Fluid meter arranged to detect a leak and to make an installation safe

The invention claimed is: 1. A fluid meter, comprising: a first communication interface communicating via a radio link with a communication interface of a cut-off unit, which is remotely positioned outside of the fluid meter, comprising an electromechanical valve, and also transmitting electrical energy via the radio link, the electrical energy powering the communication interface of the cut-off unit, such that the communication interface is not powered by a battery of the cut-off unit but only by the electrical energy transmitted by the radio link; a first processor module arranged: to evaluate a flow rate of fluid being supplied to an installation connected to the fluid meter and, if the flow rate of fluid remains greater than a first predetermined flow rate threshold for at least a first predetermined duration, to detect that there is a leak of fluid in the installation and transmit an internal command frame via the first communication interface to the communication interface of the cut-off unit, the internal command frame incorporating a closing command in order to close the electromechanical valve; and following closing of the electromechanical valve, to acquire a first external command frame via the first communication interface, the first external command frame incorporating an opening command and being produced by the cut-off unit following a manual action on an actuator member of the cut-off unit, to produce an internal command frame incorporating the opening command, and to transmit said internal command frame via the first communication interface to the communication interface of the cut-off unit in order to reopen the electromechanical valve. 2. The fluid meter according to claim 1 , wherein, following transmission of the internal command frame and following reopening of the electromechanical valve, the first processor module is arranged to keep the electromechanical valve open only providing the fluid flow rate remains less than a second predetermined flow rate threshold for at least a second predetermined duration after reopening of the electromechanical valve. 3. The fluid meter according to claim 1 , wherein the first processor module is arranged to re-close the electromechanical valve or to keep it closed in the event of the fluid flow rate being greater a third predetermined flow rate threshold during at least a third predetermined duration. 4. The fluid meter according to claim 1 , also comprising a second communication interface arranged to communicate with an external device other than the cut-off unit, the first processor module being arranged, following closing of the electromechanical valve, to acquire a second external command frame via the second communication interface, the second external command frame incorporating an opening command produced by the external device, to produce an internal command frame incorporating the opening command, and to transmit said internal command frame via the first communication interface to the communication interface of the cut-off unit in order to reopen the electromechanical valve. 5. The fluid meter according to claim 1 , wherein the first communication interface is arranged to write the internal command frame in a memory of the cut-off unit, and then to read an acknowledgement frame in the memory of the cut-off unit. 6. The fluid meter according to claim 5 , wherein the internal command frame incorporates the current value of an internal command frame counter that is incremented each time an internal command frame is transmitted by the fluid meter to the cut-off unit. 7. The fluid meter according to claim 1 , further comprising authentication means arranged to authenticate the internal command frame. 8. The fluid meter according to claim 7 , wherein the authentication means are arranged to encrypt at least part of the internal command frame by using an encryption algorithm having a symmetrical encryption key that is stored both in a memory of the fluid meter and also in a memory of the cut-off unit. 9. A method of making safe an installation, the method being performed in a fluid meter according to claim 1 , and comprising the steps of: evaluating a flow rate of fluid being supplied to an installation connected to the fluid meter and, if the fluid flow rate remains greater than a first predetermined flow rate threshold for at least a first predetermined duration, transmitting an internal command frame via the first communication interface to the communication interface of the cut-off unit, the internal command frame incorporating a closing command in order to close the electromechanical valve; and following closing of the electromechanical valve, acquiring a first external command frame via the first communication interface, the first external command frame incorporating an opening command produced by the cut-off unit following manual action on an actuator member of the cut-off unit, producing an internal command frame incorporating the opening command, and transmitting said internal command frame via the first communication interface to the communication interface of the cut-off unit in order to reopen the electromechanical valve. 10. A non-transitory computer-readable storage medium having stored thereof a computer program including instructions for causing the fluid meter according to claim 1 to execute steps of a method of making safe an installation, the method being performed in the fluid meter according to claim 1 , and comprising the steps of: evaluating a flow rate of fluid being supplied to an installation connected to the fluid meter and, if the fluid flow rate remains greater than a first predetermined flow rate threshold for at least a first predetermined duration, transmitting an internal command frame via the first communication interface to the communication interface of the cut-off unit, the internal command frame incorporating a closing command in order to close the electromechanical valve; and following closing of the electromechanical valve, acquiring a first external command frame via the first communication interface, the first external command frame incorporating an opening command produced by the cut-off unit following manual action on an actuator member of the cut-off unit, producing an internal command frame incorporating the opening command, and transmitting said internal command frame via the first communication interface to the communication interface of the cut-off unit in order to reopen the electromechanical valve. 11. A measurement system including a fluid meter according to claim 1 and a cut-off unit suitable for being mounted in the proximity of a fluid meter, and the cut-off unit comprising: an electromechanical valve; a memory; a communication interface arranged to receive an internal control frame via the radio link and store it in the memory, the internal control frame incorporating an opening or closing command to open or close the electromechanical valve, a second communication interface also being arranged to receive electrical energy transmitted via the radio link, and to be powered thereby; an actuator member suitable for being actuated manually by a person situated in the proximity of the cut-off unit; and a second processor module arranged to acquire the internal command frame in the memory, to decrypt the internal command frame and extract therefrom an opening or closing command in order to command opening or closing of the electromechanical valve, and to write an acknowledgement frame in the memory, the second processor module also being arranged to detect that the actuator member has been actuated, and following such actuation, to write a first external command frame in the memory repre