CN107238108A - A kind of intelligence control system for firebrand particle stove - Google Patents

Abstract

The present invention provides a kind of intelligence control system for firebrand particle stove, is made up of charging control module (100), ignition control module (200), automatic ash removing module (300), temperature control modules (400), central control module (500), alarm module (600), feedstock analysis module (700) and database module (800).A kind of intelligence control system for firebrand particle stove that the present invention is provided can realize auto feed and automatic ignition according to the firebrand particulate material situation in combustion chamber, the combustion case that raw material in wind speed and burner box can be adjusted according to room ambient conditions is realized automatic temperature-controlled, automatic ash removing can be realized during material combusting, fired state can be adjusted according to the combustion case of fuel, can occur realizing automatic alarm under abnormal conditions in firebrand particle stove, and it can be automatically updated by the data accumulation in running, realize the intelligent growth of whole system, the intelligentized control method to firebrand particle stove is realized simultaneously.

Description

A kind of intelligence control system for firebrand particle stove

Technical field

The present invention relates to biomass stove field, and in particular to a kind of intelligence control system for firebrand particle stove.

Background technology

Biomass stove refers to heating of house equipment that is independent or being built into regard to wall, and using combustible as the energy, cigarette is led on inside Chimney.Following four type can be divided into according to the difference of comburant：1) coal-burning；2) firebrand type；3) firebrand granular pattern：4) alcohol is fired Type.

Firebrand particle stove is mainly produced heat energy and reached and taken using the burning of the particles such as wood, stalk, cornstalk, rubbish Warm effect, it is adaptable to the area home without gas supply.

Firebrand particle stove has problems in use, and outstanding behaviours is：

1) because the granular fuel of burning is because source is different, accumulating condition is not equal, the calorific value of different fuel is different, Fireplace rate of air circulation and oxygen content influence efficiency of combustion it is also different, therefore cause fireplace can not it is full automatic adaptation fuel and Environment is controlled, the fluctuation of fireplace ignition temperature is big, and fuel burn-off rate is low, causes waste of fuel.

2) when granular fuel burns, due to the covering of fuel surface ashes, influence fuel with it is abundant with oxygen in air Contact, fuel can not good combustion, cause waste of fuel.

3) original paper such as fire rod, sensor, if there is failure, then occur can not use completely or it is out of control cause constantly Heating even causes fire risk.

4) existing firebrand particle stove send hot blast motor and feeding motor, but without induced-draught electric motor, causes oxygen-containing air It can not in time supplement into stove, cause fuel combustion insufficient, burning is slow even to produce the pernicious gases such as carbon monoxide.

5) due to generally using direct current generator, self structure complexity manufacturing cost is high；Troublesome maintenance, maintenance cost is high；Electricity Percentage speed variation is high during machine speed governing, causes the hot-air flow sent out unstable, non-uniform temperature.Speed adjustable range is limited, exists out of control Area.Torque is not enough during startup, and startup is unsmooth, and motor is easily damaged.

6) the burning current control system of feeding carries out feeding only according to indoor temperature and the difference of design temperature, and fuel lacks Few oxygen is not sufficiently combusted or original in-furnace temperature is very high when simply hot-air is not sent out in stove in time, only results in waste of fuel Too big, user and its uncomfortable is overshooted with later stage air-out high temperature.

7) voltage of each electric discharge of fire rod ignition is up to 1.5 ten thousand volts, has very high to the coil for producing high pressure Requirement, coil is under such high pressure, it is easy to cause internal high pressure to puncture, and the life-span of general ignition normally uses Close to ten million magnitude, service life is than relatively low under continuous frequent operation, state.

8) current control system clout judges to use photovoltaic principals more, and easily failure is missed in the smoke and dust environment that stove burns Judge, when fuel does not block photoelectric original close to fuel hopper one side non-uniform Distribution, will also result in clout misjudgment.

9) without accumulation material statistical function, user can not carry out estimation assessment to the long-term use situation of fuel.

If 10) fire door does not close or is not intended to open by minor, there is potential fire or scald risk.

The content of the invention

It is an object of the invention to solve the problem of above-mentioned particle stove of firebrand in the prior art exists in use, carry For a kind of intelligence control system for firebrand particle stove, it can be realized according to the firebrand particulate material situation in combustion chamber automatic Charging and automatic ignition, the combustion case that raw material in wind speed and burner box can be adjusted according to room ambient conditions realize it is automatic temperature-controlled, Automatic ash removing can be realized during material combusting, fired state can be adjusted according to the combustion case of fuel, can be in combustion Wooden particle stove occurs realizing automatic alarm under abnormal conditions, and can be carried out automatically more by the data accumulation in running Newly, the intelligent growth of whole system is realized, while realizing the intelligentized control method to firebrand particle stove.

The present invention provides a kind of intelligence control system for coal-burning particle stove, including：

Charging control module：For detecting in combustion chamber the surplus of firebrand particulate material and generating raw material clout information, Operation for controlling feeding device according to raw material clout information, for the running state data of feeding device to be sent into center Control module, the raw material control instruction for receiving central control module transmission；

Ignition control module：For detecting flame temperature and ambient temperature and generating firing temperature signal, for according to point Fiery temperature signal controls the operation of igniter, for the running state data of igniter to be sent into central control module, Raw material control instruction for receiving central control module transmission；

Automatic ash removing module：Burning time and generation timing signal for detecting firebrand particulate material in combustion chamber, are used In the operation that automatic ash removing device is controlled according to time signal, used in the running state data of automatic ash removing device to be sent to Control module is entreated, the raw material control instruction for receiving central control module transmission；

Temperature control modules：For detecting the temperature and wind speed of ambient temperature and air outlet and generating heating-up temperature letter Number, the operation for controlling temperature control device according to heating-up temperature signal, for the running state data of temperature control device to be sent to Central control module, the raw material control instruction for receiving central control module transmission；

Central control module：For the running state data for the feeding device for receiving the transmission of charging control module, for connecing The running state data of the igniter of ignition control module transmission is received, the automatic ash removing for receiving the transmission of automatic ash removing module The running state data of device, the running state data of the temperature control device for receiving temperature control modules transmission, for receiving The warning message of alarm module generation, for analyze the running state data of feeding device, the running state data of igniter, The running state data of automatic ash removing device and the running state data of temperature control device and generate feedstock analysis instruction and alarm refer to Order, for feedstock analysis instruction and running state data to be sent into feedstock analysis module, is passed for receiving feedstock analysis module The feedstock analysis information sent, for feedstock analysis information to be generated into raw material control instruction with data comparison in database module and incited somebody to action Charging control module, ignition control module, automatic ash removing module and temperature control modules are sent to, for alarm command to be transmitted To alarm module, for by the running state data of feeding device, the running state data of igniter, automatic ash removing device Running state data, the running state data of temperature control device, the abnormal information of alarm module generation and the transmission of feedstock analysis module Feedstock analysis information transmission to database module；

Alarm module：For detecting the unusual condition of firebrand particle stove and generating abnormal information, for receiving central control The alarm command of module transmission, for according to alarm command to user feedback alarm signal；

Feedstock analysis module：Feedstock analysis instruction and running state data for receiving central control module transmission, are used In analysis running state data generation feedstock analysis data, for feedstock analysis data to be sent into central control module；

Database module：For storing feeding device under normal condition, igniter, automatic ash removing device and temperature control device Running state data, for storing raw material essential information, for the operation of the feeding device sent according to central control module Status data, the running state data of igniter, the running state data of automatic ash removing device, the running status of temperature control device The feedstock analysis information of data, the abnormal information of alarm module generation and feedstock analysis module transmission is automatically updated.

A kind of intelligence control system for firebrand particle stove of the present invention, it is preferred that, charging control mould Block includes：

Feed detection module：For detecting in combustion chamber the surplus of firebrand particulate material and generating raw material clout information, And by raw material clout information transmission to the processing module that feeds；

Feed processing module：Clout information for receiving charging detection module transmission, and added according to the generation of clout information Control instruction is expected, for charging control instruction to be sent into feeding device, for the running state data of feeding device to be transmitted To central control module.

A kind of intelligence control system for firebrand particle stove of the present invention, it is preferred that, charging detection mould The one kind or combination of block for following sensors：Strain transducer, weighing sensor, travel switch, touch-switch, supersonic sensing Device.

A kind of intelligence control system for firebrand particle stove of the present invention, it is preferred that, feeding device bag Loading hopper of the bottom provided with switch is included, the conveyer belt immediately below loading hopper is arranged on, conveyer belt includes first be sequentially connected Transit area, the second transit area and the 3rd transit area, the first transit area are horizontally disposed, and its porch is located at material bin The underface of discharging opening, the second transit area and the first transit area are set in 135~160 ° of angles, the 3rd transit area and second Transit area is set in 90~hexagonal angle, the second transit area and the 3rd transit area composition inverted " V " font.

Charging control module can judge remaining material quantity in burner box by sensor, when the surplus of raw material is less than During the bottom threshold of setting, charging control module control feeding device is fed；When the surplus of raw material is more than the threshold of setting When being worth the upper limit, charging control module control feeding device stops charging；When the process of charging occurs abnormal, central control module life User is fed back to by alarm module into alarm command.

A kind of intelligence control system for firebrand particle stove of the present invention, it is preferred that, IGNITION CONTROL mould Block includes：

Firing temperature detection module：Passed for detecting flame temperature and ambient temperature, and by the firing temperature signal of detection Deliver to ignition process module；Including two sensors：1) flame temperature sensor：Integrated digital formula TEMP can be used Device, integrated simulation temperature sensor, thermal resistance temperature sensor, thermocouple etc., it may be mounted at flame top, exhaust outlet or go out Air port；2) indoor temperature transmitter：Integrated digital formula temperature sensor, integrated simulation temperature sensor, thermal resistance can be used Temperature sensor, thermocouple etc..

Ignition process module：Firing temperature signal for receiving igniting temperature detecting module transmission, for temperature to be believed Number it is compared and generates igniter control instruction, for igniter control instruction to be sent into igniter, for will The running state data of igniter is sent to central control module.

A kind of intelligence control system for firebrand particle stove of the present invention, it is preferred that, igniter bag Combustion chamber is included, the burner box in combustion chamber is arranged on, through combustion chamber and two fire rodes extending to inside burner box, set In the induced-draught electric motor and the air supply motor for being arranged on combustion chamber opposite side of combustor side.

Flame temperature and ambient temperature that ignition control module is measured according to temperature sensor, and igniting is generated according to the temperature difference Device control instruction, when the temperature difference of flame temperature and ambient temperature is higher than given threshold, is only heated with a fire rod, Another fire rod is as standby；When the temperature difference of flame temperature and ambient temperature is less than given threshold, two fire rodes add simultaneously Heat；In fire rod heating process, air supply motor supplemental oxygen into combustion chamber is opened, while induced-draught electric motor is opened and wind speed is big In the wind speed of air supply motor, make to form negative pressure in combustion chamber, the hot-air around fire rod diffused on firebrand particle in time, The temperature of fire rod in itself is reduced, the service life of fire rod is improved；When ignition process occurs abnormal, such as flame temperature and outer The temperature difference of boundary's temperature changes not less than threshold value set in advance within a certain period of time, now loss of ignition, central control module life User is fed back into alarm command and by alarm module.

A kind of intelligence control system for firebrand particle stove of the present invention, it is preferred that, automatic ash removing mould Block includes：

Timing module：Burning time and generation timing signal for recording firebrand granular fuel in burner box, for inciting somebody to action Time signal is sent to deashing processing module；

Deashing processing module：For receiving the time signal that the timing module is sent, for according to time signal Automatic ash removing device control instruction is generated, for automatic ash removing device control instruction to be sent to automatic ash removing device, for inciting somebody to action The running state data of automatic ash removing device is sent to central control module.

A kind of intelligence control system for firebrand particle stove of the present invention, it is preferred that, automatic ash removing dress The ash accepting box including setting bottom of combustion chamber is put, ash accepting box is located at the underface of burner box, and one end is connected with burner box side Air intake passage, is arranged on the air supply motor of the air intake passage other end, one end and the air-out passage connected at the top of burner box, is arranged on The induced-draught electric motor of the air-out passage other end, is arranged on the filter in air-out passage.

Deashing module can control automatic ash removing device timing to carry out deashing process to combustion chamber, dust is not entered air-out System, reaches the effect of ashless air-out.

A kind of intelligence control system for firebrand particle stove of the present invention, it is preferred that, temperature control mould Block includes：

Heating-up temperature detection module：For detecting the temperature and wind speed of ambient temperature and air outlet and generating heating-up temperature Signal, for heating-up temperature signal to be sent into heating and temperature control module；Including being arranged on air outlet and two extraneous temperature Spend sensor.

Heating and temperature control module：Heating-up temperature signal for receiving the transmission of heating-up temperature detection module, for basis Heating-up temperature signal generation computer heating control is instructed, for computer heating control instruction to be sent into temperature control device, for by temperature control device Running state data be sent to central control module.

A kind of intelligence control system for firebrand particle stove of the present invention, it is preferred that, temperature control device bag Include the air supply motor for being arranged on the induced-draught electric motor of combustor side He being arranged on combustion chamber opposite side.

Temperature control modules can be according to ambient temperature, air outlet temperature and design temperature to air supply motor and induced-draught electric motor Wind speed be adjusted, in heating process, as the temperature difference T1 or design temperature between design temperature and ambient temperature are with going out It is gradually reduced between draught temperature T2, gradually reduces the wind speed of air supply motor and induced-draught electric motor, is reduced the burning velocity of fuel, carry The service efficiency of high fuel, when T1 or T2 is less than given threshold, temperature control modules are according to computer heating control instruction control temperature control Device stops heating；When T1 or T2 is more than given threshold, temperature control modules send computer heating control according to central control module Instruction control temperature control device is begun to warm up.

A kind of intelligence control system for firebrand particle stove of the present invention, it is preferred that, center control mould Block includes：

Data reception module：For the running state data for the feeding device for receiving the transmission of charging control module, for connecing The running state data of the igniter of ignition control module transmission is received, the automatic ash removing for receiving the transmission of automatic ash removing module The running state data of device, the running state data of the temperature control device for receiving temperature control modules transmission, for receiving The warning message of alarm module generation, the feedstock analysis information for receiving the transmission of feedstock analysis module, for receiving database The data message of module transmission；

Data comparison module：For running state data, the igniter of the feeding device for receiving data reception module Running state data, the running state data of the running state data of automatic ash removing device and temperature control device and database transmit The corresponding data information come is contrasted, and generates alarm command when comparing result exceedes given threshold, and alarm command is passed Deliver to data outputting module；

Data processing module：The running state data of the feeding device received for analyze data receiving module, igniting dress The running state data of running state data, the running state data of automatic ash removing device and the temperature control device put simultaneously generates raw material Analysis instruction, for feedstock analysis instruction to be sent into data outputting module；

Data outputting module：Alarm command for receiving the transmission of data comparison module, for alarm command to be sent to Alarm module；Feedstock analysis instruction for receiving data processing module transmission, for feedstock analysis instruction to be sent into raw material Analysis module, for by the running state data of feeding device, the running state data of igniter, the fortune of automatic ash removing device What row status data, the running state data of temperature control device, the abnormal information of alarm module generation and feedstock analysis module were transmitted Feedstock analysis information transmission is to database module.

A kind of intelligence control system for firebrand particle stove of the present invention, it is preferred that, database module Including：

Raw material data memory module：Feedstock analysis information for storing raw material information and central control module transmission；

Service data memory module；Running state data, point for storing the feeding device that central control module is transmitted The running state data of fiery device, the running state data of automatic ash removing device, the running state data of temperature control device and alarm The abnormal information of module generation；

Reasoner module：For the feedstock analysis information that is transmitted by central control module to the raw material data storage mould The raw material information stored in block is updated and preserved to raw material data memory module；For what is transmitted by central control module The running state data of feeding device, the running state data of igniter, the running state data of automatic ash removing device, temperature control The abnormal information of running state data and the alarm module generation of device is to the phase that is originally stored in service data memory module Data are answered to be updated and preserve to service data memory module.

A kind of intelligence control system for firebrand particle stove that the present invention is provided in use, is fired when user starts After wooden particle stove switch, the charging detection module in charging control module starts to detect the residue of firebrand particulate material in burner box Amount, if surplus is less than the lower limit of given threshold, charging control module control feeding device is fed, lighted a fire after the completion of charging Control module brings into operation；If surplus is more than the lower limit of given threshold, ignition control module is directly run；IGNITION CONTROL mould Flame temperature and ambient temperature that root tuber is measured according to temperature sensor, and igniter control instruction is generated according to the temperature difference, work as fire When the temperature difference of flame temperature and ambient temperature is higher than given threshold, only heated with a fire rod, another fire rod conduct It is standby；When the temperature difference of flame temperature and ambient temperature is less than given threshold, two fire rodes are heated simultaneously；In fire rod heating During, air supply motor supplemental oxygen into combustion chamber is opened, while induced-draught electric motor is opened and wind speed is more than the wind of air supply motor Speed, makes to form negative pressure in combustion chamber, the hot-air around fire rod is diffused on firebrand particle in time, and reduction fire rod is in itself Temperature, improve fire rod service life, after the completion of igniting fire rod close, while the timing module of automatic ash removing module is opened Begin burning time of record firebrand particulate material, when burnt between when reaching the very first time interval of setting, timing module generation Very first time signal is simultaneously sent to central control module, and central control module is instructed according to the air control of very first time signal generation first And air supply motor and induced-draught electric motor are respectively sent to, now the first air control instruction control induced-draught electric motor reduction wind speed or stopping, it Control air supply motor quickly improves wind speed afterwards, and the dust accumulated in burner box is blown out into burner box, drops down onto under the dust of blowout and connects In ash box；When the second time interval of setting is reached between when burnt, during timing module generates the second time signal and is sent to Entreat control module, central control module according to the second time signal generate the second air control instruct and be respectively sent to air supply motor with Induced-draught electric motor, wind speed during now the second air control instruction control air supply motor reduction wind speed to normal combustion, controls air draught afterwards Motor improves wind speed during wind speed to normal combustion, and one time soot blowing process terminates, during firebrand particle stove continuous firing, fixed Soot blowing process above-mentioned Shi Chongfu；Simultaneously after the completion of igniting, temperature control modules bring into operation, according to ambient temperature, air-out The wind speed of air supply motor and induced-draught electric motor is adjusted for mouth temperature and design temperature, in heating process, with design temperature Be gradually reduced between temperature difference T1 or design temperature and air outlet temperature T2 between ambient temperature, gradually reduce air supply motor and The wind speed of induced-draught electric motor, reduces the burning velocity of fuel, improves the service efficiency of fuel, when T1 or T2 is less than given threshold, Temperature control modules stop heating according to computer heating control instruction control temperature control device；When T1 or T2 is more than given threshold, temperature Control module sends computer heating control instruction control temperature control device according to central control module and begun to warm up；In above-mentioned charging control mould In block, ignition control module, automatic ash removing module and temperature control modules running, if there is abnormal, central control module Generation alarm command simultaneously feeds back to user by alarm module.

In normal combustion process, charging control module, ignition control module, automatic ash removing module and temperature control mould The running state data of block can be sent to feedstock analysis module by central control module, if feedstock analysis module judges this raw material For existing raw material, then the combustion case of former raw material is fed back to charging control module, point respectively by central control module Fiery control module, automatic ash removing module and temperature control modules；If feedstock analysis module judges that this raw material, for new raw material, can be remembered The running state data of correlation is recorded and preserved, is supported as the data for this raw material that burns next time.

Meanwhile, charging control module that database module can be transmitted according to central control module, ignition control module, from Raw material data message and the alarm of dynamic deashing module, the running state data of temperature control modules and the transmission of feedstock analysis module The warning message of module transmission is automatically updated, and realizes its intellectuality growth.

The present invention in charging process, ignition process and the combustion process of firebrand particle stove due to being separately added into charging Control module, ignition control module and automatic ash removing module and temperature control modules, realize the automation control of firebrand particle stove System, easy to operate, strong applicability.

Further increase feedstock analysis module of the invention, can be according to different raw materials to charging control module, point fire control The running status of molding block, automatic ash removing module and temperature control modules is adjusted, and improves firebrand particle stove to raw material Adaptability.

Further increase warning module of the invention, the problem of can having firebrand particle stove in the process of running is anti-in time It is fed to user.

The present invention further realize database module according to charging control module, ignition control module, automatic ash removing module, What the raw material data message and alarm module of running state data and feedstock analysis the module transmission of temperature control modules were transmitted Warning message is automatically updated, and realizes its intellectuality growth.

Brief description of the drawings

Fig. 1 is a kind of composition figure of intelligence control system for firebrand particle stove；

Fig. 2 is a kind of composition figure of intelligence control system charging control module for firebrand particle stove；

Fig. 3 is a kind of composition figure of intelligence control system feeding device for firebrand particle stove；

Fig. 4 is a kind of composition figure of intelligence control system ignition control module for firebrand particle stove；

Fig. 5 is a kind of composition figure of intelligence control system igniter for firebrand particle stove；

Fig. 6 is a kind of composition figure of intelligence control system automatic ash removing module for firebrand particle stove；

Fig. 7 is a kind of composition figure of intelligence control system automatic ash removing device for firebrand particle stove；

Fig. 8 is a kind of composition figure of intelligence control system temperature control modules for firebrand particle stove；

Fig. 9 is a kind of composition figure of intelligence control system central control module for firebrand particle stove；

Figure 10 is a kind of composition figure of intelligence control system database module for firebrand particle stove；

Figure 11 is a kind of intelligence control system auto feed flow chart for firebrand particle stove；

Figure 12 is a kind of intelligence control system automatic ignition flow chart for firebrand particle stove；

Figure 13 is a kind of intelligence control system automatic ash removing flow chart for firebrand particle stove；

Figure 14 is a kind of automatic temperature-controlled flow chart of intelligence control system for firebrand particle stove.

Reference：

1st, feeding device；11st, loading hopper；12nd, switch；13rd, conveyer belt；131st, the first transit area；132nd, the second transmission Region；133rd, the 3rd transit area；2nd, igniter；21st, combustion chamber；22nd, burner box；23rd, fire rod；24th, induced-draught electric motor； 25th, air supply motor；3rd, automatic ash removing device；31st, ash accepting box；32nd, air intake passage；33rd, air-out passage；34th, filter；4th, it is warm Control device；100th, charging control module；110th, feed detection module；120th, feed processing module；200th, ignition control module； 210th, firing temperature detection module；220th, ignition process module；300th, automatic ash removing module；310th, timing module；320th, deashing Processing module；400th, temperature control modules；410th, heating-up temperature detection module；420th, heating and temperature control module；500th, it is central Control module；510th, data reception module；520th, data comparison module；530th, data processing module；540th, data outputting module； 600th, alarm module；700th, feedstock analysis module；800th, database module；810th, raw material data memory module；820th, number is run According to processing module；830th, reasoner module.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.

Embodiment 1

As shown in figure 1, the present invention provides a kind of intelligence control system for firebrand particle stove, including：

Charging control module 100：For detecting in combustion chamber 21 surplus of firebrand particulate material and generating raw material clout Information, the operation for controlling feeding device 1 according to raw material clout information, for the running state data of feeding device 1 to be passed Central control module 500 is delivered to, the raw material control instruction for receiving the transmission of central control module 500；As shown in Fig. 2 entering one Step includes：

Feed detection module 110：For detecting in combustion chamber 21 surplus of firebrand particulate material and generating raw material clout Information, and by raw material clout information transmission to feed processing module 120；Charging detection module 110 uses weighing sensor；

Feed processing module 120：For receiving the clout information that charging detection module 110 is transmitted, and according to clout information Charging control instruction is generated, for charging control instruction to be sent into feeding device 1, for by the running status of feeding device 1 Data are sent to central control module 500；

As shown in figure 3, feeding device 1 includes loading hopper 11 of the bottom provided with switch 12, under being arranged on loading hopper 12 just The conveyer belt 13 of side, conveyer belt 13 includes the first transit area 131, the second transit area 132 and the 3rd transmission being sequentially connected Region 133, the first transit area 131 is horizontally disposed, and its porch is located at the underface of the discharging opening of material bin 11, the second transmission The transit area 131 of region 132 and first is set in 135~160 ° of angles, and the 3rd transit area 133 is in the second transit area 132 90~hexagonal angle is set, the second transit area 132 and the 3rd transit area 133 composition inverted " V " font.

Ignition control module 200：For detecting flame temperature and ambient temperature and generating firing temperature signal, for basis Firing temperature signal controls the operation of igniter 2, for the running state data of igniter 2 to be sent into center control mould Block 500, the raw material control instruction for receiving the transmission of central control module 500；As shown in figure 4, further comprising：

Firing temperature detection module 210：For detecting flame temperature and ambient temperature, and by the firing temperature signal of detection It is sent to ignition process module 220；Including two sensors：Flame temperature sensor and indoor temperature at exhaust outlet Sensor；

Ignition process module 220：For receiving the firing temperature signal that igniting temperature detecting module 210 is transmitted, for inciting somebody to action Temperature signal is compared and generates igniter control instruction, for igniter control instruction to be sent into igniter 2, For the running state data of igniter 2 to be sent into central control module 500；

As shown in figure 5, igniter 2 includes combustion chamber 21, the burner box 22 in combustion chamber 21 is arranged on, through combustion chamber 21 and two fire rodes 23 extending to inside burner box 22, it is arranged on the induced-draught electric motor 24 of the side of combustion chamber 21 and is arranged on combustion Burn the air supply motor 25 of the opposite side of room 21.

Automatic ash removing module 300：For detecting the burning time of firebrand particulate material and the time of generation letter in combustion chamber 21 Number, the operation for controlling automatic ash removing device 3 according to time signal, for by the running state data of automatic ash removing device 3 Central control module 500 is sent to, the raw material control instruction for receiving the transmission of central control module 500；As shown in fig. 6, entering One step includes：

Timing module 310：Burning time and generation timing signal for recording firebrand granular fuel in burner box 21, are used In time signal is sent into deashing processing module 320；

Deashing processing module 320：For receiving the time signal that the timing module 310 is sent, for according to when Between signal generation automatic ash removing device control instruction, for automatic ash removing device control instruction to be sent to automatic ash removing device 3, For the running state data of automatic ash removing device 3 to be sent into central control module 500；

As shown in fig. 7, automatic ash removing device 3 includes the ash accepting box 31 for setting the bottom of combustion chamber 21, ash accepting box 31 is located at combustion The underface of box 22 is burnt, the air intake passage 32 that one end is connected with the side of burner box 22 is arranged on sending for the other end of air intake passage 32 Wind turbine 25, the air-out passage 33 that one end is connected with the top of burner box 22, is arranged on the induced-draught electric motor of the other end of air-out passage 33 24, it is arranged on the filter 34 in air-out passage 33.

Temperature control modules 400：For detecting the temperature and wind speed of ambient temperature and air outlet and generating heating-up temperature Signal, the operation for controlling temperature control device 4 according to heating-up temperature signal, for the running state data of temperature control device 4 to be passed Central control module 500 is delivered to, the raw material control instruction for receiving the transmission of central control module 500；As shown in figure 8, entering one Step includes：

Heating-up temperature detection module 410：For detecting the temperature and wind speed of ambient temperature and air outlet and generating heating Temperature signal, for heating-up temperature signal to be sent into heating and temperature control module 420；Including being arranged on air outlet and the external world Two temperature sensors.

Heating and temperature control module 420：Heating-up temperature signal for receiving the transmission of heating-up temperature detection module 410, is used Instructed according to heating-up temperature signal generation computer heating control, for computer heating control instruction to be sent into temperature control device 4, for by temperature The running state data of control device 4 is sent to central control module 500；

Temperature control device 4 includes being arranged on the induced-draught electric motor 24 of the side of combustion chamber 21 and is arranged on sending for 21 Room opposite sides of burning Wind turbine 25.

Central control module 500：For the running state data for the feeding device 1 for receiving the transmission of charging control module 100, For the running state data for the igniter 2 for receiving the transmission of ignition control module 200, for receiving automatic ash removing module 300 The running state data of the automatic ash removing device 3 of transmission, the fortune of the temperature control device 4 for receiving the transmission of temperature control modules 400 Row status data, for receiving alarm module 600 generate warning message, for analyze feeding device 1 running state data, The running state data of the running state data of igniter 2, the running state data of automatic ash removing device 3 and temperature control device 4 And feedstock analysis instruction and alarm command are generated, for feedstock analysis instruction and running state data to be sent into feedstock analysis mould Block 700, for receive feedstock analysis module 700 transmission feedstock analysis information, for by feedstock analysis information with database mould In block 800 data comparison generation raw material control instruction and charging control module 100 will be sent to, it is ignition control module 200, automatic Deashing module 300 and temperature control modules 400, for alarm command to be sent into alarm module 600, for by feeding device 1 Running state data, the running state data of igniter 2, the running state data of automatic ash removing device 3, temperature control device 4 Running state data, alarm module 600 generate abnormal information and feedstock analysis module 700 transmit feedstock analysis information pass Deliver to database module 800；As shown in figure 9, further comprising：

Data reception module 510：For the running state data for the feeding device 1 for receiving the transmission of charging control module 100, For the running state data for the igniter 2 for receiving the transmission of ignition control module 200, for receiving automatic ash removing module 300 The running state data of the automatic ash removing device 3 of transmission, the fortune of the temperature control device 4 for receiving the transmission of temperature control modules 400 Row status data, the warning message generated for receiving alarm module 600, the original for receiving the transmission of feedstock analysis module 700 Material analysis information, the data message for receiving the transmission of database module 800；

Data comparison module 520：Running state data, point for the feeding device 1 that receives data reception module 510 The running state data of the running state data of fiery device 2, the running state data of automatic ash removing device 3 and temperature control device 4 with The corresponding data information that the transmission of database module 800 comes is contrasted, and when comparing result exceedes given threshold, generation alarm refers to Order, and alarm command is sent to data outputting module 540；

Data processing module 530：The running state data of the feeding device 1 received for analyze data receiving module 510, The running state data of the running state data of igniter 2, the running state data of automatic ash removing device 3 and temperature control device 4 And feedstock analysis instruction is generated, for feedstock analysis instruction to be sent into data outputting module 540；

Data outputting module 540：Alarm command for receiving the transmission of data comparison module 520, for by alarm command It is sent to alarm module 600；Feedstock analysis instruction for receiving the transmission of data processing module 530, for feedstock analysis to be referred to Order is sent to feedstock analysis module 700, for by the running status number of the running state data of feeding device 1, igniter 2 According to, the running state data of automatic ash removing device 3, the running state data of temperature control device 4, alarm module 600 generation exception The feedstock analysis information transmission that information and feedstock analysis module 700 are transmitted is to database module 800.

Alarm module 600：For detecting the unusual condition of firebrand particle stove and generating abnormal information, for receiving central control The alarm command that molding block 500 is transmitted, for according to alarm command to user feedback alarm signal；

Feedstock analysis module 700：Feedstock analysis instruction and running status number for receiving the transmission of central control module 500 According to for analyzing running state data generation feedstock analysis data, for feedstock analysis data to be sent into central control module 500；

Database module 800：For storing feeding device 1 under normal condition, igniter 2, automatic ash removing device 3 and temperature The running state data of device 4 is controlled, for storing raw material essential information, for the charging sent according to central control module 500 The running state data of device 1, the running state data of igniter 2, the running state data of automatic ash removing device 3, temperature control Abnormal information and the feedstock analysis of feedstock analysis module transmission that the running state data of device 4, alarm module 600 are generated Information is automatically updated；As shown in Figure 10, further comprise：

Raw material data memory module 810：For storing the feedstock analysis letter that raw material information and central control module 500 are transmitted Breath；

Service data memory module 820；For the running status for the feeding device 1 for storing the transmission of central control module 500 Data, the running state data of igniter 2, the running state data of automatic ash removing device 3, the running status of temperature control device 4 The abnormal information that data and alarm module 600 are generated；

Reasoner module 830：For the feedstock analysis information that is transmitted by central control module 500 to the raw material data The raw material information stored in memory module 810 is updated and preserved to raw material data memory module 810；For passing through center control The running state data for the feeding device 1 that molding block 500 is transmitted, the running state data of igniter 2, automatic ash removing device 3 Running state data, the running state data of temperature control device 4 and alarm module generation abnormal information to being originally stored in fortune Corresponding data in row data memory module 820 is updated and preserved to service data memory module 820.

The present embodiment in use, after user starts firebrand particle stove switch, as shown in figure 11, charging control mould Charging detection module 110 in block 100 starts to detect the surplus of firebrand particulate material in burner box 22, is set if surplus is less than Determine the lower limit of threshold value, the control feeding device 1 of charging control module 100 is fed, and ignition control module 200 is opened after the completion of charging Begin to run；If surplus is more than the lower limit of given threshold, ignition control module 200 is directly run；As shown in figure 12, fire control is put Flame temperature and ambient temperature that molding block 200 is measured according to temperature sensor, and referred to according to the temperature difference generation control of igniter 2 Order, when the temperature difference of flame temperature and ambient temperature is higher than given threshold, is only heated, another point with a fire rod 23 Lighted torch 23 is as standby；When the temperature difference of flame temperature and ambient temperature is less than given threshold, two fire rodes 23 are heated simultaneously； In the heating process of fire rod 23, open the supplemental oxygen into combustion chamber 21 of air supply motor 25, while induced-draught electric motor 24 open and Wind speed is more than the wind speed of air supply motor 25, makes to form negative pressure in combustion chamber 21, the hot-air around fire rod 23 is spread in time To firebrand particle, the temperature of reduction fire rod in itself improves the service life of fire rod 23, fire rod 23 is closed after the completion of igniting Close, as shown in figure 13, while the burning time of the start recording firebrand particulate material of timing module 310 of automatic ash removing module 400, When the very first time interval of setting is reached between when burnt, the generation very first time signal of timing module 310 is simultaneously sent to central control Molding block 500, central control module 500 instructs according to the air control of very first time signal generation first and is respectively sent to air supply motor 25 and induced-draught electric motor 24, now the first air control instruction control induced-draught electric motor 24 reduction wind speed or stopping control air supply motor afterwards 25 quick raising wind speed, the dust accumulated in burner box 22 is blown out and dropped down onto under burner box 22, the dust of blowout in ash accepting box 31； When the second time interval of setting is reached between when burnt, timing module 310 generates the second time signal and is sent to central control Molding block 500, central control module 500 instructs according to the second air control of generation of the second time signal and is respectively sent to air supply motor 25 and induced-draught electric motor 24, wind speed during now the second air control instruction control reduction wind speed to normal combustion of air supply motor 25, afterwards Wind speed during raising wind speed to the normal combustion of induced-draught electric motor 24 is controlled, one time soot blowing process terminates, and work is continued in firebrand particle stove During work, above-mentioned soot blowing process is regularly repeated；Simultaneously after the completion of igniting, temperature control modules 400 bring into operation, and such as scheme Shown in 14, the wind speed of air supply motor 25 and induced-draught electric motor 24 is adjusted according to ambient temperature, air outlet temperature and design temperature Section, in heating process, with the temperature difference T1 or design temperature between design temperature and ambient temperature and air outlet temperature T2 it Between be gradually reduced, gradually reduce the wind speed of air supply motor 25 and induced-draught electric motor 24, reduce the burning velocity of fuel, improve fuel Service efficiency, when T1 or T2 is less than given threshold, temperature control modules 400 are according to computer heating control instruction control temperature control device 4 Stop heating；When T1 or T2 is more than given threshold, temperature control modules 400 send heating control according to central control module 500 System instruction control temperature control device 4 is begun to warm up；In above-mentioned charging control module 100, ignition control module 200, automatic ash removing mould In block 300 and the running of temperature control modules 400, if there is exception, the generation alarm command of central control module 500 simultaneously passes through Alarm module 600 feeds back to user.

In normal combustion process, charging control module 100, ignition control module 200, the and of automatic ash removing module 300 The running state data of temperature control modules 200 can be sent to feedstock analysis module 700 by central control module 500, if former Material analysis module 700 judges that the combustion case of former raw material for existing raw material, is then passed through central control module 500 by this raw material Charging control module 100, ignition control module 200, automatic ash removing module 300 and temperature control modules 400 are fed back to respectively；If Feedstock analysis module judges this raw material for new raw material, then can record and preserve the running state data of correlation, is used as burning next time The data of this raw material are supported.

Meanwhile, database module 800 can according to central control module 500 transmit charging control module 100, point fire control Molding block 200, automatic ash removing module 300, the running state data of temperature control modules 400 and feedstock analysis module 700 are passed The warning message for raw material data message and alarm module 600 transmission sent is automatically updated, and realizes its intellectuality growth.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto, Any one skilled in the art the invention discloses technical scope in, technique according to the invention scheme and its Inventive concept is subject to equivalent substitution or change, should all be included within the scope of the present invention.

Claims (7)

1. a kind of intelligence control system for firebrand particle stove, it is characterised in that：Including：

Charging control module (100)：For detecting the surplus of the interior firebrand particulate material in combustion chamber (21) and generating raw material clout Information, the operation for controlling feeding device (1) according to the raw material clout information, for by the operation shape of feeding device (1) State data are sent to central control module (500), and the raw material control for receiving the central control module (500) transmission refers to Order；

Ignition control module (200)：For detecting flame temperature and ambient temperature and generating firing temperature signal, for according to institute The operation of firing temperature signal control igniter (2) is stated, for the running state data of igniter (2) to be sent into center Control module (500), the raw material control instruction for receiving the central control module (500) transmission；

Automatic ash removing module (300)：For detecting that the burning time and the time of generation of the interior firebrand particulate material in combustion chamber (21) believe Number, the operation for controlling automatic ash removing device (3) according to the time signal, for by the operation of automatic ash removing device (3) Status data is sent to central control module (500), and the raw material control for receiving the central control module (500) transmission refers to Order；

Temperature control modules (400)：For detecting the temperature and wind speed of ambient temperature and air outlet and generating heating-up temperature letter Number, the operation for controlling temperature control device (4) according to the heating-up temperature signal, for by the running status of temperature control device (4) Data are sent to central control module (500), the raw material control instruction for receiving the central control module (500) transmission；

Central control module (500)：For the operation shape for the feeding device (1) for receiving charging control module (100) transmission State data, the running state data of the igniter (2) for receiving the ignition control module (200) transmission, for receiving The running state data of the automatic ash removing device (3) of automatic ash removing module (300) transmission, for receiving the temperature control The running state data of the temperature control device (4) of module (400) transmission, the warning message generated for receiving alarm module (600), For analyzing the running state data of the feeding device (1), it is the running state data of the igniter (2), described automatic The running state data of deashing device (3) and the running state data of the temperature control device (4) and generate feedstock analysis instruction and Alarm command, for instructing the feedstock analysis and running state data is sent to feedstock analysis module (700), for receiving Feedstock analysis module (700) transmission feedstock analysis information, for by the feedstock analysis information with database module (800) Data comparison generate raw material control instruction and the raw material control instruction is sent to the charging control module (100), it is described Ignition control module (200), the automatic ash removing module (300) and the temperature control modules (400), for by the alarm Instruction is sent to alarm module (600), for by the running state data of the feeding device (1), the igniter (2) Running state data, the running state data of the automatic ash removing device (3), the running state data of the temperature control device (4), The abnormal information of alarm module (600) generation and the feedstock analysis information transmission of the feedstock analysis module (700) transmission To database module (800)；

Alarm module (600)：For detecting the unusual condition of firebrand particle stove and generating abnormal information, for receiving the center The alarm command of control module (500) transmission, for according to the alarm command to user feedback alarm signal；

Feedstock analysis module (700)：Feedstock analysis instruction and operation shape for receiving the central control module (500) transmission State data, for analyzing the running state data generation feedstock analysis data, for the feedstock analysis data to be sent to The central control module (500)；

Database module (800)：For store the feeding device (1) under normal condition, the igniter (2), it is described from The running state data of dynamic deashing device (3) and the temperature control device (4), for storing raw material essential information, for according to institute State running state data, the operation of the igniter (2) of the feeding device (1) of central control module (500) transmission It is status data, the running state data of the automatic ash removing device (3), the running state data of the temperature control device (4), described The abnormal information of alarm module (600) generation and the feedstock analysis information of the feedstock analysis module (700) transmission carry out automatic Update.

2. a kind of intelligence control system for firebrand particle stove according to claim 1, it is characterised in that：The charging Control module (100) includes：

Feed detection module (110)：For detecting the surplus of the interior firebrand particulate material in combustion chamber (21) and generating raw material clout Information, and by raw material clout information transmission to the processing module that feeds (120)；

The processing module that feeds (120)：The clout information for receiving charging detection module (110) transmission, and according to Clout information generation charging control instruction, for charging control instruction to be sent into feeding device (1), for charging to be filled The running state data for putting (1) is sent to central control module (500)；

The feeding device (1) includes loading hopper (11) of the bottom provided with switch (12), is being arranged on the loading hopper (11) just The conveyer belt (13) of lower section, the conveyer belt (13) includes the first transit area (131), the second transit area being sequentially connected (132) and the 3rd transit area (133), first transit area (131) is horizontally disposed, and its porch is located at the pan feeding The underface of bucket (11) discharging opening, second transit area (132) is in 135~160 ° with first transit area (131) Angle is set, and the 3rd transit area (133) is set with second transit area (132) in 90~hexagonal angle, and described second Transit area (132) constitutes inverted " V " font with the 3rd transit area (133).

3. a kind of intelligence control system for firebrand particle stove according to claim 1, it is characterised in that：The igniting Control module (200) includes：

Firing temperature detection module (210)：Passed for detecting flame temperature and ambient temperature, and by the firing temperature signal of detection Deliver to ignition process module (220)；

Ignition process module (220)：Firing temperature letter for receiving firing temperature detection module (210) transmission Number, for being compared the temperature signal and generating igniter control instruction, for igniter control to be referred to Order is sent to igniter (2), for the running state data of igniter (2) to be sent into central control module (500)；

The igniter (2) includes combustion chamber (21), is arranged on the burner box (22) in the combustion chamber (21), through described Combustion chamber (21) simultaneously extends to two internal fire rodes (23) of the burner box (22), is arranged on the suction of the combustor side Wind turbine (24) and the air supply motor (25) for being arranged on the combustion chamber (21) opposite side.

4. a kind of intelligence control system for firebrand particle stove according to claim 3, it is characterised in that：It is described automatic Deashing module (300) includes：

Timing module (310)：Burning time and generation timing signal for recording the interior firebrand granular fuel of burner box (22), are used In the time signal is sent into deashing processing module (320)；

Deashing processing module (320)：The time signal for receiving the timing module (310) transmission, for according to institute Time signal generation automatic ash removing device control instruction is stated, for the automatic ash removing device control instruction to be sent to automatic clear Apparatus for ash (3), for the running state data of automatic ash removing device (3) to be sent into central control module (500)；

The deashing device (3) includes setting the ash accepting box (31) of combustion chamber (21) bottom, and the ash accepting box (31) is located at The underface of the burner box (22), the air intake passage (32) that one end is connected with the burner box (22) side is arranged on described The air supply motor (25) of air intake passage (32) other end, one end and the air-out passage (33) connected at the top of the burner box (22), The induced-draught electric motor (24) of the air-out passage (33) other end is arranged on, the filter in the air-out passage (33) is arranged on (34)。

5. a kind of intelligence control system for firebrand particle stove according to claim 3, it is characterised in that：The temperature Control module (400) includes：

Heating-up temperature detection module (410)：For detecting the temperature and wind speed of ambient temperature and air outlet and generating heating temperature Signal is spent, for the heating-up temperature signal to be sent into heating and temperature control module (420)；

Heating and temperature control module (420)：The heating-up temperature for receiving heating-up temperature detection module (410) transmission Signal, for being instructed according to the heating-up temperature signal generation computer heating control, for computer heating control instruction to be sent into temperature Device (4) is controlled, for the running state data of temperature control device (4) to be sent into central control module (500)；

The temperature control device (4) includes being arranged on the induced-draught electric motor (24) of the combustion chamber (21) side and is arranged on the burning The air supply motor (25) of room (21) opposite side.

6. a kind of intelligence control system for firebrand particle stove according to claim 1, it is characterised in that：The center Control module (500) includes：

Data reception module (510)：For the operation shape for the feeding device (1) for receiving charging control module (100) transmission State data, the running state data of the igniter (2) for receiving the ignition control module (200) transmission, for receiving The running state data of the automatic ash removing device (3) of automatic ash removing module (300) transmission, for receiving the temperature control The running state data of the temperature control device (4) of module (400) transmission, the warning message generated for receiving alarm module (600), Feedstock analysis information for receiving feedstock analysis module (700) transmission, is passed for receiving the database module (800) The data message sent；

Data comparison module (520)：For the operation for the feeding device (1) for receiving the data reception module (510) Status data, the running state data of the igniter (2), the running state data of the automatic ash removing device (3) and institute The running state data and the database module (800) for stating temperature control device (4) transmit the corresponding data information come and contrasted, Alarm command is generated when comparing result exceedes given threshold, and the alarm command is sent to data outputting module (540)；

Data processing module (530)：For the operation shape for the feeding device (1) for analyzing the data reception module (510) reception State data, the running state data of the igniter (2), the running state data of the automatic ash removing device (3) and described The running state data of temperature control device (4) simultaneously generates feedstock analysis instruction, for feedstock analysis instruction to be sent into data Output module (540)；

Data outputting module (540)：The alarm command for receiving data comparison module (520) transmission, for inciting somebody to action The alarm command is sent to the alarm module；Feedstock analysis for receiving the data processing module (530) transmission refers to Order, for feedstock analysis instruction to be sent into the feedstock analysis module (700), for by the feeding device (1) Running state data, the running state data of the igniter (2), the running state data of the automatic ash removing device (3), Running state data, the abnormal information of the alarm module (600) generation and the feedstock analysis mould of the temperature control device (4) The feedstock analysis information transmission of block (700) transmission is to database module (800).

7. a kind of intelligence control system for firebrand particle stove according to claim 1, it is characterised in that：The data Library module (800) includes：

Raw material data memory module (810)：Raw material point for storing raw material information and the central control module (500) transmission Analyse information；

Service data memory module (820)；The feeding device (1) for storing the central control module (500) transmission Running state data, the running state data of the igniter (2), the running status number of the automatic ash removing device (3) According to, the running state data of the temperature control device (4) and the abnormal information of the alarm module (600) generation；

Reasoner module (830)：For the feedstock analysis information that is transmitted by the central control module (500) to the raw material The raw material information of storage is updated and preserved to the raw material data memory module (810) in data memory module (810)；With In running state data, the igniter of the feeding device (1) transmitted by the central control module (500) (2) running state data, the running state data of the automatic ash removing device (3), the running status of the temperature control device (4) Data and the abnormal information of the alarm module (700) generation are to being originally stored in the service data memory module (820) Corresponding data be updated and preserve to the service data memory module (820).