IT201800001712A1 - SYSTEM FOR THE OPTIMIZATION OF THE COMBUSTION PROCESS OF A STOVE / BOILER, IN PARTICULAR WITH PELLETS - Google Patents

Description

SYSTEM FOR OPTIMIZING THE COMBUSTION PROCESS OF A STOVE / BOILER, IN PARTICULAR WITH PELLETS.

DESCRIPTION

The present invention relates to a system for optimizing the combustion process of a stove / boiler, in particular of a pellet stove / boiler. The system described here is particularly, although not exclusively, useful and practical in the context of systems for the production and distribution of heat and hot water, such as domestic heating systems.

Nowadays, different types of pellet stoves are in use, which can complement or replace the traditional heating system. The operation of these stoves is similar to that of traditional stoves and is essentially based on the combustion of a thickened biofuel produced from pulverized biomass (also known as "pellets") for the production of heat to be supplied in domestic environments. The heat produced by the combustion of the pellets is diffused into the surrounding environment both by natural convection and through the aid of a ventilation system that contributes to the diffusion of hot air.

However, the known solutions are not free from drawbacks, including the lack of a control on the fuel loading, in particular pellets, inside the brazier during the ignition of the stove / boiler flame.

Another drawback of these known solutions consists in the lack of a control relating to the mass of the flame in order to regulate the combustion process of the stove / boiler.

A further drawback of these known solutions consists in the fact that they do not provide for any control on the composition of the fumes leaving the stove / boiler.

Another drawback of these known solutions consists in the fact that they do not allow to check the amount of fuel, in particular pellets, present inside the brazier, from which the same pellet could come out in case of excessive quantity.

A further drawback of these known solutions consists in the fact that they do not carry out any type of control on the air intake.

Another drawback of these known solutions consists in the lack of an automatic control of the state of the brazier.

The main aim of the present invention is to overcome the limits of the prior art described above, devising a system for optimizing the combustion process of a stove / boiler, in particular with pellets, which allows to improve the efficiency of the combustion while decreasing energy consumption and the emission of noxious fumes produced by the stove / boiler.

Within this aim, an object of the present invention is to devise a system for optimizing the combustion process of a stove / boiler, in particular with pellets, which is capable of operating with an electrical power supply ranging from about 3.3V and 12V.

Another object of the present invention is to devise a system for optimizing the combustion process of a stove / boiler, in particular with pellets, which allows to reduce the consumption of pellets necessary for the combustion process.

A further object of the present invention is to conceive a system for optimizing the combustion process of a stove / boiler, in particular with pellets, which allows to detect the mass of the flame to optimize the combustion process.

Another object of the present invention is to devise a system for optimizing the combustion process of a stove / boiler, in particular with pellets, which allows to detect the quality of the fumes emitted by the stove / boiler, preventing the emission of toxic fumes.

Still, the object of the present invention is to devise a system for the optimization of the combustion process of a stove / boiler, in particular with pellets, which allows to regulate the air intake.

Not least object of the present invention is to provide a system for optimizing the combustion process of a stove / boiler, in particular with pellets, which is highly reliable, relatively simple to manufacture, and at competitive costs if compared to the technique. Note.

This task, as well as these and other purposes that will appear better later, are achieved by a system for the optimization of the combustion process of a stove / boiler, in particular with pellets, according to claim 1.

Further characteristics and advantages of the invention will become clearer from the description of a preferred but not exclusive embodiment of the system for optimizing the combustion process of a stove / boiler, in particular with pellets according to the invention, illustrated by way of example and non-limiting, in the accompanying drawings, in which:

Figure 1 illustrates an embodiment of the system for optimizing the combustion process of a stove / boiler, in particular with pellets, according to the present invention;

Figure 2 is a block diagram which schematically illustrates the plurality of sensors present in an embodiment of the stove / boiler included in the system for optimizing the combustion process of a stove / boiler, in particular pellet, according to the present found;

Figure 3 is a block diagram that schematically illustrates an embodiment of the remote processing device included in the system for optimizing the combustion process of a stove / boiler, in particular with pellets, according to the present invention.

With reference to the aforementioned figures, the system for optimizing the combustion process of a stove / boiler, in particular with pellets, according to the invention, globally indicated with the reference number 10, substantially comprises a stove / boiler 12, a device remote processing 14, associated with the stove / boiler 12, and a telematic device 18, operated by a user 20 and connected and in communication with the remote processing device 14 via a telematic communication network 16, such as the Internet network.

The stove / boiler 12 of the system 10 according to the invention is preferably a pellet stove / boiler. The stove / boiler 12 is configured to produce heat and hot water by burning a quantity of fuel, in particular pellets.

With particular reference to Figure 1, in an embodiment of the system for optimizing the combustion process of a stove / boiler, in particular with pellets, the stove / boiler 12 comprises: a fuel tank 22; an auger 24; an auger motor 26; a combustion chamber 28; a brazier 29 included in the combustion chamber 28; an air intake pipe 30; an air intake and fume expulsion motor 34; a hot air emission outlet 32; a hot air emission motor 38; an on / off switch or contact 36; a candle or more preferably a flame ignition laser 40; a tank opening / closing panel 42; and a flue 44.

In a preferred embodiment of the system 10 for optimizing the combustion process of a stove / boiler, in particular with pellets, the stove / boiler 12 further comprises an air intake throttle 31 and an air intake throttle motor 58. In in practice, the air intake butterfly 31 is a hinged obstruction disk inside the air intake pipe 30, which rotates between a closed position and an open position of the air passage section through the air intake pipe 30 .

The operation of a generic pellet stove is briefly described here. Following the ignition of the stove 12 by the user 20 by operating the on / off switch 36, the auger 24, driven by the auger motor 26, takes a quantity of pellets from the tank 22 and transports this quantity of pellets inside the brazier 29 included in the combustion chamber 28. Once the quantity of pellets is positioned inside the brazier 29, the air entering the stove 12 through the air intake pipe 30, typically connected to the The external environment supplies the fuel / comburent mixture and the flame spark plug 40 generates a flame allowing the pellet combustion process to be started. Meanwhile, the convection air is diffused from the hot air outlet motor 38 towards the hot air outlet 32, so that the heat is exchanged between this air and the external surface of the combustion chamber 28, heated by the heat produced. from combustion. Finally, the fumes produced are expelled through the air intake and fumes expulsion motor 34 and through the flue 44.

With particular reference to Figure 2, in an embodiment of the system 10 for the optimization of the combustion process of a stove / boiler, in particular with pellets, the stove / boiler 12 further comprises: a brazier sensor 46; a flame sensor 48; a smoke sensor 50; an internal temperature sensor 52; a tank sensor 54; and an external temperature sensor 56.

The brazier sensor 46 of the stove / boiler 12 is configured to detect at least a quantity of fuel present in the brazier 29 included in the combustion chamber 28. Advantageously, the brazier sensor 46 is arranged externally to the combustion chamber 28. The brazier sensor 46 is preferably a laser beam optical sensor. In an embodiment of the system 10 for optimizing the combustion process of a stove / boiler, in particular with pellets, in the context of regulating the fuel load in the brazier 29 by means of the screw 24, the brazier sensor 46 operates with the following parameters: maximum object detection distance equal to 2.4 meters; gamma detection sampling frequency equal to 1 Hz; power supply equal to 5 Vdc (from English "Volt Direct Current") at 150 mA and working temperature from 0 ° C to 85 ° C.

The flame sensor 48 of the stove / boiler 12 is configured to detect at least one mass of a flame in the combustion chamber 28. Advantageously, the flame sensor 48 is arranged externally to the combustion chamber 28. The flame sensor 48 is preferably a optical laser beam sensor. In an embodiment of the system 10 for the optimization of the combustion process of a stove / boiler, in particular with pellets, the flame sensor 48 operates with the following parameters: detection distance equal to 1 meter; power supply equal to 5 Vdc; operating temperature from -25 ° C to 80 ° C; wavelength detected 760-1100 nm and detection angle equal to 60 °.

The fumes sensor 50 of the stove / boiler 12 is configured to detect at least one composition of fumes present in the flue 44 during the combustion process. Advantageously, the smoke sensor 50 is included in the flue 44. In an embodiment of the system 10 for the optimization of the combustion process of a stove / boiler, in particular with pellets, the flue gas sensor 50 is further configured to detect combustible gases, such as LPG, propane, hydrogen and carbon monoxide. In a further embodiment of the system 10 for optimizing the combustion process of a stove / boiler, the smoke sensor 50 operates with the following parameters: power supply from 2.5 Vdc to 5 Vdc and working temperature from 0 ° C to 125 ° C.

The internal temperature sensor 52 of the stove / boiler 12 is configured to detect at least one temperature value of air coming from the hot air emission outlet 32. Advantageously, the internal temperature sensor 52 is arranged in proximity to the air emission outlet hot 32. In an embodiment of the system 10 for optimizing the combustion process of a stove / boiler, in particular with pellets, the internal temperature sensor 52 operates with the following parameters: power supply from 3V to 5V; temperature range measurable from -55 ° C to 200 ° C; accuracy equal to ± 0.5 ° C (in the range [-55 ° C, 200 ° C]); resolution from 9bit to 12bit and conversion time of temperatures in 12bit equal to 750 milliseconds.

The tank sensor 54 of the stove / boiler 12 is configured to detect at least a quantity of fuel present in the tank 22. Advantageously, the tank sensor 54 is arranged inside the tank 22. In an embodiment of the system 10 for the '' optimization of the combustion process of a stove / boiler, in particular with pellets, the tank sensor 22 is further configured to emit a light and / or acoustic signal if the quantity of pellets inside the tank 22 is below a predetermined threshold. In a further embodiment of the system 10 for the optimization of the combustion process of a stove / boiler, in particular with pellets, the tank sensor 54 operates with the following parameters: power supply from 4.5V to 5.5V; operating temperature from -10 ° C to 60 ° C; storage temperature from -40 ° C to 70 ° C and detection distance from 4cm to 80cm.

The external temperature sensor 56 of the stove / boiler 12 is configured to detect at least one ambient temperature value. Advantageously, the external temperature sensor 56 is arranged externally to the stove / boiler 12. In an embodiment of the system 10 for optimizing the combustion process of a stove / boiler, in particular with pellets, the external temperature sensor 56 operates with the following parameters: power supply from 3V to 5V; temperature range measurable from -55 ° C to 200 ° C; accuracy equal to ± 0.5 ° C (in the range [-55 ° C, + 200 ° C]); resolution from 9bit to 12bit and conversion time of temperatures in 12bit equal to 750 milliseconds.

With particular reference to Figure 3, in an embodiment of the system 10 for the optimization of the combustion process of a stove / boiler, in particular with pellets, the remote processing device 14 comprises: a control unit 60; a usage data collection form 62; an on / off module 64; usage data storage means 66; reference data storage means 68; an auger motor management module 70; an air intake and fume expulsion motor management module 72; an air intake throttle engine management module 74; and a hot air emission engine management module 76.

A portion of the operation of the remote processing device 14, as mentioned associated with the stove / boiler 12, is remotely managed directly by the user 20 through the telematic device 18, which as mentioned is connected and in communication with the same remote processing device. 14 through a telematic communication network 16.

Advantageously, the remote processing device 14 is connected to a 12V battery group. By way of example, the 12V battery pack can be recharged by solar panels, which guarantee the operation of the remote processing device 14 for a certain period of time in the absence of electricity, or by a 12V power supply connected to the electrical power supply network. .

The control unit 60 is the main functional element of the remote processing device 14 of the system 10 according to the invention, and for this reason it is connected and in communication with the other elements included in the remote processing device 14 itself.

The control unit 60 of the remote processing device 14 is equipped with suitable computing and interfacing capabilities with the other elements of the remote processing device 14, and it is configured to command, control and coordinate the operation of the elements of the processing device. remote processing 14 with which it is connected and in communication. Furthermore, the control unit 60 is configured to compare at least one value detected by one of the sensors included in the stove / boiler 12 with a respective reference value included in the reference data storage means 68.

The usage data collection module 62 of the remote processing device 14 is configured to receive the values detected by the plurality of sensors included in the stove / boiler 12. The usage data collection module 62 is connected to the usage data storage means 66, via control unit 60.

The on / off module 64 of the remote processing device 14 is configured to turn the stove / boiler 12 on or off, for example following a remote command given by the user 20 via the telematic device 18, in particular by activating the laser flame ignition 40. In an embodiment of the system 10 for the optimization of the combustion process of a stove / boiler, in particular with pellets, the flame ignition laser 40 operates with the following parameters: operating voltage equal to 3, 3V, operating temperature equal to 2000 ° C, wavelength equal to about 450nm and start-up time ≤ 1sec.

The utilization data storage means 66 of the remote processing device 14, such as a database, are configured to store the values detected by the plurality of sensors included in the stove / boiler 12. In an embodiment of the system 10 for the optimization of the combustion process of a stove / boiler, in particular with pellets, the utilization data storage means 66 comprise a database stored on suitably sized memory supports.

The reference data storage means 68 of the remote processing device 14, such as for example a database, are configured to store the reference values for each sensor included in the stove / boiler 12. These reference values are set by the user 20 by means of the telematic device 18 connected to the remote processing device 14. By way of example, the setting of the reference values relating to the plurality of sensors arranged in the stove / boiler 12 by the user 20 allows the latter to select a threshold maximum or minimum for each sensor disposed in the stove / boiler 12, in order to improve the efficiency of the combustion process as needed. In an embodiment of the system 10 for the optimization of the combustion process of a stove / boiler, in particular with pellets, the reference data storage means 68 comprise a database stored on suitably sized memory media.

The auger motor management module 70 of the remote processing device 14 is configured to drive the auger motor 26 of the stove / boiler 12, electronically controllable, preferably through PWM modulation (from the English "Pulse Width Modulation"), and able to operate in rotation of the auger 24 of the stove / boiler 12 for loading the fuel, in particular pellets, inside the brazier 29.

The air intake and fume expulsion motor management module 72 of the remote processing device 14 is configured to drive the air intake and fume expulsion motor 34 of the stove / boiler 12, electronically controllable, preferably by PWM modulation, and able to operate in rotation a fan associated with it, allowing both the intake of air through the air intake pipe 30 of the stove / boiler 12 and the expulsion of fumes through the flue 44 of the stove / boiler 12.

The air intake throttle motor management module 74 of the remote processing device 14 is configured to drive the air intake throttle motor 58 of the stove / boiler 12, electronically controllable, preferably by PWM modulation, and able to rotate the air intake throttle 31 of the stove / boiler 12, allowing the intake of air through the air intake pipe 30 of the stove / boiler 12 by opening or closing the air intake butterfly 31.

The hot air emission motor management module 76 of the remote processing device 14 is configured to drive the hot air emission motor 38 of the stove / boiler 12, electronically controllable, preferably by PWM modulation, and able to rotate a fan associated with this, allowing the emission of hot air through the relative outlet 32 of the stove / boiler 12.

Preliminarily, as part of the flame ignition phase of the stove / boiler 12, after the user 20 has operated the on / off switch 36 of the stove / boiler 12, the remote processing device 14 activates the brazier sensor 46 After reaching the maximum preset quantity of fuel in the brazier 29, loaded through the auger 24, the remote processing device 14 deactivates the brazier sensor 46 and activates the flame ignition laser 40.

The stove / boiler 12 comprises at least one flame sensor 48 disposed externally to the combustion chamber 28. The flame sensor 48 is configured to detect at least one mass of a flame, and to provide at least one flame mass value to a flame module. usage data collection 62 included in the remote processing device 14.

Then, again in the context of the flame ignition phase of the stove / boiler 12, the remote processing device 14 activates the flame sensor 48. If the value of the flame mass, supplied by the flame sensor 48, does not reach the value reference data of the flame mass included in the reference data storage means 68, the remote processing device 14 is configured to start the flame extinguishing phase of the stove / boiler 12, by deactivating the flame ignition laser 40, and to send to the telematic device 18, that is to the user 20, an error message for flame value not reached.

If, on the other hand, the value of the flame mass, supplied by the flame sensor 48, reaches the reference value of the flame mass included in the reference data storage means 68, the remote processing device 14 is configured to deactivate the ignition laser flame 40, subsequently activating the control of the auger motor 26, of the air intake and fume expulsion motor 34, of the hot air emission motor 38, of the air intake throttle motor motor 58, and so on, with the relative start of the combustion phase of the pellets.

In an embodiment of the system 10 for optimizing the combustion process of a stove / boiler, in particular with pellets, the remote processing device 14 is configured to make a first comparison between the value of the flame mass, provided by the flame sensor 48, and a flame mass reference value comprised in the reference data storage means 68 comprised in the remote processing device 14. The remote processing device 14 is further configured to regulate the combustion process of the stove / boiler 12 on the basis of an outcome of the first comparison.

In the event that the value of the flame mass detected by the flame sensor 48 does not reach the reference value of the flame mass included in the reference data storage means 68, the screw motor 26 is deactivated, while the air intake motor and fumes expulsion 34, the hot air emission motor 38 and the air intake throttle motor 58 are piloted in proportion to the value detected by the flame sensor 48. If, on the other hand, the value of the flame mass detected by the flame sensor 48 exceeds the reference value of the flame mass included in the reference data storage means 68, the screw motor 26, the air intake and fume expulsion motor 34, the hot air emission motor 38 and the air intake throttle motor 58 are all piloted in proportion to the value detected by the flame sensor 48.

Note that if the value detected by the flame sensor 48 is minimum or low, the flame is "high", while if the same value detected is maximum or high, the flame is "low".

In an embodiment of the system 10 for optimizing the combustion process of a stove / boiler, in particular with pellets, the stove / boiler 12 further comprises at least one brazier sensor 46 disposed externally to the combustion chamber 28. The brazier sensor 46 is configured to detect at least a quantity of fuel present in the brazier 29, and to supply at least a value of the quantity of fuel present in the brazier 29 to the usage data collection module 62 included in the remote processing device 14. The remote processing device 14 is further configured to carry out a second comparison between the value of the quantity of fuel present in the brazier 29, supplied by the brazier sensor 46, and a reference value of the quantity of fuel present in the brazier 29 included in the reference data storage means 68 The remote processing device 14 is further configured to regulate the quantity of fuel, in particular pellets, present in the brazier 29 on the basis of a result of the second comparison.

In an embodiment of the system 10 for optimizing the combustion process of a stove / boiler, in particular with pellets, the stove / boiler 12 further comprises at least one smoke sensor 50 included in the flue 44. The smoke sensor 50 is configured to detect at least one composition of fumes in the flue 44, and to provide at least one value of the composition of fumes to the usage data collection module 62 included in the remote processing device 14. The remote processing device 14 is further configured to make a third comparison between the flue gas composition value, provided by the flue gas sensor 50, and a flue gas composition reference value included in the reference data storage means 68. The remote processing device 14 is further configured to start the flame extinguishing phase of the stove / boiler 12 on the basis of a result of the third comparison.

If the smoke composition value detected by the smoke sensor 50 exceeds the reference value of the smoke composition included in the reference data storage means 68, the stove / boiler 12 starts the shutdown phase in order to avoid the expulsion of noxious fumes into the surrounding environment.

In an embodiment of the system 10 for the optimization of the combustion process of a stove / boiler, in particular with pellets, the stove / boiler 12 further comprises at least one internal temperature sensor 52 arranged in proximity to an emission outlet hot air 32. The internal temperature sensor 52 is configured to detect at least one temperature of air coming from the hot air outlet 32, and to supply at least one value of the air temperature coming from the hot air outlet 32 to the module data collection device 62 included in the remote processing device 14. The remote processing device 14 is further configured to make a fourth comparison between the value of the air temperature coming from the hot air emission outlet 32, supplied by the temperature sensor 52, and an air temperature reference value comprised in the reference data storage means 68. The remote processing device 14 is further configured to drive the screw motor 26, the air intake and fume expulsion motor 34 and the hot air emission motor 38 of the stove / boiler 12 on the basis of a result of the fourth comparison, in proportion to the value detected by the internal temperature sensor 52.

In the event that the value of the air temperature coming from the hot air emission outlet 32 is lower than the reference value of the air temperature included in the reference data storage means 68, the remote processing device 14, in particular the auger management module 70, drives the auger motor 26 proportionally to the value detected by the internal temperature sensor 52, in order to introduce pellets into the brazier 29 of the stove / boiler 12. If, on the other hand, the temperature value of air coming from the hot air emission outlet 32 exceeds the reference value of the air temperature included in the reference data storage means 68, the remote processing device 14 interrupts the driving of the screw motor 26 and activates the brazier sensor 46 to check the quantity of fuel present in the brazier 29 of the combustion chamber 28, activating the cleaning phase of the brazier 29 .

In an embodiment of the system 10 for optimizing the combustion process of a stove / boiler, in particular pellet-fired, the stove / boiler 12 further comprises at least one tank sensor 54 arranged in a tank 22. The tank sensor 54 is configured to detect at least a quantity of fuel present in the tank 22, and to supply at least one value of the quantity of fuel present in the tank 22 to the usage data collection module 62 included in the remote processing device 14. The remote processing device 14 is further configured to make a fifth comparison between the value of the quantity of fuel present in the tank 22, supplied by the tank sensor 54, and a reference value of the quantity of fuel present in the tank 22 included in the reference data storage means 68. The remote processing device 14 is further configured to report quantity à of fuel present in the tank 22 on the basis of a result of the fifth comparison.

In an embodiment of the system 10 for the optimization of the combustion process of a stove / boiler, in particular with pellets, the stove / boiler 12 further comprises at least one external temperature sensor 56 disposed externally to the stove / boiler 12. The external temperature sensor 56 is configured to detect at least one ambient temperature, and to provide at least one ambient temperature value to the usage data collection module 62 included in the remote processing device 14. The remote processing device 14 is further configured to perform a sixth comparison between the at least one ambient temperature value, provided by the external temperature sensor 56, and at least one ambient temperature reference value comprised in the reference data storage means 68. The remote processing device 14 is further configured to drive the auger motor 26 and the hot air emission motor 38 on the base and a result of the sixth comparison, proportionally to the value detected by the external temperature sensor 56.

If the ambient temperature value detected by the external temperature sensor 56 does not reach the ambient temperature reference value included in the reference data storage means 68, the external temperature sensor 56 generates an acoustic or luminous signal (anomaly ). If, on the other hand, the value of the ambient temperature detected by the external temperature sensor 56 exceeds the reference value of the ambient temperature included in the reference data storage means 68, the screw motor 26 and the hot air emission motor 38 they are piloted in proportion to the value detected by the external temperature sensor 56.

In practice it has been found that the invention fully achieves the intended aim and objects. In particular, it has been seen how the system for the optimization of the combustion process of a stove / boiler, in particular with pellets, thus conceived allows to overcome the qualitative limits of the prior art, as it allows to improve the efficiency of the combustion process while reducing energy consumption and the emission of noxious fumes produced by the stove / boiler.

Another advantage of the system for optimizing the combustion process of a stove / boiler, in particular with pellets, according to the present invention consists in the fact that it is able to operate with an electrical power supply between about 3.3V and 12V. .

A further advantage of the system for optimizing the combustion process of a stove / boiler, in particular with pellets, according to the present invention consists in the fact that it allows to reduce the consumption of pellets necessary for the combustion process, obtaining the maximum yield.

Another advantage of the system for optimizing the combustion process of a stove / boiler, in particular with pellets, according to the present invention consists in the fact that it allows to detect the mass of the flame to optimize the combustion process.

A further advantage of the system for optimizing the combustion process of a stove / boiler, in particular with pellets, according to the present invention consists in the fact that it allows to detect the quality of the fumes emitted by the stove / boiler, preventing the emission of toxic fumes.

Still, an advantage of the system for optimizing the combustion process of a stove / boiler, in particular with pellets according to the present invention, is that it allows you to adjust the air intake.

Finally, another advantage of the system for optimizing the combustion process of a stove / boiler, in particular with pellets, according to the present invention consists in the fact that it can be installed on stoves / boilers already existing on the market, in particular thanks to to its simplicity.

Although the system for optimizing the combustion process of a stove / boiler, in particular with pellets according to the invention, has been conceived in particular to distribute hot water and heat in the environment in which the stove / boiler is located, it can in any case be more generally, it can be used to distribute the heat / hot water to adjacent rooms through a ducting system coming from the stove / boiler.

The invention, thus conceived, is susceptible of numerous modifications and variations, all of which are within the scope of the inventive concept. Furthermore, all the details can be replaced by other technically equivalent elements.

In practice, the materials used, provided they are compatible with the specific use, as well as the contingent shapes and dimensions, may be any according to the needs and the state of the art.

In conclusion, the scope of the claims must not be limited by the illustrations or preferred embodiments illustrated in the description in the form of examples, but rather the claims must encompass all of the patentable novelty features that reside in the present invention, including all the characteristics that would be treated as equivalent by the person skilled in the art.

Claims (6)

R I V E N D I C A Z I O N I 1. System (10) for the optimization of the combustion process of a stove / boiler, in particular with pellets, comprising a stove / boiler (12) comprising a combustion chamber (28) and associated with a remote processing device ( 14), said remote processing device (14) being connected to a telematic device (18) operated by a user (20) via a telematic communication network (16), characterized in that said stove / boiler (12) comprises at least a flame sensor (48) disposed externally to said combustion chamber (28), said flame sensor (48) being configured to detect at least one mass of a flame, and to provide at least one value of said mass of said flame to a usage data collection module (62) included in said remote processing device (14), said remote processing device (14) being configured to make a first comparison between said at least one value of said mass of said flame and at least one reference value of said mass of said flame comprised in reference data storage means (68) comprised in said remote processing device (14), and for regulating said combustion process of said stove / boiler (12) on the basis of a result of said first comparison, by piloting an auger motor (26), an air intake and fume expulsion motor (34), a hot air emission motor (38) and an air intake throttle motor (58) included in said stove / boiler (12). 2. System (10) for the optimization of the combustion process of a stove / boiler, in particular with pellets, according to claim 1, characterized in that said stove / boiler (12) further comprises at least one brazier sensor (46) disposed externally to said combustion chamber (28), said brazier sensor (46) being configured to detect at least a quantity of fuel present in a brazier (29) included in said combustion chamber (28), and to provide at least a value of said quantity of fuel present in said brazier (29) to said usage data collection module (62) included in said remote processing device (14), said remote processing device (14) being further configured to carry out a second comparison between said at least one value of said quantity of fuel present in said brazier (29) and at least one reference value of said quantity of fuel present in said brazier (29) compr in said reference data storage means (68), and for regulating said quantity of fuel present in said brazier (29) on the basis of an outcome of said second comparison. System (10) for the optimization of the combustion process of a stove / boiler, in particular with pellets, according to claim 1 or 2, characterized in that said stove / boiler (12) further comprises at least one smoke sensor (50) comprised in a flue (44), said smoke sensor (50) being configured to detect at least one composition of fumes in said flue (44), and to supply at least one value of said composition of fumes to said usage data collection (62) included in said remote processing device (14), said remote processing device (14) being further configured to make a third comparison between said at least one value of said smoke composition and at least one reference value of said composition of fumes included in said reference data storage means (68), and to initiate a phase of extinguishing said flame of said stove / boiler (12) on the basis of an outcome of said third or comparison. System (10) for optimizing the combustion process of a stove / boiler, in particular pellet-fired, according to any one of the preceding claims, characterized in that said stove / boiler (12) further comprises at least one temperature sensor internal temperature sensor (52) arranged in proximity to a hot air emission outlet (32), said internal temperature sensor (52) being configured to detect a temperature of air coming from said hot air emission outlet (32), and to provide at least one value of said air temperature coming from said hot air emission outlet (32) to said usage data collection module (62) included in said remote processing device (14), said remote processing device (14) being further configured to make a fourth comparison between said at least one value of said air temperature coming from said hot air emission outlet (32) and at least one reference value of said air temperature included in said reference data storage means (68), and to drive said screw motor (26), said air intake and fume expulsion motor (34) and said hot air emission motor (38) included in said stove / boiler (12) on the basis of a result of said fourth comparison. 5. System (10) for optimizing the combustion process of a stove / boiler, in particular with pellets, according to any one of the preceding claims, characterized in that said stove / boiler (12) further comprises at least one tank sensor (54) disposed in a fuel tank (22), said tank sensor (54) being configured to detect at least one quantity of fuel present in said tank (22), and to provide at least one value of said quantity of fuel present in said tank (22) to said usage data collection module (62) included in said remote processing device (14), said remote processing device (14) being further configured to make a fifth comparison between said at least one value of said quantity of fuel present in said tank (22) and at least one reference value of said quantity of fuel present in said tank (22) included in said me reference data storage means (68), and for reporting said quantity of fuel present in said tank (22) on the basis of a result of said fifth comparison. 6. System (10) for the optimization of the combustion process of a stove / boiler, in particular with pellets, according to any one of the preceding claims, characterized in that said stove / boiler (12) further comprises at least one temperature sensor external (56) disposed externally to said stove / boiler (12), said external temperature sensor (56) being configured to detect at least one ambient temperature, and to supply at least one value of said ambient temperature to said usage data collection module (62) comprised in said remote processing device (14), said remote processing device (14) being further configured to make a sixth comparison between said at least one ambient temperature value and at least one reference value of said ambient temperature comprised in said reference data storage means (68), and for driving said screw motor (26) and said hot air emission motor (3 8) on the basis of a result of said sixth comparison.