Cutting system, a system for obtaining a sample of plant material comprising the same, and method

The invention claimed is: 1. A cutting system, comprising: a cutting device ( 110 ) having: a hollow cutting element ( 5 ) having a cutting edge ( 18 ); a main body ( 3 ) having a cavity in which the hollow cutting element ( 5 ) is rotatably received; a drive unit ( 4 ) for rotating said cutting element ( 5 ) about a longitudinal axis of said cutting element, comprising an output shaft ( 25 ) that is connected to said hollow cutting element ( 5 ), said drive unit ( 4 ) being connected to said main body ( 3 ); and a gas flow direction unit for applying a suction force through the hollow cutting element ( 5 ), comprising a conduit ( 170 ) which is in fluid communication with the hollow cutting element ( 5 ); a control unit ( 180 ) for controlling the drive unit ( 4 ) and the gas flow direction unit; wherein the hollow cutting element is elongated and in the control unit ( 180 ) is configured to control the gas flow direction unit and the drive unit ( 4 ) such that: a suction force is applied through the hollow cutting element ( 5 ) to attract a leaf of a plant towards the hollow cutting element ( 5 ) from one side of the leaf, the other side of the leaf being unsupported; the hollow cutting element ( 4 ) is rotated to cut through the leaf while maintaining said suction force, wherein the main body ( 3 ) comprises an opening which is in fluid communication with said cavity and to which the conduit ( 170 ) is connected, wherein the hollow cutting element ( 5 ) comprises one or more openings to enable the fluid communication between the conduit ( 170 ) and the hollow cutting element ( 5 ). 2. The cutting system according to claim 1 , wherein the control unit ( 180 ) is further configured to control the gas flow direction unit and the drive unit ( 4 ) to rotate the hollow cutting element ( 5 ) to cut through the leaf while keeping the leaf sucked against the hollow cutting element ( 5 ) using the suction force, and to rotate the cutting element ( 5 ) before it engages the leaf. 3. The cutting system according to claim 2 , wherein the cutting device ( 110 ) further comprises a pressure sensor ( 160 ) to measure pressure in the gas flow direction unit related to the pushing force, wherein the control unit ( 180 ) is configured to determine that the cut sample obstructs the hollow cutting element ( 5 ) and/or the hollow suction tube when the measured pressure does not drop below a predetermined threshold value after application of the pushing force. 4. The cutting system according to claim 1 , wherein the gas flow direction unit is further configured to apply a pushing force through the hollow cutting element ( 5 ) to push a cut sample of the leaf away from the cutting device ( 110 ). 5. The cutting system according to claim 4 , wherein the gas flow direction unit comprises a vacuum unit for generating said suction force and/or a pressurized gas source ( 150 ) for generating said pushing force. 6. The cutting system according to claim 5 , wherein the gas flow direction unit comprises a valve unit ( 130 ) which allows a switching between the pressurized gas source ( 150 ) and the vacuum unit to change between an application of the suction force and the pushing force, wherein the control unit ( 180 ) is configured to control the valve unit ( 130 ), or wherein the valve unit ( 130 ) can be operated manually. 7. The system according to claim 6 , wherein the control unit ( 180 ) is configured to first: control the valve unit ( 130 ) to apply a suction force, move the robot arm ( 120 ) to a position wherein the device may obtain a sample from the plant, and control the drive unit ( 4 ) to rotate the cutting element ( 5 ), and to then: move the robot arm away ( 120 ) from said position and apply a pushing force to push the cut sample away from the device into a container. 8. The cutting system according to claim 4 , wherein the control unit ( 180 ) is configured to control the third drive unit, and wherein the control unit ( 180 ) is configured to, after said leaf has been cut, control the third drive unit to displace the hollow suction element ( 81 ) relative to the hollow cutting element ( 5 ) and to then control the gas flow direction unit to apply said pushing force to push the cut sample of the leaf away from the device. 9. The cutting system of claim 1 , the cutting device ( 110 ) further comprising an elongated hollow suction element ( 81 ), arranged inside the hollow cutting element ( 5 ), through which said suction force is applied. 10. The cutting system of claim 9 , wherein the hollow cutting element ( 5 ) and the hollow suction element ( 81 ) are coaxially arranged, and wherein the hollow cutting element ( 5 ) and the hollow suction element ( 81 ) are mutually displaceable along their longitudinal axes. 11. The cutting system according to claim 9 , the cutting device ( 110 ) further comprising a mounting frame ( 50 ) on which the hollow cutting element ( 5 ) and the hollow suction element ( 81 ) are arranged. 12. The cutting system of claim 11 , wherein the hollow suction element ( 81 ) is rotationally fixed relative to the mounting frame ( 50 ), and wherein the hollow cutting element ( 5 ) is rotationally mounted on the mounting frame ( 50 ). 13. The cutting system of claim 12 , wherein the drive unit ( 4 ) is arranged spaced apart from the hollow cutting element ( 5 ), the cutting device ( 110 ) further comprising a transmission ( 80 ), such as a belt, between the drive unit ( 4 ) and the hollow cutting element ( 5 ) to allow the drive unit ( 4 ) to rotate the hollow cutting element ( 5 ). 14. The cutting system according claim 11 , the cutting device ( 110 ) further comprising a second drive unit mounted on the mounting frame ( 50 ) and being configured to displace the hollow cutting element ( 5 ) along its longitudinal axis with respect to the mounting frame ( 50 ) between a first free position, in which it does not significantly engage the leaf, to a second position in which the hollow cutting element is able to engage the leaf. 15. The cutting system according to claim 14 , wherein the control unit ( 180 ) is configured to control the second drive unit, and wherein the control unit ( 180 ) is configured to first control the gas flow direction unit to apply said suction force to attract the leaf against the hollow suction element ( 5 ) and to then control the second drive unit ( 54 ) to displace the hollow cutting element ( 5 ) relative to the hollow suction element ( 81 ) from the first position to the second position in order to engage the leaf that has been sucked against the hollow suction element ( 81 ) and to cut through said leaf. 16. The cutting system according to claim 15 , wherein the control unit ( 180 ) is configured to control the drive unit ( 4 ) to start rotating the hollow cutting element ( 5 ) prior to the hollow cutting element ( 5 ) reaching the second position. 17. The cutting system according to claim 11 , the cutting device ( 110 ) further comprising a third drive unit mounted on the mounting frame ( 50 ) and being configured to displace the hollow suction element ( 81 ) along its longitudinal axis with respect to the mounting frame ( 50 ). 18. The cutting system according to claim 1 , wherein the output shaft ( 25 ) extends through the hollow cutting element ( 5 ). 19. The cutting system according to claim 1 , wherein the main body ( 3 ) and/or the hollow cutting element ( 5 ) comprises a radial recess ( 22 ) at or near the one or more openings for defining a chamber ( 24 ) that extends around the hollow cutting