CN109404975A - Double mode flue gas emission second-time burning heating stove - Google Patents

Abstract

The invention discloses a kind of double mode flue gas emission second-time burning heating stoves, the smoke discharging pipe being connected to including furnace body, burner hearth with burner hearth, smoke outlet is provided on smoke discharging pipe, exhaust valve is provided at smoke outlet, rear portion on furnace body positioned at burner hearth is provided with logical a heatable brick bed interface, and logical a heatable brick bed interface is provided with logical a heatable brick bed valve；It is provided with crater at the top of burner hearth, second-time burning air feed system is provided at crater, flue gas guidance fire distribution unit is installed on fire door, flue gas guides fire distribution unit to be arranged above second-time burning air feed system；The front of furnace body is provided with coal filling hole, corresponds to outside coal filling hole and is hingedly equipped with coal smoke-backflow-proof sealing device；It is provided with the heat exchanging water-jacket being connected on burner hearth and smoke discharging pipe, the efficient heat-collecting system being connected to heat exchanging water-jacket is provided in smoke discharging pipe, flue deashing device corresponding with efficient heat-collecting system is provided on the outer wall of smoke discharging pipe；Structure simple designs are reasonable, achievable a heatable brick bed, the logical heating of leading to is dual-purpose, improve the thermal efficiency of heating stove.

Description

Double mode flue gas emission second-time burning heating stove

Technical field

The present invention relates to heating stove equipment technical field more particularly to a kind of double mode flue gas emission second-time burning heating Furnace.

Background technique

Vast northern country family warming is most of all to use domestic water heating coal-burning stove for heating stove, can both be used to It cooks, and can be used for band heating and carry out heating, very convenient to use, popularity rate is very high.With the improvement of living standards, People are higher and higher to the performance requirement of hot-water heating coal-burning stove for heating stove, i.e., should seek a kind of safety economize on coal, be pollution-free, the thermal efficiency Stove high, family is easy to use, to meet the market demand of current domestic water heating coal-burning stove for heating stove.

Heating stove in the prior art is primarily present following problem: (1) coal in heating stove cannot get full combustion, The nocuousness such as a large amount of CO, SO2 and inflammable and explosive flue gas can be generated, and these flue gases can directly flow away from flue, when flue gas is direct After being disposed to outdoor, environmental pollution will cause；It (2), can be by the amount of heat band in furnace when flue gas directly flows away from flue It walks, causes heat loss more, so that the thermal efficiency of heating stove reduces；(3) traditional heating stove only has single effect, cannot Realize that logical a heatable brick bed, logical heating are dual-purpose.

Summary of the invention

Technical problem to be solved by the invention is to provide it is a kind of it is reasonable in design, can full combustion, improve the thermal efficiency, Realize logical a heatable brick bed and the dual-purpose double mode flue gas emission second-time burning heating stove of logical heating.

In order to solve the above technical problems, the technical scheme is that double mode flue gas emission second-time burning heating stove, packet Furnace body is included, taper burner hearth is provided in the furnace body front, the furnace body top is provided with the fire door above the burner hearth, It is provided with fire grate below the burner hearth, ash storing chamber is provided with below the fire grate, the rear upper of the furnace body is provided with The smoke discharging pipe being connected to the burner hearth, the smoke discharging pipe are arranged vertically upwards, the top end setting of the smoke discharging pipe There is smoke outlet, exhaust valve is correspondingly arranged at the smoke outlet, is provided on the furnace body positioned at the rear portion of the burner hearth logical A heatable brick bed interface, the logical a heatable brick bed interface are correspondingly arranged on logical a heatable brick bed valve；Crater, the crater are provided at the top of the burner hearth Place is provided with second-time burning air feed system, is provided between the crater and the fire door and changes with what the smoke discharging pipe was connected to Hot chamber, the flue gas guidance fire distribution unit in the heat exchanging chamber is equipped on the fire door, and the flue gas guides fire distribution unit It is arranged above the second-time burning air feed system；The front of the furnace body is provided with the coal filling hole being connected to the burner hearth, institute It states to correspond to outside coal filling hole and coal smoke-backflow-proof sealing device is hingedly installed；It is provided with and is connected on the burner hearth and the smoke discharging pipe Heat exchanging water-jacket, be provided with the efficient heat-collecting system being connected to the heat exchanging water-jacket, the smoke discharging pipe in the smoke discharging pipe Outer wall on be provided with flue deashing device corresponding with the efficient heat-collecting system, the lower rear of the furnace body be provided with The explosion-proof valve of heat exchanging water-jacket's connection；The heat exchanging water-jacket connect with heating terminal.

The flue gas guidance fire distribution unit includes being mounted on above the burner hearth to match fire as a preferred technical solution, Disk, the bottom with fiery disk are provided with into burner, and the size into burner is greater than the ruler of the crater on the burner hearth Very little, the top edge with fiery disk is provided with the disk edge that card is placed on the fire door edge, and the fiery disk of matching is from top-to-bottom Slope inwardly and extend, be circumferentially provided on the side wall with fiery disk it is multiple for guiding the burner of matching of flue gas and heat, it is close The size with burner at the smoke discharging pipe is less than far from the size with burner at the smoke discharging pipe, the disk Location hole is provided on edge, the fire door edge is provided with the positioning column mating with the location hole.

As a preferred technical solution, the second-time burning air feed system include be arranged in the roof of the furnace it is secondary into Wind chamber, the secondary air chamber are circumferentially positioned at the top of the crater on the burner hearth, the inner wall of the secondary air chamber On be provided with multiple secondary air outlets, the secondary air outlet is around being arranged on the secondary air cavity wall；The furnace body The air inlet being connected to the secondary air chamber is provided on side wall, the ruler of the secondary air outlet far from the air inlet The very little size for being greater than the secondary air outlet close to the air inlet；The sidewall of the furnace body, which is located at outside the air inlet, to be installed There is air inlet box, fixed air inlet hole is provided on the outside of the air inlet box, the fixed air inlet hole is located at the downside of the air inlet.

The coal smoke-backflow-proof sealing device includes fire door shell as a preferred technical solution, the fire door shell packet The one end on the fire door edge for including stove door plant and being enclosed on the stove door plant, the fire door edge is hinged on the coal filling hole, described The other end on fire door edge is equipped with the seal pressing device for forcing the fire door shell to compress towards the coal filling hole；The fire door The side of plate towards the coal filling hole is equipped with fireproof heat insulating box, and the fireproof heat insulating box is welded on the stove door plant, described Fireproof heat insulating slurry is installed in fireproof heat insulating box, heat preservation slurry added holes, the fireproof heat insulating are provided on the fireproof heat insulating box Multiple heat preservation slurry outflow holes, the fireproof heat insulating box and the fire door fixed peace between are provided between box and the stove door plant Equipped with fire proof seal press strip.

The seal pressing device includes the clip-connecting rod being transversely mounted on the coal filling hole as a preferred technical solution, With the hinge column for being transversely mounted on the stove door plant end, pressure plate, one end of the pressure plate are hinged on the hinge column It is provided with the clamping groove with the clip-connecting rod compression fit, the other end of the pressure plate is connected with compression spanner, the clamping The card access surface for forcing the fire door shell to compress towards the coal filling hole is provided on slot.

The efficient heat-collecting system includes that more choked flows being connected to the heat exchanging water-jacket are changed as a preferred technical solution, Heat pipe, the choked flow heat exchanger tube are provided with three layers and are distributed in mountain shape, the longitudinally displaced row of choked flow heat exchanger tube of adjacent two layers It arranges, the gap between the choked flow heat exchanger tube of phase same layer is less than the outer diameter of the choked flow heat exchanger tube.

As a preferred technical solution, the flue deashing device include be arranged in it is clear on the outer wall of the smoke discharging pipe Grey mouth, the cleaning door pass through the heat exchanging water-jacket and are connected to the heat exchanging chamber, corresponding detachable installation on the cleaning door There is cover board, fixed device is provided between the cleaning door and the cover board；The cleaning door includes respectively corresponding to be arranged in institute State the side cleaning door of choked flow heat exchanger tube two sides and the ash port being correspondingly arranged at below the choked flow heat exchanger tube, the two side deashings Mouth is symmetricly set on the side wall of the heat exchanging water-jacket, and the ash port is arranged on the bottom wall of the heat exchanging water-jacket.

The fixed device includes the fixed transverse rod being fixed on the cleaning door as a preferred technical solution, described Fixed transverse rod passes through the center of the cleaning door, and the both ends of the fixed transverse rod are respectively welded on the inner wall of the cleaning door, The center of the cleaning door is fixedly installed with threaded post outward, and the cover board is sleeved in the threaded post, in the threaded post Outside screw positioned at the cover board is connected with fastening bolt.

The exhaust valve includes that the smoke evacuation being rotatably installed on the smoke outlet is adjusted as a preferred technical solution, Bar is fixedly installed on the smoke evacuation adjusting rod in the smoke outlet and opens and closes the smoke evacuation of the smoke outlet and adjust Plate, the restricted smoke evacuation adjustable plate of the interior setting of the smoke outlet rotate 90 ° of smoke evacuation start-stop gag lever post, the smoke evacuation start-stop limit Position bar inclination is fixed on the inner wall of the smoke outlet, is equipped with smoke evacuation on the smoke evacuation adjusting rod in the smoke outlet Anti-drop rod is limited, one end of the smoke evacuation limitation anti-drop rod is resisted against on the inner wall of the smoke outlet；The smoke evacuation adjusting rod Wherein stretching smoke outlet in one end is externally connected with smoke evacuation regulation handle, and smoke evacuation is provided on the smoke evacuation adjusting rod and compresses bullet Spring, the smoke evacuation holddown spring are sleeved on the smoke evacuation adjusting rod, it is described smoke evacuation holddown spring both ends respectively with the row Cigarette regulation handle and smoke outlet outer wall contact.

The logical a heatable brick bed valve includes that the logical a heatable brick bed being rotatably installed on the logical a heatable brick bed interface is adjusted as a preferred technical solution, Bar is fixedly installed with the logical a heatable brick bed for opening and closing the logical a heatable brick bed interface on the logical a heatable brick bed adjusting rod in the logical a heatable brick bed interface Adjustable plate, the restricted logical a heatable brick bed adjustable plate of the interior setting of the logical a heatable brick bed interface rotate 90 ° of logical a heatable brick bed start-stop gag lever post, the logical a heatable brick bed The inclination of start-stop gag lever post is fixed on the inner wall of the logical a heatable brick bed interface, on the logical a heatable brick bed adjusting rod in the logical a heatable brick bed interface Logical a heatable brick bed limitation anti-drop rod is installed, one end of the logical a heatable brick bed limitation anti-drop rod is resisted against on the inner wall of the logical a heatable brick bed interface；It is described Wherein one end of logical a heatable brick bed adjusting rod stretches out the logical a heatable brick bed interface and is externally connected with logical a heatable brick bed regulation handle, is arranged on the logical a heatable brick bed adjusting rod There is logical a heatable brick bed holddown spring, the logical a heatable brick bed holddown spring is sleeved on the logical a heatable brick bed adjusting rod, the both ends of the logical a heatable brick bed holddown spring It is contacted respectively with the logical a heatable brick bed regulation handle and the logical a heatable brick bed interface outer wall.

By adopting the above-described technical solution, double mode flue gas emission second-time burning heating stove, including furnace body, the furnace body Taper burner hearth is provided in front, the furnace body top is provided with the fire door above the burner hearth, the lower section of the burner hearth It is provided with fire grate, ash storing chamber is provided with below the fire grate, the rear upper of the furnace body is provided with to be connected to the burner hearth Smoke discharging pipe, the smoke discharging pipe is arranged vertically upwards, and the top end of the smoke discharging pipe is provided with smoke outlet, the row Exhaust valve is correspondingly arranged at mouth, the rear portion that the burner hearth is located on the furnace body is provided with logical a heatable brick bed interface, the logical a heatable brick bed Interface is correspondingly arranged on logical a heatable brick bed valve；It is provided with crater at the top of the burner hearth, secondary combustion is provided at the crater Air feed system is burnt, the heat exchanging chamber being connected to the smoke discharging pipe, the fire door are provided between the crater and the fire door On the flue gas guidance fire distribution unit in the heat exchanging chamber is installed, flue gas guidance fire distribution unit is arranged described secondary Above burning air feed system；The front of the furnace body is provided with the coal filling hole being connected to the burner hearth, corresponds to outside the coal filling hole Coal smoke-backflow-proof sealing device is hingedly installed；The heat exchanging water-jacket being connected to, institute are provided on the burner hearth and the smoke discharging pipe The efficient heat-collecting system for being provided in smoke discharging pipe and being connected to the heat exchanging water-jacket is stated, is provided on the outer wall of the smoke discharging pipe Flue deashing device corresponding with the efficient heat-collecting system, the lower rear of the furnace body is provided with to be connected with the heat exchanging water-jacket Logical explosion-proof valve；The heat exchanging water-jacket connect with heating terminal；The beneficial effects of the present invention are: the second-time burning air feed system Coal burning adequacy is improved with flue gas guidance fire distribution unit, not only reduces pollution, but also improve the thermal effect of heating stove Rate；The coal smoke-backflow-proof sealing device has good sealing effect, prevents harmful smoke from entering to indoor generation hidden safely Suffer from；Efficient heat-collecting system, which is substantially reduced, to be discharged into outdoor heat, and the utilization rate of heat is improved；Logical a heatable brick bed, logical heating in use, The exhaust valve replaces open and close with the logical a heatable brick bed valve cooperation and uses, and the exhaust valve and the logical a heatable brick bed valve are not It can open simultaneously, when the exhaust valve is opened, the logical a heatable brick bed valve is closed, and heating stove is mainly that heating provides heat；When When the exhaust valve is closed, the logical a heatable brick bed valve opening, heating stove is mainly used for as a heatable brick bed heating；The configuration of the present invention is simple is set Meter is reasonable, can be realized second of full combustion, not only reduces environmental pollution, but also sufficiently improves the utilization rate of heat, can be real It is dual-purpose now to lead to a heatable brick bed, logical heating, improves the thermal efficiency of heating stove.

Detailed description of the invention

The following drawings are only intended to schematically illustrate and explain the present invention, not delimit the scope of the invention.Wherein:

Fig. 1 is the structural schematic diagram of the embodiment of the present invention；

Fig. 2 is the structure principle chart of the embodiment of the present invention；

Fig. 3 is the structural schematic diagram of flue gas of embodiment of the present invention guidance fire distribution unit；

Fig. 4 is the structure principle chart of second-time burning air feed system of the embodiment of the present invention；

Fig. 5 is the structure principle chart of coal smoke-backflow-proof sealing device of the embodiment of the present invention；

Fig. 6 is the structural principle that coal smoke-backflow-proof sealing device omits after fireproof heat insulating slurry, fire proof seal press strip in Fig. 5 Figure；

Fig. 7 is the working principle diagram of seal pressing device in coal smoke-backflow-proof sealing device in Fig. 5；

Fig. 8 is the structure principle chart of efficient heat-collecting system of the embodiment of the present invention；

Fig. 9 is the enlarged diagram in Fig. 1 at A；

Figure 10 is the schematic diagram after Fig. 9 removes cover board；

Figure 11 is the structural schematic diagram of exhaust valve of the embodiment of the present invention；

Figure 12 is the structural schematic diagram of another angle of exhaust valve of the embodiment of the present invention；

In figure: 1- furnace body；2- burner hearth；3- fire door；4- smoke discharging pipe；5- smoke outlet；6- crater；7- heat exchanging chamber；8- adds Coal mouth；9- heat exchanging water-jacket；10- explosion-proof valve；11- water inlet；12- water return outlet；13- leads to a heatable brick bed interface；S1- second-time burning air feed system System；S101- secondary air chamber；Bis- air outlets of S102-；S103- air inlet；S104- enters the wind box；S105- fixes air inlet hole； S2- flue gas guides fire distribution unit；S201- matches fiery disk；S202- is into burner；S203- disk edge；S204- matches burner；S205- positioning Hole；S206- positioning column；S3- coal smoke-backflow-proof sealing device；S301- stove door plant；S302- fire door edge；S303- fireproof heat insulating box； S304- fireproof heat insulating slurry；S305- heat preservation slurry added holes；S306- heat preservation slurry outflow hole；S307- fire proof seal press strip；S308- card Connect column；S309- hinge column；S310- pressure plate；S311- clamping groove；S312- compresses spanner；S313- card access surface；S4- efficiently collects Hot systems；S401- heat exchanging water pipe；S5- flue deashing device；S501- cover board；The side S502- cleaning door；S503- ash port； S504- fixed transverse rod；S505- threaded post；S506- fastening bolt；S6- exhaust valve；S601- smoke evacuation adjusting rod；S602- smoke evacuation Adjustable plate；S603- smoke evacuation start-stop gag lever post；S604- smoke evacuation limitation anti-drop rod；S605- smoke evacuation regulation handle；S606- smoke evacuation pressure Tight spring.

Specific embodiment

With reference to the accompanying drawings and examples, the present invention is further explained.In the following detailed description, only pass through explanation Mode describes certain exemplary embodiments of the invention.Undoubtedly, those skilled in the art will recognize, In the case where without departing from the spirit and scope of the present invention, described embodiment can be repaired with a variety of different modes Just.Therefore, attached drawing and description are regarded as illustrative in nature, and are not intended to limit the scope of the claims.

As depicted in figs. 1 and 2, double mode flue gas emission second-time burning heating stove, including furnace body 1, in 1 front of furnace body It is provided with taper burner hearth 2,1 top of furnace body is provided with the fire door 3 above the burner hearth 2, and the lower section of the burner hearth 2 is set It is equipped with fire grate, the fire grate is the prior art, is not shown, ash storing chamber, the furnace body 1 are provided with below the fire grate Rear upper be provided with the smoke discharging pipe 4 being connected to the burner hearth 2, the smoke discharging pipe 4 is arranged vertically upwards, the smoke evacuation The top end of pipeline 4 is provided with smoke outlet 5, and exhaust valve S6 is correspondingly arranged at the smoke outlet 5, and the furnace body 1 is upper The rear portion of the burner hearth 2 is provided with logical a heatable brick bed interface 13, is correspondingly arranged on logical a heatable brick bed valve at the logical a heatable brick bed interface 13；The burner hearth 2 top is provided with crater 6, is provided with second-time burning air feed system S1 at the crater 6, the crater 6 with it is described It is provided with the heat exchanging chamber 7 being connected to the smoke discharging pipe 4 between fire door 3, is equipped on the fire door 3 positioned at the heat exchanging chamber 7 Interior flue gas guides fire distribution unit S2, the flue gas guidance fire distribution unit S2 to be arranged on the second-time burning air feed system S1 Side；The front of the furnace body 1 is provided with the coal filling hole 8 being connected to the burner hearth 2, and correspondence is hingedly equipped with outside the coal filling hole 8 Coal smoke-backflow-proof sealing device S3；The heat exchanging water-jacket 9 being connected to, the smoke evacuation are provided on the burner hearth 2 and the smoke discharging pipe 4 It is provided with the efficient heat-collecting system S4 being connected to the heat exchanging water-jacket 9 in pipeline 4, is provided on the outer wall of the smoke discharging pipe 4 Flue deashing device S5 corresponding with the efficient heat-collecting system S4, the lower rear of the furnace body 1 are provided with and the heat exchange The explosion-proof valve 10 that water jacket 9 is connected to, the explosion-proof valve 10 have explosion-proof, in emergency circumstances, the air pressure superelevation in heating stove, meeting Wash explosion-proof valve 10 open, automatic to be vented, air pressure is automatically closed again after falling after rise, the operating pressure 0.15-0.2MPa of the explosion-proof valve 10, Inlet and outlet diameter is 25mm；The heat exchanging water-jacket 9 connect with heating terminal, and the heating terminal is radiator；The smoke exhaust pipe The water inlet 11 that connection is connected to the heating terminal, the lower section of the furnace body 1 are provided on the heat exchanging water-jacket 9 outside road 4 Rear portion is provided with the water return outlet 12 being connected to the heat exchanging water-jacket 9, and the water return outlet 12 is connected to the heating terminal, for real Water circulation in existing radiator, provides heat for radiator；The second-time burning air feed system S1 and flue gas guidance are with fire Device S2 improves coal burning adequacy, not only reduces pollution, but also improve the thermal efficiency of heating stove；The coal smoke-backflow-proof Sealing device S3 has good sealing effect, prevents harmful smoke from entering to indoor generation security risk；Efficient heat-collecting system S4, which is substantially reduced, to be discharged into outdoor heat, and the utilization rate of heat is improved；The configuration of the present invention is simple designs reasonable, Neng Goushi Now second of full combustion not only reduces environmental pollution, but also sufficiently improves the utilization rate of heat, improves the thermal effect of heating stove Rate.

Referring to figs. 2 and 3, the flue gas guidance fire distribution unit S2 includes being mounted on above the burner hearth 2 to match fiery disk S201, the bottom with fiery disk S201 are provided with into burner S202, and the size into burner S202 is greater than on the burner hearth 2 The size of the crater 6, the top edge with fiery disk S201 are provided with the disk edge that card is placed on 3 edge of fire door S203, it is described to extend with fiery disk S201 from top-to-bottom inward slant, it is circumferentially provided on the side wall with fiery disk S201 It is multiple for guide flue gas and heat with burner S204；From the crater 6 of the burner hearth 2 come out flare, flue gas, Heat can be flowed out uniformly through described in described match on fiery disk S201 side wall with burner S204, towards described with fiery disk S201 surrounding Play enters in the heat exchanging chamber 7 of 2 top of burner hearth, will not directly all since flare, flue gas, heat are broken up It is flowed out from the smoke discharging pipe 4, flare, the heat on the one hand continuing play in the heat exchanging chamber 7 can be in the heat exchanging chambers 7 The water jacket of surrounding continues to heat, and guarantees the utilization rate of heat, improves the thermal efficiency of heating stove；On the other hand it is changed described Continue the flue gas of play in hot chamber 7 during play, can be mixed with the air in the heat exchanging chamber 7, to not combustion completely The flue gas of burning carries out second-time burning, increases the combustion utilization efficiency of flue gas, can further to the water jacket in the heat exchanging chamber 7 into Row heating, improves the thermal efficiency of heating stove, aphlogistic flue gas and a small amount of heat can be flowed out by smoke discharging pipe 4.

The disk is provided with location hole S205 along S203, and 3 edge of fire door is provided with and the location hole S205 When installation, the positioning column S206 is inserted into the location hole S205 by mating positioning column S206, then by institute It states disk and is placed on 3 edge of fire door along S203 card, it is in the present invention, described fixed for limiting the position for matching fiery disk S201 Position column S206 is centered around 3 edge of the fire door setting, and 4 farthest of smoke discharging pipe described in positional distance.

In order to further reduce heat loss, the size with burner S204 at the smoke discharging pipe 4 is small In far from the size with burner S204 at the smoke discharging pipe 4；In the present embodiment, maximum sized described with burner S204 is positioned close to the nearest position the location hole S205, so that after the present embodiment is installed on the fire door 3, size It is maximum described farthest with distance of the burner S204 apart from the smoke discharging pipe 4, it is smallest size of described with burner S204 distance The distance of the smoke discharging pipe 4 is nearest；The flare that comes out in this way with burner S204 described in from the smoke discharging pipe 4, Flue gas, heat are less than far from the flare come out with burner S204, the flue gas, heat at the smoke discharging pipe 4, described to match Flare that burner S204 comes out, flue gas, heat mainly all from far from being flowed out with burner S204 described in from the smoke discharging pipe 4, It increases the flare come out, flue gas, the heat with burner S204 to stop the more time in the heat exchanging chamber 7, Ke Yiyu More air contact full combustion, heat to the water jacket of surrounding.

Referring to fig. 4, the second-time burning air feed system S1 includes the secondary air chamber that 2 top of burner hearth is arranged in S101, the secondary air chamber S101 are circumferentially positioned at the top of the crater 6 on the burner hearth 2, the secondary air chamber Multiple secondary air outlet S102 are provided on the inner wall of S101, the secondary air outlet S102 surround and is arranged in the secondary air On chamber S101 inner wall；The air inlet S103 being connected to the secondary air chamber S101 is provided on 1 side wall of furnace body；The furnace 1 side wall of body be located at outside the air inlet S103 be equipped on the outside of air inlet box S104, the air inlet box S104 be provided with fixation into Air holes S105, the fixed air inlet hole S105 are located at the downside of the air inlet S103；Referring to fig. 4, wherein filled arrows represent Air direct, hollow arrow represents flue gas trend, and when work, air enters from the fixed air inlet hole S105, is then passed through institute Air inlet S103 is stated to flow into the secondary air chamber S101, then by the secondary air chamber S101 it is described it is secondary go out Air port S102 outflow can be with after not sufficiently combusted flue gas is flowed out from the crater 6 upwards for the first time in the burner hearth 2 The air contact flowed out from the secondary air outlet S102, further produces second of burning, so that in flue gas for the first time Not sufficiently combusted pernicious gas CO, SO2, coal tar etc. are fully burned, and are further that the water jacket in the furnace body 1 carries out Heating improves the thermal efficiency of heating stove, and pernicious gas is obviously less in the flue gas after the completion of second of burning, passes through institute State the less pollution that smoke discharging pipe 4 is expelled to outdoor flue gas.

Due at the air inlet S103 distance of the secondary air outlet S102 apart from the air inlet S103 compared with Closely, the air capacity of the secondary air outlet S102 therefore at the air inlet S103 is more；Close to the air inlet Air at S103 needs described in flowing could arrive at the separate air inlet S103 in the secondary air chamber S101 Secondary air outlet S102, therefore the air capacity far from the secondary air outlet S102 at the air inlet S103 is less, therefore Flue gas close to the place the air inlet S103 can be better than the combustion efficiency of the flue gas at the separate air inlet S103, and in order into One step improves the burning adequacy for the flue gas being located remotely from the air inlet S103, therefore, far from the air inlet S103 The size of the secondary air outlet S102 be greater than the size of the secondary air outlet S102 at the air inlet S103； In this way, can be more from the air capacity being discharged far from the secondary air outlet S102 from air inlet S103, it burns more abundant.

When room pressure is lower, it may appear that occurred from the air inlet S103 to the phenomenon that indoor smoke-returning, if by institute The setting of air inlet S103 described in fixed air inlet hole S105 face is stated, the flue gas flow backwards from the air inlet S103 can be directly from described Fixed air inlet hole S105 flow to interior, so that room air is dirty, and has security risk, and in the present embodiment, it will be described The downside of the air inlet S103 is arranged in fixed air inlet hole S105, the movement travel of cigarette is increased down, from the air inlet The flue gas needs that S103 is flow backwards, which move downward, to flow out from the fixed air inlet hole S105, therefore, by the fixed air inlet hole The downside of the air inlet S103 is arranged in S105, when can be effectively prevented at the air inlet S103 to indoor smoke-returning, keeps away Exempt from directly to flow out out of described fixed air inlet hole S105, plays the effect for hindering cigarette.

Referring to figs. 5 and 6, the coal smoke-backflow-proof sealing device S3 includes fire door shell, and the fire door shell includes furnace Along S302, the fire door is hinged on described add along one end of S302 for door-plate S301 and the fire door being enclosed on the stove door plant S301 On coal mouth 8, the fire door is equipped with the sealing for forcing the fire door shell to compress towards the coal filling hole 8 along the other end of S302 Pressing device；The side of the stove door plant S301 towards the coal filling hole 8 is equipped with fireproof heat insulating box S303, the fireproof heat insulating Box S303 is welded on the stove door plant S301, and fireproof heat insulating slurry S304 is equipped in the fireproof heat insulating box S303, described anti- It is provided with heat preservation slurry added holes S305 on fiery incubation chamber S303, is set between the fireproof heat insulating box S303 and the stove door plant S301 Multiple heat preservation slurry outflow hole S306 are equipped with, the fireproof heat insulating box S303 and the fire door are fixedly installed with fire prevention between S302 Seal trim strip S307.It include perlite, cement grout, fire resistant adhesive in the fireproof heat insulating slurry S304, so that described anti- Fire heat preservation slurry S304 has sticky effect, while having heat insulation effect after solidifying；The fire proof seal press strip S307 includes fire prevention Rock wool is sealed, one layer of fireproof heat insulating is wrapped up outside the fire proof seal rock wool and starches S304.

When production, the fireproof heat insulating box S303 is weldingly fixed on the stove door plant S301 first, then passes through institute It states heat preservation slurry added holes S305 and liquid fireproof heat insulating slurry S304 is added, since the fireproof heat insulating slurry S304 is at this time Liquid is flowable, therefore can starch outflow hole S306 by the heat preservation and flow into the fireproof heat insulating box S303 and the fire door Between S302, at this time by the fire proof seal rock wool tightly fill in the fireproof heat insulating box S303 and the fire door along S302 it Between, the fireproof heat insulating slurry S304 is constantly added until being filled in the fireproof heat insulating box S303；Be then allowed to stand so that Liquid fireproof heat insulating slurry S304 solidification starches S304, the fireproof heat insulating box S303 in the fireproof heat insulating of fixing shape The fireproof heat insulating slurry S304 of fixing shape is inside produced, can also paste and be enclosed with simultaneously outside the fire proof seal rock wool after solidification One layer of fireproof heat insulating starches S304, completes.Since liquid fireproof heat insulating slurry S304 is starched by the heat preservation Outflow hole S306 flows into the fireproof heat insulating box S303 and the fire door between S302, when fireproof heat insulating slurry S304 is solidifying Gu after, the fire proof seal rock wool is fixed on the fireproof heat insulating box S303 and the fire door between S302, described in closing When fire door shell, it can be tightly fitted in 8 edge of coal filling hole, play sealing effect.

The fireproof heat insulating box S303, fireproof heat insulating slurry S304 have fire prevention and insulation effect, effectively prevent being burnt It ruins；Simultaneously as the fireproof heat insulating box S303, the fireproof heat insulating slurry S304 increase fire door outer casing thickness, it can be effective Heat is isolated, prevents heat loss, and guarantees that the fire door shell is not susceptible to deform；The fire door shell closing process In, the seal pressing device can force the fire door shell to compress towards the coal filling hole 8, the fire proof seal press strip S307 It is tightly fitted in 8 edge of coal filling hole, after the fire door shell is closed, the fire proof seal press strip S307 and the coal filling hole To be tightly connected between 8, the fire proof seal press strip S307 has fire prevention, sealing, anti-suck effect, effectively prevent furnace endogenous fire Seedling, Mars, harmful smoke, inflammable and explosive flue gas enter interior, improve safety in utilization, reduce indoor pollution；Structure Design is rationally, sealing effect is good, will not deform or burn.

The seal pressing device includes the clip-connecting rod S308 being transversely mounted on the coal filling hole 8 and is transversely mounted on institute It states and is hinged with pressure plate S310, the pressure plate S310 on the hinge column S309, the hinge column S309 of the end stove door plant S301 One end be provided with the clamping groove S311 with the clip-connecting rod S308 compression fit, the other end of the pressure plate S310 is connected with Spanner S312 is compressed, is provided with the clamping for forcing the fire door shell to compress towards the coal filling hole 8 on the clamping groove S311 Face S313.When closing the fire door shell, pull the compression spanner S312 downwards first, the compression spanner S312 around The hinge column S309 rotation, the clamping groove S311 is moved upwards towards the direction the clip-connecting rod S308, described referring to Fig. 7 In clamping groove S311 motion process, the card access surface S313 can be contacted with the clip-connecting rod S308 first, when the compression spanner S312 continues during pulling downwards, and the clip-connecting rod S308 is opposite to be moved along the card access surface S313, in motion process, institute Stating clip-connecting rod S308 can force the fire door shell to compress towards the coal filling hole 8, when the clip-connecting rod S308 move to it is described When clamping groove S311 minimum point, the clamping groove S311 can be stuck in the clip-connecting rod S308, and the fire door shell is locked, this When, the fire proof seal press strip S307 is tightly fitted in 8 edge of coal filling hole, and sealing effect is best.

Referring to Fig. 8, the efficient heat-collecting system S4 includes more choked flow heat exchanger tubes being connected to the heat exchanging water-jacket 9 S401, the choked flow heat exchanger tube S401 are provided with three layers and are distributed in mountain shape, and the choked flow heat exchanger tube S401 of adjacent two layers is vertical To Heterogeneous Permutation, the gap between the choked flow heat exchanger tube S401 of phase same layer is outer less than the choked flow heat exchanger tube S401 Diameter.Compared with prior art, increase on furnace body 1 and be provided with the heat exchanging water-jacket 9, the choked flow heat exchanger tube S401, work as flue gas When carrying heat by the smoke discharging pipe 4 discharge, it can successively pass through the heat exchanging water-jacket 9, the choked flow heat exchanger tube S401, fill Divide and utilize the heat absorption in flue gas, so that heat makes full use of, improves the thermal efficiency of heating stove；Wherein, the choked flow is changed Heat pipe S401 also have the effect of hinder heat quickly through, that is, increase heat movement travel so that heat is slow It is flowed out from the smoke discharging pipe 4, increases heat residence time in the smoke discharging pipe 4, realize the further abundant of heat It utilizes.

Referring to Fig. 8, the choked flow heat exchanger tube S401 is provided with three layers of total six roots of sensation, is distributed in mountain shape, working principle are as follows: work as heat After amount comes out out of described burner hearth 2, it is first on the choked flow heat exchanger tube S401 of lowermost layer, heat first can be by most bottom The choked flow heat exchanger tube S401 of layer breaks up, and is no longer upward vertical movement, and in order to avoid the choked flow heat exchanger tube S401 meeting Cornering maneuver, which occurs, can also be forced cornering maneuver due to touching choked flow heat exchanger tube S401 when moving to layer second from the bottom, And so on, it continues up, until discharge；In heat motion process, be primarily due to the choked flow heat exchanger tube S401 with It, can be to the choked flow heat exchanger tube S401 and the heat exchanging water-jacket 9 in heat motion process with the presence of water in the heat exchanging water-jacket 9 Interior water is heated, and is forced cornering maneuver additionally, due to heat, increases travel of the heat in the smoke discharging pipe 4, It is absorbed and utilized so that heat rests in the smoke discharging pipe 4 more by the heat exchanging water-jacket 9.

Gap between the choked flow heat exchanger tube S401 of phase same layer is less than the outer diameter of the choked flow heat exchanger tube S401, i.e., From top layer to as viewed from lowest level, gap is not present known to observation between the choked flow heat exchanger tube S401, guarantees that heat is not straight It connects and is discharged vertically upward, but can at least have a cornering maneuver (choked flow in addition to being located at bottom both ends exchanges heat There are gap between pipe S401, the choked flow heat exchanger tube S401 and the heat exchanging water-jacket 9 due to being located at bottom both ends, Heat can be by gap upward vertical movement, but during moving upwards, and heat can mainly be absorbed by the heat exchanging water-jacket 9, because This vertically upward to be discharged to outdoor heat seldom, can be ignored).

Referring to Fig. 9 and Figure 10, the flue deashing device S5 includes the deashing being arranged on the outer wall of the smoke discharging pipe 4 Mouthful, the cleaning door passes through the heat exchanging water-jacket 9 and is connected to the heat exchanging chamber 7, corresponding detachable installation on the cleaning door There is cover board S501, is provided with fixed device between the cleaning door and the cover board S501；The cleaning door includes respectively corresponding The side cleaning door S502 of the two sides choked flow heat exchanger tube S401 is set and is correspondingly arranged at below the choked flow heat exchanger tube S401 Ash port S503, the two side cleaning door S502 are symmetricly set on the side wall of the heat exchanging water-jacket 9, the ash port S503 It is arranged on the bottom wall of the heat exchanging water-jacket 9.The side cleaning door S502 is for clearing up the choked flow heat exchanger tube S401, described changing Dust on hot water jacket 9, the ash port S503 are used to clear up the dust for accumulating and falling in below the choked flow heat exchanger tube S401；Behaviour When making, can by hand-held hairbrush or scraper plate, across the side cleaning door S502 by the choked flow heat exchanger tube S401, described change Dust on 9 side wall of hot water jacket cleans up, and the dust cleaned up can fall the furnace body 1 of the lower section in the choked flow heat exchanger tube S401 On inner wall, when the dust of accumulation is more, the ash port S503 is opened, is accumulated in the lower section for stating choked flow heat exchanger tube S401 Dust can easily be cleaned up；Simple structure and reasonable design, cleaning are convenient；Be conducive to quickly clean in smoke discharging pipe 4 Dust.

Referring to Figure 10, the fixed device includes the fixed transverse rod S504 being fixed on the cleaning door, the fixed cross Bar S504 passes through the center of the cleaning door, and the both ends of the fixed transverse rod S504 are respectively welded at the inner wall of the cleaning door On, the center of the cleaning door is fixedly installed with threaded post S505 outward, and the cover board S501 is sleeved on the threaded post S505 On, the outside screw on the threaded post S505 positioned at the cover board S501 is connected with fastening bolt S506.It, will be described when installation Cover board S501 is sleeved on the threaded post S505, and the fastening bolt S506 precession is then threaded in the screw thread again On column S505, the cover board S501 is fixedly mounted at the cleaning door by the fastening bolt S506；When disassembly, first by institute It states fastening bolt S506 to screw out from the threaded post S505, then takes the cover board S501 from the threaded post S505 Under, it can finally clear up the dust in the smoke discharging pipe 4.

The exhaust valve S6 is identical as the structure of the logical a heatable brick bed valve and working principle, then this is with exhaust valve S6 Example illustrates its structure and working principle；Referring to Figure 11 and Figure 12, the exhaust valve includes being rotatably installed on the smoke outlet 5 Smoke evacuation adjusting rod S601, be fixedly installed with open and close on the smoke evacuation adjusting rod S601 in the smoke outlet 5 Smoke evacuation the adjustable plate S602, the 5 restricted smoke evacuation adjustable plate S602 of interior setting of smoke outlet of the smoke outlet 5 rotate 90 ° Smoke evacuation start-stop gag lever post S603, the smoke evacuation start-stop gag lever post S603 inclination is fixed on the inner wall of the smoke outlet 5, is located at Smoke evacuation limitation anti-drop rod S604 is installed, the smoke evacuation limits anticreep on the smoke evacuation adjusting rod S601 in the smoke outlet 5 One end of bar S604 is resisted against on the inner wall of the smoke outlet 5；The row is stretched out in wherein one end of the smoke evacuation adjusting rod S601 Mouth 5, which is externally connected on smoke evacuation regulation handle S605, the smoke evacuation adjusting rod S601, is provided with smoke evacuation holddown spring S606, described Smoke evacuation holddown spring S606 be sleeved on the smoke evacuation adjusting rod S601, it is described discharge fume holddown spring S606 both ends respectively with institute State smoke evacuation regulation handle S605 and the contact of 5 outer wall of the smoke outlet.In use, the hand-held rotation smoke evacuation regulation handle S605, The smoke evacuation regulation handle S605 can overcome smoke evacuation start-stop gag lever post S603 effect rotation, and the smoke evacuation regulation handle S605 drives The adjusting rod S601 that discharges fume is rotated, while the smoke evacuation adjustable plate S602 can also be rotated with the smoke evacuation regulation handle S605, institute Smoke evacuation regulation handle S605 is stated when stopping operating, the smoke evacuation limits anti-drop rod S604 and can limit the smoke evacuation adjustable plate S602 It is remained stationary in fixed position；The smoke evacuation start-stop gag lever post S603 has restriction effect, limits the smoke evacuation adjustable plate S602 There can only be 90 ° of rotation amplitude, prevent in rotation process since misoperation rotation is excessive；The configuration of the present invention is simple, design Rationally, easy to operate, can be suitably used for logical a heatable brick bed, on the logical dual-purpose heating stove of heating.

When the smoke evacuation adjustable plate S602 turns to horizontal position, the smoke evacuation adjustable plate S602 touches the smoke evacuation The top of start-stop gag lever post S603, when the smoke evacuation adjustable plate S602 turns to vertical position, the smoke evacuation adjustable plate S602 Touch the bottom end of the smoke evacuation start-stop gag lever post S603；The smoke evacuation start-stop gag lever post S603 has restriction effect, limits institute The rotation amplitude that smoke evacuation adjustable plate S602 there can only be 90 ° is stated, is prevented since misoperation rotation is excessive in rotation process, it is described When smoke outlet 5 is opened, the smoke evacuation adjustable plate S602 is vertical position, when the smoke outlet 5 is closed, the smoke evacuation adjustable plate S602 rotates 90 ° to horizontal position.

The smoke evacuation start-stop gag lever post S603 prevents the smoke evacuation adjusting rod S601 to be detached from from the smoke outlet 5, described Smoke evacuation limitation anti-drop rod S604 has position-limiting action, realizes that the smoke evacuation adjusting rod S601 is mounted at the smoke outlet 5.

Smoke evacuation holddown spring S606 is provided on the smoke evacuation adjusting rod S601, the smoke evacuation holddown spring S606 is sleeved on On the smoke evacuation adjusting rod S601, it is described smoke evacuation holddown spring S606 both ends respectively with the smoke evacuation regulation handle S605, institute State the contact of 5 outer wall of smoke outlet.When needing to rotate the smoke evacuation adjusting rod S601, needed when rotating the smoke evacuation regulation handle S605 The pressure of the smoke evacuation holddown spring S606 is overcome just to be able to achieve rotation, after the completion of rotation, the smoke evacuation holddown spring The both ends of S606 can be pressed respectively against on the smoke evacuation regulation handle S605 and 5 outer wall of smoke outlet, the smoke evacuation adjusting rod S601 can be forced not to be able to rotate, and realize the fixation of turned position, prevent that shadow is freely rotated in the smoke evacuation adjusting rod S601 generation Ring the using effect of heating stove.

The logical a heatable brick bed valve includes the logical a heatable brick bed adjusting rod being rotatably installed on the logical a heatable brick bed interface 13, is connect positioned at the logical a heatable brick bed The logical a heatable brick bed adjustable plate for opening and closing the logical a heatable brick bed interface 13 is fixedly installed on the logical a heatable brick bed adjusting rod in mouth 13, it is described logical The restricted logical a heatable brick bed adjustable plate of setting rotates 90 ° of logical a heatable brick bed start-stop gag lever post, the logical a heatable brick bed start-stop gag lever post in a heatable brick bed interface 13 Inclination is fixed on the inner wall of the logical a heatable brick bed interface 13, is equipped on the logical a heatable brick bed adjusting rod in the logical a heatable brick bed interface 13 Logical a heatable brick bed limits anti-drop rod, and one end of the logical a heatable brick bed limitation anti-drop rod is resisted against on the inner wall of the logical a heatable brick bed interface 13；The logical a heatable brick bed Wherein one end of adjusting rod stretches out the logical a heatable brick bed interface 13 and is externally connected with logical a heatable brick bed regulation handle, is provided on the logical a heatable brick bed adjusting rod Logical a heatable brick bed holddown spring, the logical a heatable brick bed holddown spring are sleeved on the logical a heatable brick bed adjusting rod, the both ends point of the logical a heatable brick bed holddown spring It is not contacted with the logical a heatable brick bed regulation handle and logical 13 outer wall of a heatable brick bed interface.The structure and working principle of the logical a heatable brick bed valve with The exhaust valve is identical, is not repeated to describe herein.

The above shows and describes the basic principle, main features and advantages of the invention.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this The principle of invention, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes Change and improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention by appended claims and its Equivalent thereof.

Claims (10)

1. double mode flue gas emission second-time burning heating stove, including furnace body, it is provided with taper burner hearth in the furnace body front, it is described Furnace body top is provided with the fire door above the burner hearth, and fire grate, the lower section of the fire grate are provided with below the burner hearth It is provided with ash storing chamber, the rear upper of the furnace body is provided with the smoke discharging pipe being connected to the burner hearth, and the smoke discharging pipe is perpendicular It directly sets up, the top end of the smoke discharging pipe is provided with smoke outlet, it is characterised in that: be correspondingly arranged at the smoke outlet There is exhaust valve, the rear portion that the burner hearth is located on the furnace body is provided with logical a heatable brick bed interface, and the logical a heatable brick bed interface is correspondingly arranged There is logical a heatable brick bed valve；It is provided with crater at the top of the burner hearth, second-time burning air feed system is provided at the crater, it is described It is provided with the heat exchanging chamber being connected to the smoke discharging pipe between crater and the fire door, is equipped on the fire door described in being located at Flue gas in heat exchanging chamber guides fire distribution unit, and the flue gas guidance fire distribution unit is arranged on the second-time burning air feed system Side；The front of the furnace body is provided with the coal filling hole being connected to the burner hearth, corresponds to outside the coal filling hole and is hingedly equipped with coal Smoke-backflow-proof sealing device；It is provided with the heat exchanging water-jacket being connected on the burner hearth and the smoke discharging pipe, is set in the smoke discharging pipe It is equipped with the efficient heat-collecting system being connected to the heat exchanging water-jacket, is provided on the outer wall of the smoke discharging pipe and the efficient heat-collecting The corresponding flue deashing device of system, the lower rear of the furnace body are provided with the explosion-proof valve being connected to the heat exchanging water-jacket；Institute Heat exchanging water-jacket is stated to connect with heating terminal.

2. double mode flue gas emission second-time burning heating stove as described in claim 1, it is characterised in that: the flue gas guidance is matched Fiery device includes being mounted on above the burner hearth to match fiery disk, and the bottom with fiery disk is provided with into burner, described into burner Size be greater than the burner hearth on the crater size, the top edge with fiery disk is provided with card and is placed on the fire door The disk edge at edge, it is described to extend with fiery disk from top-to-bottom inward slant, it is circumferentially provided on the side wall with fiery disk more It is a for guide flue gas and heat with burner, the size with burner at the smoke discharging pipe is less than far from described in The size with burner at smoke discharging pipe, the disk along being above provided with location hole, the fire door edge be provided with it is described The mating positioning column of location hole.

3. double mode flue gas emission second-time burning heating stove as described in claim 1, it is characterised in that: the second-time burning supplies Wind system includes the secondary air chamber that the roof of the furnace is arranged in, and the secondary air chamber is circumferentially positioned at institute on the burner hearth The top of crater is stated, multiple secondary air outlets are provided on the inner wall of the secondary air chamber, the secondary air outlet is surround It is arranged on the secondary air cavity wall；The air inlet being connected to the secondary air chamber is provided on the sidewall of the furnace body, The size of the secondary air outlet far from the air inlet is greater than the secondary air outlet close to the air inlet Size；The sidewall of the furnace body, which is located at outside the air inlet, is equipped with air inlet box, is provided with fixed air inlet on the outside of the air inlet box Hole, the fixed air inlet hole are located at the downside of the air inlet.

4. double mode flue gas emission second-time burning heating stove as described in claim 1, it is characterised in that: the coal smoke-backflow-proof Sealing device includes fire door shell, and the fire door shell includes stove door plant and the fire door edge that is enclosed on the stove door plant, described The one end on fire door edge is hinged on the coal filling hole, and the other end on the fire door edge, which is equipped with, forces the fire door shell towards institute State the seal pressing device of coal filling hole compression；The side of the stove door plant towards the coal filling hole is equipped with fireproof heat insulating box, institute It states fireproof heat insulating box to be welded on the stove door plant, fireproof heat insulating slurry, the fireproof heat insulating is installed in the fireproof heat insulating box It is provided with heat preservation slurry added holes on box, multiple heat preservation slurry outflow holes are provided between the fireproof heat insulating box and the stove door plant, The fireproof heat insulating box and the fire door are fixedly installed with fire proof seal press strip between.

5. double mode flue gas emission second-time burning heating stove as claimed in claim 4, it is characterised in that: the sealing compresses dress The hinge column set the clip-connecting rod including being transversely mounted on the coal filling hole and be transversely mounted on the stove door plant end, the hinge It connects and is hinged with pressure plate on column, one end of the pressure plate is provided with the clamping groove with the clip-connecting rod compression fit, the pressure The other end of tight plate is connected with compression spanner, is provided in the clamping groove and forces the fire door shell towards the coal filling hole pressure Tight card access surface.

6. second-time burning high efficient heating furnace as described in claim 1, it is characterised in that: the efficient heat-collecting system includes and institute More choked flow heat exchanger tubes of heat exchanging water-jacket's connection are stated, the choked flow heat exchanger tube is provided with three layers and is distributed in mountain shape, adjacent two layers The longitudinally displaced arrangement of choked flow heat exchanger tube, the gap between the choked flow heat exchanger tube of phase same layer is less than the choked flow and changes The outer diameter of heat pipe.

7. double mode flue gas emission second-time burning heating stove as claimed in claim 6, it is characterised in that: the flue deashing dress Set including the smoke discharging pipe is set outer wall on cleaning door, the cleaning door passes through and the heat exchanging water-jacket and changes with described Hot chamber is connected to, and correspondence is detachably equipped with cover board on the cleaning door, is provided with fixation between the cleaning door and the cover board Device；The cleaning door includes respectively corresponding the side cleaning door that choked flow heat exchanger tube two sides are arranged in and being correspondingly arranged at described Ash port below choked flow heat exchanger tube, the two side cleaning doors are symmetricly set on the side wall of the heat exchanging water-jacket, described to fall ash Mouth is arranged on the bottom wall of the heat exchanging water-jacket.

8. double mode flue gas emission second-time burning heating stove as claimed in claim 7, it is characterised in that: the fixed device packet The fixed transverse rod being fixed on the cleaning door is included, the fixed transverse rod passes through the center of the cleaning door, the fixed transverse rod Both ends be respectively welded on the inner wall of the cleaning door, the center of the cleaning door is fixedly installed with threaded post outward, described Cover board is sleeved in the threaded post, and the outside screw in the threaded post positioned at the cover board is connected with fastening bolt.

9. double mode flue gas emission second-time burning heating stove as described in claim 1, it is characterised in that: the exhaust valve packet The smoke evacuation adjusting rod being rotatably installed on the smoke outlet is included, fixed peace on the smoke evacuation adjusting rod in the smoke outlet Equipped with the smoke evacuation adjustable plate for opening and closing the smoke outlet, the restricted smoke evacuation adjustable plate rotation of setting in the smoke outlet 90 ° of smoke evacuation start-stop gag lever post, the smoke evacuation start-stop gag lever post inclination are fixed on the inner wall of the smoke outlet, are located at the row Smoke evacuation limitation anti-drop rod is installed, one end of the smoke evacuation limitation anti-drop rod is resisted against institute on the smoke evacuation adjusting rod in mouth It states on the inner wall of smoke outlet；Wherein one end of the smoke evacuation adjusting rod stretches out the smoke outlet and is externally connected with smoke evacuation regulation handle, Smoke evacuation holddown spring is provided on the smoke evacuation adjusting rod, the smoke evacuation holddown spring is sleeved on the smoke evacuation adjusting rod, institute The both ends for stating smoke evacuation holddown spring are contacted with the smoke evacuation regulation handle and the smoke outlet outer wall respectively.

10. the double mode flue gas emission second-time burning heating stove as described in claim 1 to 9 any claim, feature exist In: the logical a heatable brick bed valve includes the logical a heatable brick bed adjusting rod being rotatably installed on the logical a heatable brick bed interface, in the logical a heatable brick bed interface It is fixedly installed with the logical a heatable brick bed adjustable plate for opening and closing the logical a heatable brick bed interface on the logical a heatable brick bed adjusting rod, is set in the logical a heatable brick bed interface It is equipped with and limits the logical a heatable brick bed start-stop gag lever post that the logical a heatable brick bed adjustable plate rotates 90 °, the logical a heatable brick bed start-stop gag lever post inclination is fixed on institute On the inner wall for stating logical a heatable brick bed interface, logical a heatable brick bed limitation anti-drop rod is installed on the logical a heatable brick bed adjusting rod in the logical a heatable brick bed interface, One end of the logical a heatable brick bed limitation anti-drop rod is resisted against on the inner wall of the logical a heatable brick bed interface；It stretches wherein one end of the logical a heatable brick bed adjusting rod The logical a heatable brick bed interface is externally connected with logical a heatable brick bed regulation handle out, and logical a heatable brick bed holddown spring is provided on the logical a heatable brick bed adjusting rod, described logical A heatable brick bed holddown spring is sleeved on the logical a heatable brick bed adjusting rod, the both ends of the logical a heatable brick bed holddown spring respectively with the logical a heatable brick bed regulation handle It is contacted with the logical a heatable brick bed interface outer wall.