Clamp-on ultrasonic transducer arrangement independent of measuring tube diameter at a measuring point and method for commissioning the same

The invention claimed is: 1. An ultrasonic transducer arrangement for a clamp-on ultrasonic flow measuring point based on the travel time difference principle, the transducer arrangement comprising: a plurality of ultrasonic transducers, each adapted to be arranged on an outside of a measuring tube of the clamp-on flow measuring point, wherein each ultrasonic transducer includes at least one transducer element configured to generate and/or receive ultrasonic signals and a coupling element, wherein the coupling element includes a first contact area and a second contact area, wherein the at least one transducer element is arranged on the first contact area, and wherein each ultrasonic transducer is adapted to contact the measuring tube via the respective second contact area, wherein each ultrasonic transducer is configured to radiate ultrasonic signals into the measuring tube and/or to receive ultrasonic signals emerging from the measuring tube, wherein the respective second contact areas each have a normal that defines a plane in which ultrasonic signal paths of the ultrasonic signals extend, wherein the plurality of ultrasonic transducers include first ultrasonic transducers, which define first ultrasonic signal paths extending parallel with each other, and second ultrasonic transducers, which define second ultrasonic signal paths extending parallel with each other, wherein the first and second ultrasonic signal paths extend in the plane, wherein the first ultrasonic signal paths and the second ultrasonic signal paths extend in the coupling element, in each case, inclined to the second contact area, wherein a direction of the first ultrasonic signal paths and a direction of the second ultrasonic signal paths are mirror symmetric to one of the normals, wherein the first ultrasonic signal paths form intersection points in the plane with the second ultrasonic signal paths, wherein the intersection points lie at parallels that extend in the plane perpendicular to the normals, wherein a first group of associated, adjoining ultrasonic transducers includes exclusively the first ultrasonic transducers of a first number, and wherein a second group of associated, adjoining ultrasonic transducers includes exclusively the second ultrasonic transducers of a second number, wherein the adjoining first ultrasonic transducers of the first group have in a direction of the parallels, in each case, a first separation, A 1 , from each other, and wherein the adjoining second ultrasonic transducers of the second group have in the direction of the parallels, in each case, a second separation, A 2 , from each other, wherein the first separation and the second separation are unequal, wherein: 2* A 1≥ A 2≥1.125* A 1. 2. The transducer arrangement of claim 1 , wherein: 1.6* A 1≥ A 2≥1.125* A 1. 3. The transducer arrangement of claim 1 , wherein a relationship between the first separation and the second separation corresponds to the following equation: ( a+ 1)* A 1= a*A 2 wherein a is a natural number that is greater than 1 and less than 9. 4. The transducer arrangement of claim 3 , wherein a is greater than 1 and less than 5. 5. The transducer arrangement of claim 1 , wherein each coupling element has a longitudinal axis that has an interior angle, α, relative to the corresponding second contact area, wherein the first as second ultrasonic signal paths extend in the coupling element in a direction of the longitudinal axis, wherein the at least one transducer element has a radial extent, rA, wherein: rA> 3/(8* a )* A 1*sin( a ). 6. The transducer arrangement of claim 5 , wherein: rA> 1/(4* a )* A 1*sin( a ). 7. The transducer arrangement of claim 1 , further comprising at least a third group of associated ultrasonic transducer including at least one first ultrasonic transducer and/or at least one second ultrasonic transducer, wherein at least one intersection point formed with a first ultrasonic transducer of the third group and/or a second ultrasonic transducer of the third group supplements a greatest cardinality, first set of equidistant parallels. 8. The transducer arrangement of claim 1 , wherein the plurality of ultrasonic transducers include a third ultrasonic transducer, which defines a third ultrasonic signal path extending perpendicular to the second contact area of the respective coupling element. 9. The transducer arrangement of claim 1 , further comprising a support body configured to position and hold the plurality of ultrasonic transducers. 10. The ultrasonic transducer arrangement of claim 9 , wherein each of the plurality of ultrasonic transducers are held individually in the support body. 11. A clamp-on ultrasonic flow measuring point for measuring a flow velocity of a medium flowing through a measuring tube, the measuring point comprising: a measuring tube adapted to convey a medium and having a measuring tube axis; an ultrasonic transducer arrangement as claimed in claim 1 , wherein the ultrasonic transducer arrangement is oriented in parallel with the measuring tube axis; and an electronic circuit configured to operate the plurality of ultrasonic transducers and to determine and provide measured values of a flow velocity of the medium. 12. The clamp-on ultrasonic flow measuring point of claim 11 , further comprising a curvature sensor configured to determine an outer diameter of the measuring tube, the curvature sensor including a separation sensor and a spacer, wherein the spacer has a central region and two ends adjoining the central region, wherein the ends are bounded from the central region by a bend or an angle, wherein the spacer is configured via the ends to contact the measuring tube, wherein the central region is adapted to be spaced from the measuring tube, and wherein a cross-section or longitudinal section through the spacer through the two ends is configured to extend in parallel with a measuring tube cross-section, wherein the separation sensor is arranged on the spacer in the central region, and wherein the electronic circuit is configured to operate the separation sensor. 13. The clamp-on ultrasonic flow measuring point of claim 12 , wherein the separation sensor is an optical or acoustic separation sensor. 14. A method for commissioning the clamp-on ultrasonic flow measuring point as claimed in claim 11 , the method comprising: transmitting, simultaneously or offset in time, first ultrasonic signals and second ultrasonic signals from each of the first ultrasonic transducers and second ultrasonic transducers, respectively; receiving the transmitted first and second ultrasonic signals by the second ultrasonic transducers and the first ultrasonic transducers, respectively; and determining at least one ultrasonic transducer pair of the first and second ultrasonic transducers to be used for a measurement operation based on a signal strength and/or a signal-noise ratio of the received first and second ultrasonic signals using the electronic circuit. 15. The method of claim 14 , wherein the first and second ultrasonic signals are quasi-continuous and differ in frequency, or wherein the transmitted first and second ultrasonic signals are pulsed and differ in a center frequency of a frequency spectrum. 16. The method of claim 14 , further comprising: conveying the medium through the measuring tube; examining portions of the received first and second ultrasonic signals for presence of a travel time difference; and excluding portions of the received first and second ultrasonic signals without travel time difference in determining the at le