System of ultrasonic consumption meters with pressure sensors

The invention claimed is: 1. A system for measuring consumption data of a utility in terms of a supplied fluid comprising: a plurality of ultrasonic consumption meters arranged in a utility network that includes a data collector for collecting the consumption data, wherein each of the plurality of ultrasonic consumption meters are arranged to measure a flow rate of the supplied fluid and a pressure of the supplied fluid, wherein each of the plurality of ultrasonic consumption meters includes: a flow tube with a through-going opening for passage of the fluid between an inlet and an outlet, the flow tube having a wall with an outer surface; two ultrasonic transducers arranged at the outer surface of the flow tube, so that ultrasonic signals are transmitted through the wall; a control circuit arranged for operating the two ultrasonic transducers to generate a signal indicative of the flow rate of the fluid, and for operating a first strain gauge to generate a signal indicative of the pressure of the fluid; and a communication module connected to the control circuit and arranged for communicating the signal indicative of the flow rate of the fluid and the signal indicative of the pressure of the fluid to the data collector; wherein the flow tube is made from a polymer, and the first strain gauge is arranged at the outer surface of the flow tube to measure the strain on the flow tube in response to the pressure of the fluid. 2. The system according to claim 1 , wherein the control circuit is further arranged for operating a second strain gauge arranged at the outer surface of the flow tube to generate the signal indicative of the pressure of the fluid. 3. The system according to claim 2 , wherein the flow tube of each of the plurality of ultrasonic consumption meters has a first strain gauge zone of a first flow tube wall thickness and a second strain gauge zone of a second flow tube wall thickness, wherein the first strain gauge is arranged at the first strain gauge zone and the second strain gauge is arranged at the second strain gauge zone, and wherein the first flow tube wall thickness is smaller than the second flow tube wall thickness. 4. The system according to claim 1 , wherein the each of the plurality of consumption meters comprises temperature measuring means for measuring the temperature of the flow tube and/or the first strain gauge, and wherein the signal indicative of the pressure of the fluid is compensated for the temperature of the flow tube and/or the first strain gauge. 5. The system according to claim 1 , wherein each of the plurality of consumption meters comprises temperature measuring means for measuring the temperature of the fluid, and wherein the signal indicative of the pressure of the fluid is compensated for the temperature of the fluid. 6. The system according to claim 5 , wherein the temperature measuring means comprises the two piezoelectric transducers, and wherein measuring the temperature of the fluid comprises measuring a first transit time of a first ultrasonic signal transmitted in a first direction in the flow tube and a second transit time of a second ultrasonic signal transmitted in a second, opposite direction in the flow tube, and deriving the temperature of the fluid from the first and second transit times. 7. The system according to claim 1 , wherein the first strain gauge has a temperature characteristic which is matched to compensate for the thermal expansion coefficient of the flow tube. 8. The system according to claim 1 , wherein the flow tube of each of the plurality of ultrasonic consumption meters is made from a polymer selected from one or more of the group of polyphenylene sulphide (PPS), polyether sulphone (PES), polysulphone (PSU), polystyrene (PS) and polyamide (PA). 9. The system according to claim 8 , wherein the flow tube of each of the plurality of ultrasonic consumption meters is made from a composite material further comprising a second material such as carbon, preferably carbon fibres, metal, preferably metal powder, glass or glass fibres. 10. The system according to claim 1 , wherein the signal indicative of the pressure is compared to a threshold value, and a pressure failure warning is generated in case the threshold value is exceeded. 11. The system according to claim 1 , wherein the communication module communicates the signal indicative of the flow rate of the fluid and the signal indicative of the pressure of the fluid in a single data packet to the data collector. 12. The system according to claim 1 , wherein each of the plurality of consumption meters is selected from the group of a water meter, a gas meter, a heat meter, and a cooling meter. 13. A method of measuring a pressure of a fluid in a utility network by means of a system according to claim 1 , the method comprising: operating the two ultrasonic transducers by means of the control circuit {[(130)]} to generate the signal indicative of the flow rate of the fluid; communicating the signal indicative of the flow rate of the fluid to the data collector; operating the first strain gauge by means of the control circuit to generate the signal indicative of the pressure of the fluid; and communicating the signal indicative of the pressure of the fluid to the data collector. 14. An ultrasonic consumption meter arranged to measure a flow rate of a supplied fluid and a pressure of the supplied fluid, the ultrasonic consumption meter comprising: a flow tube with a through-going opening for passage of the fluid between an inlet and an outlet, the flow tube having a wall with an outer surface; two ultrasonic transducers arranged at the outer surface of the wall of the flow tube, so that ultrasonic signals are transmitted through the wall; a control circuit arranged for operating the two ultrasonic transducers to generate a signal indicative of the flow rate of the fluid, and for operating a first strain gauge to generate a signal indicative of the pressure of the fluid; and a communication module connected to the control circuit and arranged for communicating the signal indicative of the flow rate of the fluid and the signal indicative of the pressure of the fluid; wherein the flow tube is made from a polymer, and the first strain gauge is arranged at the outer surface of the of the wall of the flow tube to measure the strain on the flow tube in response to the pressure of the fluid.