CN209484584U - Heat storing type energy-saving emission reduction heating furnace - Google Patents
Heat storing type energy-saving emission reduction heating furnace Download PDFInfo
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- CN209484584U CN209484584U CN201822057070.7U CN201822057070U CN209484584U CN 209484584 U CN209484584 U CN 209484584U CN 201822057070 U CN201822057070 U CN 201822057070U CN 209484584 U CN209484584 U CN 209484584U
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Abstract
The utility model belongs to recuperative heater technical field, it is proposed a kind of heat storing type energy-saving emission reduction heating furnace and heating means, including burner hearth, gas inlet, air intlet, empty cigarette arranges mouth, coal smoke arranges mouth, the side of the burner hearth is arranged at intervals with left coal gas accumulation of heat volume array, left air accumulation of heat volume array, the other side of the burner hearth is arranged at intervals with right coal gas accumulation of heat volume array, right air accumulation of heat volume array, the side of the left coal gas accumulation of heat volume array, the side of the left air accumulation of heat volume array, the side of the right coal gas accumulation of heat volume array, the port towards the burner hearth is communicated between the side and the burner hearth of the right air accumulation of heat volume array.The utility model solves the problems, such as that the coal gas in recuperative heater pipeline is discharged into atmosphere, not only waste of energy, but also causes a degree of environmental pollution.
Description
Technical field
The utility model belongs to recuperative heater technical field, is related to a kind of heat storing type energy-saving emission reduction heating furnace and heating
Method.
Background technique
Recuperative heater is substantially the combination of high-efficiency heat-accumulating heat exchanger and normal reheating furnace, mainly by heating furnace
Furnace body, regenerative chamber, exchange system and fuel, air feed and smoke evacuation system are constituted.Regenerative chamber is recuperative heater fume afterheat
The main body of recycling, it is to fill up the room shape space of heat storage, is a part of flue gas and air flow passage.In heating furnace,
Regenerative chamber always uses in pairs, and stove can use a pair, can also be with several right or even tens pairs.At home some big
On type heating furnace, forties pairs are at most used.The advantages of heat accumulating type waste heat recycles furnace temperature is more uniform since furnace is uniform,
Heating quality substantially improves, and product qualification rate increases substantially.Fuel range of choice is suitble to more greatly light oil, heavy oil, natural air-liquid
The various fuel such as liquefied oil gas especially have good preheated-combustion-supporting effect to the blast furnace gas of low heat value, producer gas.
Recuperative heater in the prior art when in use, the problem of coal gas for depositing in the duct is discharged into atmosphere, not only waste of energy,
And cause a degree of environmental pollution.
Utility model content
The utility model proposes a kind of heat storing type energy-saving emission reduction heating furnace and heating means, solve in the prior art
State problem.
The technical solution of the utility model is achieved in that
A kind of heat storing type energy-saving emission reduction heating furnace, including burner hearth, gas inlet, air intlet, empty cigarette row mouth, coal smoke row
Mouthful,
The side of the burner hearth is arranged at intervals with left coal gas accumulation of heat volume array, left air accumulation of heat volume array, the burner hearth
The other side is arranged at intervals with right coal gas accumulation of heat volume array, right air accumulation of heat volume array, the side of the left coal gas accumulation of heat volume array,
The side of the left air accumulation of heat volume array, the side of the right coal gas accumulation of heat volume array, the right air accumulation of heat volume array
The port towards the burner hearth is communicated between side and the burner hearth,
The other side of the left coal gas accumulation of heat volume array is connected to, by left coal with the gas inlet by left branch gas tube
Cigarette pipe is connected to coal smoke row's mouth,
The other side of the right coal gas accumulation of heat volume array is connected to, by right coal with the gas inlet by right branch gas tube
Cigarette pipe is connected to coal smoke row's mouth,
The other side of the left air accumulation of heat volume array is connected to, by left sky with the air intlet by left air branch pipe
Cigarette pipe is connected to the empty cigarette row mouth,
The other side of the right air accumulation of heat volume array is connected to, by right sky with the air intlet by right air branch pipe
Cigarette pipe is connected to the empty cigarette row mouth,
It is provided with left gas valve on the left branch gas tube,
It is provided with left coal smoke valve on the left coal smoke branch pipe,
It is provided with right gas valve on the right branch gas tube,
It is provided with right coal smoke valve on the right coal smoke branch pipe,
It is provided with left air valve in the left air branch pipe,
It is provided with left empty cigarette valve on the left empty cigarette pipe,
It is provided with right air valve in the right air branch pipe,
Right empty cigarette valve is provided on the right empty cigarette pipe.
As further technical solution, the sky cigarette row mouth connection is free cigarette chimney, and the coal smoke row mouth is connected with coal
Cigarette chimney is provided with air blower at the air intlet, and the gas inlet is connect with coal gas source.
As further technical solution, the gas inlet is connected with coal gas supervisor, is connected on the coal gas supervisor
First gas manifold, the second gas manifold, third gas manifold, the 4th gas manifold,
The left branch gas tube includes the first left branch gas tube, the second left branch gas tube, the left coal gas of third set gradually
Branch pipe, the 4th left branch gas tube, the right branch gas tube include the first right branch gas tube set gradually, the second right coal gas branch
Pipe, the right branch gas tube of third, the 4th right branch gas tube,
The left coal gas accumulation of heat volume array includes the first left coal gas heat storage group set gradually, the second left coal gas heat storage
The left coal gas heat storage group of group, third, the 4th left coal gas heat storage group, the right coal gas accumulation of heat volume array include set gradually
One right coal gas heat storage group, the second right coal gas heat storage group, the right coal gas heat storage group of third, the 4th right coal gas heat storage group,
First gas manifold is connected to the described first left coal gas heat storage group by the described first left branch gas tube, is logical
The described first right branch gas tube is crossed to be connected to the described first right coal gas heat storage group,
Second gas manifold is connected to the described second left coal gas heat storage group by the described second left branch gas tube, is logical
The described second right branch gas tube is crossed to be connected to the described second right coal gas heat storage group,
The third gas manifold is connected to the left coal gas heat storage group of the third by the left branch gas tube of the third, is logical
The right branch gas tube of the third is crossed to be connected to the right coal gas heat storage group of the third,
4th gas manifold is connected to the described 4th left coal gas heat storage group by the 4th left branch gas tube, is logical
The 4th right branch gas tube is crossed to be connected to the described 4th right coal gas heat storage group.
As further technical solution, the air intlet is connected with air supervisor, is connected on the air supervisor
First air is in charge of, the second air is in charge of, third air is in charge of, the 4th air is in charge of,
The left air branch pipe includes the first left air branch pipe, the second left air branch pipe, the left air of third set gradually
Branch pipe, the 4th left air branch pipe, the right air branch pipe include the first right air branch pipe set gradually, the second right air branch
Pipe, the right air branch pipe of third, the 4th right air branch pipe,
The left air accumulation of heat volume array includes the first left air heat storage group set gradually, the second left air heat storage
The left air heat storage group of group, third, the 4th left air heat storage group, the right air accumulation of heat volume array include set gradually
One right air heat storage group, the second right air heat storage group, the right air heat storage group of third, the 4th right air heat storage group,
First air, which is in charge of, to be connected to the described first left air heat storage group by the described first left air branch pipe, is logical
The described first right air branch pipe is crossed to be connected to the described first right air heat storage group,
Second air, which is in charge of, to be connected to the described second left air heat storage group by the described second left air branch pipe, is logical
The described second right air branch pipe is crossed to be connected to the described second right air heat storage group,
The third air, which is in charge of, to be connected to the left air heat storage group of the third by the left air branch pipe of the third, is logical
The right air branch pipe of the third is crossed to be connected to the right air heat storage group of the third,
4th air, which is in charge of, to be connected to the described 4th left air heat storage group by the 4th left air branch pipe, is logical
The 4th right air branch pipe is crossed to be connected to the described 4th right air heat storage group.
As further technical solution, the coal smoke row mouth is connected with coal smoke supervisor, connects on the coal smoke supervisor (54)
It is connected to that the first coal smoke is in charge of, the second coal smoke is in charge of, third coal smoke is in charge of, the 4th coal smoke is in charge of,
The left coal smoke branch pipe includes the first left coal smoke branch pipe set gradually, the second left coal smoke branch pipe, the left coal smoke of third
Branch pipe, the 4th left coal smoke branch pipe, the right coal smoke branch pipe include the first right coal smoke branch pipe set gradually, the second right coal smoke branch
Pipe, the right coal smoke branch pipe of third, the 4th right coal smoke branch pipe,
The left coal gas accumulation of heat volume array includes the first left coal gas heat storage group set gradually, the second left coal gas heat storage
The left coal gas heat storage group of group, third, the 4th left coal gas heat storage group, the right coal gas accumulation of heat volume array include set gradually
One right coal gas heat storage group, the second right coal gas heat storage group, the right coal gas heat storage group of third, the 4th right coal gas heat storage group,
First coal smoke, which is in charge of, to be connected to, by the with the described first left coal gas heat storage group by the first left coal smoke branch pipe
One right coal smoke branch pipe is connected to the described first right coal gas heat storage group,
Second coal smoke, which is in charge of, to be connected to, by the with the described second left coal gas heat storage group by the second left coal smoke branch pipe
Two right coal smoke branch pipes are connected to the described second right coal gas heat storage group,
The third coal smoke, which is in charge of, to be connected to, by the with the left coal gas heat storage group of the third by the left coal smoke branch pipe of third
Three right coal smoke branch pipes are connected to the right coal gas heat storage group of the third,
4th coal smoke, which is in charge of, to be connected to, by the with the described 4th left coal gas heat storage group by the 4th left coal smoke branch pipe
Four right coal smoke branch pipes are connected to the described 4th right coal gas heat storage group.
As further technical solution, the sky cigarette row mouth connection is free cigarette to be responsible for, and is connected on the sky cigarette supervisor
First empty cigarette is in charge of, be in charge of, third sky cigarette is in charge of by cigarette for the second sky, the 4th empty cigarette is in charge of,
The left empty cigarette pipe includes the first left empty cigarette pipe set gradually, the second left empty cigarette pipe, the left empty cigarette of third
Branch pipe, the 4th left empty cigarette pipe, the right empty cigarette pipe include the first right empty cigarette pipe set gradually, the second right empty cigarette
The right empty cigarette pipe of pipe, third, the 4th right empty cigarette pipe,
The left air accumulation of heat volume array includes the first left air heat storage group set gradually, the second left air heat storage
The left air heat storage group of group, third, the 4th left air heat storage group, the right air accumulation of heat volume array include set gradually
One right air heat storage group, the second right air heat storage group, the right air heat storage group of third, the 4th right air heat storage group,
Described first empty cigarette, which is in charge of, to be connected to the described first left air heat storage group by the described first left empty cigarette pipe, is logical
The described first right empty cigarette pipe is crossed to be connected to the described first right air heat storage group,
Described second empty cigarette, which is in charge of, to be connected to the described second left air heat storage group by the described second left empty cigarette pipe, is logical
The described second right empty cigarette pipe is crossed to be connected to the described second right air heat storage group,
The third sky cigarette, which is in charge of, to be connected to the left air heat storage group of the third by the left empty cigarette pipe of the third, is logical
The right empty cigarette pipe of the third is crossed to be connected to the right air heat storage group of the third,
Described 4th empty cigarette, which is in charge of, to be connected to the described 4th left air heat storage group by the described 4th left empty cigarette pipe, is logical
The described 4th right empty cigarette pipe is crossed to be connected to the described 4th right air heat storage group.
As further technical solution,
The first left coal gas heat storage group, the first left air heat storage group include several heat storages and are successively spaced
Setting, the second left coal gas heat storage group, the second left air heat storage group include several heat storages and successively between
Every setting, the left coal gas heat storage group of the third, the left air heat storage group of third include several heat storages and are successively spaced
Setting, the 4th left coal gas heat storage group, the 4th left air heat storage group include several heat storages and successively interval is set
It sets, the first right coal gas heat storage group, the first right air heat storage group include several heat storages and successively interval is arranged,
The second right coal gas heat storage group, the second right air heat storage group include several heat storages and successively interval setting, institute
State the right coal gas heat storage group of third, the right air heat storage group of third include several heat storages and successively interval setting, it is described
4th right coal gas heat storage group, the 4th right air heat storage group include several heat storages and successively interval setting.
As further technical solution, the left coal gas accumulation of heat volume array and the right coal gas accumulation of heat volume array positive pair
Setting, the left air accumulation of heat volume array and the right air accumulation of heat volume array positive are to setting.
The utility model also proposes a kind of heat storing type energy-saving emission reduction heating means, comprising the following steps:
S1: control valve opens and closes, and the gas inlet is continually fed into coal gas, and coal gas enters the left coal gas branch
Pipe, then heat up through the left coal gas accumulation of heat volume array, by the port to the furnace chamber inner combustion;The air intlet is held
Continuous to be passed through air, air enters the left air branch pipe, then heats up through the left air accumulation of heat volume array, by the port
To the furnace chamber inner combustion;
S2: the coal smoke that gas-fired generates at the port of the left coal gas accumulation of heat volume array side stores the right coal gas
Enter the right coal smoke branch pipe after hot volume array accumulation of heat by coal smoke row's mouth discharge;The left air accumulation of heat volume array side
The empty cigarette that air burning generates at port is to entering the right empty cigarette pipe by institute after the right air accumulation of heat volume array accumulation of heat
State the row's mouth discharge of sky cigarette;
S3: switch valve opening is to close, and closing is to open, remaining portions coal gas in the left branch gas tube, institute
State remaining portions air in left air branch pipe, remaining portions coal smoke in the right coal smoke branch pipe is retained in the right empty cigarette pipe
The empty cigarette in part;
S4: the gas inlet is continually fed into coal gas, and coal gas enters the right branch gas tube, then through the right coal gas accumulation of heat
Volume array heating, by the port to the furnace chamber inner combustion;The air intlet is continually fed into air, and air enters institute
Right air branch pipe is stated, then is heated up through the right air accumulation of heat volume array, by the port to the furnace chamber inner combustion;
S5: the coal smoke that gas-fired generates at the port of the right coal gas accumulation of heat volume array side stores the left coal gas
Enter the left coal smoke branch pipe after hot volume array accumulation of heat by coal smoke row's mouth discharge;The burning of the right air accumulation of heat volume array side
The empty cigarette that air burning generates at mouthful is arranged by empty cigarette into the left empty cigarette pipe after the left air accumulation of heat volume array accumulation of heat
Mouth discharge;
S6:S1~S5 is circuited sequentially.
As further technical solution,
Control valve opens and closes in S1 specifically: left gas valve is opened, left coal smoke valve is closed, right gas valve is closed,
Right coal smoke valve is opened, and left air valve is opened, left empty cigarette valve is closed, right air valve is opened, right empty cigarette valve is closed;
Switch valve opening is to close in S3, and closing is to open specifically: left gas valve is closed, left coal smoke valve is beaten
It opens, right gas valve opening, right coal smoke valve are closed, left air valve closing, left empty cigarette valve opening, the closing of right air valve, right empty cigarette valve
It opens.
The utility model is using principle and has the beneficial effect that
Gas inlet is continually fed into coal gas, and air intlet is continually fed into air, then controls left gas valve opening, left coal smoke
Valve is closed, right gas valve is closed, right coal smoke valve is opened, and left air valve is opened, left empty cigarette valve is closed, right air valve is opened, right sky
Cigarette valve is closed, and coal gas enters left branch gas tube by gas inlet, then heats up through left coal gas accumulation of heat volume array, by port to furnace
Chamber inner combustion;Air enters left air branch pipe by air intlet, then heats up through left air accumulation of heat volume array, by port to furnace
Chamber inner combustion, to realize the burning of the first step, it is contemplated that left coal gas accumulation of heat volume array, left air heat storage array temperature can drop
It is low, therefore carry out, the work of the other side right coal gas accumulation of heat volume array, right air accumulation of heat volume array, and left coal gas heat storage battle array
Column, left air accumulation of heat volume array pass through the rise by coal smoke and empty cigarette progress temperature, the combustion of left coal gas accumulation of heat volume array side
The coal smoke that gas-fired generates at mouth is burnt to be discharged into right coal smoke branch pipe by coal smoke row's mouth to after right coal gas accumulation of heat volume array accumulation of heat;
The empty cigarette that air burning generates at the port of left air accumulation of heat volume array side after right air accumulation of heat volume array accumulation of heat to entering
Right sky cigarette pipe is by the row's mouth discharge of empty cigarette, to realize side coal gas and air by the burning and another after the heating of its side heat storage
The heating of side coal smoke and empty cigarette to its side heat storage, the at this time discharge of coal smoke and empty cigarette are the right coal smokes by specially increasing setting
Branch pipe, right empty cigarette pipe discharge, right coal smoke branch pipe, right empty cigarette pipe only can by coal smoke and empty cigarette, can't by coal gas and
Air, therefore not will cause coal gas and be discharged into atmosphere;Switch valve opening is to close later, and closing is to open, left coal gas
Remaining portions coal gas in branch pipe, remaining portions air in left air branch pipe, remaining portions coal smoke in right coal smoke branch pipe, right sky cigarette
Remaining portions sky cigarette in pipe, this partial air, coal gas, empty cigarette, coal smoke will stop motionless;Gas inlet is continually fed into coal gas,
Coal gas enters right branch gas tube, then heats up through right coal gas accumulation of heat volume array, by port to furnace chamber inner combustion;Air intlet is held
Continuous to be passed through air, air enters right air branch pipe, then heats up through right air accumulation of heat volume array, by port to burner hearth internal combustion
It burns;The coal smoke that gas-fired generates at the port of right coal gas accumulation of heat volume array side is laggard to left coal gas accumulation of heat volume array accumulation of heat
Enter left coal smoke branch pipe by coal smoke row's mouth discharge;The empty cigarette pair that air burning generates at the port of right air accumulation of heat volume array side
Enter left empty cigarette pipe after left air accumulation of heat volume array accumulation of heat by the row's mouth discharge of empty cigarette;The above are a burn cycle, coal gas into
Mouth is continually fed into coal gas, and air intlet is continually fed into air, is to close by conversion valve opening, and closing is to open, from
And realize the burning after the coal gas of two sides and air are heated up by its side heat storage and other side coal smoke and empty cigarette to its side heat storage
Heating, and the discharge of empty cigarette and coal smoke is exclusively by left coal smoke branch pipe, right coal smoke branch pipe, left empty cigarette pipe, right empty cigarette
What the discharge of branch pipe was realized, and the left branch gas tube, right branch gas tube, left air for being specially passed through coal gas and air can't be passed through
Branch pipe, right air branch pipe, left branch gas tube, right branch gas tube, left air branch pipe, right air branch pipe are only used to be passed through coal gas and sky
Gas, in valve conversion process, left branch gas tube, left air branch pipe, will have delay not in right air branch pipe at right branch gas tube
Dynamic air and coal gas, these pipelines exactly having more will be detained coal gas in pipeline, rather than be discharged into atmosphere, therefore ingenious
Solve the problems, such as that piped gas is discharged into atmosphere in valve conversion process in the prior art, not only realizes coal well
The efficient utilization of gas, and significantly reduce atmosphere pollution and realize perfect effect.Because having left coal smoke branch pipe, the right side
The creative setting of coal smoke branch pipe, left empty cigarette pipe, right empty cigarette pipe, the discharge of empty cigarette and coal smoke are not needed by left coal gas
Branch pipe, right branch gas tube, left air branch pipe, right air branch pipe, therefore be not in the left coal gas often having in the prior art
The delay coal gas occurred in valve conversion process in branch pipe, right branch gas tube is discharged into meteor, from can be effective
The pollution of coal gas waste and environment is avoided, energy utilization rate can be improved nearly 30% or so by practical calculate.It should be noted that
It is that cutting-off valve, which executes sequence of movement, needs delay, should first closes blowing air and logical fume side, then open and need side of commutating,
To avoid the generation of suck-back phenomenon, the appearance of explosion is avoided.
Detailed description of the invention
Utility model will be further described in detail below with reference to the attached drawings and specific embodiments.
FIG. 1 is a schematic structural view of the utility model;
Fig. 2 is left coal gas heat storage array distribution schematic diagram in the utility model;
Fig. 3 is left branch gas tube structural schematic diagram in the utility model;
Fig. 4 is left coal gas heat storage array structure schematic diagram in the utility model;
Fig. 5 is working principle of the present invention (A condition) schematic diagram;
Fig. 6 is working principle of the present invention (B state) schematic diagram;
Fig. 7 is further embodiment of this invention working principle (A condition) schematic diagram;
Fig. 8 is further embodiment of this invention working principle (B state) schematic diagram;
In figure: the left coal gas accumulation of heat volume array of 2-, the left coal gas heat storage group of 201- first, the left coal gas heat storage of 202- second
Group, the left coal gas heat storage group of 203- third, the left coal gas heat storage group of 204- the 4th, the left air accumulation of heat volume array of 3-, 301- first
Left air heat storage group, the left air heat storage group of 302- second, the left air heat storage group of 303- third, the left air of 304- the 4th store
Hot body group, the right coal gas accumulation of heat volume array of 4-, the right coal gas heat storage group of 401- first, the right coal gas heat storage group of 402- second, 403-
The right coal gas heat storage group of third, the right coal gas heat storage group of 404- the 4th, the right air accumulation of heat volume array of 5-, the right air of 501- first store
Hot body group, the right air heat storage group of 502- second, the right air heat storage group of 503- third, the right air heat storage group of 504- the 4th,
The left branch gas tube of 6-, the left branch gas tube of 601- first, the left branch gas tube of 602- second, the left branch gas tube of 603- third, 604-
Four left branch gas tubes, the left coal smoke branch pipe of 7-, the left coal smoke branch pipe of 701- first, the left coal smoke branch pipe of 702- second, the left coal of 703- third
Cigarette pipe, the left coal smoke branch pipe of 704- the 4th, the right branch gas tube of 8-, the right branch gas tube of 801- first, the right branch gas tube of 802- second,
The right branch gas tube of 803- third, the right branch gas tube of 804- the 4th, the right coal smoke branch pipe of 9-, the right coal smoke branch pipe of 901- first, 902-
Two right coal smoke branch pipes, the right coal smoke branch pipe of 903- third, the right coal smoke branch pipe of 904- the 4th, the left air branch pipe of 10-, 1001- first are left
Air branch pipe, the left air branch pipe of 1002- second, the left air branch pipe of 1003- third, the left air branch pipe of 1004- the 4th, the left sky of 11-
Cigarette pipe, the left empty cigarette pipe of 1101- first, the left empty cigarette pipe of 1102- second, the left empty cigarette pipe of 1103- third, 1104- the 4th
Left sky cigarette pipe, the right air branch pipe of 12-, the right air branch pipe of 1201- first, the right air branch pipe of 1202- second, 1203- third are right
Air branch pipe, the right air branch pipe of 1204- the 4th, the right empty cigarette pipe of 13-, the right empty cigarette pipe of 1301- first, the right sky of 1302- second
Cigarette pipe, the right empty cigarette pipe of 1303- third, the right empty cigarette pipe of 1304- the 4th, 21- burner hearth, 22- gas inlet, 23- air into
Mouthful, 24- sky cigarette arranges mouth, and 25- coal smoke arranges mouth, 26- port, the left gas valve of 27-, the left coal smoke valve of 28-, the right gas valve of 29-, 30-
Right coal smoke valve, the left air valve of 31-, the left empty cigarette valve of 32-, the right air valve of 33-, the right empty cigarette valve of 34-, 35- sky cigarette chimney, 36- coal smoke
Chimney, 37- air blower, 39- coal gas supervisor, the first gas manifold of 40-, the second gas manifold of 41-, 42- third gas manifold,
The 4th gas manifold of 43-, 44- air supervisor, the first air of 45- are in charge of, and the second air of 46- is in charge of, and 47- third air is in charge of,
The 4th air of 48- is in charge of, 49- sky cigarette supervisor, and the empty cigarette of 50- first is in charge of, and the empty cigarette of 51- second is in charge of, and 52- third sky cigarette is in charge of,
The empty cigarette of 53- the 4th is in charge of, and 54- coal smoke supervisor, the first coal smoke of 55- is in charge of, and the second coal smoke of 56- is in charge of, and 57- third coal smoke is in charge of,
The 4th coal smoke of 58- is in charge of.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts
Every other embodiment obtained, fall within the protection scope of the utility model.
As shown in FIG. 1 to FIG. 8, the utility model proposes a kind of heat storing type energy-saving emission reduction heating furnace, including burner hearth 21, coal
Gas import 22, air intlet 23, empty cigarette row mouth 24, coal smoke arrange mouth 25,
The side of burner hearth 21 is arranged at intervals with left coal gas accumulation of heat volume array 2, left air accumulation of heat volume array 3, burner hearth 21 it is another
Side is arranged at intervals with right coal gas accumulation of heat volume array 4, right air accumulation of heat volume array 5, side, the left side of left coal gas accumulation of heat volume array 2
The side of air accumulation of heat volume array 3, the side of right coal gas accumulation of heat volume array 4, the side of right air accumulation of heat volume array 5 and burner hearth 21
Between be communicated with port 26 towards burner hearth 21,
The other side of left coal gas accumulation of heat volume array 2 is connected to, by left coal smoke branch with gas inlet 22 by left branch gas tube 6
Pipe 7 and coal smoke row's mouth 25 are connected to, the other side of right coal gas accumulation of heat volume array 4 is connected to by right branch gas tube 8 with gas inlet 22,
It arranges mouth 25 with coal smoke by right coal smoke branch pipe 9 to be connected to, the other side of left air accumulation of heat volume array 3 passes through left air branch pipe 10 and sky
The connection of gas import 23 is connected to by left empty cigarette pipe 11 with empty cigarette row mouth 24, and the other side of right air accumulation of heat volume array 5 passes through
Right air branch pipe 12 is connected to air intlet 23, is connected to by right empty cigarette pipe 13 with empty cigarette row mouth 24,
It is provided with left gas valve 27 on left branch gas tube 6, left coal smoke valve 28, right coal gas branch are provided on left coal smoke branch pipe 7
It is provided with right gas valve 29 on pipe 8, right coal smoke valve 30 is provided on right coal smoke branch pipe 9, is provided with left sky in left air branch pipe 10
Air valve 31 is provided with left empty cigarette valve 32 on left sky cigarette pipe 11, right air valve 33, right sky cigarette is provided in right air branch pipe 12
Right empty cigarette valve 34 is provided on pipe 13.
Further, the empty cigarette row connection of mouth 24 is free cigarette chimney 35, and coal smoke row's mouth 25 is connected with coal smoke chimney 36, air intlet
Air blower 37 is provided at 23, gas inlet 22 is connect with coal gas source.
Further, gas inlet 22 is connected with coal gas supervisor 39, is connected with the first gas manifold 40, the on coal gas supervisor 39
Two gas manifolds 41, third gas manifold 42, the 4th gas manifold 43,
Left branch gas tube 6 includes the first left branch gas tube 601, the second left branch gas tube 602, the left coal of third set gradually
Gas branch pipe 603, the 4th left branch gas tube 604, right branch gas tube 8 include first right 801, second right side of branch gas tube set gradually
The right branch gas tube 803 of branch gas tube 802, third, the 4th right branch gas tube 804,
Left coal gas accumulation of heat volume array 2 includes the first left coal gas heat storage group 201 set gradually, the second left coal gas heat storage
Group 202, the left coal gas heat storage group 203 of third, the 4th left coal gas heat storage group 204, right coal gas accumulation of heat volume array 4 include successively setting
The right coal gas heat storage group the 403, the 4th of the right coal gas heat storage group 401 of first set, the second right coal gas heat storage group 402, third is right
Coal gas heat storage group 404,
First gas manifold 40 is connected to by the first left branch gas tube 601 with the first left coal gas heat storage group 201, passes through the
One right branch gas tube 801 is connected to the first right coal gas heat storage group 401,
Second gas manifold 41 is connected to by the second left branch gas tube 602 with the second left coal gas heat storage group 202, passes through the
Two right branch gas tubes 802 are connected to the second right coal gas heat storage group 402,
Third gas manifold 42 is connected to by the left branch gas tube 603 of third with the left coal gas heat storage group 203 of third, passes through the
Three right branch gas tubes 803 are connected to the right coal gas heat storage group 403 of third,
4th gas manifold 43 is connected to by the 4th left branch gas tube 604 with the 4th left coal gas heat storage group 204, passes through the
Four right branch gas tubes 804 are connected to the 4th right coal gas heat storage group 404.
Further, air intlet 23 is connected with air supervisor 44, be connected on air supervisor 44 first air be in charge of 45, the
Two air, which are in charge of 46, third air and are in charge of the 47, the 4th air, is in charge of 48,
Left air branch pipe 10 includes the first left air branch pipe 1001, the second left air branch pipe 1002, third set gradually
Left air branch pipe 1003, the 4th left air branch pipe 1004, right air branch pipe 12 include the first right air branch pipe set gradually
1201, the right air branch pipe 1203 of the second right air branch pipe 1202, third, the 4th right air branch pipe 1204,
Left air accumulation of heat volume array 3 includes the first left air heat storage group 301 set gradually, the second left air heat storage
Group 302, the left air heat storage group 303 of third, the 4th left air heat storage group 304, right air accumulation of heat volume array 5 include successively setting
The right air heat storage group the 503, the 4th of the right air heat storage group 501 of first set, the second right air heat storage group 502, third is right
Air heat storage group 504,
First air is in charge of 45 and is connected to, passes through with the first left air heat storage group 301 by the first left air branch pipe 1001
First right air branch pipe 1201 is connected to the first right air heat storage group 501,
Second air is in charge of 46 and is connected to, passes through with the second left air heat storage group 302 by the second left air branch pipe 1002
Second right air branch pipe 1202 is connected to the second right air heat storage group 502,
Third air is in charge of 47 and is connected to, passes through with the left air heat storage group 303 of third by the left air branch pipe 1003 of third
The right air branch pipe 1203 of third is connected to the right air heat storage group 503 of third,
4th air is in charge of 48 and is connected to, passes through with the 4th left air heat storage group 304 by the 4th left air branch pipe 1004
4th right air branch pipe 1204 is connected to the 4th right air heat storage group 504.
Further, coal smoke row mouth 25 is connected with coal smoke supervisor (54), is connected with the first coal smoke on coal smoke supervisor (54) and is in charge of
55, the second coal smoke, which is in charge of 56, third coal smoke and is in charge of the 57, the 4th coal smoke, is in charge of 58,
Left coal smoke branch pipe 7 includes the first left coal smoke branch pipe 7, the second left coal smoke branch pipe 7, the left coal smoke branch of third set gradually
Pipe 7, the 4th left coal smoke branch pipe 7, right coal smoke branch pipe 9 include set gradually the first right coal smoke branch pipe 9, the second right coal smoke branch pipe 9,
The right coal smoke branch pipe 9 of third, the 4th right coal smoke branch pipe 9,
Left coal gas accumulation of heat volume array 2 includes the first left coal gas heat storage group 201 set gradually, the second left coal gas heat storage
Group 202, the left coal gas heat storage group 203 of third, the 4th left coal gas heat storage group 204, right coal gas accumulation of heat volume array 4 include successively setting
The right coal gas heat storage group the 403, the 4th of the right coal gas heat storage group 401 of first set, the second right coal gas heat storage group 402, third is right
Coal gas heat storage group 404,
First coal smoke is in charge of 55 and is connected to by the first left coal smoke branch pipe 7 with the first left coal gas heat storage group 201, by first
Right coal smoke branch pipe 9 is connected to the first right coal gas heat storage group 401,
Second coal smoke is in charge of 56 and is connected to by the second left coal smoke branch pipe 7 with the second left coal gas heat storage group 202, by second
Right coal smoke branch pipe 9 is connected to the second right coal gas heat storage group 402,
Third coal smoke is in charge of 57 and is connected to the left coal gas heat storage group 203 of third by the left coal smoke branch pipe 7 of third, passes through third
Right coal smoke branch pipe 9 is connected to the right coal gas heat storage group 403 of third,
4th coal smoke is in charge of 58 and is connected to by the 4th left coal smoke branch pipe 7 with the 4th left coal gas heat storage group 204, by the 4th
Right coal smoke branch pipe 9 is connected to the 4th right coal gas heat storage group 404.
Further, the connection of empty cigarette row mouth 24 is free cigarette supervisor 49, be connected on empty cigarette supervisor 49 first empty cigarette be in charge of 50, the
Two empty cigarettes, which are in charge of 51, third sky cigarette and are in charge of the 52, the 4th empty cigarette, is in charge of 53,
Left sky cigarette pipe 11 includes the first left sky cigarette pipe 1102 of left empty cigarette pipe 1101, second set gradually, third
The left left empty cigarette pipe 1104 of sky cigarette pipe the 1103, the 4th, right sky cigarette pipe 13 include the first right empty cigarette pipe set gradually
1301, the right empty right empty cigarette pipe 1304 of cigarette pipe the 1303, the 4th of the second right empty cigarette pipe 1302, third,
Left air accumulation of heat volume array 3 includes the first left air heat storage group 301 set gradually, the second left air heat storage
Group 302, the left air heat storage group 303 of third, the 4th left air heat storage group 304, right air accumulation of heat volume array 5 include successively setting
The right air heat storage group the 503, the 4th of the right air heat storage group 501 of first set, the second right air heat storage group 502, third is right
Air heat storage group 504,
First empty cigarette is in charge of 50 and is connected to, passes through with the first left air heat storage group 301 by the first left empty cigarette pipe 1101
First right empty cigarette pipe 1301 is connected to the first right air heat storage group 501,
Second empty cigarette is in charge of 51 and is connected to, passes through with the second left air heat storage group 302 by the second left empty cigarette pipe 1102
Second right empty cigarette pipe 1302 is connected to the second right air heat storage group 502,
Third sky cigarette is in charge of 52 and is connected to, passes through with the left air heat storage group 303 of third by the left empty cigarette pipe 1103 of third
The right empty cigarette pipe 1303 of third is connected to the right air heat storage group 503 of third,
4th empty cigarette is in charge of 53 and is connected to, passes through with the 4th left air heat storage group 304 by the 4th left empty cigarette pipe 1104
4th right empty cigarette pipe 1304 is connected to the 4th right air heat storage group 504.
Further,
First left coal gas heat storage group 201, the first left air heat storage group 301 include several heat storages and successively between
Every setting, the second left coal gas heat storage group 202, the second left air heat storage group 302 include several heat storages and successively between
Every setting, the left coal gas heat storage group 203 of third, the left air heat storage group 303 of third include several heat storages and successively between
Every setting, the 4th left coal gas heat storage group 204, the 4th left air heat storage group 304 include several heat storages and successively between
Every setting, the first right coal gas heat storage group 401, the first right air heat storage group 501 include several heat storages and successively between
Every setting, the second right coal gas heat storage group 402, the second right air heat storage group 502 include several heat storages and successively between
Every setting, the right coal gas heat storage group 403 of third, the right air heat storage group 503 of third include several heat storages and successively between
Every setting, the 4th right coal gas heat storage group 404, the 4th right air heat storage group 504 include several heat storages and successively between
Every setting.
Further, left coal gas accumulation of heat volume array 2 is just being oppositely arranged with right coal gas accumulation of heat volume array 4, left air heat storage battle array
Column 3 are just being oppositely arranged with right air accumulation of heat volume array 5.
The utility model also proposes a kind of heat storing type energy-saving emission reduction heating means, comprising the following steps:
S1: control valve opens and closes, and gas inlet 22 is continually fed into coal gas, and coal gas enters left branch gas tube 6, then passes through
Left coal gas accumulation of heat volume array 2 heats up, by burning in port 26 to burner hearth 21;Air intlet 23 is continually fed into air, air
It heats up into left air branch pipe 10, then through left air accumulation of heat volume array 3, by burning in port 26 to burner hearth 21;
S2: the coal smoke that gas-fired generates at the port 26 of left 2 side of coal gas accumulation of heat volume array is to right coal gas heat storage
Enter right coal smoke branch pipe 9 after 4 accumulation of heat of array to be discharged by coal smoke row's mouth 25;At the port 26 of left 3 side of air accumulation of heat volume array
The empty cigarette that air burning generates is discharged into right empty cigarette pipe 13 by empty cigarette row's mouth 24 to after right 5 accumulation of heat of air accumulation of heat volume array;
S3: switch valve opening is to close, and closing is to open, remaining portions coal gas in left branch gas tube 6, left air
Remaining portions air in branch pipe 10, remaining portions coal smoke in right coal smoke branch pipe 9, remaining portions sky cigarette in right sky cigarette pipe 13;
S4: gas inlet 22 is continually fed into coal gas, and coal gas enters right branch gas tube 8, then through right 4 liters of coal gas accumulation of heat volume array
Temperature, by burning in port 26 to burner hearth 21;Air intlet 23 is continually fed into air, and air enters right air branch pipe 12, then
It heats up through right air accumulation of heat volume array 5, by burning in port 26 to burner hearth 21;
S5: the coal smoke that gas-fired generates at the port 26 of right 4 side of coal gas accumulation of heat volume array is to left coal gas heat storage
Enter left coal smoke branch pipe 7 after 2 accumulation of heat of array to be discharged by coal smoke row's mouth 25;At the port 26 of right 5 side of air accumulation of heat volume array
The empty cigarette that air burning generates is discharged into left empty cigarette pipe 11 by empty cigarette row's mouth 24 to after left 3 accumulation of heat of air accumulation of heat volume array;
S6:S1~S5 is circuited sequentially.
Further,
Control valve opens and closes in S1 specifically: left gas valve 27 is opened, left coal smoke valve 28 is closed, right gas valve 29
It closes, right coal smoke valve 30 opening, left air valve 31 is opened, left empty cigarette valve 32 is closed, right air valve 33 is opened, right sky cigarette valve 34 closes
It closes;
Switch valve opening is to close in S3, and closing is to open specifically: the left closing of gas valve 27, left coal smoke valve 28
It opens, the opening of right gas valve 29, the closing of right coal smoke valve 30, left air valve 31 is closed, left empty cigarette valve 32 is opened, the pass of right air valve 33
It closes, right empty cigarette valve 34 is opened.
When the utility model at work, gas inlet 22 is continually fed into coal gas, and air intlet 23 is continually fed into air, then
The left opening of gas valve 27, the closing of left coal smoke valve 28, the closing of right gas valve 29, right coal smoke valve 30 opening are controlled, left air valve 31 is beaten
It opens, left empty 32 closing of cigarette valve, the opening of right air valve 33, right empty 34 closing of cigarette valve, coal gas enters left coal gas branch by gas inlet 22
Pipe 6, then heat up through left coal gas accumulation of heat volume array 2, by burning in port 26 to burner hearth 21;Air by air intlet 23 into
Enter left air branch pipe 10, then heat up through left air accumulation of heat volume array 3, by burning in port 26 to burner hearth 21, to realize
The burning of the first step, it is contemplated that left coal gas accumulation of heat volume array 2, left 3 temperature of air accumulation of heat volume array can reduce, therefore carry out, separately
The work of the right coal gas accumulation of heat volume array 4 in side, right air accumulation of heat volume array 5, and left coal gas accumulation of heat volume array 2, left air store
Hot volume array 3 is by carrying out the rise of temperature by coal smoke and empty cigarette, at the port 26 of left 2 side of coal gas accumulation of heat volume array
The coal smoke that gas-fired generates is discharged into right coal smoke branch pipe 9 by coal smoke row's mouth 25 to after right 4 accumulation of heat of coal gas accumulation of heat volume array;
After the empty cigarette that air burning generates at the port 26 of left 3 side of air accumulation of heat volume array is to right 5 accumulation of heat of air accumulation of heat volume array
It is discharged into right empty cigarette pipe 13 by empty cigarette row's mouth 24, thus after realizing side coal gas and air by the heating of its side heat storage
The heating of burning and other side coal smoke and empty cigarette to its side heat storage, the discharge of coal smoke and empty cigarette is set by specially increasing at this time
Right coal smoke branch pipe 9, the right empty cigarette pipe 13 set are discharged, and right coal smoke branch pipe 9, right empty cigarette pipe 13 can only pass through coal smoke and empty cigarette,
Coal gas and air can't be passed through, therefore not will cause coal gas and be discharged into atmosphere;Switch valve opening is to close later, is closed
It is to open, remaining portions coal gas in left branch gas tube 6, remaining portions air in left air branch pipe 10 stays in right coal smoke branch pipe 9
Nonresident portion coal smoke, remaining portions sky cigarette in right sky cigarette pipe 13, this partial air, coal gas, empty cigarette, coal smoke will stop motionless;
Gas inlet 22 is continually fed into coal gas, and coal gas enters right branch gas tube 8, then heats up through right coal gas accumulation of heat volume array 4, by combustion
It burns in mouth 26 to burner hearth 21 and burns;Air intlet 23 is continually fed into air, and air enters right air branch pipe 12, then stores through right air
Hot volume array 5 heats up, by burning in port 26 to burner hearth 21;Coal at the port 26 of right 4 side of coal gas accumulation of heat volume array
The coal smoke that gas burning generates is discharged into left coal smoke branch pipe 7 by coal smoke row's mouth 25 to after left 2 accumulation of heat of coal gas accumulation of heat volume array;Right sky
The empty cigarette that air burning generates at the port 26 of 5 side of gas accumulation of heat volume array after left 3 accumulation of heat of air accumulation of heat volume array to entering
Left sky cigarette pipe 11 is discharged by empty cigarette row's mouth 24;The above are a burn cycle, gas inlet 22 is continually fed into coal gas, air into
Mouthfuls 23 are continually fed into air, are to close by conversion valve opening, closing be open, thus realize two sides coal gas and
Air heated up by its side heat storage after heating to its side heat storage of burning and other side coal smoke and empty cigarette, and empty cigarette and coal
The discharge of cigarette is realized exclusively by the discharge of left coal smoke branch pipe 7, right coal smoke branch pipe 9, left empty cigarette pipe 11, right empty cigarette pipe 13
, and left branch gas tube 6, right branch gas tube 8, left air branch pipe 10, the right sky for being specially passed through coal gas and air can't be passed through
Gas branch pipe 12, left branch gas tube 6, right branch gas tube 8, left air branch pipe 10, right air branch pipe 12 be used to be passed through coal gas and sky
Gas, in valve conversion process, left branch gas tube 6, left air branch pipe 10, will be had in right air branch pipe 12 right branch gas tube 8
It is detained motionless air and coal gas, these pipelines exactly having more will be detained coal gas in pipeline, rather than be discharged into atmosphere, because
This cleverly solves the problems, such as that piped gas is discharged into atmosphere in valve conversion process in the prior art, not only real well
The efficient utilization of coal gas is showed, and significantly reduce atmosphere pollution to realize perfect effect.Because there is left coal smoke
The creative setting of branch pipe 7, right coal smoke branch pipe 9, left empty cigarette pipe 11, right empty cigarette pipe 13, the discharge of empty cigarette and coal smoke is not
It needs by left branch gas tube 6, right branch gas tube 8, left air branch pipe 10, right air branch pipe 12, therefore is not in existing
The delay coal gas occurred in valve conversion process in the left branch gas tube 6 that often has in technology, right branch gas tube 8 is discharged into atmosphere
Phenomenon occurs, and from the pollution that can effectively avoid coal gas waste and environment, practical calculate can be improved energy utilization rate
Nearly 30% or so.It should be noted that cutting-off valve, which executes sequence of movement, needs delay, blowing air and logical flue gas should be first closed
Side, then open and need side of commutating, to avoid the generation of suck-back phenomenon, avoid the appearance of explosion.
In the present invention, the empty cigarette chimney 35 that empty cigarette row mouth 24 connects standard compliant empty cigarette can be discharged, and coal smoke arranges mouth
25 standard compliant coal smoke can be discharged because empty cigarette and coal smoke be empty bituminous coal cigarette after burning by left coal smoke branch pipe 7,
Right coal smoke branch pipe 9, left empty cigarette pipe 11, right empty cigarette pipe 13 are discharged, and are not by left branch gas tube 6, right branch gas tube
8, left air branch pipe 10, right air branch pipe 12 are discharged, thus in empty cigarette and coal smoke can't containing the coal gas retained in pipeline,
Therefore it not only can significantly reduce coal gas to be discharged into atmosphere, solve the energy, avoid the pollution of environment.
In the present invention, coal gas supervisor 39 is connected with multiple groups and is in charge of, the first gas manifold 40, the second gas manifold 41, third
Gas manifold 42, the 4th gas manifold 43, and coal gas supervisor 39 with coal gas be in charge of be delivered to more be in charge of after its by
Gradual change is thin, is each in charge of and is connected with left branch gas tube, right branch gas tube, respectively send coal gas to different left coal gas heat storages
Group, right coal gas heat storage group, each left coal gas heat storage group and right coal gas heat storage group include multiple coal gas heat storages, therefore
Continuous branch makes the heat-accumulation combustion ability of heating furnace very strong, air supervisor 44, empty cigarette supervisor 49, coal smoke supervisor 54 and coal
It is similar that gas is responsible for 39 connection structures, and by being much in charge of, branch pipe is connected to heat storage and furnace chamber, therefore had more many pipes
Road, but this halfpipe having more, but have more empty cigarette supervisor 49, coal smoke supervisor 54 connection these be in charge of, branch pipe is
Play a significant role, simple structure solve industry it is insurmountable be delivered to 21 coal gas of burner hearth, air commutation when
Coal gas is remained in pipeline not using the problems in atmosphere is directly discharged into, for inventor by studying for many years, these pipelines are pair
The many years design of thermal storage heating stove improves improves the technical solution that just obtains, not only the existing recuperative heater of very good solution
Pipeline coal gas drains into the problems in atmosphere, and technical solution of the present invention in the commutation process that gives gas, and realizes zero wave of coal gas
Take zero-emission, improve energy utilization rate well, achievees the effect that energy-saving and emission-reduction.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model
Protection scope within.
Claims (9)
1. a kind of heat storing type energy-saving emission reduction heating furnace, which is characterized in that including burner hearth (21), gas inlet (22), air intlet
(23), empty cigarette row mouth (24), coal smoke row mouth (25),
The side of the burner hearth (21) is arranged at intervals with left coal gas accumulation of heat volume array (2), left air accumulation of heat volume array (3), described
The other side of burner hearth (21) is arranged at intervals with right coal gas accumulation of heat volume array (4), right air accumulation of heat volume array (5), the left coal gas
The side of accumulation of heat volume array (2), the side of the left air accumulation of heat volume array (3), the right coal gas accumulation of heat volume array (4) one
Side, the right air accumulation of heat volume array (5) side and the burner hearth (21) between be communicated with towards the burner hearth (21)
Port (26),
The other side of the left coal gas accumulation of heat volume array (2) is connected to the gas inlet (22) by left branch gas tube (6), is logical
Left coal smoke branch pipe (7) is crossed to be connected to coal smoke row mouth (25),
The other side of the right coal gas accumulation of heat volume array (4) is connected to the gas inlet (22) by right branch gas tube (8), is logical
Right coal smoke branch pipe (9) is crossed to be connected to coal smoke row mouth (25),
The other side of the left air accumulation of heat volume array (3) is connected to by left air branch pipe (10) with the air intlet (23),
It is connected to by left empty cigarette pipe (11) with empty cigarette row mouth (24),
The other side of the right air accumulation of heat volume array (5) is connected to by right air branch pipe (12) with the air intlet (23),
It is connected to by right empty cigarette pipe (13) with empty cigarette row mouth (24).
2. a kind of heat storing type energy-saving emission reduction heating furnace according to claim 1, which is characterized in that
Left gas valve (27) are provided on the left branch gas tube (6),
It is provided with left coal smoke valve (28) on the left coal smoke branch pipe (7),
Right gas valve (29) are provided on the right branch gas tube (8),
It is provided with right coal smoke valve (30) on the right coal smoke branch pipe (9),
Left air valve (31) are provided on the left air branch pipe (10),
It is provided with left empty cigarette valve (32) on the left empty cigarette pipe (11),
Right air valve (33) are provided on the right air branch pipe (12),
Right empty cigarette valve (34) is provided on the right empty cigarette pipe (13).
3. a kind of heat storing type energy-saving emission reduction heating furnace according to claim 1, which is characterized in that sky cigarette row mouth (24)
Connection is free cigarette chimney (35), and coal smoke row mouth (25) is connected with coal smoke chimney (36), is arranged at the air intlet (23)
Have air blower (37), the gas inlet (22) connect with coal gas source.
4. a kind of heat storing type energy-saving emission reduction heating furnace according to claim 1, which is characterized in that the gas inlet (22)
Be connected with coal gas supervisor (39), be connected on coal gas supervisor (39) the first gas manifold (40), the second gas manifold (41),
Third gas manifold (42), the 4th gas manifold (43),
The left branch gas tube (6) includes the first left branch gas tube (601) set gradually, the second left branch gas tube (602),
Three left branch gas tubes (603), the 4th left branch gas tube (604), the right branch gas tube (8) include the first right coal set gradually
Gas branch pipe (801), the second right branch gas tube (802), the right branch gas tube of third (803), the 4th right branch gas tube (804),
The left coal gas accumulation of heat volume array (2) includes the first left coal gas heat storage group (201) set gradually, the second left coal gas storage
Hot body group (202), the left coal gas heat storage group (203) of third, the 4th left coal gas heat storage group (204), the right coal gas heat storage
Array (4) includes the first right coal gas heat storage group (401) set gradually, the second right coal gas heat storage group (402), the right coal of third
Gas heat storage group (403), the 4th right coal gas heat storage group (404),
First gas manifold (40) passes through the described first left branch gas tube (601) and the described first left coal gas heat storage group
(201) it is connected to, is connected to by the described first right branch gas tube (801) with the described first right coal gas heat storage group (401),
Second gas manifold (41) passes through the described second left branch gas tube (602) and the described second left coal gas heat storage group
(202) it is connected to, is connected to by the described second right branch gas tube (802) with the described second right coal gas heat storage group (402),
The third gas manifold (42) passes through the left branch gas tube of the third (603) and the left coal gas heat storage group of the third
(203) it is connected to, is connected to by the right branch gas tube of the third (803) with the right coal gas heat storage group (403) of the third,
4th gas manifold (43) passes through the described 4th left branch gas tube (604) and the described 4th left coal gas heat storage group
(204) it is connected to, is connected to by the described 4th right branch gas tube (804) with the described 4th right coal gas heat storage group (404).
5. a kind of heat storing type energy-saving emission reduction heating furnace according to claim 4, which is characterized in that the air intlet (23)
Be connected with air supervisor (44), be connected on air supervisor (44) the first air be in charge of (45), the second air be in charge of (46),
Third air is in charge of (47), the 4th air is in charge of (48),
The left air branch pipe (10) includes the first left air branch pipe (1001) set gradually, the second left air branch pipe
(1002), the left air branch pipe of third (1003), the 4th left air branch pipe (1004), the right air branch pipe (12) include successively setting
The right air branch pipe of first set (1201), the second right air branch pipe (1202), the right air branch pipe of third (1203), the 4th right air
Branch pipe (1204),
The left air accumulation of heat volume array (3) includes the first left air heat storage group (301) set gradually, the second left air storage
Hot body group (302), the left air heat storage group (303) of third, the 4th left air heat storage group (304), the right air heat storage
Array (5) includes the first right air heat storage group (501) set gradually, the second right air heat storage group (502), the right sky of third
Gas heat storage group (503), the 4th right air heat storage group (504),
First air is in charge of (45) and passes through the described first left air branch pipe (1001) and the described first left air heat storage group
(301) it is connected to, is connected to by the described first right air branch pipe (1201) with the described first right air heat storage group (501),
Second air is in charge of (46) and passes through the described second left air branch pipe (1002) and the described second left air heat storage group
(302) it is connected to, is connected to by the described second right air branch pipe (1202) with the described second right air heat storage group (502),
The third air is in charge of (47) and passes through the left air branch pipe of the third (1003) and the left air heat storage group of the third
(303) it is connected to, is connected to by the right air branch pipe of the third (1203) with the right air heat storage group (503) of the third,
4th air is in charge of (48) and passes through the described 4th left air branch pipe (1004) and the described 4th left air heat storage group
(304) it is connected to, is connected to by the described 4th right air branch pipe (1204) with the described 4th right air heat storage group (504).
6. a kind of heat storing type energy-saving emission reduction heating furnace according to claim 5, which is characterized in that the coal smoke arranges mouth (25)
Be connected with coal smoke supervisor (54), be connected on coal smoke supervisor (54) the first coal smoke be in charge of (55), the second coal smoke be in charge of (56),
Third coal smoke is in charge of (57), the 4th coal smoke is in charge of (58),
The left coal smoke branch pipe (7) includes the first left coal smoke branch pipe (701) set gradually, the second left coal smoke branch pipe (702),
Three left coal smoke branch pipes (703), the 4th left coal smoke branch pipe (704), the right coal smoke branch pipe (9) include the first right coal set gradually
Cigarette pipe (901), the second right coal smoke branch pipe (902), the right coal smoke branch pipe (903) of third, the 4th right coal smoke branch pipe (904),
First coal smoke is in charge of (55) and passes through the first left coal smoke branch pipe (701) and the described first left coal gas heat storage group (201)
Connection is connected to by the first right coal smoke branch pipe (901) with the described first right coal gas heat storage group (401),
Second coal smoke is in charge of (56) and passes through the second left coal smoke branch pipe (702) and the described second left coal gas heat storage group (202)
Connection is connected to by the second right coal smoke branch pipe (902) with the described second right coal gas heat storage group (402),
The third coal smoke is in charge of (57) and passes through the left coal smoke branch pipe (703) of third and the left coal gas heat storage group (203) of the third
Connection is connected to by the right coal smoke branch pipe (903) of third with the right coal gas heat storage group (403) of the third,
4th coal smoke is in charge of (58) and passes through the 4th left coal smoke branch pipe (704) and the described 4th left coal gas heat storage group (204)
Connection is connected to by the 4th right coal smoke branch pipe (904) with the described 4th right coal gas heat storage group (404).
7. a kind of heat storing type energy-saving emission reduction heating furnace according to claim 6, which is characterized in that sky cigarette row mouth (24)
Connection is free cigarette supervisor (49), be connected on the sky cigarette supervisor (49) the first empty cigarette be in charge of (50), the second empty cigarette be in charge of (51),
Third sky cigarette is in charge of (52), the 4th empty cigarette is in charge of (53),
The left empty cigarette pipe (11) includes the first left empty cigarette pipe (1101) set gradually, the second left empty cigarette pipe
(1102), the left empty cigarette pipe (1103) of third, the 4th left empty cigarette pipe (1104), the right empty cigarette pipe (13) includes successively setting
The right empty cigarette pipe (1301) of first set, the second right empty cigarette pipe (1302), the right empty cigarette pipe (1303) of third, the 4th right empty cigarette
Branch pipe (1304),
Described first empty cigarette is in charge of (50) and passes through the described first left empty cigarette pipe (1101) and the described first left air heat storage group
(301) it is connected to, is connected to by the described first right empty cigarette pipe (1301) with the described first right air heat storage group (501),
Described second empty cigarette is in charge of (51) and passes through the described second left empty cigarette pipe (1102) and the described second left air heat storage group
(302) it is connected to, is connected to by the described second right empty cigarette pipe (1302) with the described second right air heat storage group (502),
The third sky cigarette is in charge of (52) and passes through the left empty cigarette pipe (1103) of the third and the left air heat storage group of the third
(303) it is connected to, is connected to by the right empty cigarette pipe (1303) of the third with the right air heat storage group (503) of the third,
Described 4th empty cigarette is in charge of (53) and passes through the described 4th left empty cigarette pipe (1104) and the described 4th left air heat storage group
(304) it is connected to, is connected to by the described 4th right empty cigarette pipe (1304) with the described 4th right air heat storage group (504).
8. a kind of heat storing type energy-saving emission reduction heating furnace according to claim 7, which is characterized in that
The first left coal gas heat storage group (201), the first left air heat storage group (301) include several heat storages and according to
Minor tick setting, the second left coal gas heat storage group (202), the second left air heat storage group (302) include several
A heat storage and successively interval setting, the left coal gas heat storage group (203) of the third, the left air heat storage group (303) of third are equal
It is spaced including several heat storages and successively and is arranged, the 4th left coal gas heat storage group (204), the 4th left air heat storage group
It (304) include several heat storages and successively interval setting, the first right coal gas heat storage group (401), the first right air
Heat storage group (501) includes several heat storages and successively interval setting, the second right coal gas heat storage group (402), the
Two right air heat storage groups (502) include several heat storages and successively interval setting, the right coal gas heat storage group of third
(403), the right air heat storage group (503) of third includes several heat storages and successively interval setting, the 4th right coal gas
Heat storage group (404), the 4th right air heat storage group (504) include several heat storages and successively interval setting.
9. a kind of heat storing type energy-saving emission reduction heating furnace according to claim 8, which is characterized in that the left coal gas heat storage
Array (2) is just being oppositely arranged with the right coal gas accumulation of heat volume array (4), the left air accumulation of heat volume array (3) and the right sky
Gas accumulation of heat volume array (5) is just being oppositely arranged.
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CN109404894A (en) * | 2018-12-07 | 2019-03-01 | 河北天牧节能设备有限公司 | Heat storing type energy-saving emission reduction heating furnace and heating means |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN109404894A (en) * | 2018-12-07 | 2019-03-01 | 河北天牧节能设备有限公司 | Heat storing type energy-saving emission reduction heating furnace and heating means |
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