Endoscopic instrument

What is claimed is: 1. An endoscopic instrument having a proximal end; a distal end; a longitudinal direction along which the endoscopic instrument extends from the proximal end to the distal end; an end effector at the distal end, wherein the end effector has a first end effector part and a second end effector part; a bearing element at the distal end, on which bearing element the first and second end effector parts are arranged and on which bearing element portions of a curved surface are formed; a first thrust element; a second thrust element; and a third thrust element; wherein the first, second and third thrust elements each extend along the longitudinal direction and are displaceable relative to one another along the longitudinal direction; wherein the first thrust element is articulately coupled to the first end effector part, the second thrust element is articulately coupled to the second end effector part, the third thrust element is articulately coupled to the first end effector part and the second end effector part; wherein the first end effector part has an at least partially curved first bearing surface, and the second end effector part has an at least partially curved second bearing surface, and the first and second bearing surfaces are each held slidably on the bearing element; wherein the first and second thrust elements are articulately coupled in such a way that the first end effector part and the second end effector part are pivotable relative to each other in a first pivot plane about a first pivot axis during a displacement of at least one of the first thrust element and the second thrust element relative to one another; and wherein the third thrust element is articulately coupled in such a way that, during a displacement of the third thrust element in the longitudinal direction and relative to at least one of the first thrust element and the second thrust element, the first end effector part and the second end effector part are displaceable in a same direction in a second pivot plane. 2. The endoscopic instrument of claim 1 , wherein the first thrust element is articulately coupled to the first end effector part by a first joint. 3. The endoscopic instrument of claim 2 , wherein the first joint is configured in such a way that the first end effector part can move relative to the first thrust element about a first rotation axis and about a further first rotation axis, wherein the first rotation axis and the further first rotation axis are at a first angle to each other. 4. The endoscopic instrument of claim 2 , wherein the first joint is configured in such a way that the first end effector part can move relative to the first thrust element about a first rotation axis and about a further first rotation axis, wherein the first rotation axis and the further first rotation axis are at least approximately at a right angle relative to one another. 5. The endoscopic instrument of claim 1 , wherein the third thrust element is coupled to the first end effector part and the second end effector part along the first pivot axis. 6. The endoscopic instrument of claim 1 , wherein the first pivot axis forms a longitudinal axis of a pivot pin on which the first end effector part and the second end effector part are arranged. 7. The endoscopic instrument of claim 6 , wherein the pivot pin protrudes from the bearing element at a first side and at a second side lying opposite the first side. 8. The endoscopic instrument of claim 6 , wherein the pivot pin is guided through a recess of the bearing element. 9. The endoscopic instrument of claim 1 , wherein the bearing element is designed at least partially in the shape of a spherical segment. 10. The endoscopic instrument of claim 1 , wherein the first thrust element and the second thrust element lie in the first pivot plane, and the third thrust element lies in a second pivot plane perpendicular to the first pivot plane. 11. The endoscopic instrument of claim 1 , wherein the bearing element is stationary in relation to the proximal end. 12. The endoscopic instrument of claim 1 , wherein the bearing element is arranged such that a displacement of one of the first, second and third thrust elements always leads to a displacement of the displaced thrust element relative to the bearing element. 13. The endoscopic instrument of claim 1 , wherein the first end effector part has a first recess and a further first recess, with which the first end effector part is held on a pivot pin. 14. The endoscopic instrument of claim 1 , wherein the first bearing surface has at least approximately the shape of a portion of a spherical surface, the portion resulting from a sphere being cut by two non-parallel planes which are at an angle to each other, the center point of the sphere lying in both planes. 15. The endoscopic instrument of claim 1 , wherein the first, second and third thrust elements are arranged parallel to one another. 16. The endoscopic instrument of claim 1 , wherein the first, second and third thrust elements are designed as thrust rods. 17. The endoscopic instrument of claim 1 , wherein the first end effector part is in the form of one of a first gripping forceps part and first scissor part, and wherein the second end effector part is in the form of one of a second gripping forceps part and a second scissor part. 18. An endoscopic instrument having a proximal end; a distal end; a longitudinal direction along which the endoscopic instrument extends from the proximal end to the distal end; an end effector at the distal end, wherein the end effector has a first end effector part and a second end effector part; a bearing element at the distal end, on which bearing element the first and second end effector parts are arranged; a first thrust element; a second thrust element; and a third thrust element; wherein the first, second and third thrust elements each extend along the longitudinal direction; wherein the first thrust element is articulately coupled to the first end effector part, the second thrust element is articulately coupled to the second end effector part, the third thrust element is articulately coupled to the first end effector part and the second end effector part; wherein the first end effector part comprises a first bearing surface, and the second end effector part comprises a second bearing surface, and the first and second bearing surfaces are each held slidably on the bearing element; wherein the first and second thrust elements are articulately coupled in such a way that the first end effector part and the second end effector part are pivotable relative to each other in a first pivot plane about a first pivot axis during a displacement of at least one of the first thrust element and the second thrust element relative to one another; and wherein the third thrust element is articulately coupled in such a way that, during a displacement of the third thrust element in the longitudinal direction and relative to at least one of the first thrust element and the second thrust element, the first end effector part and the second end effector part are displaceable in a same direction in a second pivot plane.