CN208595556U - A kind of biomass real flame fireplace device - Google Patents

Abstract

The utility model provides a kind of biomass real flame fireplace device, it includes cabinet, furnace core and front door, the furnace core is arranged in the cabinet, the furnace core includes furnace body, burner hearth, grey room, charcoal brazier, automatic ash removing mechanism, automatic decoking mechanism, Dynamic ignition mechanism and heat exchange structure, the ash room and the charcoal brazier are set in the burner hearth, the ash room is set to below the charcoal brazier, the automatic ash removing mechanism corresponds to the grey room setting, the automatic decoking mechanism corresponds to the charcoal brazier setting, and the Dynamic ignition mechanism corresponds to the charcoal brazier setting.A kind of biomass real flame fireplace device has the advantages that good design science, decoking effect, auxiliary automatic ash removing, ignition results are good.

Description

A kind of biomass real flame fireplace device

Technical field

The utility model relates to a kind of fireplaces, specifically, relate to a kind of biomass real flame fireplace device.

Background technique

Current fireplace is due to being west introducing equipment, when being applied to Chinese family, the characteristics of due to building structure, needs There is extremely strong leakproofness, the high premise of sealing performance is that its internal various movement needs realization to automatically process, such as decoking, point The operation such as fire, ash disposal, avoiding frequently opening fireplace causes smog to enter the room, and influences indoor environment, but current fireplace is set Standby the degree of automation is lower, it is difficult to realize above-mentioned function.

In order to solve the above problems, people are seeking always a kind of ideal technical solution.

Summary of the invention

The purpose of this utility model be in view of the deficiencies of the prior art, thus provide a kind of design science, decoking effect it is good, A kind of biomass real flame fireplace device for assisting automatic ash removing, ignition results good.

To achieve the goals above, the technical scheme adopted by the utility model is a kind of biomass real flame fireplace device, Including cabinet, furnace core and front door, the furnace core is arranged in the cabinet, the furnace core include furnace body, burner hearth, grey room, charcoal brazier, Automatic ash removing mechanism, automatic decoking mechanism, Dynamic ignition mechanism and heat exchange structure, the ash room and the charcoal brazier are set to described In burner hearth, the ash room is set to below the charcoal brazier, and the automatic ash removing mechanism corresponds to the grey room setting, the automatic decoking Mechanism corresponds to the charcoal brazier setting, and the Dynamic ignition mechanism corresponds to the charcoal brazier setting.

Described on base, the bottom end of the charcoal brazier is dentalation, the slot of the dentalation from the rear end of charcoal brazier forward End extends and is open in front-end and back-end, and dragging track, the automatic decoking mechanism is respectively set in the left and right ends of the charcoal brazier Decoking end be slidably arranged on the dragging track.

Described on base, the automatic decoking mechanism includes the first driving motor, the first reciprocating mechanism and the decoking End, the decoking end are the shift fork with several perpendicular teeth, and each perpendicular tooth of the shift fork corresponds to charcoal brazier bottom end dentalation Slot setting, first driving motor drive the perpendicular tooth of the shift fork in the charcoal brazier by first reciprocating mechanism It is back and forth stirred in the slot of bottom end.

It is described on base, it is burnt empty that a paragraph is equipped between side wall of the front-end and back-end of the charcoal brazier apart from the burner hearth Between, the front and rear of the ash room is fallen below burnt space positioned at described, and the middle part of the ash room is located at the lower section of the charcoal brazier.

Described on base, the automatic ash removing mechanism includes vertical plate, movable floor, the second driving motor and the second reciprocating motion Mechanism, second driving motor drive the reciprocating action of the movable floor by second reciprocating mechanism.

Described on base, the rear portion of the ash room is equipped with an oblique guide plate, and the oblique guide plate is from grey room rear wall into grey room Portion tilts down, and the upper surface of the movable floor is bonded with the lower end of the oblique guide plate.

Described on base, the Dynamic ignition mechanism includes fire rod, third driving motor, PLC and third reciprocating machine Temperature sensor is arranged in structure, the front end of the fire rod, and it is reciprocal by the third that the PLC controls the third driving motor Movement mechanism drives the reciprocating motion of the fire rod, and the PLC connection fire rod simultaneously controls firing action, the PLC It is also connected with the temperature sensor, according to the temperature data of the temperature sensor, the PLC controls the third driving motor Retract movement.

Described on base, first reciprocating mechanism, second reciprocating mechanism and the third move back and forth Mechanism is lead screw transmission mechanism, and the lead screw transmission mechanism includes that screw rod, screw and mobile bracket, the screw are mounted on institute It states on mobile bracket, guide rod is installed on the motion track of the mobile bracket, the mobile bracket is moved along the guide rod It is dynamic.

It is described on base, the heat exchange structure include set on the intracorporal at least one smoking pipeline of the furnace, thermal resistance cover board and Warm-air drier is sent, high level is equipped at least one outlet flue in the burner hearth, and each smoking pipeline is respectively communicated with 1 outlet flue, The outside of the sidewall of the furnace body is arranged in the smoking pipeline, and the lower end of each smoking pipeline is collected in a fume collecting chamber, institute It states and opens up smoke outlet in fume collecting chamber and a smoke exhaust fan is installed；The thermal resistance cover board is covered on the fume collecting chamber and the smoke extracting tube Heat exchanger channels are formed outside road and between the furnace body outer wall, the lower end of the heat exchanger channels opens up air inlet, the heat exchange The upper end in channel opens up and send warm-air drier described in air outlet and installation.

It is described on base, several auxiliary heat pipes across the furnace body of installation in the furnace body above the burner hearth, each auxiliary heat pipe Interface is arranged in import, and the exit of each auxiliary heat pipe is installed a deflector, formed only between the deflector and the furnace body outer wall The flow-guiding channel of upper opening, the upper opening sealing of the flow-guiding channel are connected to air outlet one end of the heat exchanger channels.

The utility model has substantive features and progress compared with the prior art, and specifically, the utility model is by core Charcoal brazier, decoking equipment, ignition installation, ash removing equipment in equipment furnace core etc. are all transformed, and realize automatically controlled deashing, automatically controlled decoking And electronic control ignition, access automatic control program can be realized comprehensive automation, avoid smog caused by equipment is opened frequently The problem of introducing the pollution indoor environment such as interior.

It has the advantages that good design science, decoking effect, auxiliary automatic ash removing, ignition results are good.

Detailed description of the invention

Fig. 1 is the overall structure diagram of biomass real flame fireplace device in the utility model.

Fig. 2 is the structural schematic diagram of the furnace core in the utility model.

Fig. 3 is the structural schematic diagram of charcoal brazier and shift fork in the utility model.

Fig. 4 is the overall structure diagram of heat exchange structure in the utility model.

Fig. 5 is the side sectional view of Fig. 4.

Fig. 6 is the cross-sectional view of the depression angle of Fig. 4.

Specific embodiment

Below by specific embodiment, the technical solution of the utility model is described in further detail.

As shown in Figure 1-Figure 3, a kind of biomass real flame fireplace device, including cabinet 1, furnace core 2 and front door 3, the furnace core 2 It is arranged in the cabinet 1, the furnace core 2 includes furnace body 2-1, burner hearth 2-2, ash room 2-3, charcoal brazier 2-4, automatic ash removing mechanism 2- 5, automatic decoking mechanism 2-6, Dynamic ignition mechanism 2-7 and heat exchange structure, the ash room 2-3 and charcoal brazier 2-4 are set to institute It states in burner hearth 2-2, the ash room 2-3 is set to below the charcoal brazier 2-4, and the automatic ash removing mechanism 2-5 corresponds to the ash room 2-3 Setting, the automatic decoking mechanism 2-6 correspond to the charcoal brazier 2-4 setting, and the Dynamic ignition mechanism 2-7 corresponds to the charcoal brazier 2- 4 settings.

Wherein, the bottom end of the charcoal brazier 2-4 is dentalation, and the slot 2-6-1 of the dentalation is from after charcoal brazier 2-4 Forward end is held to extend and be open in front-end and back-end, dragging track is respectively set in the left and right ends of the charcoal brazier 2-4, described automatic The decoking end of decoking mechanism 2-6 is slidably arranged on the dragging track.The automatic decoking mechanism 2-6 includes the first driving electricity Machine 2-6-2, lead screw transmission mechanism and decoking end, the decoking end are shift fork 2-6-3, the shift fork 2-6- with several perpendicular teeth 3 each perpendicular tooth corresponds to the slot 2-6-1 setting of charcoal brazier bottom end dentalation, and the driving motor is reciprocal by described first Movement mechanism drives the perpendicular tooth of the shift fork 2-6-3 back and forth to stir in the slot 2-6-1 of the charcoal brazier bottom end, the charcoal brazier 2- A paragraph coke space 2-6-4, the front of the ash room 2-3 are equipped between side wall of 4 front-end and back-end apart from the burner hearth With rear portion be located at it is corresponding fall below burnt space, the middle part of the ash room 2-3 is located at the lower section of the charcoal brazier 2-4.

When fuel has not been able to full combustion in charcoal brazier 2-4, a certain amount of coke mass can be generated, in the bottom of charcoal brazier Incrustation, when quantity is excessive, can block the air hole below charcoal brazier 2-4, influence efficiency of combustion, therefore, regularly be dialled by described The reciprocating motion for pitching 2-6-3, the coke mass of incrustation is wiped off, from the grey room for falling burnt space 2-6-4 and dropping into lower section in front In 2-3, periodic cleaning, and the dust generated in combustion process, grey room is fallen directly into from slot.

The control of first driving motor 2-6-2 is completed by PLC, it is only necessary to set positive and negative rotation gap and each work Time can also control its stroke by the triggering of travel switch, be common control means, and automation process is simple Efficiently.

The automatic ash removing mechanism 2-5 includes vertical plate 2-5-1, movable floor 2-5-2, the second driving motor 2-5-3 and silk Bar transmission mechanism, second driving motor drive the past double action of the movable floor 2-5-2 by the lead screw transmission mechanism Make.The rear portion of the ash room 2-3 is equipped with an oblique guide plate 2-5-4, and the oblique guide plate 2-5-4 is from grey room rear wall to grey room middle part It tilts down, the upper surface of the movable floor 2-5-2 is bonded with the lower end of the oblique guide plate 2-5-4.

The mechanism also belongs to intermittent work, and the activity frequency of movable floor 2-5-2 is arranged according to the amount of storage of grey room 2-3 It is secondary, and controlled and completed by PLC, per after a period of time, PLC control the second driving motor 2-5-3 work, pushes dump bottom Plate moves back, and movable floor is pulled open, and ash and the coke mass whereabouts accumulated above enter in waste channel, then control activity Bottom plate returns, and the purpose that oblique guide plate 2-5-4 is arranged is to avoid the work of movable floor 2-5-2 to save the device space The excessive problem for causing occupied space big of momentum, under the action of oblique guide plate, movable floor 2-5-2 only needs mobile half left Right stroke, meanwhile, guiding of the dust fall through oblique guide plate above oblique guide plate can also reach movable floor On.

The Dynamic ignition mechanism 2-7 includes fire rod 2-7-1, third driving motor 2-7-2, PLC and screw rod transmission machine Structure, the front end of the fire rod 2-7-1 are arranged temperature sensor, and the PLC controls the third driving motor by described the Three reciprocating mechanisms drive the reciprocating motion of the fire rod, and the PLC connection fire rod simultaneously controls firing action, institute It states PLC and is also connected with the temperature sensor, according to the temperature data of the temperature sensor, the PLC controls the driving electricity Machine retracts movement.

Working principle: fire rod 2-7-1 is designed as movably, and after starting ignition, PLC controls third driving motor 2-7- 2 rotate forward, and drive fire rod walking fixation to form distance, then PLC controls fire rod and carries out continuous ignition, when temperature sensor sense When being higher than certain temperature by temperature, in this embodiment, by temperature setting at 200 degree, that is, when being higher than 200 degree, PLC controls the Three driving motor 2-7-2 reversion, resets, and movement is retracted in completion, and entire ignition process is completed.

In the process, since fire rod protrudes into charcoal brazier, ignition zone is bigger, it is easier to be ignited, improve ignition body It tests, meanwhile, successfully backed off after random charcoal brazier of lighting a fire protects fire rod, avoids being burned out, prolong the service life.

It should be noted that fire rod stops igniting after lighting a fire successfully by temperature sensor continuous ignition Technological means is the routine techniques of current ignition installation, herein without expansion.

In addition, in other embodiments, PLC built-in time controls program, upon initiation between too long still do not complete point activity When making, PLC controls fire rod halt fire, and controls driving motor and retract, it was demonstrated that fire rod failure needs repairing.

Lead screw transmission mechanism above-mentioned includes that screw rod, screw and mobile bracket, the screw are mounted on the mobile bracket On, guide rod is installed, the mobile bracket is moved along the guide rod, in guide rod on the motion track of the mobile bracket Support under, operation it is more stable.

As shown in Figure 4-Figure 6, the heat exchange structure includes being set to the intracorporal four smoking pipelines 4-1 of the furnace, thermal resistent cover Plate 4-2 and warm-air drier 4-3 is sent, high level is equipped with 4 smoke outlets in the burner hearth 2-2, and each smoking pipeline is respectively communicated with 1 A smoke outlet, the smoking pipeline are separately positioned on outside the left and right sides of the furnace body 2-1, each two of every side, each pumping The lower end of smoke pipeline is collected in a fume collecting chamber 4-4, and smoke outlet 4-5 is opened up in the fume collecting chamber and installs a smoke exhaust fan (figure In be not shown)；The thermal resistance cover board 4-2 be covered on outside the fume collecting chamber 4-4 and the smoking pipeline 4-1 and with the furnace body The thermal resistance cover board that side in heat exchanger channels 4-10(Fig. 4 is formed between 2-1 outer wall, which conceals, not to be shown), the heat exchanger channels 4-10's Lower end opens up air inlet, and the upper end of the heat exchanger channels opens up and send warm-air drier 4-3 described in air outlet and installation.

The thermal resistance cover board 4-2 includes the crust being mounted on outside the furnace body 2-1, and the heat exchanger channels are the resistance The sandwich passage formed between hot shell and the furnace body outer wall, the smoking pipeline 4-10 and the fume collecting chamber 4-4 are respectively provided with In the sandwich passage.The thermal resistance cover board 4-2 includes side plate and bottom plate, and the side plate corresponds to the smoking pipeline 4-1 and sets It sets, the bottom plate corresponds to the fume collecting chamber 4-4 setting, is laid with heat preservation material on the inside of side plate and bottom plate.

In order to further increase heat transfer effect, heat exchange fin 4- is installed at the air outlet of the heat exchanger channels 4-10 6, the heat exchange fin 4-6 is mounted on the top of the furnace body 2-1, in order to guarantee the unobstructed of air-flow, the edge the heat exchange fin 4-6 Left and right directions extends, and guides the flue gas come out from smoking pipeline 4-1.

The installation several auxiliary heat pipe 4-7 across the furnace body, each auxiliary heat pipe 4-7 in furnace body 2-1 above the burner hearth 2-2 Import interface is set, be switched to interior, indoors mountable air inducing equipment, a water conservancy diversion is installed in the exit of each auxiliary heat pipe 4-7 Plate 4-8 forms the flow-guiding channel 4-9 of only upper opening, the water conservancy diversion between the deflector 4-8 and the furnace body 2-1 outer wall Air outlet one end of upper opening sealing connection institute's heat exchanger channels of channel 4-9, carries out being heated and refluxed for entering the room again, reach To the purpose of circulation.

The front side or rear side of the furnace body 2-1, the smoke outlet setting of the fume collecting chamber 4-4 is arranged in the fume collecting chamber 4-4 In the roof of the fume collecting chamber 4-4, the side of the fume collecting chamber opens up a cleaning door 4-11.

Finally it should be noted that: above embodiments are only to illustrate the technical solution of the utility model rather than limit it System；Although the utility model has been described in detail with reference to the preferred embodiment, those of ordinary skill in the art should Understand: specific implementation of the utility model can still be modified or is equally replaced to some technical characteristics It changes；Without departing from the spirit of technical solutions of the utility model, should all cover in the claimed technical solution of the utility model In range.

Claims (10)

1. a kind of biomass real flame fireplace device, it is characterised in that: it includes cabinet, furnace core and front door, and the furnace core setting exists In the cabinet, the furnace core includes furnace body, burner hearth, grey room, charcoal brazier, automatic ash removing mechanism, automatic decoking mechanism, Dynamic ignition Mechanism and heat exchange structure, the ash room and the charcoal brazier are set in the burner hearth, and the ash room is set to below the charcoal brazier, institute It states automatic ash removing mechanism and corresponds to the grey room setting, the automatic decoking mechanism corresponds to the charcoal brazier setting, the Dynamic ignition Mechanism corresponds to the charcoal brazier setting.

2. a kind of biomass real flame fireplace device according to claim 1, it is characterised in that: the bottom end of the charcoal brazier is tooth The slot of shape structure, the dentalation extends from the rear end forward end of charcoal brazier and is open in front-end and back-end, the charcoal brazier Dragging track is respectively set in left and right ends, and the decoking end of the automatic decoking mechanism is slidably arranged on the dragging track.

3. a kind of biomass real flame fireplace device according to claim 2, it is characterised in that: automatic decoking mechanism packet The first driving motor, the first reciprocating mechanism and the decoking end are included, the decoking end is the shift fork with several perpendicular teeth, institute Each perpendicular tooth for stating shift fork corresponds to the slot setting of charcoal brazier bottom end dentalation, and first driving motor passes through described first Reciprocating mechanism drives the perpendicular tooth of the shift fork back and forth to stir in the slot of the charcoal brazier bottom end.

4. a kind of biomass real flame fireplace device according to claim 3, it is characterised in that: the front end of the charcoal brazier is with after It holds and is equipped with a paragraph coke space between the side wall apart from the burner hearth, the front and rear of the ash room falls burnt sky positioned at described Between lower section, the middle part of the ash room is located at the lower section of the charcoal brazier.

5. a kind of biomass real flame fireplace device according to claim 4, it is characterised in that: automatic ash removing mechanism packet Vertical plate, movable floor, the second driving motor and the second reciprocating mechanism are included, second driving motor is past by described second Multiple movement mechanism drives the reciprocating action of the movable floor.

6. a kind of biomass real flame fireplace device according to claim 5, it is characterised in that: the rear portion of the ash room is equipped with One oblique guide plate, the oblique guide plate are tilted down from grey room rear wall to grey room middle part, the upper surface of the movable floor and institute State the lower end fitting of oblique guide plate.

7. a kind of biomass real flame fireplace device according to claim 5, it is characterised in that: Dynamic ignition mechanism packet Fire rod, third driving motor, PLC and third reciprocating mechanism are included, temperature sensor, institute is arranged in the front end of the fire rod It states PLC and controls the reciprocating motion that the third driving motor drives the fire rod by the third reciprocating mechanism, institute It states the PLC connection fire rod and controls firing action, the PLC is also connected with the temperature sensor, is passed according to the temperature The temperature data of sensor, what the PLC controlled the third driving motor retracts movement.

8. a kind of biomass real flame fireplace device according to claim 7, it is characterised in that: first reciprocating machine Structure, second reciprocating mechanism and the third reciprocating mechanism are lead screw transmission mechanism, the screw rod transmission machine Structure includes that screw rod, screw and mobile bracket, the screw are mounted on the mobile bracket, the motion track of the mobile bracket On guide rod is installed, the mobile bracket is moved along the guide rod.

9. a kind of biomass real flame fireplace device according to claim 1-8, it is characterised in that: the heat exchange knot Structure includes set on the intracorporal at least one smoking pipeline of the furnace, thermal resistance cover board and sending warm-air drier, and high level is set in the burner hearth There is at least one outlet flue, each smoking pipeline is respectively communicated with 1 outlet flue, and the smoking pipeline is arranged in the furnace body The lower end of the outside of side wall, each smoking pipeline is collected in a fume collecting chamber, and smoke outlet is opened up in the fume collecting chamber and is installed One smoke exhaust fan；The thermal resistance cover board is covered on the fume collecting chamber and the smoking pipeline external and between the furnace body outer wall Heat exchanger channels are formed, the lower end of the heat exchanger channels opens up air inlet, and the upper end of the heat exchanger channels opens up air outlet and installation It is described to send warm-air drier.

10. a kind of biomass real flame fireplace device according to claim 9, it is characterised in that: the furnace above the burner hearth Several auxiliary heat pipes across the furnace body are installed in vivo, interface, the exit installation of each auxiliary heat pipe is arranged in the import of each auxiliary heat pipe One deflector forms the flow-guiding channel of only upper opening between the deflector and the furnace body outer wall, the flow-guiding channel Upper opening sealing is connected to air outlet one end of the heat exchanger channels.