Ultrasonic fluid measuring arrangement with at least two waveguide parts spaced apart on an outer wall of a measuring tube

The invention claimed is: 1. A fluid measuring means having a measuring tube, in which a circumferentially closed flow channel for a fluid to be measured is formed and in which at least two areas of an outer wall of the measuring tube are configured as waveguide parts, which each form a waveguide for surface acoustic waves, wherein a first and/or a second signal converter is arranged at each waveguide part and the first and/or the second signal converter is designed to excite surface acoustic waves in the respective waveguide part and/or to receive surface acoustic waves from the waveguide part, wherein surface acoustic waves emitted by the first and/or the second signal converter are adapted to be decoupled from the waveguide part and to propagate as bulk acoustic waves through the fluid in the flow channel and/or bulk acoustic waves are adapted to be coupled into the waveguide part and to be received by the first and/or the second signal converter, wherein the waveguide parts are spaced apart from each other along a circumference of the flow channel, and wherein at least two first signal converters arranged on different waveguide parts or two second signal converters arranged on different waveguide parts are spaced with respect to each other in an axial direction of the flow channel, wherein each of the waveguide parts are located opposite an area of the measuring tube which is not configured as a respective waveguide part and on which no signal converters are provided, wherein a wall thickness of the outer wall of the measuring tube in these areas is unchanged compared to areas of the outer wall adjacent in a circumferential direction, wherein the fluid measuring means is designed such that a decoupled bulk sound wave is reflected back at an area of an inner side to the waveguide part from which it was decoupled. 2. The fluid measuring means according to claim 1 , wherein the fluid measuring means is designed such that a measurement section extending through the flow channel between two signal converters having a greater length is provided for fluids having higher sound velocities, and a measurement section extending through the flow channel between two signal converters having a smaller length for fluids having lower sound velocities. 3. The fluid measuring means according to claim 1 , wherein the decoupled bulk sound wave is reflected back only once at the area of the inner side to the waveguide part from which it was decoupled. 4. The fluid measuring means according to claim 1 , wherein the measuring tube has a diameter which is between 4 and 50 mm. 5. The fluid measuring means according to claim 1 , wherein a distance between the first and the second signal converter of a waveguide part is different for at least two waveguide parts. 6. The fluid measuring means according to claim 1 , wherein one respective waveguide part or one pair of waveguides defines a shorter measurement section extending through the flow channel and one respective waveguide part or one pair of waveguides defines a longer measurement section extending through the flow channel. 7. The fluid measuring means according to claim 1 , wherein all waveguide parts are arranged such that they are each arranged on a parallel to a central axis of the flow channel. 8. The fluid measuring means according to claim 1 , wherein the first and/or the second signal converter are arranged such that bulk acoustic waves pass through a central axis of the flow channel directly after being decoupled from the respective waveguide part of each of the first and/or the second signal converter acting as a transmitter. 9. The fluid measuring means according to claim 1 , wherein the waveguide parts both form part of the inner side of the flow channel which comes into direct contact with the fluid flowing through and are configured as flattenings on the outer wall of the measuring tube, in which the wall thickness of the measuring tube is reduced. 10. The fluid measuring means according to claim 9 , wherein, in a side view, the flattenings are each configured in an oblique manner and so as to taper towards axial ends thereof. 11. A fluid measuring means having a measuring tube, in which a circumferentially closed flow channel for a fluid to be measured is formed and in which at least two areas of an outer wall of the measuring tube are configured as waveguide parts, which each form a waveguide for surface acoustic waves, wherein a first and/or a second signal converter is arranged at each waveguide part and the first and/or the second signal converter is designed to excite surface acoustic waves in the respective waveguide part and/or to receive surface acoustic waves from the waveguide part, wherein surface acoustic waves emitted by the first and/or the second signal converter are adapted to be decoupled from the waveguide part and to propagate as bulk acoustic waves through the fluid in the flow channel and/or bulk acoustic waves are adapted to be coupled into the waveguide part and to be received by the first and/or the second signal converter, wherein the waveguide parts are spaced apart from each other along a circumference of the flow channel, and wherein at least two first signal converters arranged on different waveguide parts or two second signal converters arranged on different waveguide parts are spaced with respect to each other in an axial direction of the flow channel, wherein an even number of waveguide parts is provided, wherein two waveguide parts are respectively arranged diametrically opposite one another and form a pair of waveguides, wherein at least two pairs of waveguides are provided and each pair of waveguides has a waveguide part serving as a reference waveguide and a waveguide part serving as a measuring waveguide, wherein an axial position of the first and/or the second signal converter on the measuring waveguide differs in the at least two pairs of waveguides. 12. The fluid measuring means according to claim 11 , wherein the measuring tube has a diameter which is between 10 and 400 mm. 13. The fluid measuring means according to claim 11 , wherein a length of a measurement section extending through the flow channel between the first and the second signal converters of diametrically opposite waveguide parts is different for two pairs of waveguides. 14. The fluid measuring means according to claim 11 , wherein in different pairs of the at least two pairs of waveguides, the first or the second signal converters are located at different axial positions. 15. The fluid measuring means according to claim 14 , wherein a respective measurement section is formed between the first signal converter of the reference waveguide and the signal converter on an associated measuring waveguide of the pair of waveguides. 16. The fluid measuring means according to claim 15 , wherein the decoupled bulk acoustic waves are not reflected at an inner side of the flow channel before they couple into the measuring waveguide. 17. The fluid measuring means according to claim 11 , wherein a distance between the first and the second signal converter is equal on one respective waveguide part of two different pairs of the at least two pairs of waveguides. 18. The fluid measuring means according to claim 11 , wherein the fluid measuring means is designed such that a measurement section extending through the flow channel between two signal converters having a greater length is provided for fluids having higher sound velocities, and a measurement section extending through the flow channel between two signal converters having a smaller leng