Switching valve and internal combustion engine

What is claimed is: 1. A switching valve for an internal combustion engine having an adjustable compression ratio for controlling the flow of hydraulic oil in the hydraulic chambers of an eccentric adjustment device, said switching valve comprising: a switching element, in a surface of which a groove is formed; a sleeve-shaped connecting section, which has a first bore, which connects the switching valve with a first hydraulic fluid line, a second bore, which connects the switching valve with a second hydraulic fluid line, and a venting bore, which connects the switching valve to a venting duct, wherein the switching element is guided so as to be movable in the connecting section by forming a gap between the surface of the switching element and a corresponding guide face of the connecting section, wherein the switching element is configured to be moved into a first switched position or a second switched position, wherein in the first switched position the groove which is formed in the switching element connects the first hydraulic fluid line to the venting duct, wherein in the second switched position the groove which is formed in the switching element connects the second hydraulic fluid line to the venting duct, wherein the switching element is configured to be secured in the first switched position and the second switched position; and at least one sealing element for sealing the gap, at least in certain sections, between the switching element and the connecting section, wherein the sealing element encircles the groove. 2. The switching valve as claimed in claim 1 , wherein the sealing element extends around the groove and is formed on the surface of the switching element. 3. The switching valve as claimed in claim 1 , wherein the groove which is formed in the switching element and latching grooves, which are formed in the switching element, are formed on sections of the surface of the switching element lying opposite one another when viewed in a radial direction. 4. The switching valve as claimed in claim 3 , wherein the at least one sealing element, which is positioned on one side of the latching grooves formed on the surface of the switching element, when viewed in an axial direction of the switching element, is formed on the surface of the switching element. 5. The switching valve as claimed in claim 4 , wherein a first sealing element, which is positioned on a first side of the latching grooves that are positioned side by side, when viewed in the axial direction of the switching element, is formed on the surface of the switching element, and a second sealing element, which is positioned on a second side of the latching grooves, when viewed in the axial direction of the switching element, is formed on the surface of the switching element. 6. The switching valve as claimed in claim 5 , wherein the first sealing element extends around the switching element when viewed in a circumferential direction of the switching element, and is positioned on a first side of the groove when viewed in the axial direction of the switching element, and the second sealing element also extends around the switching element when viewed in the circumferential direction of the switching element, and is positioned on a second side of the groove when viewed in the axial direction of the switching element. 7. The switching valve as claimed in claim 1 , wherein a first sealing element, which seals the second bore when the switching element assumes the first switched position, and/or a second sealing element which seals the first bore when the switching element assumes the second switched position are/is between the surface of the switching element and the guide face of the connecting section. 8. The switching valve as claimed in claim 1 , wherein a first sealing element, which is positioned on a side of the first bore and of the first hydraulic fluid line, when viewed in an axial direction of the connecting section, faces away from the venting bore and from the venting duct, and a second sealing element, which is positioned on a side of the second bore and of the second hydraulic fluid line, when viewed in the axial direction of the connecting section, faces away from the venting bore and from the venting duct. 9. The switching valve as claimed in claim 1 , wherein the groove of the switching element is embodied in a T-shape. 10. The switching valve as claimed in claim 9 , wherein in the first switched position the groove is arranged in a region of the first bore and of the venting bore of the sleeve-shaped connecting section, and in the second switched position said groove is arranged in a region of the second bore and of the venting bore of the sleeve-shaped connecting section, wherein the venting bore is arranged in a region between the first and the second bores of the sleeve-shaped connecting section. 11. The switching valve as claimed in claim 1 , wherein the switching element is configured to be locked by a latching ball and a spring in the first switched position or the second switched position, which interact with latching grooves formed on the switching element, wherein the spring is configured to apply a spring tension to the latching ball transversely with respect to a direction of movement of the switching element. 12. An internal combustion engine having an adjustable compression ratio and having a switching valve as claimed in claim 1 , the internal combustion engine having a connecting rod arrangement which has a hydraulically adjustable eccentric adjustment device that is arranged in a big end bearing eye and/or a pin bearing eye and adjusts an effective connecting rod length, wherein an adjustment path of the eccentric adjustment device is configured to be controlled by the switching valve. 13. The internal combustion engine as claimed in claim 12 , wherein the switching valve is integrated into the connecting rod arrangement.