Fluid meter including a first wall thickness in the area of a transmitter and in the area of a receiver and a second wall thickness in the area there between

The invention claimed is: 1. A fluid meter for determining at least one characteristic property of a fluid (F), comprising a measuring tube which has a fluid channel allowing the fluid (F) to flow through and which has a measuring section in which at least one area of a measuring tube wall is formed as a waveguide for surface acoustic waves, which forms an interface with the fluid (F), and at least one transmitter in an area, for exciting acoustic waves in the waveguide as well as at least one receiver in an area, for receiving acoustic waves from the waveguide, the at least one transmitter and at least one receiver being arranged in direct contact with an outer surface of the waveguide, wherein acoustic waves excited by the transmitter can propagate through the fluid (F) at least in sections as a bulk wave (V) and the bulk wave (V) has at least one reflection point (IP) on the measuring tube wall, characterized in that the measuring tube wall has a first wall thickness (T 1 ) in the area of the transmitter and in the area of the receiver and has a second wall thickness which differs from the first wall thickness (T 1 ) in the area of all reflection points (IP) of the bulk wave (V). 2. A fluid meter for determining at least one characteristic property of a fluid (F), comprising a measuring tube which has a fluid channel allowing the fluid (F) to flow through and which has a measuring section in which at least one area of a measuring tube wall is formed as a waveguide for surface acoustic waves, which forms an interface with the fluid (F), and at least one transmitter in an area, for exciting acoustic waves in the waveguide as well as at least one receiver in an area, for receiving acoustic waves from the waveguide, the at least one transmitter and at least one receiver being arranged in direct contact with an outer surface of the waveguide, wherein acoustic waves excited by the transmitter can propagate through the fluid (F) at least in sections as a bulk wave (V) and the bulk wave (V) can reflect at least once on the measuring tube wall in a reflection area between the transmitter and the receiver, characterized in that the measuring tube wall has a first wall thickness (T 1 ) in the area of the transmitter and in the area of the receiver and has a second wall thickness (T 2 ) which differs from the first wall thickness (T 1 ) in the reflection area on an imaginary line, running in the tube wall, parallel to a longitudinal axis of the measuring tube, and running through a coupling-in area of the transmitter. 3. The fluid meter according to claim 2 , characterized in that the at least one reflection point, in an area in which the measuring tube wall has the second wall thickness, lies between transmitter and receiver, viewed along the longitudinal axis of the measuring tube. 4. The fluid meter according to claim 2 , characterized in that the first wall thickness (T 1 ) of the measuring tube wall is smaller than or identical to the wavelength (A) of the surface acoustic wave. 5. The fluid meter according to claim 2 , characterized in that the second wall thickness (T 2 ) is 20% to 95% larger or smaller than the first wall thickness (T 1 ). 6. The fluid meter according to claim 2 , characterized in that the second wall thickness (T 2 ) is larger than the first wall thickness (T 1 ). 7. The fluid meter according to claim 2 , characterized in that between the transmitter and the receiver an intermediate area is provided which is elongate in the axial direction (A) of the measuring tube and which connects the areas of the transmitter and receiver with the first wall thickness (T 1 ) in the axial direction (A), wherein the intermediate area, in each radial section viewed individually, has a constant wall thickness in the axial direction (A). 8. The fluid meter according claim 2 , characterized in that the bulk wave (V) has several reflection points (IP) on the measuring tube wall, wherein the measuring tube wall has the second wall thickness (T 2 ) in the area of each reflection point (IP). 9. The fluid meter according to claim 2 , characterized in that the bulk wave (V) has at least 1 to 6 reflection points (IP) on the measuring tube wall in areas of the measuring tube wall which have the second wall thickness (T 2 ). 10. The fluid meter according to claim 2 , characterized in that in the area of the transmitter and in the area of the receiver in each case an area of the wall with the first wall thickness (T 1 ) is provided which, starting from a side of the transmitter facing the receiver as well as starting from a side of the receiver facing the transmitter, in each case extends axially over a length (L) of from 1 to 20 wavelengths (A). 11. The fluid meter according to claim 2 , characterized in that the areas with different wall thicknesses (T 1 , T 2 ) merge into each other continuously and step-free at least in the propagation direction of the surface waves. 12. The fluid meter according to claim 2 , characterized in that in an intermediate area between the area of the transmitter and that of the receiver a continuous groove in the measuring tube wall, in which the measuring tube wall preferably has the first wall thickness (T 1 ), extends in the area with the second wall thickness (T 2 ), with the result that transmitter and receiver are acoustically coupled to each other directly via the groove, in particular wherein the wall thickness in the intermediate area outside the groove is constant. 13. The fluid meter according to claim 12 , characterized in that surface waves outside the fluid (F) propagate from the transmitter to the receiver directly via the continuous groove. 14. The fluid meter according to claim 2 , characterized in that several transmitters and/or receivers are provided on the measuring tube, wherein one transmitter and one receiver are arranged on a common wall area with the first wall thickness (T 1 ). 15. The fluid meter according to claim 2 , characterized in that the transmitter and the receiver extend over at least 90% of the width (B) of the fluid channel. 16. The fluid meter according to claim 2 , characterized in that the measuring tube has an angular cross section in the measuring section. 17. The fluid meter according to claim 16 , characterized in that the transmitter and the receiver are arranged on a shorter side of a rectangular cross section of the measuring section. 18. The fluid meter according to claim 2 , characterized in that the measuring tube has a round cross section in the measuring section and a flat area, on which the transmitter and the receiver ( 26 ) are arranged, is formed in the outer surface of the measuring tube in the measuring section. 19. The fluid meter according to claim 2 , characterized in that the measuring tube has a round cross section in the measuring section and the shape of the transmitter and that of the receiver are matched to the round outer surface of the measuring tube. 20. The fluid meter according to claim 19 , characterized in that the transmitter and the receiver extend at least over part of the circumference (U) of the measuring tube.