ITUB20151837A1 - SYSTEM FOR MONITORING AND CONTROL OF EXTINGUISHERS AND / OR HYDRANTS AND OF THE INTERACTION BETWEEN THEM - Google Patents

Description

SYSTEM FOR MONITORING AND CONTROL OF EXTINGUISHERS

AND / OR HYDRANTS AND THE INTERACTION BETWEEN THEM

The present invention generally relates to a system for monitoring and controlling fire extinguishers and / or hydrants and the interaction between them.

More particularly, the invention refers to a system that includes a wireless sensor and a network of actuators, a real-time localization system (RTLS), a series of actuators and sensors networked together, with radio interfaces of multiple type, and an entrance door (gateway), with multiple type radio interfaces, applicable to portable or trolley fire extinguishers and / or water systems for extinguishing fire, such as hydrants, fire hoses, etc.

Furthermore, the system includes a software program implemented on a portable device (for example, a mobile phone, a tablet or a computer) suitable for connection to the gateway (for example, via a wireless connection), suitable for an identification and authentication of the user and suitable for receiving in safe mode an identification code of the fire extinguisher and / or hydrant; the portable device also allows the printing of data, the taking of images and / or photographs of relevant parts of the fire extinguisher and / or hydrant, the insertion of invisible data relating to the time and the user and the sending of everything securely to a computer system. The aforementioned computer system, which is part of the invention, can use artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract specific values relating to the fire extinguisher and / or hydrant from the photographs taken, such as the pressure shown by the pressure gauge of that fire extinguisher and / or hydrant.

The purpose of the invention is to allow regular and periodic remote control of fire extinguishers and / or hydrants of different types regarding the most important parameters (such as, in exemplary and non-limiting forms, pressure), through a computer system, as well as to send warnings and alarms, for example to the computer system or locally (for example, by continuously or intermittently turning on a red light placed on the fire extinguisher and / or hydrant), and therefore allowing the service personnel to obtain easily traceable information relating to the fire extinguishers and / or hydrants to be monitored.

The main core of the invention is to connect a series of sensors, placed in the network (motion, acceleration and / or gyroscope sensors, etc.), with one or more interfaces located on the most important parts of the fire extinguisher and / or of the hydrant, collect the information from these sensors and send them to a computer system, which, using specific algorithms (which include artificial intelligence algorithms, "machine learning" systems and analytics of a multitude of data), determines a possible risk situation and act on it.

The state of the art relating to fire extinguisher and / or hydrant monitoring systems is described for example in document WO2014102838A1.

However, the invention described in document WO2014102838A1 has several limitations, which are summarized below:

- firstly, the document WO2014102838A1 concerns the use of micro-switches, placed on different portions of the fire extinguisher and / or hydrant and connected, via cable, to a local gateway; this results in a rather complicated and expensive construction and maintenance of the fire extinguisher and / or hydrant;

- furthermore, document WO2014102838A1 only refers to the use of a transmitter that sends data from the fire extinguisher and / or hydrant to a "central control unit" (or to a "satellite control unit" connected to the " central control "); this makes it impossible to receive signals, commands, confirmations, etc. from the computer system to the fire extinguisher and / or hydrant; for example, it is impossible, according to the invention described in document WO2014102838A1, to put the fire extinguisher and / or the hydrant in an inactive mode in order to prevent the sending of false alarms when the fire extinguisher and / or the hydrant is intentionally moved, for example to paint or clean the wall where it is installed;

- further, the transmitter mentioned in document WO2014102838A1 is indicated as “similar to the transmitter used in civil and industrial anti-intrusion alarm systems” but is not further described; this allows a person skilled in the field to conclude that, most likely, the transmitter must periodically send a signal to the "central control unit" only to confirm that the transmitter is in operation; the interval between two transmissions is fixed and must be set at the time of installation or by the service personnel; this makes the system inflexible and the energy consumption is considerable since the interval must be set for the worst case while in the usual circumstances the confirmation that the fire extinguisher and / or the hydrant is working correctly should be more frequent in certain periods than in others, for example during working hours rather than at night; the continuous transmission of the signal therefore requires much more energy, thus reducing the life of the batteries and reducing the frequency of intervention of the service personnel;

- finally, the transmitter mentioned in document WO2014102838A1 has no means for checking whether, for example, an alarm has been correctly received; the only reasonable way to operate is to continue sending warnings and alarms until the maintenance of the service personnel; considering the fact that false alarms can occur (especially generated in the case of cleaning or general maintenance of the building), it is easy to detect that the "central control unit" will be flooded with warnings / alarms and therefore may stop working correctly; moreover, since the transmitter is "similar to the transmitter used in civil and industrial anti-intrusion alarm systems", as described in document WO2014102838A1, for a person skilled in the art it is almost certain that the sending frequency of the messages is much higher than that which occurs in the period in which no warnings / alarms are sent: this further worsens the situation regarding the congestion of the "central control unit" and the considerable consumption of electricity.

The present invention will be clearer from the following description, relating to a preferred embodiment of the control and monitoring system according to the invention, and from the attached drawings, in which:

Figure 1 is a schematic view of a fire extinguisher and / or hydrant equipped with a plurality of sensors belonging to the monitoring and control system according to the present invention;

Figure 2 is a schematic view of a monitoring and control system for fire extinguishers and / or hydrants, according to the present invention.

With reference to the aforementioned figures, the present invention is based on the principle of the Internet of Things, well known before the filing date of document WO2014102838A1, according to which there are a plurality of "things" which are mutually connected in extremely different ways (via cable, wireless, short or long distance), with different topologies (star networks, mesh networks, etc.), and which form isolated fields or are connected to the Internet.

According to the present invention, a series of networked sensors 10 can be physically connected to certain portions of the fire extinguisher and / or hydrant (for example, a gyroscope and / or a vibration sensor can be connected to the body of the fire extinguisher and / or the hydrant, another can be connected to the hose of the fire extinguisher and / or the hydrant, etc.); each sensor is integrated with a transceiver (a combination of a receiver, a transmitter and a microprocessor, all components currently readily available and at low cost), which can communicate both directly with the wireless sensor and with the network of actuators covering the '' area where the fire extinguisher and / or hydrant is installed which through short distance transmission technologies (for example, Bluetooth® low energy) with a gateway transceiver belonging to a node or input port (hub) 11 (which includes a Bluetooth® and an RTLS transceiver and / or a wireless network of sensors 12) positioned on the fire extinguisher and / or hydrant.

The aforementioned gateway transceiver can perform some procedures locally and is able to communicate with the information system 13 through the wireless sensors and the network of actuators 14 which covers the area where the fire extinguisher and / or hydrant 15 is installed. A particular transceiver can be connected to the pressure measurement unit to monitor the pressure of the fire extinguisher and / or hydrant.

The aforementioned transceiver can similarly act as a gateway transceiver and all the sensors can be selected as gateway transceivers, depending on the most efficient and economical way to position the transceivers on the fire extinguisher and / or hydrant. 15.

The aforementioned gateway transceiver can realize further functions, such as:

a) have a positioning label so that the RTLS system can always be aware of the position of the fire extinguisher and / or hydrant (remember that RTLS systems are nowadays also available for indoor applications, reaching an accuracy of the order of 10 cm); b) use an additional transceiver (slave) 17 for short distance communications, using technologies that are readily available even on low-cost portable devices, such as smartphones, whose function is to ensure safe maintenance of the fire extinguisher and / or hydrant : when the service personnel 16 of the fire extinguisher and / or hydrant start the control procedure through a specific application, they first of all establish a safe connection with the fire extinguisher and / or hydrant; the fire extinguisher and / or hydrant sends its own identification (through specific codes or certificates), which is sent to the information system 13 through the network 19 and by means of the application software controlled by a command and control unit 18; the service personnel 16 can thus carry out the required operations and take one or more photographs of the entire fire extinguisher and / or hydrant, and / or parts of it (for example, the pressure display), and these photographs can be uploaded to the information system through the software application; therefore, the information relating to the operations carried out and their outcomes (possibly with the photographs included) can be sent via the software application to the gateway 11, as it is also possible, in a secure way, to send such information for a possible tracking of the fire extinguisher and / or hydrant 15 even when the fire extinguisher and / or hydrant 15 is disconnected from the information system; further information sent to the information system and gateway 11 may include data relating to the service personnel and the certain date and time of the intervention.

It should also be noted that the procedure as outlined in point b) above does not replace the paper prospectuses required by law; however, on the one hand this procedure eliminates the possibility of carrying out erroneous inspections, or inspections made by unqualified personnel, and on the other hand the information system leaves a trace of each inspection carried out and its outcome, thus protecting the body that carries out the maintenance (private individuals or maintenance companies) from possible reports of inspections and / or maintenance that do not comply with the law.

By way of example, the different operating modes of the system will be summarized below:

a) during a normal operating mode, the various sensors do not send any message to the gateway, which in turn periodically reports to the information system, through the wireless sensors and the network of actuators, that everything is working regularly; during this operating mode, the gateway can receive a message to increase or decrease the frequency of sending the report;

b) in the event that a malfunction is detected, for example the pressure decreases beyond a minimum established threshold, the respective sensor notifies this situation to the gateway by means of the short-range transceiver; the gateway immediately activates and keeps the information system informed, through the wireless sensors and the network of actuators, and waits for a response; at the same time, it can also display an alarm (for example, by turning on a red light); when it receives the response, then, the gateway goes into a state of maintenance, awaiting the intervention of qualified personnel to verify the malfunction;

c) in the event that an act of vandalism is perpetrated against the fire extinguisher and / or hydrant, a sensor attached to the fire extinguisher and / or hydrant detects it (for example, if the hose is removed or cut, the sensor detects it, if the '' fire extinguisher and / or hydrant is removed from its position the vibration sensor attached to the fire extinguisher and / or hydrant detects it, while the RTLS system detects and monitors the movement carried out) and keeps the information system informed of this until it receives a confirmation reception, as well as sends its position to the RTLS system and to the information system; it can also provide for the emission of a visual alarm (for example, by turning on a red light);

d) in maintenance mode, the fire extinguisher and / or hydrant activates the short-range transceiver and waits for qualified personnel to carry out maintenance; when qualified personnel arrive on site, they can interact with the fire extinguisher and / or hydrant by means of the software application, for example, via a mobile phone or other portable electronic devices. The software application, in collaboration with the gateway, first identifies in a secure way the person who is acting on the fire extinguisher and / or hydrant and communicates the identity of that person / s to the information system by means of the sensors and the network of actuators ; if the identification procedure is successful and the information system recognizes that the person is authorized to act on the fire extinguisher and / or hydrant, this helps the service staff to locate the malfunction; at the same time, the gateway, through the sensors, continues to check if the fault is resolved; after the malfunction has been located, the gateway through the sensors detects that the failure has been resolved and sends a message through the sensors and the actuator network to the information system; in addition, it stores in a local memory the identity of the person who is working on the fire extinguisher and / or hydrant, together with the date, time and type of intervention; finally, the software application allows qualified personnel to take some photographs of relevant parts of the fire extinguisher and / or hydrant (for example, the screen indicating the pressure) and of the entire fire extinguisher and / or hydrant in its correct position. After receiving the photographs, the information system checks that everything is ok, stores the relevant information, informs the gateway about that particular fire extinguisher and / or hydrant that it can switch to normal mode, and provides a signal to the software application indicating that the maintenance was completed successfully;

e) the rest mode is mainly activated in the event that, for whatever reason (whitewashing of the walls, renovation, etc.), the fire extinguisher and / or hydrant does not need to be monitored or the information system has been programmed to stop monitoring; the gateway still maintains the association with the fire extinguisher and / or hydrant and is still connected to the wireless sensor and the actuator network and waits to be brought back to normal mode at some point in time.

The technical characteristics, as well as the advantages, of the control and monitoring system according to the present invention are clear from the above description; finally note that other variants can be made to the system according to the inventive idea expressed in the following attached claims.

Claims (10)

CLAIMS 1. Monitoring and control system for fire extinguishers and / or hydrants (15) and the interaction between them, including a wireless sensor and networks of actuators (12, 14, 17, 19), a real-time localization system (RTLS), a plurality of sensors (10) and actuators networked together with multiple type radio interfaces, and an entrance door or gateway (11), with multiple type radio interface, to be applied to fire extinguishers and / or portable or trailerable hydrants, such as hydrants, hoses, etc., characterized by the fact that said system includes a software application that can be implemented on a portable electronic device, which is able to connect to the gateway (11), by means of a wireless connection and a procedure of authentication, a pre-established fire extinguisher and / or hydrant to extract specific values relating to the fire extinguisher and / or hydrant, in order to allow said fire extinguishers and / or hydrants of different types to be regularly controlled remotely in merit or their parameters by means of an information system, to send warning and / or alarm messages to the information system or locally to the fire extinguisher and / or hydrant and to allow qualified personnel to carry out interventions in a simple and traceable way on said fire extinguishers and / or fire hydrants. 2. System as in claim 1, characterized in that said sensors (10) include motion and acceleration sensors and gyroscopes and said networks of actuators (12, 14, 17, 19) are configured to receive information from said sensors (10 ) and to send said information to an information system (13), which, using appropriate algorithms, determines any risk situations and acts on the basis of said risk situations. 3. System as in claim 1, characterized in that said sensors (10) are configured to detect date and time and / or to take one or more photographs of relevant parts of the fire extinguisher and / or hydrant (15) in order to send data to said information system (13), which uses artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract from said photographs specific values relating to the fire extinguisher and / or hydrant, such as the pressure shown by a pressure gauge. 4. System as in claim 1, characterized in that each of said sensors (10) is integrated with a receiver-transmitter, which includes a receiver, a transmitter and a microprocessor and which communicates both directly with said wireless sensor and with said network of actuators covering the area in which the fire extinguisher and / or hydrant is installed both, through short range communications, with a gateway transceiver belonging to an entrance door (11) fixed to said fire extinguisher and / or hydrant . 5. System as in claim 4, characterized in that said gateway transceiver is configured to perform some operations locally on the fire extinguisher and / or hydrant and is able to communicate with said information system (13) through said wireless sensor and said network of actuators covering the area where the fire extinguisher and / or hydrant (15) is installed. 6. System as in claim 4, characterized in that said gateway transceiver has a location label, so that said RTLS system can always be aware of the position of the fire extinguisher and / or hydrant, and a further short range slave transceiver (17), whose function is to command safe maintenance of the fire extinguisher and / or hydrant, so that, when the service personnel (16) of the fire extinguisher and / or hydrant carry out the procedure, is able to establish a safe connection with the fire extinguisher and / or hydrant and said fire extinguisher and / or hydrant provides for identification by sending the data to said information system (13). 7. Method for monitoring and controlling fire extinguishers and / or hydrants (15) which can be implemented by means of the system as per claim 1, characterized by the fact that, during a normal operating mode, said sensors (10) do not send any message to the gateway ( 11), which in turn periodically communicates to said information system (13), through said wireless sensors and said network of actuators, that everything is working regularly. 8. Method as in claim 7, characterized by the fact that, in the event that a malfunction mode is detected, a special sensor notifies said gateway (11) via said short-range transceiver and said gateway (11) immediately activates and continues to send data, via the wireless sensors and the network of actuators, to said information system (13) and waits for a confirmation, activating some visual alarm alerts, so that when the confirmation is received, said gateway (11) is configured in a maintenance mode, awaits the service personnel to define the type of fault and said service personnel interacts with the fire extinguisher and / or hydrant by means of a portable electronic device and a software application, which identifies in a safe way the service personnel who are acting on the fire extinguisher and / or hydrant and communicate their identity to said information system (13) by means of the network of sensors and actuators and, at the same time, said gateway (11), by means of said sensors, continues to check if the fault is resolved by sending a message, via said network of sensors and actuators, to the information system (13) and stores the identity of the service personnel in a local memory fire extinguisher and / or hydrant officer (15) together with the date, time and type of intervention carried out. 9. Method as in claim 7, characterized in that, in the event that a vandalism occurs against said fire extinguisher and / or hydrant, a sensor (10) fixed to said fire extinguisher and / or hydrant (15) detects it and keeps it informed said information system (13) until it receives a confirmation, also sending the position of said fire extinguisher and / or hydrant (15) to said RTLS system and said information system (13) by sending some alarm notices visual. 10. Method as in claim 7, characterized by the fact that a rest mode of the system is implemented mainly when, for any reason, said fire extinguisher and / or hydrant (15) does not need to be monitored or said information system (13) is not suitable to monitor it, so that said gateway (11) still maintains the association and is still connected to said network of wireless sensors and actuators, waiting to be placed again in normal operation mode at a certain point in time. CLAIMS 1. Monitoring and control system for fire extinguishers and / or hydrants (15) and the interaction between them, including a wireless sensor and networks of actuators (12, 14, 17, 19), a real-time localization system (RTLS), a plurality of sensors (10) and actuators networked together with multiple type radio interfaces, and an entrance door or gateway (11), with multiple type radio interface, to be applied to fire extinguishers and / or portable or trailerable hydrants, such as hydrants, hoses, etc., characterized by the fact that said system includes a software application that can be implemented on a portable electronic device, which is able to connect to the gateway (11), by means of a wireless connection and a procedure of authentication, a pre-established fire extinguisher and / or hydrant to extract specific values relating to the fire extinguisher and / or hydrant, in order to allow said fire extinguishers and / or hydrants of different types to be regularly controlled remotely in merit or their parameters by means of an information system, to send warning and / or alarm messages to the information system or locally to the fire extinguisher and / or hydrant and to allow qualified personnel to carry out interventions in a simple and traceable way on said fire extinguishers and / or fire hydrants. 2. System as in claim 1, characterized in that said sensors (10) include motion and acceleration sensors and gyroscopes and said networks of actuators (12, 14, 17, 19) are configured to receive information from said sensors (10 ) and to send said information to an information system (13), which, using appropriate algorithms, determines any risk situations and acts on the basis of said risk situations. 3. System as in claim 1, characterized in that said sensors (10) are configured to detect date and time and / or to take one or more photographs of relevant parts of the fire extinguisher and / or hydrant (15) in order to send data to said information system (13), which uses artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract from said photographs specific values relating to the fire extinguisher and / or hydrant, such as the pressure shown by a pressure gauge. 4. System as in claim 1, characterized in that each of said sensors (10) is integrated with a receiver-transmitter, which includes a receiver, a transmitter and a microprocessor and which communicates both directly with said wireless sensor and with said network of actuators covering the area in which the fire extinguisher and / or hydrant is installed both, through short range communications, with a gateway transceiver belonging to an entrance door (11) fixed to said fire extinguisher and / or hydrant . 5. System as in claim 4, characterized in that said gateway transceiver is configured to perform some operations locally on the fire extinguisher and / or hydrant and is able to communicate with said information system (13) through said wireless sensor and said network of actuators covering the area where the fire extinguisher and / or hydrant (15) is installed. 6. System as in claim 4, characterized in that said gateway transceiver has a location label, so that said RTLS system can always be aware of the position of the fire extinguisher and / or hydrant, and a further short range slave transceiver (17), whose function is to command safe maintenance of the fire extinguisher and / or hydrant, so that, when the service personnel (16) of the fire extinguisher and / or hydrant carry out the procedure, is able to establish a safe connection with the fire extinguisher and / or hydrant and said fire extinguisher and / or hydrant provides for identification by sending the data to said information system (13). 7. Method for monitoring and controlling fire extinguishers and / or hydrants (15) which can be implemented by means of the system as per claim 1, characterized by the fact that, during a normal operating mode, said sensors (10) do not send any message to the gateway ( 11), which in turn periodically communicates to said information system (13), through said wireless sensors and said network of actuators, that everything is working regularly. 8. Method as in claim 7, characterized by the fact that, in the event that a malfunction mode is detected, a special sensor notifies said gateway (11) via said short-range transceiver and said gateway (11) immediately activates and continues to send data, via the wireless sensors and the network of actuators, to said information system (13) and waits for a confirmation, activating some visual alarm alerts, so that when the confirmation is received, said gateway (11) is configured in a maintenance mode, awaits the service personnel to define the type of fault and said service personnel interacts with the fire extinguisher and / or hydrant by means of a portable electronic device and a software application, which identifies in a safe way the service personnel who are acting on the fire extinguisher and / or hydrant and communicate their identity to said information system (13) by means of the network of sensors and actuators and, at the same time, said gateway (11), by means of said sensors, continues to check if the fault is resolved by sending a message, via said network of sensors and actuators, to the information system (13) and stores the identity of the service personnel in a local memory fire extinguisher and / or hydrant officer (15) together with the date, time and type of intervention carried out. 9. Method as in claim 7, characterized in that, in the event that a vandalism occurs against said fire extinguisher and / or hydrant, a sensor (10) fixed to said fire extinguisher and / or hydrant (15) detects it and keeps it informed said information system (13) until it receives a confirmation, also sending the position of said fire extinguisher and / or hydrant (15) to said RTLS system and said information system (13) by sending some alarm notices visual. 10. Method as in claim 7, characterized by the fact that a rest mode of the system is implemented mainly when, for any reason, said fire extinguisher and / or hydrant (15) does not need to be monitored or said information system (13) is not suitable to monitor it, so that said gateway (11) still maintains the association and is still connected to said network of wireless sensors and actuators, waiting to be placed again in normal operation mode at a certain point in time. CLAIMS 1. Monitoring and control system for fire extinguishers and / or hydrants (15) and the interaction between them, including a wireless sensor and networks of actuators (12, 14, 17, 19), a real-time localization system (RTLS), a plurality of sensors (10) and actuators networked together with multiple type radio interfaces, and an entrance door or gateway (11), with multiple type radio interface, to be applied to fire extinguishers and / or portable or trailerable hydrants, such as hydrants, hoses, etc., characterized by the fact that said system includes a software application that can be implemented on a portable electronic device, which is able to connect to the gateway (11), by means of a wireless connection and a procedure of authentication, a pre-established fire extinguisher and / or hydrant to extract specific values relating to the fire extinguisher and / or hydrant, in order to allow said fire extinguishers and / or hydrants of different types to be regularly controlled remotely in merit or their parameters by means of an information system, to send warning and / or alarm messages to the information system or locally to the fire extinguisher and / or hydrant and to allow qualified personnel to carry out interventions in a simple and traceable way on said fire extinguishers and / or fire hydrants. 2. System as in claim 1, characterized in that said sensors (10) include motion and acceleration sensors and gyroscopes and said networks of actuators (12, 14, 17, 19) are configured to receive information from said sensors (10 ) and to send said information to an information system (13), which, using appropriate algorithms, determines any risk situations and acts on the basis of said risk situations. 3. System as in claim 1, characterized in that said sensors (10) are configured to detect date and time and / or to take one or more photographs of relevant parts of the fire extinguisher and / or hydrant (15) in order to send data to said information system (13), which uses artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract from said photographs specific values relating to the fire extinguisher and / or hydrant, such as the pressure shown by a pressure gauge. 4. System as in claim 1, characterized in that each of said sensors (10) is integrated with a receiver-transmitter, which includes a receiver, a transmitter and a microprocessor and which communicates both directly with said wireless sensor and with said network of actuators covering the area in which the fire extinguisher and / or hydrant is installed both, through short range communications, with a gateway transceiver belonging to an entrance door (11) fixed to said fire extinguisher and / or hydrant . 5. System as in claim 4, characterized in that said gateway transceiver is configured to perform some operations locally on the fire extinguisher and / or hydrant and is able to communicate with said information system (13) through said wireless sensor and said network actuators covering the area where the fire extinguisher and / or hydrant (15) is installed. 6. System as in claim 4, characterized in that said gateway transceiver has a location label, so that said RTLS system can always be aware of the position of the fire extinguisher and / or hydrant, and a further short range slave transceiver (17), whose function is to command safe maintenance of the fire extinguisher and / or hydrant, so that, when the service personnel (16) of the fire extinguisher and / or hydrant carry out the procedure, is able to establish a safe connection with the fire extinguisher and / or hydrant and said fire extinguisher and / or hydrant provides for identification by sending the data to said information system (13). 7. Method for monitoring and controlling fire extinguishers and / or hydrants (15) which can be implemented by means of the system as per claim 1, characterized by the fact that, during a normal operating mode, said sensors (10) do not send any message to the gateway ( 11), which in turn periodically communicates to said information system (13), through said wireless sensors and said network of actuators, that everything is working regularly. 8. Method as in claim 7, characterized by the fact that, in the event that a malfunction mode is detected, a special sensor notifies said gateway (11) via said short-range transceiver and said gateway (11) immediately activates and continues to send data, via the wireless sensors and the network of actuators, to said information system (13) and waits for a confirmation, activating some visual alarm alerts, so that when the confirmation is received, said gateway (11) is configured in a maintenance mode, awaits the service personnel to define the type of fault and said service personnel interacts with the fire extinguisher and / or hydrant by means of a portable electronic device and a software application, which identifies in a safe way the service personnel who are acting on the fire extinguisher and / or hydrant and communicate their identity to said information system (13) by means of the network of sensors and actuators and, at the same time, said gateway (11), by means of said sensors, continues to check if the fault is resolved by sending a message, via said network of sensors and actuators, to the information system (13) and stores the identity of the service personnel in a local memory fire extinguisher and / or hydrant officer (15) together with the date, time and type of intervention carried out. 9. Method as in claim 7, characterized in that, in the event that a vandalism occurs against said fire extinguisher and / or hydrant, a sensor (10) fixed to said fire extinguisher and / or hydrant (15) detects it and keeps it informed said information system (13) until it receives a confirmation, also sending the position of said fire extinguisher and / or hydrant (15) to said RTLS system and said information system (13) by sending some alarm notices visual. 10. Method as in claim 7, characterized by the fact that a rest mode of the system is implemented mainly when, for any reason, said fire extinguisher and / or hydrant (15) does not need to be monitored or said information system (13) is not suitable to monitor it, so that said gateway (11) still maintains the association and is still connected to said network of wireless sensors and actuators, waiting to be placed again in normal operation mode at a certain point in time. CLAIMS 1. Monitoring and control system for fire extinguishers and / or hydrants (15) and the interaction between them, including a wireless sensor and networks of actuators (12, 14, 17, 19), a real-time localization system (RTLS), a plurality of sensors (10) and actuators networked together with multiple type radio interfaces, and an entrance door or gateway (11), with multiple type radio interface, to be applied to fire extinguishers and / or portable or trailerable hydrants, such as hydrants, hoses, etc., characterized by the fact that said system includes a software application that can be implemented on a portable electronic device, which is able to connect to the gateway (11), by means of a wireless connection and a procedure of authentication, a pre-established fire extinguisher and / or hydrant to extract specific values relating to the fire extinguisher and / or hydrant, in order to allow said fire extinguishers and / or hydrants of different types to be regularly controlled remotely in merit or their parameters by means of an information system, to send warning and / or alarm messages to the information system or locally to the fire extinguisher and / or hydrant and to allow qualified personnel to carry out interventions in a simple and traceable way on said fire extinguishers and / or fire hydrants. 2. System as in claim 1, characterized in that said sensors (10) include motion and acceleration sensors and gyroscopes and said networks of actuators (12, 14, 17, 19) are configured to receive information from said sensors (10 ) and to send said information to an information system (13), which, using appropriate algorithms, determines any risk situations and acts on the basis of said risk situations. 3. System as in claim 1, characterized in that said sensors (10) are configured to detect date and time and / or to take one or more photographs of relevant parts of the fire extinguisher and / or hydrant (15) in order to send data to said information system (13), which uses artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract from said photographs specific values relating to the fire extinguisher and / or hydrant, such as the pressure shown by a pressure gauge. 4. System as in claim 1, characterized in that each of said sensors (10) is integrated with a receiver-transmitter, which includes a receiver, a transmitter and a microprocessor and which communicates both directly with said wireless sensor and with said network of actuators covering the area in which the fire extinguisher and / or hydrant is installed both, through short range communications, with a gateway transceiver belonging to an entrance door (11) fixed to said fire extinguisher and / or hydrant . 5. System as in claim 4, characterized in that said gateway transceiver is configured to perform some operations locally on the fire extinguisher and / or hydrant and is able to communicate with said information system (13) through said wireless sensor and said network of actuators covering the area where the fire extinguisher and / or hydrant (15) is installed. 6. System as in claim 4, characterized in that said gateway transceiver has a location label, so that said RTLS system can always be aware of the position of the fire extinguisher and / or hydrant, and a further short range slave transceiver (17), whose function is to command safe maintenance of the fire extinguisher and / or hydrant, so that, when the service personnel (16) of the fire extinguisher and / or hydrant carry out the procedure, is able to establish a safe connection with the fire extinguisher and / or hydrant and said fire extinguisher and / or hydrant provides for identification by sending the data to said information system (13). 7. Method for monitoring and controlling fire extinguishers and / or hydrants (15) which can be implemented by means of the system as per claim 1, characterized by the fact that, during a normal operating mode, said sensors (10) do not send any message to the gateway ( 11), which in turn periodically communicates to said information system (13), through said wireless sensors and said network of actuators, that everything is working regularly. 8. Method as in claim 7, characterized by the fact that, in the event that a malfunction mode is detected, a special sensor notifies said gateway (11) via said short-range transceiver and said gateway (11) immediately activates and continues to send data, via the wireless sensors and the network of actuators, to said information system (13) and waits for a confirmation, activating some visual alarm alerts, so that when the confirmation is received, said gateway (11) is configured in a maintenance mode, awaits the service personnel to define the type of fault and said service personnel interacts with the fire extinguisher and / or hydrant by means of a portable electronic device and a software application, which identifies in a safe way the service personnel who are acting on the fire extinguisher and / or hydrant and communicate their identity to said information system (13) by means of the network of sensors and actuators and, at the same time, said gateway (11), by means of said sensors, continues to check if the fault is resolved by sending a message, via said network of sensors and actuators, to the information system (13) and stores the identity of the service personnel in a local memory fire extinguisher and / or hydrant officer (15) together with the date, time and type of intervention carried out. 9. Method as in claim 7, characterized in that, in the event that a vandalism occurs against said fire extinguisher and / or hydrant, a sensor (10) fixed to said fire extinguisher and / or hydrant (15) detects it and keeps it informed said information system (13) until it receives a confirmation, also sending the position of said fire extinguisher and / or hydrant (15) to said RTLS system and said information system (13) by sending some alarm notices visual. 10. Method as in claim 7, characterized by the fact that a rest mode of the system is implemented mainly when, for any reason, said fire extinguisher and / or hydrant (15) does not need to be monitored or said information system (13) is not suitable to monitor it, so that said gateway (11) still maintains the association and is still connected to said network of wireless sensors and actuators, waiting to be placed again in normal operation mode at a certain point in time. CLAIMS 1. Monitoring and control system for fire extinguishers and / or hydrants (15) and the interaction between them, including a wireless sensor and networks of actuators (12, 14, 17, 19), a real-time localization system (RTLS), a plurality of sensors (10) and actuators networked together with multiple type radio interfaces, and an entrance door or gateway (11), with multiple type radio interface, to be applied to fire extinguishers and / or portable or trailerable hydrants, such as hydrants, hoses, etc., characterized by the fact that said system includes a software application that can be implemented on a portable electronic device, which is able to connect to the gateway (11), by means of a wireless connection and a procedure of authentication, a pre-established fire extinguisher and / or hydrant to extract specific values relating to the fire extinguisher and / or hydrant, in order to allow said fire extinguishers and / or hydrants of different types to be regularly controlled remotely in merit or their parameters by means of an information system, to send warning and / or alarm messages to the information system or locally to the fire extinguisher and / or hydrant and to allow qualified personnel to carry out interventions in a simple and traceable way on said fire extinguishers and / or fire hydrants. 2. System as in claim 1, characterized in that said sensors (10) include motion and acceleration sensors and gyroscopes and said networks of actuators (12, 14, 17, 19) are configured to receive information from said sensors (10 ) and to send said information to an information system (13), which, using appropriate algorithms, determines any risk situations and acts on the basis of said risk situations. 3. System as in claim 1, characterized in that said sensors (10) are configured to detect date and time and / or to take one or more photographs of relevant parts of the fire extinguisher and / or hydrant (15) in order to send data to said information system (13), which uses artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract from said photographs specific values relating to the fire extinguisher and / or hydrant, such as the pressure shown by a pressure gauge. 4. System as in claim 1, characterized in that each of said sensors (10) is integrated with a receiver-transmitter, which includes a receiver, a transmitter and a microprocessor and which communicates both directly with said wireless sensor and with said network of actuators covering the area in which the fire extinguisher and / or hydrant is installed both, through short range communications, with a gateway transceiver belonging to an entrance door (11) fixed to said fire extinguisher and / or hydrant . 5. System as in claim 4, characterized in that said gateway transceiver is configured to perform some operations locally on the fire extinguisher and / or hydrant and is able to communicate with said information system (13) through said wireless sensor and said network of actuators covering the area where the fire extinguisher and / or hydrant (15) is installed. 6. System as in claim 4, characterized in that said gateway transceiver has a location label, so that said RTLS system can always be aware of the position of the fire extinguisher and / or hydrant, and a further short range slave transceiver (17), whose function is to command safe maintenance of the fire extinguisher and / or hydrant, so that, when the service personnel (16) of the fire extinguisher and / or hydrant carry out the procedure, is able to establish a safe connection with the fire extinguisher and / or hydrant and said fire extinguisher and / or hydrant provides for identification by sending the data to said information system (13). 7. Method for monitoring and controlling fire extinguishers and / or hydrants (15) which can be implemented by means of the system as per claim 1, characterized by the fact that, during a normal operating mode, said sensors (10) do not send any message to the gateway ( 11), which in turn periodically communicates to said information system (13), through said wireless sensors and said network of actuators, that everything is working regularly. 8. Method as in claim 7, characterized by the fact that, in the event that a malfunction mode is detected, a special sensor notifies said gateway (11) via said short-range transceiver and said gateway (11) immediately activates and continues to send data, via the wireless sensors and the network of actuators, to said information system (13) and waits for a confirmation, activating some visual alarms, so that when the confirmation is received, said gateway (11) is configured in a maintenance, waits for the service personnel to define the type of fault and said service personnel interacts with the fire extinguisher and / or hydrant by means of a portable electronic device and a software application, which identifies the personnel in a secure manner that is acting on the fire extinguisher and / or hydrant and communicates its identity to said information system (13) by means of the network of sensors and actuators and, at the same time, said gat eway (11), by means of said sensors, continues to check if the fault is resolved by sending a message, via said network of sensors and actuators, to the information system (13) and stores the identity of the service personnel in a local memory fire extinguisher and / or hydrant officer (15) together with the date, time and type of intervention carried out. 9. Method as in claim 7, characterized in that, in the event that a vandalism occurs against said fire extinguisher and / or hydrant, a sensor (10) fixed to said fire extinguisher and / or hydrant (15) detects it and keeps it informed said information system (13) until it receives a confirmation, also sending the position of said fire extinguisher and / or hydrant (15) to said RTLS system and said information system (13) by sending some alarm notices visual. 10. Method as in claim 7, characterized by the fact that a rest mode of the system is implemented mainly when, for any reason, said fire extinguisher and / or hydrant (15) does not need to be monitored or said information system (13) is not suitable to monitor it, so that said gateway (11) still maintains the association and is still connected to said network of wireless sensors and actuators, waiting to be placed again in normal operation mode at a certain point in time. CLAIMS 1. Monitoring and control system for fire extinguishers and / or hydrants (15) and the interaction between them, including a wireless sensor and networks of actuators (12, 14, 17, 19), a real-time localization system (RTLS), a plurality of sensors (10) and actuators networked together with multiple type radio interfaces, and an entrance door or gateway (11), with multiple type radio interface, to be applied to fire extinguishers and / or portable or trailerable hydrants, such as hydrants, hoses, etc., characterized by the fact that said system includes a software application that can be implemented on a portable electronic device, which is able to connect to the gateway (11), by means of a wireless connection and a procedure of authentication, a pre-established fire extinguisher and / or hydrant to extract specific values relating to the fire extinguisher and / or hydrant, in order to allow said fire extinguishers and / or hydrants of different types to be regularly controlled remotely in merit or their parameters by means of an information system, to send warning and / or alarm messages to the information system or locally to the fire extinguisher and / or hydrant and to allow qualified personnel to carry out interventions in a simple and traceable way on said fire extinguishers and / or fire hydrants. 2. System as in claim 1, characterized in that said sensors (10) include motion and acceleration sensors and gyroscopes and said networks of actuators (12, 14, 17, 19) are configured to receive information from said sensors (10 ) and to send said information to an information system (13), which, using appropriate algorithms, determines any risk situations and acts on the basis of said risk situations. 3. System as in claim 1, characterized in that said sensors (10) are configured to detect date and time and / or to take one or more photographs of relevant parts of the fire extinguisher and / or hydrant (15) in order to send data to said information system (13), which uses artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract from said photographs specific values relating to the fire extinguisher and / or hydrant, such as the pressure shown by a pressure gauge. 4. System as in claim 1, characterized in that each of said sensors (10) is integrated with a receiver-transmitter, which includes a receiver, a transmitter and a microprocessor and which communicates both directly with said wireless sensor and with said network of actuators covering the area in which the fire extinguisher and / or hydrant is installed both, through short range communications, with a gateway transceiver belonging to an entrance door (11) fixed to said fire extinguisher and / or hydrant . 5. System as in claim 4, characterized in that said gateway transceiver is configured to perform some operations locally on the fire extinguisher and / or hydrant and is able to communicate with said information system (13) through said wireless sensor and said network of actuators covering the area where the fire extinguisher and / or hydrant (15) is installed. 6. System as in claim 4, characterized in that said gateway transceiver has a location label, so that said RTLS system can always be aware of the position of the fire extinguisher and / or hydrant, and a further short range slave transceiver (17), whose function is to command safe maintenance of the fire extinguisher and / or hydrant, so that, when the service personnel (16) of the fire extinguisher and / or hydrant carry out the procedure, is able to establish a safe connection with the fire extinguisher and / or hydrant and said fire extinguisher and / or hydrant provides for identification by sending the data to said information system (13). 7. Method for monitoring and controlling fire extinguishers and / or hydrants (15) which can be implemented by means of the system as per claim 1, characterized by the fact that, during a normal operating mode, said sensors (10) do not send any message to the gateway ( 11), which in turn periodically communicates to said information system (13), through said wireless sensors and said network of actuators, that everything is working regularly. 8. Method as in claim 7, characterized by the fact that, in the event that a malfunction mode is detected, a special sensor notifies said gateway (11) via said short-range transceiver and said gateway (11) immediately activates and continues to send data, via the wireless sensors and the network of actuators, to said information system (13) and waits for a confirmation, activating some visual alarm alerts, so that when the confirmation is received, said gateway (11) is configured in a maintenance mode, awaits the service personnel to define the type of fault and said service personnel interacts with the fire extinguisher and / or hydrant by means of a portable electronic device and a software application, which identifies in a safe way the service personnel who are acting on the fire extinguisher and / or hydrant and communicate their identity to said information system (13) by means of the network of sensors and actuators and, at the same time, said gateway (11), by means of said sensors, continues to check if the fault is resolved by sending a message, via said network of sensors and actuators, to the information system (13) and stores the identity of the service personnel in a local memory fire extinguisher and / or hydrant officer (15) together with the date, time and type of intervention carried out. 9. Method as in claim 7, characterized in that, in the event that a vandalism occurs against said fire extinguisher and / or hydrant, a sensor (10) fixed to said fire extinguisher and / or hydrant (15) detects it and keeps it informed said information system (13) until it receives a confirmation, also sending the position of said fire extinguisher and / or hydrant (15) to said RTLS system and said information system (13) by sending some alarm notices visual. 10. Method as in claim 7, characterized by the fact that a rest mode of the system is implemented mainly when, for any reason, said fire extinguisher and / or hydrant (15) does not need to be monitored or said information system (13) is not suitable to monitor it, so that said gateway (11) still maintains the association and is still connected to said network of wireless sensors and actuators, waiting to be placed again in normal operation mode at a certain point in time. CLAIMS 1. Monitoring and control system for fire extinguishers and / or hydrants (15) and the interaction between them, including a wireless sensor and networks of actuators (12, 14, 17, 19), a real-time localization system (RTLS), a plurality of sensors (10) and actuators networked together with multiple type radio interfaces, and an entrance door or gateway (11), with multiple type radio interface, to be applied to fire extinguishers and / or portable or trailerable hydrants, such as hydrants, hoses, etc., characterized by the fact that said system includes a software application that can be implemented on a portable electronic device, which is able to connect to the gateway (11), by means of a wireless connection and a procedure of authentication, a pre-established fire extinguisher and / or hydrant to extract specific values relating to the fire extinguisher and / or hydrant, in order to allow said fire extinguishers and / or hydrants of different types to be regularly controlled remotely in merit or their parameters by means of an information system, to send warning and / or alarm messages to the information system or locally to the fire extinguisher and / or hydrant and to allow qualified personnel to carry out interventions in a simple and traceable way on said fire extinguishers and / or fire hydrants. 2. System as in claim 1, characterized in that said sensors (10) include motion and acceleration sensors and gyroscopes and said networks of actuators (12, 14, 17, 19) are configured to receive information from said sensors (10 ) and to send said information to an information system (13), which, using appropriate algorithms, determines any risk situations and acts on the basis of said risk situations. 3. System as in claim 1, characterized in that said sensors (10) are configured to detect date and time and / or to take one or more photographs of relevant parts of the fire extinguisher and / or hydrant (15) in order to send data to said information system (13), which uses artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract from said photographs specific values relating to the fire extinguisher and / or hydrant, such as the pressure shown by a pressure gauge. 4. System as in claim 1, characterized in that each of said sensors (10) is integrated with a receiver-transmitter, which includes a receiver, a transmitter and a microprocessor and which communicates both directly with said wireless sensor and with said network of actuators covering the area in which the fire extinguisher and / or hydrant is installed both, through short range communications, with a gateway transceiver belonging to an entrance door (11) fixed to said fire extinguisher and / or hydrant . 5. System as in claim 4, characterized in that said gateway transceiver is configured to perform some operations locally on the fire extinguisher and / or hydrant and is able to communicate with said information system (13) through said wireless sensor and said network of actuators covering the area where the fire extinguisher and / or hydrant (15) is installed. 6. System as in claim 4, characterized in that said gateway transceiver has a location label, so that said RTLS system can always be aware of the position of the fire extinguisher and / or hydrant, and a further short range slave transceiver (17), whose function is to command safe maintenance of the fire extinguisher and / or hydrant, so that, when the service personnel (16) of the fire extinguisher and / or hydrant carry out the procedure, is able to establish a safe connection with the fire extinguisher and / or hydrant and said fire extinguisher and / or hydrant provides for identification by sending the data to said information system (13). 7. Method for monitoring and controlling fire extinguishers and / or hydrants (15) which can be implemented by means of the system as per claim 1, characterized by the fact that, during a normal operating mode, said sensors (10) do not send any message to the gateway ( 11), which in turn periodically communicates to said information system (13), through said wireless sensors and said network of actuators, that everything is working regularly. 8. Method as in claim 7, characterized by the fact that, in the event that a malfunction mode is detected, a special sensor notifies said gateway (11) via said short-range transceiver and said gateway (11) immediately activates and continues to send data, via the wireless sensors and the network of actuators, to said information system (13) and waits for a confirmation, activating some visual alarm alerts, so that when the confirmation is received, said gateway (11) is configured in a maintenance mode, awaits the service personnel to define the type of fault and said service personnel interacts with the fire extinguisher and / or hydrant by means of a portable electronic device and a software application, which identifies in a safe way the service personnel who are acting on the fire extinguisher and / or hydrant and communicate their identity to said information system (13) by means of the network of sensors and actuators and, at the same time, said gateway (11), by means of said sensors, continues to check if the fault is resolved by sending a message, via said network of sensors and actuators, to the information system (13) and stores the identity of the service personnel in a local memory fire extinguisher and / or hydrant officer (15) together with the date, time and type of intervention carried out. 9. Method as in claim 7, characterized in that, in the event that a vandalism occurs against said fire extinguisher and / or hydrant, a sensor (10) fixed to said fire extinguisher and / or hydrant (15) detects it and keeps it informed said information system (13) until it receives a confirmation, also sending the position of said fire extinguisher and / or hydrant (15) to said RTLS system and said information system (13) by sending some alarm notices visual. 10. Method as in claim 7, characterized by the fact that a rest mode of the system is implemented mainly when, for any reason, said fire extinguisher and / or hydrant (15) does not need to be monitored or said information system (13) is not suitable to monitor it, so that said gateway (11) still maintains the association and is still connected to said network of wireless sensors and actuators, waiting to be placed again in normal operation mode at a certain point in time. CLAIMS 1. Monitoring and control system for fire extinguishers and / or hydrants (15) and the interaction between them, including a wireless sensor and networks of actuators (12, 14, 17, 19), a real-time localization system (RTLS) , a plurality of sensors (10) and actuators networked together with multiple type radio interfaces, and an entrance door or gateway (11), with multiple type radio interface, to be applied to portable fire extinguishers and / or hydrants or trolleys, such as fire hydrants, hoses, etc., characterized in that said system includes a software application that can be implemented on a portable electronic device, which is suitable for connecting to the gateway (11), by means of a wireless connection and an authentication procedure, a prefixed fire extinguisher and / or hydrant to extract specific values relating to the fire extinguisher and / or hydrant, in order to allow said fire extinguishers and / or hydrants of different types to be regularly controlled remotely regarding their parameters i by means of an information system, to send warning and / or alarm messages to the information system or locally to the fire extinguisher and / or hydrant and to allow qualified personnel to carry out interventions in a simple and traceable way on said fire extinguishers and / or fire hydrants. 2. System as in claim 1, characterized in that said sensors (10) include motion and acceleration sensors and gyroscopes and said networks of actuators (12, 14, 17, 19) are configured to receive information from said sensors (10 ) and to send said information to an information system (13), which, using appropriate algorithms, determines any risk situations and acts on the basis of said risk situations. 3. System as in claim 1, characterized in that said sensors (10) are configured to detect date and time and / or to take one or more photographs of relevant parts of the fire extinguisher and / or hydrant (15) in order to send data to said information system (13), which uses artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract from said photographs specific values relating to the fire extinguisher and / or hydrant, such as the pressure shown by a pressure gauge. 4. System as in claim 1, characterized in that each of said sensors (10) is integrated with a receiver-transmitter, which includes a receiver, a transmitter and a microprocessor and which communicates both directly with said wireless sensor and with said network of actuators covering the area in which the fire extinguisher and / or hydrant is installed both, through short range communications, with a gateway transceiver belonging to an entrance door (11) fixed to said fire extinguisher and / or hydrant . 5. System as in claim 4, characterized in that said gateway transceiver is configured to perform some operations locally on the fire extinguisher and / or hydrant and is able to communicate with said information system (13) through said wireless sensor and said network of actuators covering the area where the fire extinguisher and / or hydrant (15) is installed. 6. System as in claim 4, characterized in that said gateway transceiver has a location label, so that said RTLS system can always be aware of the position of the fire extinguisher and / or hydrant, and a further short range slave transceiver (17), whose function is to command safe maintenance of the fire extinguisher and / or hydrant, so that, when the service personnel (16) of the fire extinguisher and / or hydrant carry out the procedure, is able to establish a safe connection with the fire extinguisher and / or hydrant and said fire extinguisher and / or hydrant provides for identification by sending the data to said information system (13). 7. Method for monitoring and controlling fire extinguishers and / or hydrants (15) which can be implemented by means of the system as per claim 1, characterized by the fact that, during a normal operating mode, said sensors (10) do not send any message to the gateway ( 11), which in turn periodically communicates to said information system (13), through said wireless sensors and said network of actuators, that everything is working regularly. 8. Method as in claim 7, characterized by the fact that, in the event that a malfunction mode is detected, a special sensor notifies said gateway (11) via said short-range transceiver and said gateway (11) immediately activates and continues to send data, via the wireless sensors and the network of actuators, to said information system (13) and waits for a confirmation, activating some visual alarm alerts, so that when the confirmation is received, said gateway (11) is configured in a maintenance mode, awaits the service personnel to define the type of fault and said service personnel interacts with the fire extinguisher and / or hydrant by means of a portable electronic device and a software application, which identifies in a safe way the service personnel who are acting on the fire extinguisher and / or hydrant and communicate their identity to said information system (13) by means of the network of sensors and actuators and, at the same time, said gateway (11), by means of said sensors, continues to check if the fault is resolved by sending a message, via said network of sensors and actuators, to the information system (13) and stores the identity of the service personnel in a local memory fire extinguisher and / or hydrant officer (15) together with the date, time and type of intervention carried out. 9. Method as in claim 7, characterized in that, in the event that a vandalism occurs against said fire extinguisher and / or hydrant, a sensor (10) fixed to said fire extinguisher and / or hydrant (15) detects it and keeps it informed said information system (13) until it receives a confirmation, also sending the position of said fire extinguisher and / or hydrant (15) to said RTLS system and said information system (13) by sending some alarm notices visual. 10. Method as in claim 7, characterized by the fact that a rest mode of the system is implemented mainly when, for any reason, said fire extinguisher and / or hydrant (15) does not need to be monitored or said information system (13) is not suitable to monitor it, so that said gateway (11) still maintains the association and is still connected to said network of wireless sensors and actuators, waiting to be placed again in normal operation mode at a certain point in time. CLAIMS 1. Monitoring and control system for fire extinguishers and / or hydrants (15) and the interaction between them, including a wireless sensor and networks of actuators (12, 14, 17, 19), a real-time localization system (RTLS), a plurality of sensors (10) and actuators networked together with multiple type radio interfaces, and an entrance door or gateway (11), with multiple type radio interface, to be applied to fire extinguishers and / or portable or trailerable hydrants, such as hydrants, hoses, etc., characterized by the fact that said system includes a software application that can be implemented on a portable electronic device, which is able to connect to the gateway (11), by means of a wireless connection and a procedure of authentication, a pre-established fire extinguisher and / or hydrant to extract specific values relating to the fire extinguisher and / or hydrant, in order to allow said fire extinguishers and / or hydrants of different types to be regularly controlled remotely in merit or their parameters by means of an information system, to send warning and / or alarm messages to the information system or locally to the fire extinguisher and / or hydrant and to allow qualified personnel to carry out interventions in a simple and traceable way on said fire extinguishers and / or fire hydrants. 2. System as in claim 1, characterized in that said sensors (10) include motion and acceleration sensors and gyroscopes and said networks of actuators (12, 14, 17, 19) are configured to receive information from said sensors (10 ) and to send said information to an information system (13), which, using appropriate algorithms, determines any risk situations and acts on the basis of said risk situations. 3. System as in claim 1, characterized in that said sensors (10) are configured to detect date and time and / or to take one or more photographs of relevant parts of the fire extinguisher and / or hydrant (15) in order to send data to said information system (13), which uses artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract from said photographs specific values relating to the fire extinguisher and / or hydrant, such as the pressure shown by a pressure gauge. 4. System as in claim 1, characterized in that each of said sensors (10) is integrated with a receiver-transmitter, which includes a receiver, a transmitter and a microprocessor and which communicates both directly with said wireless sensor and with said network of actuators covering the area in which the fire extinguisher and / or hydrant is installed both, through short range communications, with a gateway transceiver belonging to an entrance door (11) fixed to said fire extinguisher and / or hydrant . 5. System as in claim 4, characterized in that said gateway transceiver is configured to perform some operations locally on the fire extinguisher and / or hydrant and is able to communicate with said information system (13) through said wireless sensor and said network of actuators covering the area where the fire extinguisher and / or hydrant (15) is installed. 6. System as in claim 4, characterized in that said gateway transceiver has a location label, so that said RTLS system can always be aware of the position of the fire extinguisher and / or hydrant, and a further short range slave transceiver (17), whose function is to command safe maintenance of the fire extinguisher and / or hydrant, so that, when the service personnel (16) of the fire extinguisher and / or hydrant carry out the procedure, is able to establish a safe connection with the fire extinguisher and / or hydrant and said fire extinguisher and / or hydrant provides for identification by sending the data to said information system (13). 7. Method for monitoring and controlling fire extinguishers and / or hydrants (15) which can be implemented by means of the system as per claim 1, characterized by the fact that, during a normal operating mode, said sensors (10) do not send any message to the gateway ( 11), which in turn periodically communicates to said information system (13), through said wireless sensors and said network of actuators, that everything is working regularly. 8. Method as in claim 7, characterized by the fact that, in the event that a malfunction mode is detected, a special sensor notifies said gateway (11) via said short-range transceiver and said gateway (11) immediately activates and continues to send data, via the wireless sensors and the network of actuators, to said information system (13) and waits for a confirmation, activating some visual alarm alerts, so that when the confirmation is received, said gateway (11) is configured in a maintenance mode, awaits the service personnel to define the type of fault and said service personnel interacts with the fire extinguisher and / or hydrant by means of a portable electronic device and a software application, which identifies in a safe way the service personnel who are acting on the fire extinguisher and / or hydrant and communicate their identity to said information system (13) by means of the network of sensors and actuators and, at the same time, said gateway (11), by means of said sensors, continues to check if the fault is resolved by sending a message, via said network of sensors and actuators, to the information system (13) and stores the identity of the service personnel in a local memory fire extinguisher and / or hydrant officer (15) together with the date, time and type of intervention carried out. 9. Method as in claim 7, characterized in that, in the event that a vandalism occurs against said fire extinguisher and / or hydrant, a sensor (10) fixed to said fire extinguisher and / or hydrant (15) detects it and keeps it informed said information system (13) until it receives a confirmation, also sending the position of said fire extinguisher and / or hydrant (15) to said RTLS system and said information system (13) by sending some alarm notices visual. 10. Method as in claim 7, characterized by the fact that a rest mode of the system is implemented mainly when, for any reason, said fire extinguisher and / or hydrant (15) does not need to be monitored or said information system (13) is not suitable to monitor it, so that said gateway (11) still maintains the association and is still connected to said network of wireless sensors and actuators, waiting to be placed again in normal operation mode at a certain point in time. CLAIMS 1. Monitoring and control system for fire extinguishers and / or hydrants (15) and the interaction between them, including a wireless sensor and networks of actuators (12, 14, 17, 19), a real-time localization system (RTLS), a plurality of sensors (10) and actuators networked together with multiple type radio interfaces, and an entrance door or gateway (11), with multiple type radio interface, to be applied to fire extinguishers and / or portable or trailerable hydrants, such as hydrants, hoses, etc., characterized by the fact that said system includes a software application that can be implemented on a portable electronic device, which is able to connect to the gateway (11), by means of a wireless connection and a procedure of authentication, a pre-established fire extinguisher and / or hydrant to extract specific values relating to the fire extinguisher and / or hydrant, in order to allow said fire extinguishers and / or hydrants of different types to be regularly controlled remotely in merit or their parameters by means of an information system, to send warning and / or alarm messages to the information system or locally to the fire extinguisher and / or hydrant and to allow qualified personnel to carry out interventions in a simple and traceable way on said fire extinguishers and / or fire hydrants. 2. System as in claim 1, characterized in that said sensors (10) include motion and acceleration sensors and gyroscopes and said networks of actuators (12, 14, 17, 19) are configured to receive information from said sensors (10 ) and to send said information to an information system (13), which, using appropriate algorithms, determines any risk situations and acts on the basis of said risk situations. 3. System as in claim 1, characterized in that said sensors (10) are configured to detect date and time and / or to take one or more photographs of relevant parts of the fire extinguisher and / or hydrant (15) in order to send data to said information system (13), which uses artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract from said photographs specific values relating to the fire extinguisher and / or hydrant, such as the pressure shown by a pressure gauge. 4. System as in claim 1, characterized in that each of said sensors (10) is integrated with a receiver-transmitter, which includes a receiver, a transmitter and a microprocessor and which communicates both directly with said wireless sensor and with said network of actuators covering the area in which the fire extinguisher and / or hydrant is installed both, through short range communications, with a gateway transceiver belonging to an entrance door (11) fixed to said fire extinguisher and / or hydrant . 5. System as in claim 4, characterized in that said gateway transceiver is configured to perform some operations locally on the fire extinguisher and / or hydrant and is able to communicate with said information system (13) through said wireless sensor and said network actuators covering the area where the fire extinguisher and / or hydrant (15) is installed. 6. System as in claim 4, characterized in that said gateway transceiver has a location label, so that said RTLS system can always be aware of the position of the fire extinguisher and / or hydrant, and a further short range slave transceiver (17), whose function is to command safe maintenance of the fire extinguisher and / or hydrant, so that, when the service personnel (16) of the fire extinguisher and / or hydrant carry out the procedure, is able to establish a safe connection with the fire extinguisher and / or hydrant and said fire extinguisher and / or hydrant provides for identification by sending the data to said information system (13). 7. Method for monitoring and controlling fire extinguishers and / or hydrants (15) which can be implemented by means of the system as per claim 1, characterized by the fact that, during a normal operating mode, said sensors (10) do not send any message to the gateway ( 11), which in turn periodically communicates to said information system (13), through said wireless sensors and said network of actuators, that everything is working regularly. 8. Method as in claim 7, characterized by the fact that, in the event that a malfunction mode is detected, a special sensor notifies said gateway (11) via said short-range transceiver and said gateway (11) immediately activates and continues to send data, via the wireless sensors and the network of actuators, to said information system (13) and waits for a confirmation, activating some visual alarm alerts, so that when the confirmation is received, said gateway (11) is configured in a maintenance mode, awaits the service personnel to define the type of fault and said service personnel interacts with the fire extinguisher and / or hydrant by means of a portable electronic device and a software application, which identifies in a safe way the service personnel who are acting on the fire extinguisher and / or hydrant and communicate their identity to said information system (13) by means of the network of sensors and actuators and, at the same time, said gateway (11), by means of said sensors, continues to check if the fault is resolved by sending a message, via said network of sensors and actuators, to the information system (13) and stores the identity of the service personnel in a local memory fire extinguisher and / or hydrant officer (15) together with the date, time and type of intervention carried out. 9. Method as in claim 7, characterized in that, in the event that a vandalism occurs against said fire extinguisher and / or hydrant, a sensor (10) fixed to said fire extinguisher and / or hydrant (15) detects it and keeps it informed said information system (13) until it receives a confirmation, also sending the position of said fire extinguisher and / or hydrant (15) to said RTLS system and said information system (13) by sending some alarm notices visual. 10. Method as in claim 7, characterized by the fact that a rest mode of the system is implemented mainly when, for any reason, said fire extinguisher and / or hydrant (15) does not need to be monitored or said information system (13) is not suitable to monitor it, so that said gateway (11) still maintains the association and is still connected to said network of wireless sensors and actuators, waiting to be placed again in normal operation mode at a certain point in time. CLAIMS 1. Monitoring and control system for fire extinguishers and / or hydrants (15) and the interaction between them, including a wireless sensor and networks of actuators (12, 14, 17, 19), a real-time localization system (RTLS), a plurality of sensors (10) and actuators networked together with multiple type radio interfaces, and an entrance door or gateway (11), with multiple type radio interface, to be applied to fire extinguishers and / or portable or trailerable hydrants, such as hydrants, hoses, etc., characterized by the fact that said system includes a software application that can be implemented on a portable electronic device, which is able to connect to the gateway (11), by means of a wireless connection and a procedure of authentication, a pre-established fire extinguisher and / or hydrant to extract specific values relating to the fire extinguisher and / or hydrant, in order to allow said fire extinguishers and / or hydrants of different types to be regularly controlled remotely in merit or their parameters by means of an information system, to send warning and / or alarm messages to the information system or locally to the fire extinguisher and / or hydrant and to allow qualified personnel to carry out interventions in a simple and traceable way on said fire extinguishers and / or fire hydrants. 2. System as in claim 1, characterized in that said sensors (10) include motion and acceleration sensors and gyroscopes and said networks of actuators (12, 14, 17, 19) are configured to receive information from said sensors (10 ) and to send said information to an information system (13), which, using appropriate algorithms, determines any risk situations and acts on the basis of said risk situations. 3. System as in claim 1, characterized in that said sensors (10) are configured to detect date and time and / or to take one or more photographs of relevant parts of the fire extinguisher and / or hydrant (15) in order to send data to said information system (13), which uses artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract from said photographs specific values relating to the fire extinguisher and / or hydrant, such as the pressure shown by a pressure gauge. 4. System as in claim 1, characterized in that each of said sensors (10) is integrated with a receiver-transmitter, which includes a receiver, a transmitter and a microprocessor and which communicates both directly with said wireless sensor and with said network of actuators covering the area in which the fire extinguisher and / or hydrant is installed both, through short range communications, with a gateway transceiver belonging to an entrance door (11) fixed to said fire extinguisher and / or hydrant . 5. System as in claim 4, characterized in that said gateway transceiver is configured to perform some operations locally on the fire extinguisher and / or hydrant and is able to communicate with said information system (13) through said wireless sensor and said network of actuators covering the area where the fire extinguisher and / or hydrant (15) is installed. 6. System as in claim 4, characterized in that said gateway transceiver has a location label, so that said RTLS system can always be aware of the position of the fire extinguisher and / or hydrant, and a further short range slave transceiver (17), whose function is to command safe maintenance of the fire extinguisher and / or hydrant, so that, when the service personnel (16) of the fire extinguisher and / or hydrant carry out the procedure, is able to establish a safe connection with the fire extinguisher and / or hydrant and said fire extinguisher and / or hydrant provides for identification by sending the data to said information system (13). 7. Method for monitoring and controlling fire extinguishers and / or hydrants (15) which can be implemented by means of the system as per claim 1, characterized by the fact that, during a normal operating mode, said sensors (10) do not send any message to the gateway ( 11), which in turn periodically communicates to said information system (13), through said wireless sensors and said network of actuators, that everything is working regularly. 8. Method as in claim 7, characterized by the fact that, in the event that a malfunction mode is detected, a special sensor notifies said gateway (11) via said short-range transceiver and said gateway (11) immediately activates and continues to send data, via the wireless sensors and the network of actuators, to said information system (13) and waits for a confirmation, activating some visual alarm alerts, so that when the confirmation is received, said gateway (11) is configured in a maintenance mode, awaits the service personnel to define the type of fault and said service personnel interacts with the fire extinguisher and / or hydrant by means of a portable electronic device and a software application, which identifies in a safe way the service personnel who are acting on the fire extinguisher and / or hydrant and communicate their identity to said information system (13) by means of the network of sensors and actuators and, at the same time, said gateway (11), by means of said sensors, continues to check if the fault is resolved by sending a message, via said network of sensors and actuators, to the information system (13) and stores the identity of the service personnel in a local memory fire extinguisher and / or hydrant officer (15) together with the date, time and type of intervention carried out. 9. Method as in claim 7, characterized in that, in the event that a vandalism occurs against said fire extinguisher and / or hydrant, a sensor (10) fixed to said fire extinguisher and / or hydrant (15) detects it and keeps it informed said information system (13) until it receives a confirmation, also sending the position of said fire extinguisher and / or hydrant (15) to said RTLS system and said information system (13) by sending some alarm notices visual. 10. Method as in claim 7, characterized by the fact that a rest mode of the system is implemented mainly when, for any reason, said fire extinguisher and / or hydrant (15) does not need to be monitored or said information system (13) is not suitable to monitor it, so that said gateway (11) still maintains the association and is still connected to said network of wireless sensors and actuators, waiting to be placed again in normal operation mode at a certain point in time. CLAIMS 1. Monitoring and control system for fire extinguishers and / or hydrants (15) and the interaction between them, including a wireless sensor and networks of actuators (12, 14, 17, 19), a real-time localization system (RTLS), a plurality of sensors (10) and actuators networked together with multiple type radio interfaces, and an entrance door or gateway (11), with multiple type radio interface, to be applied to fire extinguishers and / or portable or trailerable hydrants, such as hydrants, hoses, etc., characterized by the fact that said system includes a software application that can be implemented on a portable electronic device, which is able to connect to the gateway (11), by means of a wireless connection and a procedure authentication, a prefixed fire extinguisher and / or hydrant to extract specific values relating to the fire extinguisher and / or hydrant, in order to allow said fire extinguishers and / or hydrants of different types to be regularly controlled remotely in this regard to their parameters by means of an information system, to send warning and / or alarm messages to the information system or locally to the fire extinguisher and / or hydrant and to allow qualified personnel to carry out interventions in a simple and traceable way on said fire extinguishers and / or fire hydrants. 2. System as in claim 1, characterized in that said sensors (10) include motion and acceleration sensors and gyroscopes and said networks of actuators (12, 14, 17, 19) are configured to receive information from said sensors (10 ) and to send said information to an information system (13), which, using appropriate algorithms, determines any risk situations and acts on the basis of said risk situations. 3. System as in claim 1, characterized in that said sensors (10) are configured to detect date and time and / or to take one or more photographs of relevant parts of the fire extinguisher and / or hydrant (15) in order to send data to said information system (13), which uses artificial intelligence, "machine learning" algorithms or automatic recognition systems to extract from said photographs specific values relating to the fire extinguisher and / or hydrant, such as the pressure shown by a pressure gauge. 4. System as in claim 1, characterized in that each of said sensors (10) is integrated with a receiver-transmitter, which includes a receiver, a transmitter and a microprocessor and which communicates both directly with said wireless sensor and with said network of actuators covering the area in which the fire extinguisher and / or hydrant is installed both, through short range communications, with a gateway transceiver belonging to an entrance door (11) fixed to said fire extinguisher and / or hydrant . 5. System as in claim 4, characterized in that said gateway transceiver is configured to perform some operations locally on the fire extinguisher and / or hydrant and is able to communicate with said information system (13) through said wireless sensor and said network of actuators covering the area where the fire extinguisher and / or hydrant (15) is installed. 6. System as in claim 4, characterized in that said gateway transceiver has a location label, so that said RTLS system can always be aware of the position of the fire extinguisher and / or hydrant, and a further short range slave transceiver (17), whose function is to command safe maintenance of the fire extinguisher and / or hydrant, so that, when the service personnel (16) of the fire extinguisher and / or hydrant carry out the procedure, is able to establish a safe connection with the fire extinguisher and / or hydrant and said fire extinguisher and / or hydrant provides for identification by sending the data to said information system (13). 7. Method for monitoring and controlling fire extinguishers and / or hydrants (15) which can be implemented by means of the system as per claim 1, characterized by the fact that, during a normal operating mode, said sensors (10) do not send any message to the gateway ( 11), which in turn periodically communicates to said information system (13), through said wireless sensors and said network of actuators, that everything is working regularly. 8. Method as in claim 7, characterized by the fact that, in the event that a malfunction mode is detected, a special sensor notifies said gateway (11) via said short-range transceiver and said gateway (11) immediately activates and continues to send data, via the wireless sensors and the network of actuators, to said information system (13) and waits for a confirmation, activating some visual alarm alerts, so that when the confirmation is received, said gateway (11) is configured in a maintenance mode, awaits the service personnel to define the type of fault and said service personnel interacts with the fire extinguisher and / or hydrant by means of a portable electronic device and a software application, which identifies in a safe way the service personnel who are acting on the fire extinguisher and / or hydrant and communicate their identity to said information system (13) by means of the network of sensors and actuators and, at the same time, said gateway (11), by means of said sensors, continues to check if the fault is resolved by sending a message, via said network of sensors and actuators, to the information system (13) and stores the identity of the service personnel in a local memory fire extinguisher and / or hydrant officer (15) together with the date, time and type of intervention carried out. 9. Method as in claim 7, characterized in that, in the event that a vandalism occurs against said fire extinguisher and / or hydrant, a sensor (10) fixed to said fire extinguisher and / or hydrant (15) detects it and keeps it informed said information system (13) until it receives a confirmation, also sending the position of said fire extinguisher and / or hydrant (15) to said RTLS system and said information system (13) by sending some alarm notices visual. 10. Method as in claim 7, characterized by the fact that a rest mode of the system is implemented mainly when, for any reason, said fire extinguisher and / or hydrant (15) does not need to be monitored or said information system (13) is not suitable to monitor it, so that said gateway (11) still maintains the association and is still connected to said network of wireless sensors and actuators, waiting to be placed again in normal operation mode at a certain point in time.