Container coupling and opening device with probe

The invention claimed is: 1. A coupling device configured to be mechanically coupled to a cap of a container to be in a coupled configuration, the coupling device comprising: a probe configured to be inserted into an opening of the cap, wherein the coupling device is configured, when in the coupled configuration, to disengage a closure insert of the cap from the cap by axially pushing the closure insert with the probe, the coupling device further comprising: a first mechanism configured for drawing the cap and the container towards the coupling device for sealing and locking the cap and the coupling device into a desired position, a second mechanism configured for axially moving the probe to thereby lift the probe with the closure insert into the container, a first tube, a second tube, and a third tube, wherein the first tube is enclosed by the second tube and the third tube, and wherein the second tube is enclosed by the third tube, and wherein the first tube is configured for guiding air through the coupling device into the container, wherein the second tube is configured for rinsing water into the container, and wherein the third tube is configured for sucking liquid out of the container through the coupling device and outside of the coupling device. 2. The coupling device according to claim 1 , wherein the first mechanism comprises a first lever, wherein the second mechanism comprises a second lever, wherein the first mechanism is embodied as a motion link mechanism converting a linear or rotational movement of the first lever of the first mechanism into a rotation, and wherein the second mechanism is embodied as a motion link mechanism converting a linear or rotational movement of the second lever of the second mechanism into a rotation. 3. The coupling device according to claim 2 , further comprising: a housing, and wherein the first and second mechanisms except the first lever of the first mechanism and the second lever of the second mechanism are both contained within the housing. 4. The coupling device according to claim 1 , wherein the first and second mechanisms are configured to be operated separately. 5. The coupling device according to claim 4 , wherein the first mechanism is configured for preventing at the same time misuse by blocking any unintended movement of the second lever, and wherein the second mechanism is configured for preventing at the same time misuse by blocking any unintended movement of the first lever. 6. The coupling device according to claim 1 , wherein the coupling device is a mono probe coupling device comprising only a single probe. 7. The coupling device according to claim 1 , wherein the coupling device further comprises a suction gate for sucking liquid through the coupling device out of the container, and wherein the first and second mechanisms are configured for providing an adjustment of a size of an opening of the suction gate which adjustment is independent from a current axial position of the probe. 8. The coupling device according to claim 1 , wherein the first mechanism comprises a first lever for operating the first mechanism, wherein the first mechanism comprises a claw element for drawing the cap and the container towards the coupling device and for locking the container and the cap into the desired position, wherein the first lever is configured to be moved from a start position towards an end position, and wherein the first lever is operatively connected to the claw element and is configured upon movement from the start position into a locking position to radially move the claw element. 9. The coupling device according to claim 8 , wherein the first lever is configured to be rotated for operating the first mechanism, the first mechanism further comprising a clamp cylinder, the first mechanism further comprising a transfer cylinder comprising a motion link, wherein the first lever is connected to the transfer cylinder such that the transfer cylinder follows a rotation of the first lever, wherein the transfer cylinder is configured upon the rotation caused by the first lever to axially move the clamp cylinder, and wherein the clamp cylinder is configured upon its axial movement to radially and axially move the claw element. 10. The coupling device according to claim 8 , further comprising: a suction gate, wherein an opening defined by the suction gate is closed in the start position of the first lever, wherein the first mechanism is configured upon moving the first lever from the start position to an intermediate position to open the opening of the suction gate, and wherein the first mechanism is configured upon moving the first lever from the intermediate position to the end position to re-close the opening of the suction gate. 11. The coupling device according to claim 1 , wherein the second mechanism comprises a second lever, wherein the second mechanism comprises a lifter which comprises a second motion link, wherein the second lever is configured to be moved from a start position towards an end position, wherein the second lever is connected with the lifter and is configured upon movement from the start position to the end position to move the lifter, and wherein the lifter is configured to axially move the probe by the second motion link when the lifter is moved by the second lever. 12. The coupling device according to claim 11 , wherein the second mechanism is configured upon movement of the second lever from the start position towards the end position to gradually open the opening defined by the suction gate. 13. The coupling device according to claim 1 , wherein the coupling device is configured for rinsing outer parts of the cap and the closure insert, inner parts of the coupling device and transfer lines of the coupling device in a coupled configuration in which the closure insert fluid tightly closes the opening of the cap. 14. A system for draining and venting a container, the system comprising: a coupling device according to claim 1 , and a container comprising, a container body with at least one inlet opening, and a cap for closing the inlet opening of the container body, wherein the cap is attached to the inlet opening of the container body, wherein the cap comprises an opening, wherein the cap comprises a closure insert, wherein the closure insert releasably engages with the cap such that the opening of the cap is fluid tightly closed. 15. The system according to claim 14 , further comprising: a crop protection spray system. 16. The coupling device according to claim 1 , wherein the first tube, the second tube and the third tube are arranged concentrically in the coupling device. 17. A method of mechanically coupling a coupling device to a cap of a container, the method comprising the steps of: placing the container onto a coupling device (S 1 ), wherein a container body comprises at least one inlet opening and a cap attached to the inlet opening closing the inlet opening, wherein the cap comprises an opening and a closure insert, wherein the coupling device comprises a first tube, a second tube and a third tube, wherein the first tube is enclosed by the second tube and the third tube, and wherein the second tube is enclosed by the third tube, wherein the first tube is configured for guiding air through the coupling device into the container, wherein the second tube is configured for rinsing water into the container, and wherein the third tube is configured for sucking liquid out of the container through