Transducer apparatus as well as measuring system formed by means of such a transducer apparatus

The invention claimed is: 1. A transducer apparatus, comprising: a deformation body; an actuator adapted to deform said deformation body elastically; and a radio sensor positioned on the deformation body and connected therewith by material bonding, said radio sensor including a surface facing away from said deformation body, wherein: said radio sensor is adapted to receive free-space electromagnetic waves and to convert them into acoustic surface waves propagating along the surface facing away from the deformation body; said radio sensor is adapted to convert acoustic surface waves propagating along the surface into free-space electromagnetic waves; and said deformation body is adapted as a function of a mechanical force acting thereon and/or as a function of a temperature change, to be at least partially deformed in such a manner that at least the surface of said radio sensor facing away from said deformation body experiences a shape change influencing a propagation of acoustic surface waves propagating along the surface. 2. The transducer apparatus as claimed in claim 1 , wherein: said radio sensor is adapted to convert received free-space electromagnetic waves into time delayed, free-space, electromagnetic waves; and/or said radio sensor is adapted to reflect acoustic surface waves propagating along the surface, especially in such a manner that acoustic surface waves emitted from a transmitting- and receiving zone are converted into acoustic surface waves striking time delayed on the transmitting- and receiving zone. 3. The transducer apparatus as claimed in claim 1 , wherein: said deformation body is adapted to react to a mechanical force acting thereon and changeable as a function of time with elastic deformations changing as a function of time; and/or said deformation body is adapted to react to a mechanical force changeable as a function of time and acting thereon with mechanical oscillations about a static resting position; and/or said deformation body is adapted to be caused to vibrate for effecting the shape changes of the surface of the radio sensor changing as a function of time. 4. The transducer apparatus as claimed in claim 1 , wherein: said actuator is positioned on said deformation body and/or connected therewith by material bonding; and/or said actuator is adapted to deform said deformation body in such a manner that the deformation body at least at times executes mechanical oscillations about a static resting position and/or in such a manner that the deformation body at least at times is deflected from a static resting position. 5. The transducer apparatus as claimed in claim 1 , wherein: said deformation body is mechanically prestressed in a static resting position; and/or said deformation body is adapted to be contacted on a side facing away from the radio sensor by a fluid measured substance, especially a fluid measured substance flowing at least at times. 6. The transducer apparatus as claimed in claim 1 , wherein: said deformation body is composed at least partially of a metal; and/or said deformation body is composed at least partially of a ceramic; and/or said deformation body is disc shaped. 7. The transducer apparatus as claimed in claim 1 , wherein: said deformation body is tubular. 8. The transducer apparatus as claimed in claim 1 , wherein: said deformation body includes a tube or is formed by means of a tube. 9. The transducer apparatus as claimed in claim 1 , wherein: said deformation body includes a lumen surrounded by a wall and the lumen is adapted to guide a fluid measured substance. 10. The transducer apparatus as claimed in claim 9 , wherein: said radio sensor is positioned on a side of the wall facing away from the lumen; and/or said radio sensor is connected with the wall. 11. The transducer apparatus as claimed in claim 1 , wherein: said radio sensor includes at least one interdigital transducer. 12. The transducer apparatus as claimed in claim 1 , wherein: said radio sensor includes at least one antenna for converting therewith received, free-space electromagnetic waves into a line conducted, electrical, alternating voltage and/or for converting an applied, electrical, alternating voltage into free-space electromagnetic waves emitted by said radio sensor. 13. Use of a transducer apparatus as claimed in claim 1 , comprising registering at least one physical measured variable of a fluid measured substance by measuring the physical variable with the transducer apparatus, and for producing measured values representing the measured variable. 14. A transducer apparatus, comprising: a deformation body, said deformation body including a membrane or being formed by means of a membrane and said deformation body including a sensor blade or being formed by means of a sensor blade; and a radio sensor positioned on the deformation body and connected therewith by material bonding, said radio sensor including a surface facing away from said deformation body; wherein: said radio sensor is adapted to receive free-space electromagnetic waves and to convert them into acoustic surface waves propagating along the surface facing away from the deformation body, said radio sensor is adapted to convert acoustic surface waves propagating along the surface into free-space electromagnetic waves, and said deformation body is adapted, as a function of a mechanical force acting thereon and/or as a function of a temperature change, to be at least partially deformed in such a manner that at least the surface of said radio sensor facing away from said deformation body experiences a shape change influencing a propagation of acoustic surface waves propagating along the surface. 15. The transducer apparatus as claimed in claim 14 , wherein: said radio sensor is said membrane by adhesive. 16. The transducer apparatus as claimed in claim 14 , wherein: said deformation body includes a paddle-shaped sensor blade and/or an at least sectionally wedge shaped sensor blade and/or an at least sectionally rod-shaped sensor blade, or is formed by means of a paddle shaped sensor blade and/or an at least sectionally wedge shaped sensor blade sensor blade and/or an at least sectionally rod-shaped sensor blade. 17. The transducer apparatus as claimed in claim 16 , wherein: said sensor blade is positioned on a side of said membrane facing away from said radio sensor; and/or said sensor blade is adapted to convert a force acting thereon into a deformation of said membrane effecting the shape change of the surface of the radio sensor; and/or said sensor blade is adapted to be inserted into a lumen of a tube, or to be flowed around by a fluid measured substance flowing in a lumen of the tube. 18. The transducer apparatus as claimed in claim 17 , wherein: said sensor blade is adapted to convert a force acting thereon and effected by a fluid measured substance into a deformation of said membrane effecting the shape change of the surface of said radio sensor. 19. Use of a transducer apparatus as claimed in claim 16 , comprising registering at least one physical measured variable of a fluid measured substance by measuring the physical variable with the transducer apparatus and for producing measured values representing the measured variable. 20. A transducer apparatus, comprising: a deformation body; and a radio sensor positioned on the deformation body and connected therewith by material bonding, said radio sensor including a surface facing away from said deformation body;