Flow control device for an HVAC fluid transportation system

The invention claimed is: 1. A flow control device ( 1 ) for an HVAC fluid transportation system ( 2 ), the flow control device ( 1 ) comprising: a flow tube ( 10 ) formed in one piece; flow measurement system ( 11 ) integrated with the flow tube ( 10 ) and configured to measure a volumetric flow of fluid (φ) through the flow tube ( 10 ); and an electronic circuit ( 12 ) arranged in a fixed fashion on the flow tube ( 10 ) and connected electrically to the flow measurement system ( 11 ); wherein the flow control device ( 1 ) further comprises a control signal output terminal ( 13 ) attached to the flow tube ( 10 ) and connected to the electronic circuit ( 12 ), and the electronic circuit ( 12 ) is configured to generate and apply on the control signal output terminal ( 13 ) an actuator control signal, using the volumetric flow of fluid (φ) measured by the flow measurement system ( 11 ), for an actuator ( 23 ), arranged outside the flow tube ( 10 ) of the flow control device ( 1 ), to actuate a valve ( 22 ) of the HVAC fluid transportation system ( 2 ), wherein the flow control device ( 1 ) further comprises a ( 15 ) an actuator data input terminal ( 18 ) attached to the flow tube ( 10 ) and connected to the electronic circuit ( 12 ), and the electronic circuit ( 12 ) is further configured to generate the actuator control signal further using actuator data received on the actuator data input terminal ( 18 ), and wherein the electronic circuit ( 12 ) is configured to determine an actuator type from an actuator identifier received in the actuator data input terminal ( 10 ), and to generate the actuator control signal using the actuator type. 2. The flow control device ( 1 ) of claim 1 , wherein the flow control device ( 1 ) further comprises one or more sensor signal input terminals ( 14 ) attached to the flow tube ( 10 ) and connected to the electronic circuit ( 12 ), and the electronic circuit ( 12 ) is further configured to generate the actuator control signal further using one or more sensor values received on the one or more sensor signal input terminals ( 14 ). 3. The flow control device ( 1 ) of claim 2 , wherein the one or more sensor signal input terminals ( 14 ) include at least one of: an air temperature sensor input terminal, an air humidity sensor input terminal, a carbon dioxide sensor input terminal, a carbon monoxide sensor input terminal, and a fluid temperature sensor input terminal; and the electronic circuit ( 12 ) is further configured to generate the actuator control signal further using respectively at least one of: an air temperature value, an air humidity value, a carbon dioxide value, a carbon monoxide value, and a fluid temperature received on the one or more sensor signal input terminals ( 14 ). 4. The flow control device ( 1 ) of claim 1 , wherein the electronic circuit ( 12 ) is configured to generate the actuator control signal using the volumetric flow of fluid (φ) measured by the flow measurement system ( 11 ) such as to maintain a set target value for the volumetric flow of fluid (φ). 5. The flow control device ( 1 ) of claim 1 , wherein the electronic circuit ( 12 ) is configured to generate the actuator control signal to indicate at least one of: a motor position, a motor movement direction, a valve position, and a degree of opening of a valve orifice. 6. The flow control device ( 1 ) of claim 1 , wherein the control signal output terminal ( 13 ) comprises at least one of: an antenna configured to wirelessly transmit the actuator control signal to the actuator ( 23 ), and a connector configured to set up a wired connection for applying the actuator control signal to the actuator ( 23 ). 7. The flow control device ( 1 ) of claim 1 , wherein the flow control device ( 1 ) further comprises an antenna ( 19 ) configured to receive electromagnetic energy from an external mobile device for powering the electronic circuit ( 12 ) and the flow measurement system ( 11 ). 8. The flow control device ( 1 ) of claim 1 , wherein the flow control device ( 1 ) further comprises a communication module ( 15 ) attached to the flow tube ( 10 ) and connected to the electronic circuit ( 12 ), and the electronic circuit ( 12 ) is configured to generate the actuator control signal further using a control command received by the communication module ( 15 ) via a communication network ( 4 ). 9. The flow control device ( 1 ) of claim 8 , wherein the communication module ( 15 ) is configured to receive one or more control parameters via the communication network ( 4 ) from a cloud-based computer system ( 3 ), and the electronic circuit ( 12 ) is configured to generate the actuator control signal further using the one or more control parameters received from the cloud-based computer system ( 3 ). 10. The flow control device ( 1 ) of claim 9 , wherein the communication module ( 15 ) is configured to receive with the one or more control parameters from the cloud-based computer system ( 3 ) at least one of: meteorological weather data, energy pricing information, room temperature information, and energy resource availability data; and the electronic circuit ( 12 ) is further configured to generate the actuator control signal further using respectively at least one of: meteorological weather data, energy pricing information, room temperature information, and energy resource availability data received from the cloud-based computer system ( 3 ). 11. The flow control device ( 1 ) of claim 9 , wherein the communication module ( 15 ) is configured to transmit to the cloud-based computer system ( 3 ) one or more operational HVAC data values, including at least one of: the volumetric flow of fluid (φ) measured by the flow measurement system ( 11 ), an air temperature value, an air humidity value, a carbon dioxide value, a carbon monoxide value, a fluid temperature, motor activity data, and valve activity data. 12. The flow control device ( 1 ) of claim 1 , wherein the wherein flow measurement system ( 11 ) comprises one or more pairs of ultrasound transceivers ( 110 , 111 ) integrated into a wall ( 100 ) of the flow tube ( 10 ) and configured to transmit and receive ultrasound to and from a measurement path ( 112 ) inside the flow tube ( 10 ). 13. A flow control device ( 1 ) for an HVAC fluid transportation system ( 2 ), the flow control device ( 1 ) comprising: a flow tube ( 10 ) formed in one piece; flow measurement system ( 11 ) integrated with the flow tube ( 10 ) and configured to measure a volumetric flow of fluid (φ) through the flow tube ( 10 ); and an electronic circuit ( 12 ) arranged in a fixed fashion on the flow tube ( 10 ) and connected electrically to the flow measurement system ( 11 ); wherein the flow control device ( 1 ) further comprises a control signal output terminal ( 13 ) attached to the flow tube ( 10 ) and connected to the electronic circuit ( 12 ), and the electronic circuit ( 12 ) is configured to generate and apply on the control signal output terminal ( 13 ) an actuator control signal, using the volumetric flow of fluid (φ) measured by the flow measurement system ( 11 ), for an actuator ( 23 ), arranged outside the flow tube ( 10 ) of the flow control device ( 1 ), to actuate a valve ( 22 ) of the HVAC fluid transportation system ( 2 ), and wherein the flow control device ( 1 ) further comprises a data communication bus ( 17 ) connecting at least one terminal receiver ( 16 ) to the electronic circuit ( 12 ), the at least one terminal receiver ( 16 ) being configured to receive and removably attach an auxiliary sensor signal input terminal ( 14 ) to the flow tube ( 10 ) and connecting the auxiliary sensor signal input terminal ( 14 ) to the ele