Rotational speed sensor, fixing device for a rotational speed sensor, receiving device for a rotational speed sensor, sensor system having a receiving device and a rotational speed sensor and method for the rotationally locked positioning of a rotational speed sensor

The invention claimed is: 1. A rotational speed sensor, comprising: a cylindrical sensor head having a measuring tip; and a tongue, which is arranged on an outer diameter of the sensor head, and which is formed to interact with a counter-contour of a fixing device as a rotational lock for the rotational speed sensor; wherein the tongue of the rotational speed sensor is couple-able to the counter contour in a rotationally locked manner, and wherein an end surface of the tongue forms a flat stop surface for the counter contour, wherein the end surface forms an outermost free end of the tongue and is arranged to run transversely to the side surfaces of the tongue and connects them, wherein the flat stop surface serves as a single surface for providing rotationally fixed locking. 2. The rotational speed sensor of claim 1 , wherein the tongue is formed to grip in or on the counter-contour of a fixing device. 3. The rotational speed sensor of claim 1 , wherein the tongue extends radially away from the sensor head. 4. The rotational speed sensor of claim 1 , wherein two side surfaces of the tongue form stop surfaces for the counter-contour. 5. The rotational speed sensor of claim 1 , wherein the tongue is arranged at an end of the sensor head facing away from the measuring tip. 6. The rotational speed sensor of claim 1 , wherein an end surface of the tongue has a tongue groove as a stop surface for the counter-contour. 7. The rotational speed sensor of claim 1 , wherein an end surface of the tongue forms a flat stop surface for the counter-contour. 8. A fixing device for a rotational speed sensor, comprising: a counter-contour, which is couple-able to a tongue of the rotational speed sensor to position the rotational speed sensor in a rotationally locked manner; wherein the rotational speed sensor includes: a cylindrical sensor head having a measuring tip; and the tongue, which is arranged on an outer diameter of the sensor head, and which is formed to interact with the counter-contour of the fixing device as a rotational lock for the rotational speed sensor; wherein the tongue of the rotational speed sensor is couple-able to the counter contour in a rotationally locked manner, and wherein an end surface of the tongue forms a flat stop surface for the counter contour, wherein the end surface forms an outermost free end of the tongue and is arranged to run transversely to the side surfaces of the tongue and connects them, wherein the flat stop surface serves as a single surface for providing rotationally fixed locking. 9. The fixing device of claim 8 , wherein the counter-contour forms a receiving groove for receiving the tongue or a protrusion for engaging in a tongue groove of the tongue or at least an extension as a counter stop surface for the tongue. 10. A receiving device, comprising: a receiving body for receiving at least one section of a rotational speed sensor head and a fixing device; wherein the fixing device, for the rotational speed sensor, includes a counter-contour, which is couple-able to a tongue of the rotational speed sensor to position the rotational speed sensor in a rotationally locked manner, and wherein the rotational speed sensor includes: a cylindrical sensor head having a measuring tip; and the tongue, which is arranged on an outer diameter of the sensor head, and which is formed to interact with the counter-contour of the fixing device as a rotational lock for the rotational speed sensor; wherein the tongue of the rotational speed sensor is couple-able to the counter contour in a rotationally locked manner, and wherein an end surface of the tongue forms a flat stop surface for the counter contour, wherein the end surface forms an outermost free end of the tongue and is arranged to run transversely to the side surfaces of the tongue and connects them, wherein the flat stop surface serves as a single surface for providing rotationally fixed locking. 11. The receiving device of claim 10 , wherein the receiving body and the fixing device are formed in one piece or the fixing device is connected to the receiving body in a form-fitting, force-fitting and/or firmly bonded manner. 12. A sensor system, comprising: a receiving device; a rotational speed sensor; wherein the tongue of the rotational speed sensor is couple-able to the counter-contour in a rotationally locked manner, wherein the receiving device includes a receiving body for receiving at least one section of a rotational speed sensor head and a fixing device, wherein the fixing device, for the rotational speed sensor, includes a counter-contour, which is couple-able to a tongue of the rotational speed sensor to position the rotational speed sensor in a rotationally locked manner, and wherein the rotational speed sensor includes: a cylindrical sensor head having a measuring tip; and the tongue, which is arranged on an outer diameter of the sensor head, and which is formed to interact with the counter-contour of the fixing device as a rotational lock for the rotational speed sensor; wherein the tongue of the rotational speed sensor is couple-able to the counter contour in a rotationally locked manner, and wherein an end surface of the tongue forms a flat stop surface for the counter contour, wherein the end surface forms an outermost free end of the tongue and is arranged to run transversely to the side surfaces of the tongue and connects them, wherein the flat stop surface serves as a single surface for providing rotationally fixed locking. 13. A method for providing a rotationally locked positioning of a rotational speed sensor on a fixing device, the method comprising: arranging a tongue of the rotational speed sensor in or on a counter-contour of a fixing device, wherein in the arranging, the tongue is arranged so that it interacts with a counter-contour to position the rotational speed sensor in a rotationally locked manner; wherein the fixing device includes a counter-contour, which is couple-able to a tongue of the rotational speed sensor to position the rotational speed sensor in a rotationally locked manner, and wherein the rotational speed sensor includes: a cylindrical sensor head having a measuring tip; and the tongue, which is arranged on an outer diameter of the sensor head, and which is formed to interact with the counter-contour of the fixing device as a rotational lock for the rotational speed sensor; wherein the tongue of the rotational speed sensor is couple-able to the counter contour in a rotationally locked manner, and wherein an end surface of the tongue forms a flat stop surface for the counter contour, wherein the end surface forms an outermost free end of the tongue and is arranged to run transversely to the side surfaces of the tongue and connects them, wherein the flat stop surface serves as a single surface for providing rotationally fixed locking. 14. A rotational speed sensor, comprising: a cylindrical sensor head having a measuring tip; and a tongue, which is arranged on an outer diameter of the sensor head, and which is formed to interact with a counter-contour of a fixing device as a rotational lock for the rotational speed sensor; wherein the tongue of the rotational speed sensor is couple-able to the counter contour in a rotationally locked manner, wherein the counter-contour forms counter-stop surfaces of the tongue, wherein the fixing device includes two fixing elements, each of which forms one of the counter-stop surfaces of the tongue, and wherein the tongue is arranged between the two fixing elements, and wherein the side surfaces of the tongue form stop surfaces for the coun