CN108506924A - A kind of biological particles stove - Google Patents

Abstract

The invention discloses a kind of biological particles stoves, including shell, feeding device (1), burner (2), water circulation system, control system (3) and operation panel, the box body (21) of feeding device (1) and burner (2) is cylindrical, using the axis of cylinder as rotary shaft, it is rotated perpendicular to ground level, blanking groove (12) is divided into several blanking bins (122) by blanking bin partition board (121)；The box body (21) of burner (2) is divided into 3 12 combustion chambers (211) by combustion chamber side wall (2111), blanking bin (122) and combustion chamber (211) are open outwardly, and discharge channel (13) the outlet lower section of blanking device (1) is the uppermost position of box body (21).Provide a kind of biomass solid formed fuel combustion furnace that automatic blanking does not get stuck, fully burns, clears up the Efficient Operation of coking and dust in time, lasts a long time.

Description

A kind of biological particles stove

Technical field

The present invention relates to biomass stove fields, and in particular to a kind of auto feed, high combustion efficiency, synchronous automated cleaning Biomass solid formed fuel combustion furnace.

Background technology

Biomass solid formed fuel is that the agricultural wastes such as stalk, rice husk, sawdust are compressed into spy by special equipment Shape shape to increase the solid fuel of its density, with efficient, clean, igniting is easy, CO₂The advantages that discharge, alternative coal Equal fossil fuels are applied to the industrial circles such as civil fields and boiler combustion, power generation such as cooking, heating.

Currently, the biomass combustion machine used in the market is mainly spiral feeding manner, the fuel in hopper passes through spiral shell Bar is delivered to combustion chamber, when the structure of feeding screw or its it is unreasonable in use when, material is just likely to occur in tube body Screw movement is even skidded and is regurgitated.Meanwhile existing firebrand granular pattern stove be typically provided with a burner box for store combustion Material, common burner box generally use bowl structure, integrally casting shaping that the bottom of bowl-shape burner box is provided with several air inlets Hole, a fire rod hot wind introduction hole is arranged in middle part on rear side of burner box.

Application No. is the inventions of CN201410388028.7 to provide a kind of biomass combustion machine rotating disc type feed system, packet Rack, governor, loading plate, discharge tray are included, the loading plate and discharge tray pass through logical among upper and lower charging tray by transmission shaft Hole is fastened on rack；Circular through hole is provided among the loading plate, the through-hole is equipped with top bearing cover；Under described Charging tray side is welded with annulus, and turntable is equipped in the annulus.Several feeding ports are set in loading plate, are arranged one in discharge tray A feed opening, loading plate is rotatable, and discharge tray does not rotate, and when feeding port rotates to feed opening position, completes blanking.The invention Can not accomplish uninterrupted feeding, at the same time, when feeding is made a slip of the tongue it is shallow when, hold that fuel is very few, and blanking rate is low；Work as feeding port Too deep, loading plate also increases weight, and the active force for rotating needs increases, and increases the pressure of motor.

Application No. is 201410218257.4 to disclose a kind of biological particles fireplace wind curtain type burner box structure, including combustion Box, the burner box are burnt for rectangular configuration, and the bottom of the rectangle burner box is equipped with long slot bore；The long slot bore extends to the square On the front and rear sides wall of shape burner box；The front side wall of the burner box is double-layer structure, and the long slot bore is arranged in front side wall In inside side walls, cavity is formed between the outer layer side wall and internal layer sidewall of the front side wall, is uniformly distributed and is equipped on cavity top A plurality of circular holes.Increase air inflow by improving intake method and reduce the contact area of fuel and burner box bottom, improves The case where burner box blocks.

When existing burning easily forms the non-wood biomass solid formed fuel of ash content sintering using stalk, rice husk etc., combustion Burning residue coking speed is fast, and coking volume is big, and coking melting easily deposition is sticked together in the combustion chamber, causes combustion chamber normal Work, needs frequent manual cleanup burner box.The problems such as easily getting stuck in biological particles material blanking process simultaneously.

Invention content

Get stuck to solve blanking system, burner coking the problems such as, the present invention proposes a kind of automatic blanking and does not block Material, fully burning, the in time Efficient Operation of cleaning coking and dust, the biomass solid formed fuel combustion furnace lasted a long time. Specific technical solution is as follows：

A kind of biological particles stove, including shell, are arranged feeding device inside the housing, and setting is exported in feeding device The burner of lower section, the water circulation system being connected with shell control the control system of feeding device and burner running, if The operation panel in outer surface of outer cover is set, feeding device includes hopper, the blanking groove being arranged below hopper outlet, is arranged under Hopper exports the discharge channel of lower section, and the motor I rotated for controlling blanking groove, and blanking groove is cylindrical, with cylinder Axis be rotary shaft, rotated perpendicular to ground level, blanking groove is divided into several blanking bins, blanking bin by blanking bin partition board Opening is outwardly；Burner includes box body, the igniter being arranged on box body, the ash accepting box being arranged below box body, Yi Jiyong In the motor II of control box body rotation；Box body is cylindrical, using the axis of cylinder as rotary shaft, is rotated perpendicular to ground level, Box body includes 3-12 combustion chamber being split to form by combustion chamber side wall, and combustion chamber is open outwardly, by combustion chamber bottom surface, one A combustion chamber antetheca, a combustion chamber rear wall and two combustion chamber side walls are constituted；Discharge channel outlet lower section is the top of box body Position.

The feeding device of the present invention transports fuel by the blanking bin of rotation, and rotary shaft is fixed, and blanking bin is revolving When going to uppermost position in fig-ure, fuel is added, position of arriving that Open Side Down clockwise or counterclockwise is corresponding with discharge channel entry position It is set as blanking groove outlet, fuel is transferred to discharge channel from blanking groove under the effect of gravity；At the same time, under next cis-position Feed bin also rotates to uppermost position in fig-ure in succession, and fuel is added, rotates to exit, ensures the continuity of discharge channel.Discharge channel is combustion Material is transported to burner, completes blanking.

Rotary shaft is fixed in the burner of the present invention, and box body is made circumferential shapes, is divided into 3~12 burnings Chamber, it is opening up when combustion chamber rotates to box body uppermost position in fig-ure, it is fed by discharge channel, controls igniter ignition. Burning is when being nearly completed, box body 10~180 ° of angles clockwise or counterclockwise, when Open Side Down for combustion chamber, by gravity, Start to topple over the dust and coking that burning is formed, ash accepting box is for accepting the dust toppled over and coking；Meanwhile it next rotating to The combustion chamber of uppermost position in fig-ure starts charge combustion, ensures burning ground duration.It is respectively provided with a point in each burning inner cavity surface Firearm provides architecture basics whether individually controlling each combustion chamber igniting for the processing respectively of each combustion chamber；Or only in box An igniter is fixedly installed in body the top, and a fire hole is respectively set in combustion chamber rear wall, when rotating to uppermost position, Igniter lights the fuel in combustion chamber by fire hole；Or one igniter is set at rotary shaft position, pass through ventilation hole The fuel in combustion chamber is lighted, three of the above can realize the purpose for lighting the fuel in some combustion chamber.

Preferably, feeding device is connected with the rotary shaft of burner by chain, for keeping synchronous rotary.

The rotary shaft of burner and feeding device can respectively be controlled by different motors, facilitated and regulated and controled speed respectively； It can also be connected by chain, to keep synchronous rotary, control system be facilitated uniformly to adjust rotary speed according to combustion case.

Preferably, combustion chamber bottom surface is provided with several ventilation holes, several long slot bores are provided on combustion chamber side wall；Box The combustion chamber bottom surface of body connects and composes a hollow shaft, and axis blower is arranged at the hollow shaft position of box body, dries in axis It is provided with several blowholes on pipe, corresponds to combustion chamber Open Side Down that branch blower is arranged in position in axis blower lower end； Side blow pipe is arranged in box body side, for providing moving air for box body.

Ventilation hole and long slot bore can there are many shape, on combustion chamber bottom surface and side wall, setting gap can increase rotates through Air inflow in journey to increase the contact area of fuel and air, and then increases the combustion rate of fuel.Simultaneously facilitate dust and Coking is fallen, and avoids the formation of the coking of large area.The gap that axis blower passes through combustion chamber bottom surface is to provide stream in combustion chamber Dynamic air, on the one hand increases air inflow, keeps burning more complete；On the one hand dust can be blown out, help is removed dust, avoided the formation of Accumulation；On the one hand moving air continuously is provided from bottom surface, the formation of coking can also be reduced.It can also be set in the side of box body Blower is set, the combustion rate of fuel is improved, while dust can also be blown to make its whereabouts.It can be according to different fuel to wind speed Every factor such as it is adjusted, and considers the environment temperature residing for equipment, to make fuel combustion and equipment operation up to all arriving most Excellent effect.

Preferably, the long slot bore opening on combustion chamber side wall outwardly, is fixedly installed in the lower section of the hollow shaft of box body and removes Bar is removed bar and is correspondingly arranged with the elongated slot hole site on combustion chamber side wall, setting is contacted with burning inner cavity surface, for passing through combustion Burn the coking in the rotary force removing combustion chamber of chamber and dust.

When the combustion chamber position that rotates to that Open Side Down, most of dust starts to fall, and also it is de- to be difficult to nature for small part The coking fallen removes bar by being arranged in rotary shaft following region, by the rotation of combustion chamber, rubs with burning inner cavity surface formation Power is wiped, to remove the coking and dust that burning inner cavity surface cannot be fallen naturally.

Preferably, feeding device further includes discharge quantity control panel, and discharge quantity control panel is inclined at hopper and blanking groove Contact position；Discharge quantity control panel includes control panel, is arranged and is being controlled in the elastic spring of control panel with blanking groove contact position and setting Making sheet lower surface is used to control the tension spring at the angle of inclination of discharge quantity control panel；Elastic spring is made of a plurality of reed, every spring Piece is made of upper layer reed and lower layer's reed, and the length of upper layer reed is more than the length of lower layer's reed.

Discharge quantity control panel not only can guarantee that irregular material entered blanking groove, but also can guarantee and do not block material, preferably control Grain inlet.Discharge quantity control panel has certain angle with blanking bin, is uniformly stepped into convenient for particle.Discharge quantity control panel is main It is controlled using Double-layer elastic, wherein elastic spring I is made of a plurality of, and if it is monolithic, rigidity is too big, cannot control different material Into being also easy into not going or inlet is excessive.It is easy to control inlet amount by a plurality of form and is not also got stuck.A plurality of reed is by bilayer Composition, one is long and the other is short, ensures that reed is indeformable when reed being made to expect more under special circumstances.Tension spring when expecting more once in a while, under control The angle of doses control panel ensures particle by not getting stuck.

Preferably, hopper lower end is provided with elastic spring II with blanking groove contact position, and the free end of elastic spring II extends To blanking bin；Discharge channel inlet lower end is provided with elastic spring III, and the free end of elastic spring III extends in blanking bin, Prevent fuel from accumulating for vibrating, upper end is provided with upper stop piece, for preventing fuel from popping up discharge channel.

Hopper includes loading hopper and lower hopper, and lower hopper upper end connects loading hopper lower end, and lower hopper is by inclined plate and straight panel group At inverted trapezoidal rod structure, elastic spring II is both provided with blanking groove contact position below inclined plate and straight panel.Elasticity below inclined plate Reed II can prevent particulate material in blanking groove rotary course, enter next blanking bin too early, ensure every in rotary course A blanking bin multiplies doses.The material of vertical state can be fallen into blanking groove, and avoid card by the elastic spring II below straight panel Material；Irregular material can be also allowed to enter simultaneously.In addition to this, elastic spring II is arranged with blanking bin baffle contacts, whenever blanking bin Rotation stirs the vibration of elastic spring II, also has oscillation action to the fuel in hopper, avoid getting stuck.

When blanking bin rotates to outlet port, start to feed to discharge channel, the upper stop piece of upper end setting, which mainly allows, to bounce Particle fall, prevent fuel from pouring down or forth.In view of the scrambling of material, sliding is bad to be stuck in discharge channel, so Spring leaf III is set in discharge channel lower end, shrapnel is just stirred at blanking bin edge, and material is slided in shrapnel vibration.Blanking bin often vibrates Once, spring leaf just vibrates, and granular fuel is prevented to be deposited in discharge channel.Also have in special circumstances simultaneously, particulate material card It between blanking bin partition board and discharge channel lower end, is blocked using spring leaf, when rotation, which blocks material and enters, collects defective material device, rotation After reuse.

Preferably, feeding device further includes the driving lever for stirring fuel in hopper.

Charging spout both sides can be located at by the way that cam is arranged on the rotary shaft；Driving lever lower end is slidably connected cam, with cam Upper and lower translation is rotated, the fuel in hopper is stirred in upper end.Due to the scrambling of particulate material, also it is easy to fork in hopper not past It falls, feed is caused to interrupt.Increasing cam makes driving lever move up and down, and cam can not stall, and driving lever slides up and down, and particulate material is made to exist It falls in activity, avoids getting stuck.

Driving lever can also be respectively set by the fixing end of the spring leaf I below the inclined plate of lower hopper and straight panel, be used for The fuel particle in lower hopper is stirred with the vibration of elastic spring II.Free end due to elastic spring II and blanking bin partition board Contact setting, feed bin rotation can cause elastic spring II to vibrate, and then cause two driving lever vibrations, stir particulate material into pan feeding Storehouse avoids generation from getting stuck.

Preferably, blanking bin partition board and blanking groove rotation axial section angle are 30-75 °, blanking bin partition board inclined direction with Blanking groove direction of rotation is identical；Combustion chamber side wall is 90 ° with rotation axial section angle.

Blanking bin partition board has 60 ° of angles with blanking groove rotation axial section, can both ensure material in rotation process not in this way It falls, and there is certain impetus for rotation, reduce rotating friction force；Meanwhile when past discharge channel transmission is expected It waits, material is under the effect of gravity, it is easier to transmit, prevent from getting stuck.

When combustion chamber side wall is 90 ° with rotation axial section angle, effect is best, is unlikely to topple over too early, also be unlikely to Topple over difficulty；And the cleaning dead angle formed is few, and it is easy to clean.

Preferably, hopper includes loading hopper and lower hopper；Loading hopper is in funnel-form, for adding fuel；Lower hopper is by one A inclined plate and three straight panels constitute hollow inverted trapezoidal column funnel；Lower hopper upper end connects loading hopper lower end.

Funnel is arranged in loading hopper, increases the convenience of charging, avoids pouring down or forth during charging, lower hopper is set It sets in loading hopper lower end, in such a way that inclined plate and straight panel are combined, inclined plate slides into blanking groove convenient for particle, and straight panel prevents excessively Charging, while straightened portion particulate material can be fallen down into blanking groove, it avoids getting stuck.If blanking groove is to rotate clockwise, The feeding manner being combined with inclined plate in left side, straight panel on right side, inclined plate should be arranged in straight panel, decrease blanking groove rotation Resistance.

Preferably, it is provided with channel of igniting above box body.

Channel of igniting makes flame burn upwards, and more conducively fuel combustion improves the efficiency of utilization of fuel.Meanwhile it preventing The security risk that non-directional combustion zone comes.

Preferably, fire prevention catch being set in discharge channel exit, the upper end for catch of preventing fires is fixed on discharge channel outlet upper end, Catch lower end is prevented fires as free end.

Catch is prevented fires by fuel, while not influencing discharge channel blanking, completely cuts off the flame of burner, prevents flame from burning Into blanking device.

Preferably, control system includes：

Charging control module：Addition situation for detecting burner inner box uppermost position in fig-ure combustion chamber fuel and life Situation information is added at raw material, rotating speed and/or box for charging spout in situation information control feeding device to be added according to raw material The rotating speed of body, for the running state data of feeding device to be sent to central control module, for receiving central control module The raw material control instruction of transmission；

Combustion control module：Rotation position for detecting combustion chamber simultaneously generates rotating position signal, for according to rotation Position signal controls the operation of igniter, and the combustion case for detecting combustion chamber fuel simultaneously generates combustion case signal, For controlling box body rotary speed and blower wind speed according to combustion case signal, it is used for the running state data of burner It is sent to central control module, the raw material control instruction for receiving central control module transmission；

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

Central control module：Running state data for the feeding device for receiving the transmission of charging control module, for connecing Receive the running state data of the burner of combustion control module transmission, the temperature control device for receiving temperature control modules transmission Running state data, for receiving alarm module generate warning message, for analyze feeding device running state data, The running state data of burner and the running state data of temperature control device simultaneously generate feedstock analysis instruction, temperature control instruction And alarm command, for feedstock analysis instruction and running state data to be sent to feedstock analysis module, for receiving raw material point The feedstock analysis information for analysing module transmission, for feedstock analysis information to be generated raw material control with data comparison in database module It instructs and raw material control instruction is sent to charging control module, combustion control module, for temperature control instruction to be sent to Temperature control modules, for alarm command to be sent to alarm module, for filling the running state data of feeding device, burning The exception information and feedstock analysis module that the running state data of the running state data, temperature control device set, alarm module generate The feedstock analysis information of transmission is sent to database module；

Alarm module：Unusual condition for detecting firebrand particle furnace simultaneously generates exception 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 for receiving central control module transmission and running state data, are used Feedstock analysis data are generated in analysis running state data, are used for feedstock analysis data transmission to central control module.

Database module：Operating status number for storing feeding device under normal condition, burner and temperature control device According to, for storing raw material essential information, the running state data of the feeding device for being sent according to central control module, burning The exception information and feedstock analysis mould that the running state data of device, the running state data of temperature control device, alarm module generate The feedstock analysis information of block transmission is automatically updated.

A kind of biomass solid formed fuel combustion furnace provided by the present invention, at runtime, after user's starting switch, Charging control mould charging detection module in the block starts the addition of uppermost position in fig-ure combustion chamber fuel in detection detection burner Situation slows down blanking groove rotary speed and/or accelerates box body rotary speed when highest threshold value of the feeding quantity higher than setting；When When feeding quantity is less than setting lowest threshold, accelerates blanking groove rotary speed and/or slow down box body rotary speed.

Combustion control module detection combustion chamber rotation position simultaneously generate rotating position signal, when combustion chamber rotate to it is most upper When position, igniter fire is controlled, then detect the fuel combustion situation in combustion chamber and generates combustion case signal, control box Body rotary speed and blowing rate, make combustion chamber burn before reaching Open Side Down position complete.After burning completely, combustion chamber The position that rotates to that Open Side Down, topples over dust and coking, meanwhile, it removes bar and is purged, remove the dust that cannot be fallen naturally With coking.It is rotating simultaneously, the combustion chamber of next cis-position continues charging, burning, the cycle for removing dust and coking, and burning is made to have There is duration.

Temperature control modules detection environment temperature conveys information to central control module when higher than given threshold, center Control module, which transmits information, reduces blanking groove and box body rotary speed, reduces blast pipe wind speed.

In above-mentioned charging control module, ignition control module and temperature control modules operational process, if there is exception, in Centre control module generates alarm command and feeds back to user by alarm module.

In normal combustion process, charging control module, the operating status of ignition control module and temperature control modules Data 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 pervious raw material is fed back to respectively by central control module charging control module, ignition control module and Temperature control modules；If feedstock analysis module judges this raw material for new raw material, it can record and preserve relevant operating status number According to the data as this raw material that burns next time are supported.

Meanwhile charging control module, ignition control module, the temperature that database module can be transmitted according to central control module Spend the report of the running state data of control module and the raw material data information and alarm module transmission of the transmission of feedstock analysis module Alert information is automatically updated, and realizes its intelligence growth.

Beneficial effects of the present invention are：

(1) feeding device and burner all use rotational structure, not only ensure that the duration of charging and burning, and And dust and residue in combustion chamber can be toppled in time, avoid excessively accumulation from resulting in blockage box body.

(2) it is added in burner and removes bar design, the coking in combustion chamber is cleared up in time, avoids excessive heap Air inlet caused by product is difficult, keeps the air inflow of box body, ensures fully burning.

(3) blower is added in rotary shaft position and side in burner, and more in combustion chamber bottom surface and side wall setting A gap ensures air inflow, keeps burning more complete, the coking of formation is few, while helping to blow out dust.

(4) spring leafs are added in the multiple positions of feeding device, and driving lever are added in hopper, substantially avoided get stuck can Energy property, is further ensured that the duration of equipment operation.

(5) when occurring unexpected, blanking bin partition board can prevent the fuel in flame combustion to hopper, play barrier and make With ensure that the safety that equipment uses.

Description of the drawings

Fig. 1 is the combination dimensional structure diagram of the feeding device and burner of a kind of biological particles stove；

Fig. 2 is a kind of side structure schematic view of biological particles stove；

Fig. 3 is a kind of dimensional structure diagram of the feeding device of biological particles stove；

Fig. 4 is a kind of side structure schematic view of the feeding device of biological particles stove；

Fig. 5 is a kind of dimensional structure diagram of the burner of biological particles stove；

Fig. 6 is a kind of positive structure diagram of the burner of biological particles stove；

Fig. 7 is a kind of side structure schematic view of the burner of biological particles stove；

Fig. 8 is a kind of side structure schematic view of the embodiment 3 of the burner of biological particles stove；

Fig. 9 is a kind of composition figure of the control system of biological particles stove；

Figure 10 is a kind of auto feed flow chart of biological particles stove；

Figure 11 is a kind of automatic ignition flow chart of biological particles stove；

Figure 12 is a kind of automatic combustion speed control flow chart of biological particles stove；

Figure 13 is a kind of automatic temperature-controlled flow chart of biological particles stove.

Reference numeral：

1, feeding device；11, hopper；111, loading hopper；112, lower hopper；113, elastic spring II；12, blanking groove； 121, blanking bin partition board；122, blanking bin；13, discharge channel；14, motor I；

2, burner；21, box body；211, combustion chamber；2111, combustion chamber side wall；21111, long slot bore；2112, it burns Bottom of chamber face；21121, ventilation hole；2113, combustion chamber antetheca；2114, combustion chamber rear wall；22, axis blower；221, blowhole； 222, branch blower；23, motor II；24, bar is removed；25, igniter；

3, control system；31, charging control module；32, combustion control module；33, temperature control modules；34, center control Molding block；35, alarm module；36, feedstock analysis module；37, database module.

Specific implementation mode

Embodiment 1

A kind of biological particles stove, including shell, are arranged feeding device 1 inside the housing, and setting goes out in feeding device 1 Burner 2 below mouthful, the water circulation system being connected with shell control the control system that feeding device 1 and burner 2 operate The operation panel in outer surface of outer cover is arranged in system 3, and feeding device 1 includes hopper 11, and the blanking below the outlet of hopper 11 is arranged The discharge channel 13 below the outlet of blanking groove 12 is arranged in slot 12, and the motor I 14 rotated for controlling blanking groove 12, Blanking groove 12 is cylindrical, using the axis of cylinder as rotary shaft, is rotated perpendicular to ground level, and blanking groove 12 is by blanking bin partition board 121 are divided into several blanking bins 122, blanking bin 122 to be open outwardly；Burner 2 includes box body 21, is arranged in box body 21 The ash accepting box below box body 21, and the motor II 23 for controlling the rotation of box body 21 is arranged in the igniter 25 on surface；Box body 21 is cylindrical, using the axis of cylinder as rotary shaft, is rotated perpendicular to ground level, and box body 21 includes by combustion chamber side wall 2111 6 combustion chambers 211 being split to form, combustion chamber 211 are open outwardly, by a combustion chamber antetheca of combustion chamber bottom surface 2112, one 2113, a combustion chamber rear wall 2114 and two combustion chamber side walls 2111 are constituted；Below the outlet of discharge channel 13 most for box body 21 Top position.

Combustion chamber bottom surface 2112 is provided with several ventilation holes 21121, several length are provided on combustion chamber side wall 2111 Slot 21111；The combustion chamber bottom surface 2112 of box body 21 connects and composes a hollow shaft, in the setting of the hollow shaft position of box body 21 Axis blower 22 is provided with several blowholes 221 on axis blower 22, and combustion chamber is corresponded in 22 lower end of axis blower Open Side Down, and branch blower 222 is arranged in position；In 21 side of box body, side blow pipe is set, it is empty for providing flowing for box body 21 Gas.

The opening of long slot bore 21111 on combustion chamber side wall 2111 outwardly, is fixedly installed in the lower section of the hollow shaft of box body 21 Bar 24 is removed, bar 24 is removed and is correspondingly arranged with 21111 position of long slot bore on combustion chamber side wall 2111, with table in combustion chamber 211 Face contact setting, for removing coking and dust in combustion chamber 211 by the rotary force of combustion chamber 211.

Feeding device 1 further includes discharge quantity control panel, and discharge quantity control panel is inclined at hopper 11 and blanking groove 12 connects Synapsis；Discharge quantity control panel includes control panel, is arranged and is being controlled in the elastic spring I of control panel with 12 contact position of blanking groove and setting Making sheet lower surface is used to control the tension spring at the angle of inclination of discharge quantity control panel；Elastic spring I is made of a plurality of reed, every spring Piece is made of upper layer reed and lower layer's reed, and the length of upper layer reed is more than the length of lower layer's reed.

11 lower end of hopper is provided with elastic spring II 113 with 12 contact position of blanking groove, and the free end of elastic spring II 113 is prolonged It extends in blanking bin 122；13 inlet lower end of discharge channel is provided with elastic spring III, and the free end of elastic spring III extends to down In feed bin 122, prevent fuel from accumulating for vibrating, upper end is provided with upper stop piece, for preventing fuel from popping up discharge channel 13.

Feeding device 1 further includes cam and driving lever, and for stirring the fuel in hopper 11, cam is arranged on the rotary shaft, Positioned at charging spout both sides；Cam is provided with protrusion and recess, and driving lever lower end is slidably connected cam, and upper and lower translation is rotated with cam, Stir the fuel in hopper 11 in upper end.

Blanking bin partition board 121 rotates axial section with blanking groove 12 60 ° of angles, and 121 inclined direction of blanking bin partition board is under 12 direction of rotation of hopper is identical；Combustion chamber side wall 2111 is 90 ° with rotation axial section angle.

Hopper 11 includes loading hopper 111 and lower hopper 112；Loading hopper 111 is in funnel-form, for adding fuel；Lower hopper 112 constitute hollow inverted trapezoidal column funnel by an inclined plate and three straight panels；112 upper end of lower hopper connects 111 lower end of loading hopper.

Control system 3 includes：

Charging control module 31：Addition feelings for detecting 2 inner box of burner, 21 uppermost position in fig-ure combustion chamber fuel Condition simultaneously generates raw material addition situation information, the rotating speed for charging spout in situation information control feeding device 1 to be added according to raw material And/or the rotating speed of box body 21, for the running state data of feeding device 1 to be sent to central control module 34, for receiving The raw material control instruction that central control module 34 is sent；

Combustion control module 32：Rotation position for detecting combustion chamber simultaneously generates rotating position signal, for according to rotation Turn the operation that position signal controls igniter, the combustion case for detecting combustion chamber fuel simultaneously generates combustion case letter Number, the wind speed of rotating speed and blower for controlling box body 21 according to combustion case signal is used for the operation shape of burner 2 State data transmission is to central control module 34, the raw material control instruction for receiving the transmission of central control module 34；

Temperature control modules 33：For detecting the temperature of ambient temperature and air outlet and wind speed and generating heating temperature letter Number, the operation for controlling temperature control device according to heating temperature signal, for the running state data of temperature control device to be sent to Central control module 34, the temperature control instruction for receiving the transmission of central control module 34；

Central control module 34：Running state data for the feeding device 1 for receiving the transmission of charging control module 31, is used In the running state data for receiving the burner 2 that combustion control module 32 transmits, transmitted for receiving temperature control modules 33 Temperature control device running state data, for receiving alarm module 35 generate warning message, for analyzing feeding device 1 Running state data, the running state data of the running state data of burner 2 and temperature control device simultaneously generate feedstock analysis and refer to It enables, temperature control instruction and alarm command, for feedstock analysis instruction and running state data to be sent to feedstock analysis module 36, the feedstock analysis information for receiving the transmission of feedstock analysis module 36 is used for feedstock analysis information with database module 37 Middle data comparison generates raw material control instruction and raw material control instruction is sent to charging control module 31, combustion control module 32, for temperature control instruction to be sent to temperature control modules 33, for alarm command to be sent to alarm module 35, it is used for By the running state data of feeding device 1, the running state data of burner 2, the running state data of temperature control device, alarm The feedstock analysis information that the exception information and feedstock analysis module 36 that module 35 generates transmit is sent to database module 37；

Alarm module 35：Unusual condition for detecting firebrand particle furnace simultaneously generates exception information, for receiving central control The alarm command that molding block 34 transmits, for according to alarm command to user feedback alarm signal；

Feedstock analysis module 36：Feedstock analysis instruction for receiving the transmission of central control module 34 and operating status number According to feedstock analysis data being generated for analyzing running state data, for by feedstock analysis data transmission to central control module 34。

Database module 37：Operation shape for storing feeding device 1, burner 2 and temperature control device under normal condition State data, for storing raw material essential information, the operating status number of the feeding device 1 for being sent according to central control module 34 According to, the running state data of burner 2, the running state data of temperature control device, alarm module 35 generate exception information and The feedstock analysis information that feedstock analysis module 36 transmits is automatically updated.

Embodiment 2

A kind of biological particles stove, with embodiment 1 difference lies in：

Feeding device 1 is connected with the rotary shaft of burner 2 by chain, for keeping synchronous rotary.

Embodiment 3

A kind of biological particles stove, with embodiment 1 difference lies in：

Igniter 25 is set at the rotary shaft position of box body 21, the combustion in combustion chamber 211 is lighted by ventilation hole 21121 Material.

Embodiment 4

A kind of biological particles stove, with embodiment 1 difference lies in：

Fire prevention catch is set in 13 exit of discharge channel, the upper end for catch of preventing fires is fixed on discharge channel 13 and exports upper end, prevents Fiery catch lower end is free end.

The top of box body 21 is provided with channel of igniting.

Above-described embodiment is merely exemplary for the purpose of the present invention, and and not restrictive, its object is to allow be familiar with this The understanding of technology cans understand the content of the present invention and implement it accordingly, and it is not intended to limit the scope of the present invention.Not In the case of being detached from claim limited range, those of ordinary skill in the art understand, any modification, the change that can be made Change or equivalent, falls within protection scope of the present invention.

Claims (10)

1. a kind of biological particles stove, including shell, are arranged the feeding device (1) in the enclosure, setting adds described Expect that device (1) exports the burner (2) of lower section, controls the control of the feeding device (1) and the burner (2) running System (3), is arranged the operation panel in the outer surface of outer cover, it is characterised in that：The feeding device (1) includes hopper (11), setting is in the blanking groove (12) of the hopper (11) outlet lower section, and setting is under the blanking groove (12) outlet lower section Material path (13), and the motor I (14) that is rotated for controlling the blanking groove (12), the blanking groove (12) are in cylinder Shape is rotated using the axis of cylinder as rotary shaft perpendicular to ground level, and the blanking groove (12) is by blanking bin partition board (121) point Several blanking bins (122) are cut into, blanking bin (122) opening is outwardly；The burner (2) includes box body (21), if The igniter (25) on the box body (21) is set, the ash accepting box being arranged below the box body (21), and for controlling State the motor II (23) of box body (21) rotation；The box body (21) is cylindrical, using the axis of cylinder as rotary shaft, perpendicular to Horizon Face is rotated, and the box body (21) includes the 3-12 combustion chamber (211) being split to form by combustion chamber side wall (2111), described Combustion chamber (211) is open outwardly, after a combustion chamber bottom surface (2112), a combustion chamber antetheca (2113), a combustion chamber Wall (2114) and two combustion chamber side walls (2111) are constituted；Discharge channel (13) outlet lower section is the most upper of the box body (21) It sets in orientation.

2. a kind of biological particles stove according to claim 1, it is characterised in that：The feeding device (1) and the combustion The rotary shaft for burning device (2) is connected by transmission device, the rotary shaft for making the feeding device (1) and the burner (2) rotary shaft synchronous rotary.

3. a kind of biological particles stove according to claim 1, it is characterised in that：Combustion chamber bottom surface (2112) setting There are several ventilation holes (21121), several long slot bores (21111) are provided on the combustion chamber side wall (2111)；The box The combustion chamber bottom surface (2112) of body (21) connects and composes a hollow shaft, and axis is arranged at the hollow shaft position of the box body (21) Blower (22) is provided with several blowholes (221) on the axis blower (22), in the axis blower (22) Lower end corresponds to the combustion chamber Open Side Down position setting branch blower (222)；It is blown in the box body (21) side setting side Air hose, for providing moving air for the box body (21).

4. a kind of biological particles stove according to claim 3, it is characterised in that：On the combustion chamber side wall (2111) Long slot bore (21111) is open outwardly, and bar (24), the removing are removed in the lower section fixed setting of the hollow shaft of the box body (21) Bar (24) is correspondingly arranged with long slot bore (21111) position on the combustion chamber side wall (2111), interior with the combustion chamber (211) Surface contact setting, for removing coking and ash in the combustion chamber (211) by the rotary force of the combustion chamber (211) Dirt.

5. a kind of biological particles stove according to claim 1, it is characterised in that：Under the feeding device (1) further includes Doses control panel, the discharge quantity control panel are inclined at the hopper (11) and the blanking groove (12) contact position；It is described Discharge quantity control panel includes control panel, be arranged the control panel with the blanking groove (12) contact position elastic spring I and set It sets and is used to control the tension spring at the angle of inclination of the discharge quantity control panel in the control panel lower surface；The elastic spring I by A plurality of reed composition, every reed are made of upper layer reed and lower layer's reed, and the length of the upper layer reed is more than described The length of lower layer's reed.

6. a kind of biological particles stove according to claim 1, it is characterised in that：Hopper (11) lower end with it is described under Hopper (12) contact position is provided with elastic spring II (113), and the free end of the elastic spring II (113) extends to the blanking In storehouse (122)；Discharge channel (13) the inlet lower end is provided with elastic spring III, and the free end of the elastic spring III extends In to the blanking bin (122), prevent fuel from accumulating for vibrating, upper end is provided with upper stop piece, for preventing fuel from popping up institute State discharge channel (13).

7. a kind of biological particles stove according to claim 1, it is characterised in that：The feeding device (1) further includes using In the driving lever for stirring fuel in hopper (11).

8. a kind of biological particles stove according to claim 1, it is characterised in that：The blanking bin partition board (121) and institute It is 30-75 ° to state blanking groove (12) rotation axial section angle, blanking bin partition board (121) inclined direction and the blanking groove (12) direction of rotation is identical；The combustion chamber side wall (2111) and the rotation axial section angle are 90 °.

9. a kind of biological particles stove according to claim 1, it is characterised in that：The hopper (11) includes loading hopper (111) and lower hopper (112)；The loading hopper (111) is in funnel-form, for adding fuel；The lower hopper (112) is by one Inclined plate and three straight panels constitute hollow inverted trapezoidal column funnel；Lower hopper (112) upper end connects under the loading hopper (111) End.

10. a kind of biological particles stove according to claim 1, it is characterised in that：The control system (3) includes：

Charging control module (31)：For detecting combustion chamber described in box body (21) uppermost position in fig-ure in the burner (2) The addition situation of fuel simultaneously generates raw material addition situation information, and for being added according to the raw material, the control of situation information is described to be added Expect the rotating speed of the charging spout and/or the rotating speed of the box body (21) in device (1), is used for the operation shape of feeding device (1) State data transmission is to central control module (34), the raw material control instruction for receiving the central control module (34) transmission；

Combustion control module (32)：Rotation position for detecting the combustion chamber simultaneously generates rotating position signal, is used for basis The rotating position signal controls the operation of igniter, and the combustion case for detecting the combustion chamber fuel simultaneously generates combustion Situation signal is burnt, the wind speed of rotating speed and the blower for controlling the box body (21) according to the combustion case signal, For the running state data of burner (2) to be sent to central control module (34), for receiving the center control mould The raw material control instruction that block (34) is sent；

Temperature control modules (33)：For detecting the temperature of ambient temperature and air outlet and wind speed and generating heating temperature letter Number, the operation for controlling temperature control device according to the heating temperature signal, for passing the running state data of temperature control device It send to central control module (34), the temperature control instruction for receiving the central control module (34) transmission；

Central control module (34)：Operating status for the feeding device (1) for receiving charging control module (31) transmission Data, the running state data of the burner (2) for receiving the combustion control module (32) transmission are described for receiving The running state data of the temperature control device of temperature control modules (33) transmission, the report generated for receiving alarm module (35) Alert information, for analyze the running state data of the feeding device (1), the running state data of the burner (2) and The running state data of the temperature control device simultaneously generates feedstock analysis instruction, temperature control instruction and alarm command, is used for institute It states feedstock analysis instruction and running state data is sent to feedstock analysis module (36), passed for receiving feedstock analysis module (36) The feedstock analysis information sent, for the feedstock analysis information to be generated raw material control with data comparison in database module (37) It instructs and the raw material control instruction is sent to the charging control module (31), the combustion control module (32), be used for The temperature control instruction is sent to the temperature control modules (33), for the alarm command to be sent to alarm module (35), it is used for the running state data of the feeding device (1), the running state data of the burner (2), the temperature Control the running state data of device, the exception information that the alarm module (35) generates and the feedstock analysis module (36) transmission Feedstock analysis information be sent to database module (37)；

Alarm module (35)：Unusual condition for detecting firebrand particle furnace simultaneously generates exception information, for receiving the center The alarm command of control module (34) transmission, for according to the alarm command to user feedback alarm signal；

Feedstock analysis module (36)：Feedstock analysis instruction for receiving central control module (34) transmission and operating status number According to, generate feedstock analysis data for analyzing the running state data, for by the feedstock analysis data transmission to described Central control module (34).

Database module (37)：For storing the feeding device (1), the burner (2) and the temperature under normal condition The running state data for controlling device, for storing raw material essential information, for what is sent according to the central control module (34) The running state data of the feeding device (1), the running state data of the burner (2), the fortune of the temperature control device The feedstock analysis of exception information and the feedstock analysis module (36) transmission that row status data, the alarm module (35) generate Information is automatically updated.