting. At the same time, the quality of the cut surfaces is improved, meaning one attains a smooth horizontal cut surface since the blades operate in accordance with the scissors principle, and there is no plucking or ripping movement acting upon the material to be cut. Thus, the forces acting upon the blades are reduced and one attains a positive effect concerning durability and usable lifetime of the blades of the knives set. Preferably, the blades of the upper knife unit and of the lower knife unit are arranged at different divisions such that one attains a preferably great supporting surface between the blades of the upper knife unit and the blades of the lower knife unit during cutting. In this way, one counteracts the effect of the blades - in case they were located at the same division - entering the cutting gaps between the respective other knife unit. Such an effect would lead to a disadvantageous vibrating movement, on the one hand, and to increased wear and tear of the blades, on the other hand. The variation of the divisions of the blades results in a substantial improvement. The upper knife unit and the lower knife unit of the knives set have a width extending over the working width of the cutting tool. This width is greater than the usable width, meaning the cutting region of the knives set in which actual cutting of the material to be cut takes place. Two guiding portions are located at both outer sides of the central cutting region of the knives set such that the sum of these portions corresponds to the total width of the upper knife unit and of the lower knife unit. The widths of these guiding portions in which cutting does not take place is defined by leading and feeding elements. These leading and feeding elements may especially be designed as guiding straps acting upon the material to be cut before the knives set such that the material to be cut is introduced into the cutting region of the knives set by being slightly bent. On the other hand, these guiding straps result in alignment of the cutting tool and of the machine supporting the cutting tool with respect to the rows of plants to be cut. Due to these guiding straps or other leading and feeding elements, it is ensured that the guiding portions being formed in this way can be used for arrangement of driving elements and guiding elements being arranged at least partly below the horizontal plane being defined by the cutting portion of the knives set. In this way, the guiding elements may be arranged in the guiding portions, and they can fulfill their function at that place without problems. This also applies to sliding shoes, sliding soles, and the like, by which one maintains a constant distance between the ground and the knives set. The blades of the upper knife unit and of the lower knife unit of the knives set may be arranged such that there is a respective pressing force pressing them towards one another. This results in the cutting portions being located as close as possible to a common plane to effectively conduct a scissors-like cutting movement. In known cutting tools, this pressing force is substantially supplied by the force of attack and by the pressing force, respectively, of the supporting elements onto the upper knife unit and the lower knife unit. Since this pressing force is always active, meaning also when there is a gap between the plants to be cut, one attains comparatively great wear and tear. In the novel cutting tool, the pressing force being supplied by the supporting elements is substantially reduced or even fully eliminated. The blades are pressed towards one another by the cutting facets which are arranged to be respectively declined such that the blades are only pressed towards one another when the blades actually cut. Furthermore, this only applies to the locations of the knives set where a stalk is actually being cut. This feature results in a substantial reduction of wear and tear of the blades of the knives set and thus a respective increase of the durability and lifetime of important elements of the novel cutting tool. However, it is also possible to only arrange the declined cutting facets at the upper knife or at the lower knife, while the respective other knife does not include such cutting facets. In case cutting facets are located at the upper knife and at the lower knife, they preferably are arranged to be opposite. The angle of declination is coordinated for determining the pressing force. However, it is to be understood that the knives do not necessarily need to include such declines facets. The blades of the upper knife and/or of the lower knife of the knives set may be designed to include teeth. This means that the cutting facets are toothed. The use of such a toothed design especially makes sense when using different divisions to prevent the cutting portions of the blades from hitting one another, penetrating into one another or a different negative effect acting upon them, and to reduce such effects, respectively. On the other hand, such a toothed blade is better suitable for cutting very hard fibrous material to be cut as this is the case with cane compared to a straight continuous blade. The cutting tool may be operated at comparatively slow working velocities such that the cutting material including stalks may be engaged by the teeth of the blades to be held in place and then to be cut. Due to the toothed design of the cutting portions of the blades, one advantageously attains a great local surface pressure with respect to the surface of the stalk to be cut and thus easy penetration into the material to be cut. The blades of the upper knife unit and/or the lower knife unit of the knives set may have such an outer shape that cutting wedges in a region of approximately 30° and less result. This applies to the usual size of blades of such cutting tools. Such cutting wedges are great enough to allow for stalks having a comparatively great diameter to enter into the cutting wedge. On the other hand, the mentioned region of the angle of the cutting wedges realizes self-locking effects. In this way, one prevents the hard stalk of the material to be cut from being pressed out off the cutting wedge towards the front when the upper knife and the lower knife move with respect to one another. There are a number of different possibilities for realizing the blades of the upper knife and/or the lower knife of the knives set. Usually, the blades are designed as separate elements being connected to the respective knife back of the upper knife and/or of the lower knife, for example by rivets. However, it is also possible to design the blades of the upper knife and/or of the lower knife of the knives set and the respective knife back as one piece. For example, this may be realized by punching and following additional processing steps. The driving elements and the supporting elements for the knife back of the lower knife may especially be arranged higher than the cutting portion of the blades of the knives set in the working position of the cutting tool. In this way, the arrangement of the driving elements and of the supporting elements does not have a negative effect. The bar may be supported on the sliding shoes being supported on the ground, the sliding shoes being located in the guiding portions of the knives set. The cutting region of the knives set thus does not include such sliding shoes. Such a sliding shoe is also not located in the center region of the knives set. The two guiding portions of the knives set being located at both outer sides of the cutting region of the knives set may be used for arrangement of guiding elements and also for the arrangement of driving elements, for example an outer drive. It is advantageous if the two guiding portions of the knives set each include three guiding elements of which two are associated with the upper knife unit and one is associated with the lower knife unit or vice versa. These guiding elements are arranged on the bar such that the cutting region of the knives set of the cutting tool is maintained in the clamped position. In this way, deflection of the upper knife and of the lower knife in the cutting portion of the knives set is especially counteracted. Advantageous developments of the invention result from the claims, the description and the drawings. The advantages of features and of combinations of a plurality of features mentioned at the beginning of the description only serve as examples and may be used alternatively or cumulatively without the necessity of embodiments according to the invention having to obtain these advantages. Further features may be taken from the drawings, in particular from the illustrated designs and the dimensions of a plurality of components with respect to one another as well as from their relative arrangement and their operative connection. The combination of features of different embodiments of the invention or of features of different claims independent of the chosen references of the claims is also possible, and it is motivated herewith. This also relates to features which are illustrated in separate drawings, or which are mentioned when describing them. These features may also be combined with features of different claims. Furthermore, it is possible that further embodiments of the invention do not have the features mentioned in the claims. BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS The invention can be better understood with reference to the following drawings. The components in the drawings are not necessarily to scale, emphasis instead being placed upon clearly illustrating the principles of the present invention. In the drawings, like reference numerals designate corresponding parts throughout the several views. Fig. 1 is a partially cut side view of a first exemplary embodiment of the novel cutting tool at the beginning of the process of cutting a first plant in a row. Fig. 2 is a partially cut side view of the novel cutting tool at the beginning of the process of cutting the following plant in the row. Fig. 3 is a partially cut side view of the novel cutting tool at the beginning of the process of cutting the third plant in the row. Fig. 4 is a detailed view of components of the cutting tool. Fig. 5 is a top view of the upper knife of the cutting tool according to Fig. 4. Fig. 6 is a top view of the lower knife of the cutting tool according to Fig. 4. Fig. 7 is a sectional view through the cutting tool of Fig. 4 according to line VII-VII. Fig. 8 is a sectional view through the cutting tool of Fig. 4 according to line VIII-VIII. Fig. 9 is a sectional view through the cutting tool of Fig. 4 according to line IX-IX. Fig. 10 is a sectional view through the cutting tool of Fig. 4 according to line X-X. Fig. 11 is a similar view as Fig. 7, but at an enlarged scale. Fig. 12 is a top view of the knives set including the upper knife and the lower knife. Fig. 13 is a top view of an upper knife being designed as one piece. Fig. 14 is a top view of the corresponding lower knife of the knives set of Fig. 12. DETAILED DESCRIPTION OF THE DRAWINGS Fig. 1 is a sectional view and a side view, respectively, of components of a first exemplary embodiment of the novel cutting tool 1. The material to be cut 2 is illustrated as three schematically illustrated cane stalks growing on the ground 3. The cutting tool 1 includes a carrier or bar 4 serving as a carrying element and being designed and arranged to continuously extend over the working width of the cutting tool 1. The elements of the cutting tool 1 are located on the bar 4. The bar 4 in turn is connected to a frame (not illustrated) of a vehicle or a machine by a connecting unit 5 being designed as a connecting plate (also see Fig. 4). A part of a wheel 6 of the vehicle is schematically illustrated. The cutting tool 1 further includes a knives set 7 including an upper knife unit 8 and a lower knife unit 9. The knife units 8 and 9 are also just called "knife 8" and "knife 9" herein. The upper knife 8 includes a plurality of blades 10 being arranged on a knife back or knife support 11 of the upper knife 8. The lower knife 9 also includes a plurality of blades 12 being located on a knife back or knife support 13. For reasons of clarity of the drawings, the knife back 13 is not illustrated in Fig. 1, but for example in Figs. 8-10. The blades 10 are located on top of the blades 12, and the blades 10, 12 all include a cutting portion 14 being located in their front part of their extension in the working direction according to arrow 15 (the left hand side in Fig. 1). The cutting portion 14 is to be understood as the portion of the blades 10 and 12 which actually cuts and with which the material to be cut 2 gets in contact and is cut thereby. The cutting portion 14 of the blades 10 and 12 of the knives set 7 when being moved in the direction of arrow 15 during continued cutting defines a horizontal plane 16 (Fig. 3) which is parallel to the surface of the ground 3. The material to be cut 2 is cut within the horizontal plane 16 such that the remainders of the stalks 17 all have approximately the same height corresponding to the approximately constant distance of the horizontal plane 16 to the surface of the ground 3. However, as it is to be seen in Figs. 1-3, the knives set 7, the knife units 8, 9, the blades 10, 12 and the cutting portions 14, respectively, are designed and arranged to be downwardly declined towards the front as seen in the direction of arrow 15. The series of Figs. 1-3 illustrates the continued cutting process of the material to be cut 2 in the working direction according to arrow 15. As it is generally known in the field of cutting tools, the upper knife 8 and the lower knife 9 of the knives set 7 are driven to move back and forth in opposite directions with respect one another. For this purpose, there is a driving element 18 for the upper knife 8, the driving element 18 engaging the knife back 11 of the upper knife 8 in its center portion. A driving element 19 is associated with the lower knife 9, the driving element 19 being designed and arranged to protrude from above through a gap between the bar 4 and the knives set 7 in a downward direction and to be connected to the knife back 13 of the lower knife 9. The reciprocating drive of the upper knife 8 with the blades 10 and the lower knife 9 with the blades 12 is realized by joints 20 and 21 being located at respective pivot levers 22 and 23. The pivot levers 22 and 23 are only schematically illustrated in the drawings by the dash-dot lines, and they are connected to a drive of the vehicle. Glide shoes 24 are connected to the outer portions of the bar 4 (also see Fig. 4), the glide shoes 24 being supported on the ground 3 during operation of the cutting tool 1 such that the cutting tool 1 with its bar 4 is located at a constant height during cutting and thus at a constant distance from the surface of the ground 3. It is already to be seen in Figs. 1-3 that a free space 25 is defined below the horizontal plane 16 being defined by the movement of the cutting portion 14 of the knives set 7. The free space 25 is free from any elements which could contact the remaining part of a stalk 17 after cutting. Consequently, an upward sliding movement of the cutting tool 1 on the remaining parts of the stalks 17 is effectively prevented. The bar 4 is located above the horizontal plane 16 such that its lower edge 26, meaning the lowermost location on the bar 4, is still located above the horizontal plane 16, meaning it does not protrude below the horizontal plane 16. The same applies to the driving elements, especially the driving element 19, as well as to the guiding elements 27 and 28 the design and relative arrangement of which will be further described with respect to Fig. 4. For reasons of clarity of the drawings, the guiding elements 27 and 28 are not illustrated in Figs. 1-3. Fig. 4 illustrates a schematic top view of elements of the cutting tool 1. The material to be cut 2 is only schematically illustrated. The cutting tool 1 has a width 31 which substantially corresponds to the length of the continuous bar 4. The width 33 includes the working width 34 and two guiding p 29 each of which is located next to the working width 34 in an outward direction. The guiding portions 29 are defined by guiding straps 30 being located on the bar 4. The guiding straps 30 include repelling surfaces by means of which material to be cut 2 is repelled according to arrow 31 and is bent and deflected, respectively, from the guiding portions 29 into the region of the working width 34. Thus, the working width 34 also defines the width of a cutting region 36, meaning a strip having the width of the working width 34 in which cutting of the material to be cut 2 takes place. The guiding portions 29 being formed in this way are however portions in which cutting does not take place. The guiding portions 29 are used for arrangement of the guiding elements 27 and 28. It is to be seen in Figs. 4-6 that the design of the elements of the cutting tool 1 is chosen to be substantially symmetric with respect to the longitudinal center plane 32. Only for illustrating two embodiments in one drawing, the guiding elements 27 and 28 are illustrated to be different when comparing the left hand side of the drawing with the right hand side of the drawing. It is to be understood that the left hand side of the drawing illustrates a first exemplary embodiment which includes the same guiding elements 27 and 28 in a symmetrical arrangement at the other side. The same applies to the right hand side illustrating a second exemplary embodiment of the arrangement of the guiding elements 27 and 28. The guiding elements 27 illustrated in Fig. 4 are associated with the upper knife 8, and they are connected to blades 10 of the upper knife 8. Their other end is supported in a pivot joint being located at the bar 4 such that the guiding elements 27 guide the upper knife 8 in a way to fulfill a reciprocating movement. The guiding elements 28 are associated with the lower knife 9. As is to be seen in Fig. 9, they extend through gaps between the bar 4 and the knives set 7 in a downward direction, and they contact the blades 12 of the lower knife 9 from below. As illustrated, the guiding elements 27 are partly located within the working width 34 and partly within the guiding portions 29. Due to the fact that they are located above the horizontal plane 16, they do not protrude into the free space 25 and thus cannot negatively influence cutting of the material to be cut 2. A different arrangement is chosen with respect to the guiding elements 28 being associated with the lower knife 9. In this case, the working width 34 is kept free from the guiding elements 28. In the exemplary embodiment illustrated at the right hand side as seen from the longitudinal center plane 32, the guiding elements 27 and 28 are arranged such that the guiding element 28 for the lower knife 9 is located between the guiding elements 27 for the upper knife 8. Due to this spaced apart arrangement and distribution of the guiding elements 27 and 28, the knives set 7 including the upper knife 8 and the lower knife 9 is held in a clamped way such that deflections of the knives set 7 in the working width 34 are prevented. The exemplary embodiment being located on the left hand side as seen with respect to the longitudinal center plane 32 includes a plate-shaped friction bearing 35 fulfilling the function of the guiding element 28. Due to the strict linear guiding arrangement, the lower knife 9 is moved in a linear way while the upper knife 8 is guided by the guiding elements 27 on a circular arc. It is to be seen especially in Figs. 5 and 6 that the upper knife 8 as well as the lower knife 9 includes portions which do not fulfill a cutting function. These portions are located within the guiding portions 29. Corresponding to the working width 34, a cutting region 36 is formed, the blades 10 and 12 being substantially arranged in the cutting region 36. It is to be seen from Figs. 4-6 that the blades 10 of the upper knife 8 are located in a spaced apart manner with a division 37 (also called separation or spacing) and that the blades 12 of the lower knife 9 are located in a spaced apart manner with a division 38. The blades 10 and 12 are thus arranged with different divisions 37 and 38. This may also be seen from the coverage illustrated in Fig. 4. This arrangement serves to support the blades 10 and 12 on one another with a great surface coverage at all times to prevent and limit, respectively, bending or a slight movement of the blades 10, 12 into the intermediate spaces between the blades of the respective other knife. For example, the division 37 may be approximately 70 mm and the division 38 may be approximately 84 mm. In the exemplary embodiments of Figs. 4-6, the blades 10 and 12 of the upper knife 8 and of the lower knife 9 of the knives set 7 have an approximately triangular shape. The blades 10 and 12 in their portions facing the front and the sides, respectively, include cutting facets 39, 40. The cutting facets 39 and 40 are located to be declined with respect to the horizontal plane 16 in a way that their angle of declination determines the value of the pressing force with which the blades 10 and 12 are pressed towards one another during cutting. A remaining pressing force usually being low may be realized by respective pressure of the guiding elements 27 and 28. The cutting facets 39 and 40 are designed to include teeth, as this is especially to be seen in Fig. 5. Such toothing is preferred for the cutting contact to the material to be cut 2. The toothing engages the material to be cut 2 such that the tendency of the material to be cut 2 to be deflected towards the front during cutting does not occur. Due to the toothed design of the cutting portions of the blades 10, 12, one also attains the advantage of an increased local surface pressure with respect to the surface of the stalk to be cut and thus easy entrance into the material to be cut 2. Figs. 8-11 illustrate sectional views and thus clarify the relative arrangement of the elements of the cutting tool 1 with respect to one another. It is to be especially seen that the free space 25 below the horizontal plane 16 is kept free from any elements within the working width 34 and the cutting region 36. Figs. 12-14 illustrate another exemplary embodiment of the novel cutting tool 1. Fig. 12 illustrates the knives set 7 including the upper knife 8 and the lower knife 9. It is to be seen in Fig. 13 that the upper knife 8 is made of one piece of material such that the blades 10 and the knife back 11 are also designed as one piece. Fig. 14 illustrates the design of the lower knife 9 in which the blades 12 are fixedly located on the knife 13 in a usual way by rivets. It is to be understood that the lower knife 9 could also be designed as one piece, as this has been illustrated with respect to the upper knife according to Fig. 13. It is not necessarily required that the upper knife 8 as well as the lower knife 9 at the blades 10 and 12, respectively, include cutting facets 39 and 40, respectively. In a simplified exemplary embodiment, the upper knife 8 or the lower knife 9 being designed as one piece may also be designed as punched elements not including declined cutting facets 39 and 40, respectively. In accordance with the different divisions 37 and 38 of the blades 10 and 12, there are angled cutting wedges 41 having an angle 42 being in a range of approximately 30° or less. It is desired to attain a self-locking effect resulting in the tendency of the material to be cut 2 being pressed from the cutting wedge 41 towards the front instead of cutting is reduced and eliminated, respectively. LIST OF REFERENCE NUMERALS 1 cutting tool 31 arrow 2 material to be cut 32 longitudinal center plane 3 ground 33 width 4 bar back 34 working width 5 connecting unit 35 friction bearing 6 wheel 36 cutting region 7 knives set 37 division 8 upper knife 38 division 9 lower knife 39 cutting facette 10 blade 40 cutting facette 11 knife back 41 cutting wedge 12 blade 42 angle 13 knife back 14 cutting portion 15 arrow 16 horizontal plane 17 remaining stalk 18 driving element 19 driving element 20 joint 21 joint 22 pivot lever 23 pivot lever 24 sliding shoe 25 free space 26 lower edge 27 guiding element 28 guiding element 29 guiding portion 30 guiding strap WE CLAIM 1. A cutting tool for cutting plants including stalks, comprising: a bar, said bar having a lower edge and being designed and arranged to substantially extend over a working width of said cutting tool; a knives set, said knives set being arranged on said bar, said knives set including an upper knife unit, said upper knife unit including a plurality of blades, said blades including a cutting portion, said upper knife unit being designed and arranged to be downwardly declined towards said cutting portion, and a lower knife unit, said lower knife unit including a plurality of blades, said blades including a cutting portion, said lower knife unit being designed and arranged to be downwardly declined towards said cutting portion; a plurality of driving elements, said driving elements having a lower edge and being designed and arranged to drive said blades to reciprocate in opposite directions within a cutting region; a plurality of guiding elements, said guiding elements being designed and arranged to connect said upper knife unit and said lower knife unit to said bar, said cutting portions of said blades of said upper knife unit and said lower knife unit in a working position of said cutting tool being located at least as low as said lower edge of said bar and said lower edge of said driving elements such that there is a free space being located within the cutting region. 2. The cutting tool of claim 1, wherein said blades of said upper knife unit are arranged at a first division and said blades of said lower knife unit are arranged at a second division, said first and second division being different. 3. The cutting tool of claim 1, further comprising a plurality of guiding straps, said guiding straps being located at both sides of said cutting tool and each defining a width of a guiding portion, said guiding elements of said lower knife unit substantially being arranged in the guiding portions, the sum of the widths of said cutting region and of said two guiding portions defining a width of said cutting tool. 4. The cutting tool of claim 1, wherein said blades of said upper knife unit include declined cutting facets, said declined cutting facets being designed and arranged to press said blades of said upper knife unit and said blades of said lower knife unit towards one another when cutting the material to be cut. 5. The cutting tool of claim 1, wherein said blades of said lower knife unit include declined cutting facets, said declined cutting facets being designed and arranged to press said blades of said upper knife unit and said blades of said lower knife unit towards one another when cutting the material to be cut. 6. The cutting tool of claim 1, wherein said blades of said upper knife unit and said blades of said lower knife unit include declined cutting facets, said declined cutting facets being designed and arranged to press said blades of said upper knife unit and said blades of said lower knife unit towards one another when cutting the material to be cut. 7. The cutting tool of claim 1,wherein said blades of said upper knife unit include teeth. 8. The cutting tool of claim 1, wherein said blades of said lower knife unit include teeth. 9. The cutting tool of claim 1, wherein said blades of said upper knife unit and said blades of said lower knife unit include teeth. 10. The cutting tool of claim 1, wherein said blades of said upper knife unit have an outer shape such that there are cutting wedges having an angle of approximately 30° at most. 11. The cutting tool of claim 1, wherein said blades of said lower knife unit have an outer shape such that there are cutting wedges having an angle of approximately 30° at most. 12. The cutting tool of claim 1, wherein said blades of said upper knife unit and said blades of said lower knife unit have an outer shape such that there are cutting wedges having an angle of approximately 30° at most. 13. The cutting tool of claim 1, wherein said upper knife unit further includes a knife support, said blades of said upper knife unit being designed as one piece with said knife support. 14. The cutting tool of claim 1, wherein said lower knife unit further includes a knife support, said blades of said lower knife unit being designed as one piece with said knife support. 15. The cutting tool of claim 1, wherein said upper knife unit further includes a knife support, said blades of said upper knife unit being designed as one piece with said knife support; and said lower knife unit further includes a knife support, said blades of said lower knife unit being designed as one piece with said knife support. 16. The cutting tool of claim 1, wherein said driving elements and said guiding elements being associated with said lower knife unit are located at a higher position than the cutting portions of said blades in the working position of said cutting tool. 17. The cutting tool of claim 1, further comprising a plurality of sliding shoes, said sliding shoes being arranged in the guidjng portions and being designed and arranged to support said bar by contacting the ground. 18. The cutting tool of claim 1, wherein three guiding elements are located in each of the guiding portions, said guiding elements being arranged on said bar such that the cutting portion of said knives set is maintained in a clamped position. 19. The cutting tool of claim 18, wherein two of said guiding elements are located on said upper knife unit and one of said guiding elements is located on said lower knife unit. 20. The cutting tool of claim 1, wherein said free space does not include any elements selected from the group consisting of driving elements, guiding elements, connecting units and said bar. A cutting tool (1) for cutting plants (2) including stalks, especially cane, includes a bar (4). The bar (4) extends over a working width (34) of the cutting tool (1). A knives set (7) is arranged on the bar (4). The Knives set (7) includes an upper knife unit (8) and a lower knife unit (9). The upper knife unit (8) includes a plurality of blades (10) including a cutting portion (14). The upper knife unit (8) declines downwardly towards the cutting portion (14). The lower knife unit (9) includes a plurality of blades (12) also including a cutting portion (14). The lower knife unit (9) also downwardly declines towards the cutting portion (14). A plurality of driving elements (18, 19) serves to drive the blades (10, 12) to reciprocate in opposite directions within a cutting region (36). A plurality of guiding elements (27, 28) connects the upper knife unit (8) and the lower knife unit (9) to the bar (4). In a working position of the cutting tool (1), the cutting portions (14) are located at least as low as the lower edge (26) of the bar (4) and the lower edge of the driving elements (18, 19) such that there is a free space (25) being located within the cutting region (36).

Full Text

CROSS REFERENCE TO RELATED APPLICATIONS
This application claims priority to co-pending German Patent Application No. DE
10 2007 007 985.2 entitled "Schneidwerk zum Abschneiden von stangeligem Schnittgut", filed
February 17, 2007.
FIELD OF THE INVENTION
The present invention generally relates to a cutting tool for cutting plants including stalks.
Such plants including stalks are to be understood as substantially upright growing plants being
made of a comparatively hard and fibrous material. Especially, such plants are cane, corn and the
like. After cutting such plants, rigid remainders of the stalks remain located on the ground.
BACKGROUND OF THE INVENTION
A cutting tool for cutting material to be cut, especially grass or crop, is known from German Patent
No. DE 40 35 528 C2. The known cutting tool includes a bar extending over the working width of
the cutting tool. The bar is supported on a supporting element such as a carrier or a plate via which
the cutting tool is suspended at a frame of a vehicle, for example a single-axle tool. A knives set
including an upper knife and a lower knife is movably supported on the bar. The upper knife and
the lower knife each include blades which are driven by driving elements to reciprocate in opposite
directions in a cutting portion. The upper knife and the lower knife are movably supported on the
bar by guiding elements. The bar, the connecting element, the driving elements and the guiding
elements extend partly above and partly below the knife set including the upper knife and the lower
knife. Sliding shoes being located in the center portion and/or in the outer portions of the bar serve
to maintain a constant distance of the knives set with its cutting portion with respect to the ground
during operation of the known cutting tool.
Similar cutting tools are also known from German Patent No. DE 29 22 579 C2 corresponding to
US Patent No. US 4,418,520 and from German Patent No. DE 31 02 861 C2. The arrangement
of the guiding elements with respect to the knives set is to be seen from these prior art references.
The known cutting tools are used for cutting material to be cut including stalks such as grass,
clover, corn, and the like.
A harvesting machine for cutting cane including a plurality of cutting tools is known from German
Patent Application No. DE 36 31 889 A1. The cutting tools either serve for cutting the foliage or

for cutting the stalks. The cutting tool for cutting the stalks of the cane includes rotatingly driven
cooperating pairs of cutting discs.
A knife holder which is designed to be openable to easily replace the upper knife is known from
German Patent Application No. DE 25 27 266 A1. Replacing the upper knife does not take place
in the working position, but in a maintenance position of the cutting tool. The cutting tool includes a
bar being supported on a connecting element of the machine and extending over the working width
of the cutting tool. A knives set including an upper knife and a lower knife is supported on the bar,
the blades being driven to reciprocate in opposite directions. The prior art reference does not
contain any disclosure concerning the kind of the drive and the design of the driving elements for
the upper knife and the lower knife. The upper knife is supported on the bar by the openable knife
holders which act as guiding elements. The lower knife is also supported from below by a lower
guiding element. The lower guiding element fulfills the function of guiding elements for the lower
knife. The lower guiding element serving to guide the lower knife extends from the cutting portion of
the knives set of the cutting tool in a way to protrude in a downward direction. Furthermore, locking
screws for adjusting the openable knife holder are provided. There is no free space not including
connecting elements, driving elements or guiding elements below the cutting portion of the knives
set.
A cutting tool for cutting grass and other plants is known from US Patent No. US 3,538,690. The
known cutting tool includes a bar extending over the working width, a knives set including an upper
knife and a lower knife being supported on the bar. The upper knife as well as the lower knife
includes blades being driven to reciprocate in a cutting portion. The upper knife and the lower knife
have an L-shaped angled design. The upper knife and the lower knife with the angled portions are
resilienty suspended in rubber bearings, a plurality of rubber bearings being arranged to extend
over the working width. The upper knife and the lower knife are arranged to be horizontal such that
the cutting portion of the knives is located at a higher place than the bottom surface of the lower
knife. The L-shaped angled upper knife and lower knife may be arranged in different relations with
respect to one another. In these different positions, the space below the cutting portion of the
knives being arranged to be horizontal is either blocked or free.
A corn cutter including a cutting tool is known from German Patent No. DE 28 28 766 C2
corresponding to US Patent No. US 4,267,689. The known cutting tool includes a bar extending
over the working width. The bar includes a knives set including an upper knife and a lower knife
which are supported by guiding elements. The guiding elements for the upper knife and the lower
knife extend into a space below the plane being formed by the upper knife and the lower knife. The

prior art reference does not contain any indication with respect to relative positioning of the bar and
the guiding elements or of the knives set. The knives set includes cutting portions and non-cutting
portions being distributed over the working width.
A mowing tool including an upper knife and a lower knife is known from German Patent No.
DE 11 76 415 B. When being used, the upper knife and the lower knife are arranged to be
horizontal. The known mowing tool includes elements extending into the space below the
horizontal plane of the knives set.
A mowing tool including an upper knife and a lower knife is known from German Patent No.
DE 198 26 289 C1. The upper knjfe and the lower knife each include a knife back and cutting
elements being located on the knife back. The upper knife and/or the lower knife are driven to
reciprocate. The cutting elements of the upper knife or of the lower knife are arranged at least with
two different divisions on their respective knife back.
A front mowing tool being located on mowing shoes at the left hand side and at the right hand side
is known from German Patent Application No. DE 27 16 482 A1. The mowing tool includes a bar
on which an upper knife and a lower knife are located. The upper knife and the lower knife are
supported by guiding elements being arranged in a spaced apart manner over the working width.
The prior art reference does not show in detail how the guiding elements are connected to the
lower knife. A cutting plane is formed between the upper knife and the lower knife, the cutting plane
being arranged to be parallel to the ground.
SUMMARY OF THE INVENTION
A cutting tool for cutting plants including stalks includes a bar. The bar has a lower edge and is
designed and arranged to substantially extend over a working width of the cutting tool. A knives
set is being arranged on the bar. The knives set includes an upper knife unit and a lower knife
unit. The upper knife unit includes a plurality of blades including a cutting portion. The upper
knife unit is designed and arranged to be downwardly declined towards the cutting portion. The
lower knife unit includes a plurality of blades including a cutting portion. The lower knife unit is
designed and arranged to be downwardly declined towards the cutting portion. A plurality of
driving elements having a lower edge is designed and arranged to drive the blades to
reciprocate in opposite directions within a cutting region. A plurality of guiding elements is
designed and arranged to connect the upper knife unit and the lower knife unit to the bar. The
cutting portions of the blades of the upper knife unit and the lower knife unit in a working
position of the cutting tool are located at least as low as the lower edge of the bar and the

lower edge of the driving elements such that there is a free space being located within the
cutting region. Preferably, the cutting portions of the blades of the upper knife unit and the lower
knife unit in a working position of the cutting tool are located below the lower edge of the bar
and the lower edge of the driving elements.
In the prior art, rotatingly driven cutting elements have been used for cutting plants including
stalks, especially cane. Such known cutting tools have the drawback that the remaining part of
the stalk protruding from the ground has a cut surface which is not flat, but instead uneven and
fibrous. As a result, a plurality of stalks grows later starts growing in that uneven surface. This is
not desired.
When using cutting tools including a knives set including an upper knife and a lower knife which
are driven to reciprocate, one may attain a comparatively smooth cut surface when cutting cane.
However, the remainders of the stalks or stems located on the ground and protruding in an
upward direction are inflexible and unbendable such that the cutting tool contacting these stalks
is deflected and moved, respectively, in an upward direction. Consequently, the knives set
including the upper knife and the lower knife continuously reaches a higher position with respect
to the ground such that the height of the remaining stalks continuously increases, especially
when the stalks grow close to one another in the direction in which the cutting tool is moved.
Additionally, it needs to be taken into account that the plants may have their greatest diameter
at that location and that it may be difficult to cut such a great diameter. The diameter may be in
a region of approximately 50 mm or even more. A major reason for the undesired deflection and
displacement, respectively, of the knives set in the prior art and the step-like cut resulting
therefrom (while there is an increase of the height of the parts of the stalks remaining on the
ground) is the relative arrangement of the bar at the known cutting tools as they are used for
cutting grass, crop and other flexible material to be cut.
With the novel cutting tool, it is possible to cut material to be cut such as plants including stalks,
especially cane, corn and the like, close to the ground and at a constant distance from the
ground while the cut surfaces are clean and smooth. In the novel cutting tool, the cutting
portions of the blades of the knives set are located at least as low as the lower edge of the bar
in the working position of the cutting tool. The cutting portions of the blades of the knives set are
to be understood as the parts and sections, respectively, of the blades of the upper knife and of
the lower knife which realize the cut at the material to be cut due to their reciprocating
movement in opposite directions. Usually, these cutting portions of the blades of the knives set

are located approximately in the first third of the front of the blades.
The bar extends over the working width of the cutting tool. Due to the arrangement of the cutting
portions of the blades of the knives set below the lower edge of the bar, the above described
deflecting effect and the harvest losses resulting therefrom in the prior art are prevented. The
relative arrangement may be determined by the design and arrangement of the respective
elements, especially the bar, with respect to the knives set. The angle of declination of the
blades of the knives set with respect to the horizontal ground also has a positive effect. The
knives set is designed and arranged to be downwardly declined towards the front in the working
position. In this way, the free space attained below the bar is further increased.
The free space is a space below the cutting region of the knives set of the cutting tool. No
connecting elements, driving elements, guiding elements or other elements are located in this
free space. The cutting region of the knives set of the cutting tool is to be understood as the
width of the cutting tool perpendicular to the working direction in which actual cutting of the
material to be cut including stalks is realized, meaning in which the cutting tool fulfills its cutting
function. No connecting elements, driving elements or guiding elements are located in the
cutting portion of the knives set of the cutting tool such that this space remains free from the
above described elements and such that the cutting tool does not contact the remaining stalks
of the cut material, and the cutting tool is not dislocated in an upward direction. The connecting
units serving to connect the cutting tool with a frame of a vehicle or of a chassis usually are
located in the center region, meaning symmetric with respect to the vertical longitudinal plane of
the cutting tool. For example, they may be made of a connecting plate or a connecting carrier. In
this way, this connecting unit is located at a place at which most of the stalks to be cut are
located during operation of the cutting tool. The described relative arrangement also applies to
the driving elements for the upper knife unit and the lower knife unit at least when these driving
elements are located in a center portion. When using an outer drive, the relative arrangement is
of no importance or only of less importance.
Due to the fact that the guiding elements are also not located in the region of the free space, the
novel cutting tool is guided on the ground at a constant distance without getting dislocated by
the remainders of the stalks during harvesting. At the same time, the quality of the cut surfaces
is improved, meaning one attains a smooth horizontal cut surface since the blades operate in
accordance with the scissors principle, and there is no plucking or ripping movement acting
upon the material to be cut. Thus, the forces acting upon the blades are reduced and one

attains a positive effect concerning durability and usable lifetime of the blades of the knives set.
Preferably, the blades of the upper knife unit and of the lower knife unit are arranged at different
divisions such that one attains a preferably great supporting surface between the blades of the
upper knife unit and the blades of the lower knife unit during cutting. In this way, one
counteracts the effect of the blades - in case they were located at the same division - entering
the cutting gaps between the respective other knife unit. Such an effect would lead to a
disadvantageous vibrating movement, on the one hand, and to increased wear and tear of the
blades, on the other hand. The variation of the divisions of the blades results in a substantial
improvement.
The upper knife unit and the lower knife unit of the knives set have a width extending over the
working width of the cutting tool. This width is greater than the usable width, meaning the cutting
region of the knives set in which actual cutting of the material to be cut takes place. Two guiding
portions are located at both outer sides of the central cutting region of the knives set such that
the sum of these portions corresponds to the total width of the upper knife unit and of the lower
knife unit. The widths of these guiding portions in which cutting does not take place is defined by
leading and feeding elements. These leading and feeding elements may especially be designed
as guiding straps acting upon the material to be cut before the knives set such that the material
to be cut is introduced into the cutting region of the knives set by being slightly bent. On the
other hand, these guiding straps result in alignment of the cutting tool and of the machine
supporting the cutting tool with respect to the rows of plants to be cut. Due to these guiding
straps or other leading and feeding elements, it is ensured that the guiding portions being
formed in this way can be used for arrangement of driving elements and guiding elements being
arranged at least partly below the horizontal plane being defined by the cutting portion of the
knives set. In this way, the guiding elements may be arranged in the guiding portions, and they
can fulfill their function at that place without problems. This also applies to sliding shoes, sliding
soles, and the like, by which one maintains a constant distance between the ground and the
knives set.
The blades of the upper knife unit and of the lower knife unit of the knives set may be arranged
such that there is a respective pressing force pressing them towards one another. This results in
the cutting portions being located as close as possible to a common plane to effectively conduct
a scissors-like cutting movement. In known cutting tools, this pressing force is substantially
supplied by the force of attack and by the pressing force, respectively, of the supporting
elements onto the upper knife unit and the lower knife unit. Since this pressing force is always

active, meaning also when there is a gap between the plants to be cut, one attains
comparatively great wear and tear. In the novel cutting tool, the pressing force being supplied by
the supporting elements is substantially reduced or even fully eliminated. The blades are
pressed towards one another by the cutting facets which are arranged to be respectively
declined such that the blades are only pressed towards one another when the blades actually
cut. Furthermore, this only applies to the locations of the knives set where a stalk is actually
being cut. This feature results in a substantial reduction of wear and tear of the blades of the
knives set and thus a respective increase of the durability and lifetime of important elements of
the novel cutting tool. However, it is also possible to only arrange the declined cutting facets at
the upper knife or at the lower knife, while the respective other knife does not include such
cutting facets. In case cutting facets are located at the upper knife and at the lower knife, they
preferably are arranged to be opposite. The angle of declination is coordinated for determining
the pressing force. However, it is to be understood that the knives do not necessarily need to
include such declines facets.
The blades of the upper knife and/or of the lower knife of the knives set may be designed to
include teeth. This means that the cutting facets are toothed. The use of such a toothed design
especially makes sense when using different divisions to prevent the cutting portions of the
blades from hitting one another, penetrating into one another or a different negative effect acting
upon them, and to reduce such effects, respectively. On the other hand, such a toothed blade is
better suitable for cutting very hard fibrous material to be cut as this is the case with cane
compared to a straight continuous blade. The cutting tool may be operated at comparatively
slow working velocities such that the cutting material including stalks may be engaged by the
teeth of the blades to be held in place and then to be cut. Due to the toothed design of the
cutting portions of the blades, one advantageously attains a great local surface pressure with
respect to the surface of the stalk to be cut and thus easy penetration into the material to be cut.
The blades of the upper knife unit and/or the lower knife unit of the knives set may have such an
outer shape that cutting wedges in a region of approximately 30° and less result. This applies to
the usual size of blades of such cutting tools. Such cutting wedges are great enough to allow for
stalks having a comparatively great diameter to enter into the cutting wedge. On the other hand,
the mentioned region of the angle of the cutting wedges realizes self-locking effects. In this way,
one prevents the hard stalk of the material to be cut from being pressed out off the cutting
wedge towards the front when the upper knife and the lower knife move with respect to one
another.

There are a number of different possibilities for realizing the blades of the upper knife and/or the
lower knife of the knives set. Usually, the blades are designed as separate elements being
connected to the respective knife back of the upper knife and/or of the lower knife, for example
by rivets. However, it is also possible to design the blades of the upper knife and/or of the lower
knife of the knives set and the respective knife back as one piece. For example, this may be
realized by punching and following additional processing steps.
The driving elements and the supporting elements for the knife back of the lower knife may
especially be arranged higher than the cutting portion of the blades of the knives set in the
working position of the cutting tool. In this way, the arrangement of the driving elements and of
the supporting elements does not have a negative effect.
The bar may be supported on the sliding shoes being supported on the ground, the sliding
shoes being located in the guiding portions of the knives set. The cutting region of the knives set
thus does not include such sliding shoes. Such a sliding shoe is also not located in the center
region of the knives set.
The two guiding portions of the knives set being located at both outer sides of the cutting region
of the knives set may be used for arrangement of guiding elements and also for the
arrangement of driving elements, for example an outer drive. It is advantageous if the two
guiding portions of the knives set each include three guiding elements of which two are
associated with the upper knife unit and one is associated with the lower knife unit or vice versa.
These guiding elements are arranged on the bar such that the cutting region of the knives set of
the cutting tool is maintained in the clamped position. In this way, deflection of the upper knife
and of the lower knife in the cutting portion of the knives set is especially counteracted.
Advantageous developments of the invention result from the claims, the description and the
drawings. The advantages of features and of combinations of a plurality of features mentioned at
the beginning of the description only serve as examples and may be used alternatively or
cumulatively without the necessity of embodiments according to the invention having to obtain
these advantages. Further features may be taken from the drawings, in particular from the
illustrated designs and the dimensions of a plurality of components with respect to one another as
well as from their relative arrangement and their operative connection. The combination of features
of different embodiments of the invention or of features of different claims independent of the
chosen references of the claims is also possible, and it is motivated herewith. This also relates to
features which are illustrated in separate drawings, or which are mentioned when describing them.

These features may also be combined with features of different claims. Furthermore, it is possible
that further embodiments of the invention do not have the features mentioned in the claims.
BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS
The invention can be better understood with reference to the following drawings. The components
in the drawings are not necessarily to scale, emphasis instead being placed upon clearly illustrating
the principles of the present invention. In the drawings, like reference numerals designate
corresponding parts throughout the several views.
Fig. 1 is a partially cut side view of a first exemplary embodiment of the novel cutting tool
at the beginning of the process of cutting a first plant in a row.
Fig. 2 is a partially cut side view of the novel cutting tool at the beginning of the process of
cutting the following plant in the row.
Fig. 3 is a partially cut side view of the novel cutting tool at the beginning of the process of
cutting the third plant in the row.
Fig. 4 is a detailed view of components of the cutting tool.
Fig. 5 is a top view of the upper knife of the cutting tool according to Fig. 4.
Fig. 6 is a top view of the lower knife of the cutting tool according to Fig. 4.
Fig. 7 is a sectional view through the cutting tool of Fig. 4 according to line VII-VII.
Fig. 8 is a sectional view through the cutting tool of Fig. 4 according to line VIII-VIII.
Fig. 9 is a sectional view through the cutting tool of Fig. 4 according to line IX-IX.
Fig. 10 is a sectional view through the cutting tool of Fig. 4 according to line X-X.
Fig. 11 is a similar view as Fig. 7, but at an enlarged scale.
Fig. 12 is a top view of the knives set including the upper knife and the lower knife.

Fig. 13 is a top view of an upper knife being designed as one piece.
Fig. 14 is a top view of the corresponding lower knife of the knives set of Fig. 12.
DETAILED DESCRIPTION OF THE DRAWINGS
Fig. 1 is a sectional view and a side view, respectively, of components of a first exemplary
embodiment of the novel cutting tool 1. The material to be cut 2 is illustrated as three schematically
illustrated cane stalks growing on the ground 3. The cutting tool 1 includes a carrier or bar 4
serving as a carrying element and being designed and arranged to continuously extend over the
working width of the cutting tool 1. The elements of the cutting tool 1 are located on the bar 4. The
bar 4 in turn is connected to a frame (not illustrated) of a vehicle or a machine by a connecting unit
5 being designed as a connecting plate (also see Fig. 4). A part of a wheel 6 of the vehicle is
schematically illustrated.
The cutting tool 1 further includes a knives set 7 including an upper knife unit 8 and a lower knife
unit 9. The knife units 8 and 9 are also just called "knife 8" and "knife 9" herein. The upper knife 8
includes a plurality of blades 10 being arranged on a knife back or knife support 11 of the upper
knife 8. The lower knife 9 also includes a plurality of blades 12 being located on a knife back or
knife support 13. For reasons of clarity of the drawings, the knife back 13 is not illustrated in Fig. 1,
but for example in Figs. 8-10. The blades 10 are located on top of the blades 12, and the blades
10, 12 all include a cutting portion 14 being located in their front part of their extension in the
working direction according to arrow 15 (the left hand side in Fig. 1). The cutting portion 14 is to be
understood as the portion of the blades 10 and 12 which actually cuts and with which the material
to be cut 2 gets in contact and is cut thereby. The cutting portion 14 of the blades 10 and 12 of the
knives set 7 when being moved in the direction of arrow 15 during continued cutting defines a
horizontal plane 16 (Fig. 3) which is parallel to the surface of the ground 3. The material to be cut 2
is cut within the horizontal plane 16 such that the remainders of the stalks 17 all have
approximately the same height corresponding to the approximately constant distance of the
horizontal plane 16 to the surface of the ground 3. However, as it is to be seen in Figs. 1-3, the
knives set 7, the knife units 8, 9, the blades 10, 12 and the cutting portions 14, respectively, are
designed and arranged to be downwardly declined towards the front as seen in the direction of
arrow 15. The series of Figs. 1-3 illustrates the continued cutting process of the material to be cut 2
in the working direction according to arrow 15.
As it is generally known in the field of cutting tools, the upper knife 8 and the lower knife 9 of the
knives set 7 are driven to move back and forth in opposite directions with respect one another.

For this purpose, there is a driving element 18 for the upper knife 8, the driving element 18
engaging the knife back 11 of the upper knife 8 in its center portion. A driving element 19 is
associated with the lower knife 9, the driving element 19 being designed and arranged to protrude
from above through a gap between the bar 4 and the knives set 7 in a downward direction and to
be connected to the knife back 13 of the lower knife 9. The reciprocating drive of the upper knife 8
with the blades 10 and the lower knife 9 with the blades 12 is realized by joints 20 and 21 being
located at respective pivot levers 22 and 23. The pivot levers 22 and 23 are only schematically
illustrated in the drawings by the dash-dot lines, and they are connected to a drive of the vehicle.
Glide shoes 24 are connected to the outer portions of the bar 4 (also see Fig. 4), the glide shoes
24 being supported on the ground 3 during operation of the cutting tool 1 such that the cutting tool
1 with its bar 4 is located at a constant height during cutting and thus at a constant distance from
the surface of the ground 3.
It is already to be seen in Figs. 1-3 that a free space 25 is defined below the horizontal plane 16
being defined by the movement of the cutting portion 14 of the knives set 7. The free space 25 is
free from any elements which could contact the remaining part of a stalk 17 after cutting.
Consequently, an upward sliding movement of the cutting tool 1 on the remaining parts of the
stalks 17 is effectively prevented. The bar 4 is located above the horizontal plane 16 such that its
lower edge 26, meaning the lowermost location on the bar 4, is still located above the horizontal
plane 16, meaning it does not protrude below the horizontal plane 16. The same applies to the
driving elements, especially the driving element 19, as well as to the guiding elements 27 and 28
the design and relative arrangement of which will be further described with respect to Fig. 4. For
reasons of clarity of the drawings, the guiding elements 27 and 28 are not illustrated in Figs. 1-3.
Fig. 4 illustrates a schematic top view of elements of the cutting tool 1. The material to be cut 2 is
only schematically illustrated. The cutting tool 1 has a width 31 which substantially corresponds to
the length of the continuous bar 4. The width 33 includes the working width 34 and two guiding p
29 each of which is located next to the working width 34 in an outward direction. The guiding
portions 29 are defined by guiding straps 30 being located on the bar 4. The guiding straps 30
include repelling surfaces by means of which material to be cut 2 is repelled according to arrow 31
and is bent and deflected, respectively, from the guiding portions 29 into the region of the working
width 34. Thus, the working width 34 also defines the width of a cutting region 36, meaning a strip
having the width of the working width 34 in which cutting of the material to be cut 2 takes place.
The guiding portions 29 being formed in this way are however portions in which cutting does not
take place. The guiding portions 29 are used for arrangement of the guiding elements 27 and 28. It
is to be seen in Figs. 4-6 that the design of the elements of the cutting tool 1 is chosen to be

substantially symmetric with respect to the longitudinal center plane 32. Only for illustrating two
embodiments in one drawing, the guiding elements 27 and 28 are illustrated to be different when
comparing the left hand side of the drawing with the right hand side of the drawing. It is to be
understood that the left hand side of the drawing illustrates a first exemplary embodiment which
includes the same guiding elements 27 and 28 in a symmetrical arrangement at the other side. The
same applies to the right hand side illustrating a second exemplary embodiment of the
arrangement of the guiding elements 27 and 28.
The guiding elements 27 illustrated in Fig. 4 are associated with the upper knife 8, and they are
connected to blades 10 of the upper knife 8. Their other end is supported in a pivot joint being
located at the bar 4 such that the guiding elements 27 guide the upper knife 8 in a way to fulfill a
reciprocating movement. The guiding elements 28 are associated with the lower knife 9. As is to be
seen in Fig. 9, they extend through gaps between the bar 4 and the knives set 7 in a downward
direction, and they contact the blades 12 of the lower knife 9 from below. As illustrated, the guiding
elements 27 are partly located within the working width 34 and partly within the guiding portions 29.
Due to the fact that they are located above the horizontal plane 16, they do not protrude into the
free space 25 and thus cannot negatively influence cutting of the material to be cut 2. A different
arrangement is chosen with respect to the guiding elements 28 being associated with the lower
knife 9. In this case, the working width 34 is kept free from the guiding elements 28.
In the exemplary embodiment illustrated at the right hand side as seen from the longitudinal center
plane 32, the guiding elements 27 and 28 are arranged such that the guiding element 28 for the
lower knife 9 is located between the guiding elements 27 for the upper knife 8. Due to this spaced
apart arrangement and distribution of the guiding elements 27 and 28, the knives set 7 including
the upper knife 8 and the lower knife 9 is held in a clamped way such that deflections of the knives
set 7 in the working width 34 are prevented. The exemplary embodiment being located on the left
hand side as seen with respect to the longitudinal center plane 32 includes a plate-shaped friction
bearing 35 fulfilling the function of the guiding element 28. Due to the strict linear guiding
arrangement, the lower knife 9 is moved in a linear way while the upper knife 8 is guided by the
guiding elements 27 on a circular arc.
It is to be seen especially in Figs. 5 and 6 that the upper knife 8 as well as the lower knife 9
includes portions which do not fulfill a cutting function. These portions are located within the guiding
portions 29. Corresponding to the working width 34, a cutting region 36 is formed, the blades 10
and 12 being substantially arranged in the cutting region 36. It is to be seen from Figs. 4-6 that the
blades 10 of the upper knife 8 are located in a spaced apart manner with a division 37 (also called

separation or spacing) and that the blades 12 of the lower knife 9 are located in a spaced apart
manner with a division 38. The blades 10 and 12 are thus arranged with different divisions 37 and
38. This may also be seen from the coverage illustrated in Fig. 4. This arrangement serves to
support the blades 10 and 12 on one another with a great surface coverage at all times to prevent
and limit, respectively, bending or a slight movement of the blades 10, 12 into the intermediate
spaces between the blades of the respective other knife. For example, the division 37 may be
approximately 70 mm and the division 38 may be approximately 84 mm.
In the exemplary embodiments of Figs. 4-6, the blades 10 and 12 of the upper knife 8 and of the
lower knife 9 of the knives set 7 have an approximately triangular shape. The blades 10 and 12 in
their portions facing the front and the sides, respectively, include cutting facets 39, 40. The cutting
facets 39 and 40 are located to be declined with respect to the horizontal plane 16 in a way that
their angle of declination determines the value of the pressing force with which the blades 10 and
12 are pressed towards one another during cutting. A remaining pressing force usually being low
may be realized by respective pressure of the guiding elements 27 and 28. The cutting facets 39
and 40 are designed to include teeth, as this is especially to be seen in Fig. 5. Such toothing is
preferred for the cutting contact to the material to be cut 2. The toothing engages the material to be
cut 2 such that the tendency of the material to be cut 2 to be deflected towards the front during
cutting does not occur. Due to the toothed design of the cutting portions of the blades 10, 12, one
also attains the advantage of an increased local surface pressure with respect to the surface of the
stalk to be cut and thus easy entrance into the material to be cut 2.
Figs. 8-11 illustrate sectional views and thus clarify the relative arrangement of the elements of the
cutting tool 1 with respect to one another. It is to be especially seen that the free space 25 below
the horizontal plane 16 is kept free from any elements within the working width 34 and the cutting
region 36.
Figs. 12-14 illustrate another exemplary embodiment of the novel cutting tool 1. Fig. 12 illustrates
the knives set 7 including the upper knife 8 and the lower knife 9. It is to be seen in Fig. 13 that the
upper knife 8 is made of one piece of material such that the blades 10 and the knife back 11 are
also designed as one piece. Fig. 14 illustrates the design of the lower knife 9 in which the blades
12 are fixedly located on the knife 13 in a usual way by rivets. It is to be understood that the lower
knife 9 could also be designed as one piece, as this has been illustrated with respect to the upper
knife according to Fig. 13. It is not necessarily required that the upper knife 8 as well as the lower
knife 9 at the blades 10 and 12, respectively, include cutting facets 39 and 40, respectively. In a
simplified exemplary embodiment, the upper knife 8 or the lower knife 9 being designed as one

piece may also be designed as punched elements not including declined cutting facets 39 and 40,
respectively.
In accordance with the different divisions 37 and 38 of the blades 10 and 12, there are angled
cutting wedges 41 having an angle 42 being in a range of approximately 30° or less. It is desired to
attain a self-locking effect resulting in the tendency of the material to be cut 2 being pressed from
the cutting wedge 41 towards the front instead of cutting is reduced and eliminated, respectively.

LIST OF REFERENCE NUMERALS
1 cutting tool 31 arrow
2 material to be cut 32 longitudinal center plane
3 ground 33 width
4 bar back 34 working width
5 connecting unit 35 friction bearing
6 wheel 36 cutting region
7 knives set 37 division
8 upper knife 38 division
9 lower knife 39 cutting facette

10 blade 40 cutting facette
11 knife back 41 cutting wedge
12 blade 42 angle
13 knife back
14 cutting portion
15 arrow
16 horizontal plane
17 remaining stalk
18 driving element
19 driving element
20 joint
21 joint
22 pivot lever
23 pivot lever
24 sliding shoe
25 free space
26 lower edge
27 guiding element
28 guiding element
29 guiding portion
30 guiding strap

WE CLAIM
1. A cutting tool for cutting plants including stalks, comprising:
a bar, said bar having a lower edge and being designed and arranged to substantially
extend over a working width of said cutting tool;
a knives set, said knives set being arranged on said bar, said knives set including
an upper knife unit, said upper knife unit including a plurality of blades, said
blades including a cutting portion, said upper knife unit being designed and arranged to
be downwardly declined towards said cutting portion, and
a lower knife unit, said lower knife unit including a plurality of blades, said blades
including a cutting portion, said lower knife unit being designed and arranged to be
downwardly declined towards said cutting portion;
a plurality of driving elements, said driving elements having a lower edge and being
designed and arranged to drive said blades to reciprocate in opposite directions within a cutting
region;
a plurality of guiding elements, said guiding elements being designed and arranged to
connect said upper knife unit and said lower knife unit to said bar,
said cutting portions of said blades of said upper knife unit and said lower knife
unit in a working position of said cutting tool being located at least as low as said lower
edge of said bar and said lower edge of said driving elements such that there is a free
space being located within the cutting region.
2. The cutting tool of claim 1, wherein said blades of said upper knife unit are arranged at a
first division and said blades of said lower knife unit are arranged at a second division, said first
and second division being different.
3. The cutting tool of claim 1, further comprising
a plurality of guiding straps, said guiding straps being located at both sides of said
cutting tool and each defining a width of a guiding portion, said guiding elements of said lower
knife unit substantially being arranged in the guiding portions, the sum of the widths of said
cutting region and of said two guiding portions defining a width of said cutting tool.
4. The cutting tool of claim 1, wherein said blades of said upper knife unit include declined
cutting facets, said declined cutting facets being designed and arranged to press said blades of
said upper knife unit and said blades of said lower knife unit towards one another when cutting
the material to be cut.

5. The cutting tool of claim 1, wherein said blades of said lower knife unit include declined
cutting facets, said declined cutting facets being designed and arranged to press said blades of
said upper knife unit and said blades of said lower knife unit towards one another when cutting
the material to be cut.
6. The cutting tool of claim 1, wherein said blades of said upper knife unit and said blades
of said lower knife unit include declined cutting facets, said declined cutting facets being
designed and arranged to press said blades of said upper knife unit and said blades of said
lower knife unit towards one another when cutting the material to be cut.
7. The cutting tool of claim 1,wherein said blades of said upper knife unit include teeth.
8. The cutting tool of claim 1, wherein said blades of said lower knife unit include teeth.
9. The cutting tool of claim 1, wherein said blades of said upper knife unit and said blades
of said lower knife unit include teeth.
10. The cutting tool of claim 1, wherein said blades of said upper knife unit have an outer
shape such that there are cutting wedges having an angle of approximately 30° at most.
11. The cutting tool of claim 1, wherein said blades of said lower knife unit have an outer
shape such that there are cutting wedges having an angle of approximately 30° at most.
12. The cutting tool of claim 1, wherein said blades of said upper knife unit and said blades
of said lower knife unit have an outer shape such that there are cutting wedges having an angle
of approximately 30° at most.
13. The cutting tool of claim 1, wherein said upper knife unit further includes a knife support,
said blades of said upper knife unit being designed as one piece with said knife support.
14. The cutting tool of claim 1, wherein said lower knife unit further includes a knife support,
said blades of said lower knife unit being designed as one piece with said knife support.

15. The cutting tool of claim 1, wherein
said upper knife unit further includes a knife support, said blades of said upper knife unit
being designed as one piece with said knife support; and
said lower knife unit further includes a knife support, said blades of said lower knife unit
being designed as one piece with said knife support.
16. The cutting tool of claim 1, wherein said driving elements and said guiding elements
being associated with said lower knife unit are located at a higher position than the cutting
portions of said blades in the working position of said cutting tool.
17. The cutting tool of claim 1, further comprising a plurality of sliding shoes, said sliding
shoes being arranged in the guidjng portions and being designed and arranged to support said
bar by contacting the ground.
18. The cutting tool of claim 1, wherein three guiding elements are located in each of the
guiding portions, said guiding elements being arranged on said bar such that the cutting portion
of said knives set is maintained in a clamped position.
19. The cutting tool of claim 18, wherein two of said guiding elements are located on said
upper knife unit and one of said guiding elements is located on said lower knife unit.
20. The cutting tool of claim 1, wherein said free space does not include any elements
selected from the group consisting of driving elements, guiding elements, connecting units and
said bar.

A cutting tool (1) for cutting plants (2) including stalks, especially cane, includes a bar (4). The bar (4) extends over a working width (34) of the cutting tool (1). A knives set (7) is arranged on the bar (4). The Knives set (7) includes an upper knife unit (8) and a lower knife unit (9). The upper knife unit (8) includes a plurality of blades (10) including a cutting portion (14). The upper knife unit (8) declines downwardly towards the cutting portion (14). The lower knife unit (9) includes a plurality of blades (12) also including a cutting portion (14). The lower knife unit (9)
also downwardly declines towards the cutting portion (14). A plurality of driving elements (18, 19) serves to drive the blades (10, 12) to reciprocate in opposite directions within a cutting region (36). A plurality of guiding elements (27, 28) connects the upper knife unit (8) and the lower knife unit (9) to the bar (4). In a working position of the cutting tool (1), the cutting portions (14) are located at least as low as the lower edge (26) of the bar (4) and the lower edge of the driving elements (18, 19) such that there is a free space (25) being located within the cutting region (36).

Documents:

3355-KOLNP-2008-(27-03-2014)-ABSTRACT.pdf

3355-KOLNP-2008-(27-03-2014)-ANNEXURE TO FORM 3.pdf

3355-KOLNP-2008-(27-03-2014)-CLAIMS.pdf

3355-KOLNP-2008-(27-03-2014)-CORRESPONDENCE.pdf

3355-KOLNP-2008-(27-03-2014)-DESCRIPTION (COMPLETE).pdf

3355-KOLNP-2008-(27-03-2014)-DRAWINGS.pdf

3355-KOLNP-2008-(27-03-2014)-ENGLISH TRANSLATION.pdf

3355-KOLNP-2008-(27-03-2014)-FORM-1.pdf

3355-KOLNP-2008-(27-03-2014)-FORM-2.pdf

3355-KOLNP-2008-(27-03-2014)-OTHERS.pdf

3355-KOLNP-2008-(27-03-2014)-PETITION UNDER RULE 137.pdf

3355-kolnp-2008-abstract.pdf

3355-KOLNP-2008-ANEXURE TO FORM 3.pdf

3355-kolnp-2008-claims.pdf

3355-KOLNP-2008-CORRESPONDENCE 1.1.pdf

3355-KOLNP-2008-CORRESPONDENCE-1.2.pdf

3355-KOLNP-2008-CORRESPONDENCE.1.1.pdf

3355-kolnp-2008-correspondence.pdf

3355-kolnp-2008-description (complete).pdf

3355-KOLNP-2008-DRAWINGS 1.1.pdf

3355-kolnp-2008-drawings.pdf

3355-kolnp-2008-form 1.pdf

3355-kolnp-2008-form 18.pdf

3355-kolnp-2008-form 2.pdf

3355-kolnp-2008-form 3.pdf

3355-kolnp-2008-form 5.pdf

3355-kolnp-2008-specification.pdf

abstract-03355-kolnp-2008.jpg

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Patent Number

264679

Indian Patent Application Number

3355/KOLNP/2008

PG Journal Number

03/2015

Publication Date

16-Jan-2015

Grant Date

14-Jan-2015

Date of Filing

18-Aug-2008

Name of Patentee

ESM ENNEPETALER SCHNEID-UND MÄHTECHNIK GMBH & CO. KG

Applicant Address

KÖLNER STRASSE 29, 58256 ENNEPETAL

Inventors:

#	Inventor's Name	Inventor's Address
1	VAN TICHELEN, JEAN CLAUDE	FROME FARM, DISTRICT ROAD 179, ANERLEY 4230
2	JACOBS, HELMUT	ROTDORNWEG 17, 42499 HUCHESWAGEN
3	OEHLER, WOLFGANG	STETTINER STRASSE 23, 51688 WIPPERFURTH

PCT International Classification Number

A01D 34/135

PCT International Application Number

PCT/EP2008/001141

PCT International Filing date

2008-02-15

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	10 2007 007 985.2	2007-02-17	Germany