Method for ascertaining a characteristic variable for evaluating a measuring arrangement comprising a clamp-on, ultrasonic, flow measuring device and a pipe and/or for evaluating measurement operation of such a measuring arrangement

What is claimed is: 1. A method for ascertaining a characteristic variable for evaluating a measuring arrangement comprising: a clamp-on, ultrasonic, flow measuring device; and a pipe, on which the clamp-on, ultrasonic, flow measuring device is secured, and/or for evaluating measurement operation of such a measuring arrangement, the method comprising the steps as follows: A providing characteristic values relative to an exciter signal produced by the clamp-on, ultrasonic, flow measuring device; B providing sensor-specific data as regards acoustic properties of one or more ultrasonic transducers of the clamp-on, ultrasonic, flow measuring device; C inputting data relative to pipe material and pipe wall thickness; D ascertaining the characteristic variable from the parameters and data of steps A-C based on a mathematical model, comprising the steps of I) calculating a system response based on the mathematical model, and II) evaluating automatically the system response to determine the characteristic variable, wherein the ascertained characteristic variable is an angle, with which the sound mainly propagates through the fluid located in the pipe; and E initiating a failure detection based on the characteristic variable, in the case of which the data of the steps (A-C) are checked for compatibility. 2. The method as claimed in claim 1 , further comprising the steps: supplementally to the steps (A-D), in a step (F 1 ), output of a construction type dependent or excitation related, error report occurs using an actual/desired value comparison based on the characteristic variable. 3. The method as claimed in claim 1 , further comprising the steps: supplementally to the steps (A-D), a step (F 2 ) provides a quantified output of the characteristic variable or a quantified output of a measurement error calculated from the characteristic variable. 4. The method as claimed in claim 1 , wherein: the characteristic values with reference to the exciter signal of the clamp-on flow measuring device according to step (A) are selected from values as follows: the excitation frequency of the exciter signal; the bandwidth of the exciter signal; the repetition frequency of the excitation cycles; the signal type; and/or the type of the function window. 5. The method as claimed in claim 1 , wherein: the sensor-specific data of the clamp-on ultrasonic device are selected from values as follows: the diameter of the electromechanical transducer element of a particular ultrasonic transducer; the wedge angle of the coupling body of the particular ultrasonic transducer; the velocity of sound within the coupling body of the particular ultrasonic transducer; and the electrical transfer function of the particular ultrasonic transducer. 6. The method as claimed in claim 1 , wherein: the sensor-specific data wherein the characteristic values with reference to the exciter signal of the clamp-on flow measuring device according to step (A) are selected from values as follows: the excitation frequency of the exciter signal; the bandwidth of the exciter signal; the repetition frequency of the excitation cycles; the signal type; and/or the type of the function window; and/or the characteristic values of the exciter signal wherein the ascertained characteristic variable is the angle, with which the sound mainly propagates through the fluid located in the pipe and, in given cases, a dominant frequency are combined in one provided function. 7. The method as claimed in claim 1 , wherein: the providing of the characteristic values in step (A) and/or the providing of the sensor-specific data occurs by furnishing them as a data set for the particular clamp-on flow measuring device in a data memory of a data processing system and providing them from the data memory of the data processing system. 8. The method as claimed in claim 1 , wherein: in an additional step (X), information is provided relative to the construction of the measuring point and taken into consideration by the mathematical model in the case of ascertaining the measurement error factor. 9. The method as claimed in claim 1 , wherein: the sensor-specific data of the clamp-on ultrasonic device are selected from values as follows: the diameter of the electromechanical transducer element of a particular ultrasonic transducer; the wedge angle of the coupling body of the particular ultrasonic transducer; the velocity of sound within the coupling body of the particular ultrasonic transducer; and the center frequency and the bandwidth of the ultrasonic transducer. 10. A computer program product, with which the following method steps: A providing characteristic values relative to an exciter signal produced by the clamp-on, ultrasonic, flow measuring device; B providing sensor-specific data as regards acoustic properties of one or more ultrasonic transducers of the clamp-on, ultrasonic, flow measuring device; C inputting data relative to pipe material and pipe wall thickness; D ascertaining the characteristic variable from the parameters and data of steps A-C based on a mathematical model are executed, comprising the steps of: I) calculating a systenmm response based on the mathematical model; and II) evaluating automatically the system response to determine the characteristic variable, wherein the ascertained characteristic variable is an angle, with which the sound mainly propagates through the fluid located in the pipe; and E initiating a failure detection based on the characteristic variable, in the case of which the data of the steps (A-C) are checked for compatibility, wherein: the computer program product is based on the mathematical model; and with application of the characteristic values and data of the steps A-C and, in given cases, a step X is provided which provides information relative to the construction of the measuring point and taken into consideration by the mathematical model in the case of ascertaining the measurement error factor, and, ascertains a measurement error factor, which is suitable for failure diagnosis. 11. A clamp-on, ultrasonic, flow measuring device, comprising: at least two ultrasonic transducers secured outwardly on a pipeline; and an evaluation unit, which is designed for performing the following method steps: A providing characteristic values relative to an exciter signal produced by the clamp-on, ultrasonic, flow measuring device; B providing sensor-specific data as regards acoustic properties of one or more ultrasonic transducers of the clamp-on, ultrasonic, flow measuring device; C inputting data relative to pipe material and pipe wall thickness; D ascertaining the characteristic variable from the parameters and data of steps A-C based on a mathematical model, comprising the steps of I) calculating a system response based on the mathematical model, and II) evaluating automatically the system response to determine the characteristic variable, wherein the ascertained characteristic variable is an angle, with which the sound mainly propagates through the fluid located in the pipe; and which performs a correction of measurement error in real time based on the ascertained measurement error factor; and E initiating a failure detection based on the characteristic variable, in the case of which the data of the steps (A-C) are checked for compatibility. 12. The clamp-on, ultrasonic, flow measuring device as claimed in claim 11 , wherein: said clamp-on, ultrasonic, flow measuring device has at least one ultrasonic transducer and an evaluation unit, which is designed for ascertaining the angle, with which the ultrasonic signal enters from the pipe wall into the medium.