CN207539915U - Bacterium valve type multicell rotates waste gas combustion furnace - Google Patents

Abstract

The utility model discloses a kind of bacterium valve type multicells to rotate waste gas combustion furnace,Including furnace body,The upper end of furnace body has arc end socket,Furnace body includes combustion chamber,Burner is installed on one side wall of combustion chamber,Venting is provided at the top of arc end socket,The lower part of combustion chamber is connected with regenerative chamber,Regenerative chamber is internally divided into seven sectors,The lower part of regenerative chamber is connected to connection air duct,Connection is equally divided into seven sectors in air duct,The each sector for connecting air duct is corresponding with each sector of combustion chamber,Connection air duct lower part is cyclic annular three air ducts being nested together,It is respectively exhaust gas air duct from outside to inside,Purification gas air duct and blowback air duct,And it is provided with exhaust gas entrance on exhaust gas air duct,Purified gas outlet and blowback outlet,Connect air duct and exhaust gas air duct,Purification gas air duct,Round air port is provided between blowback air duct,Folding control is carried out by hoisting type bacterial type valve.The utility model treatment effeciency is high, good airproof performance, energy conservation and environmental protection.

Description

Bacterium valve type multicell rotates waste gas combustion furnace

Technical field

The utility model is related to industrial waste gas processing technology field more particularly to a kind of bacterium valve type multicell rotation burned waste gas Stove.

Background technology

The waste gas combustion furnace of most domestic rotation at present all carries out wind direction switching, rotary cylinder and accumulation of heat using rotary cylinder Using sealing strips, the long sealing strip abrasion of run time can cause exhaust gas to leak outside, influence exhaust-gas treatment for sealing between room Efficiency.Ye You producers carry out airdoor control, but butterfly valve is after permanent operation using butterfly valve, it may appear that switch feelings not in place Condition causes gas to leak.

Utility model content

The purpose of this utility model is to solve the above-mentioned problems, to devise a kind of bacterium valve type multicell rotation burned waste gas Stove using hoisting type bacterial type valve, can be combined closely in mushroom hemispherical valve body with round air door, improve exhaust-gas treatment effect Rate, and substantially reduce noise when wind direction switches.The utility model treatment effeciency is high, good airproof performance, energy conservation and environmental protection

Realize that above-mentioned purpose the technical solution of the utility model is：

A kind of bacterium valve type multicell rotates waste gas combustion furnace, including whole cylindrical furnace body, the upper end tool of the furnace body There is arc end socket, the furnace body includes combustion chamber on its interior, burner being equipped on a side wall of the combustion chamber, It is provided with venting at the top of the arc end socket, the lower part of the combustion chamber is connected with regenerative chamber, inside the regenerative chamber It is divided into seven sectors, the lower part of the regenerative chamber is connected to connection air duct, equally be divided into seven sectors in the connection air duct, Each sector in the connection air duct is corresponding with each sector of the combustion chamber, and the connection air duct lower part is cyclic annular intussusception Three air ducts together, from outside to inside respectively exhaust gas air duct, purification gas air duct and blowback air duct, and in the exhaust gas wind Exhaust gas entrance, purified gas outlet and blowback outlet are provided on road, connects air duct and exhaust gas air duct, purification gas air duct, anti- Round air port is provided between breezeway, folding control is carried out by hoisting type bacterial type valve.

Further, it is placed with thermal storage ceramic in each sector of the regenerative chamber.

Further, the bottom in the connection air duct offers a circular hole altogether, and wherein the seven of outmost turns circular hole is exhaust gas Air port, seven circular holes of one circle of centre are purification gas air port, and seven circular holes of innermost circle are blowback air port.

Further, the exhaust gas air duct is located at the outmost turns in three air ducts, and exhaust gas is uniform-distribution with seven at the top of air duct A exhaust gas air port, exhaust gas are additionally provided with exhaust gas entrance on air duct.

Further, the purification gas air duct is located at the centre in three air ducts, and the top in purification gas air duct is uniformly divided Cloth seven purification gas air ports, and purification gas is additionally provided with purified gas outlet on air duct.

Further, the blowback air duct is located at the innermost circle in three air ducts, and blowback is uniform-distribution with seven at the top of air duct A blowback air port is additionally provided with blowback outlet on blowback air duct.

Further, the diameter in exhaust gas air port is identical with the diameter in purification gas air port, is all higher than the diameter in blowback air port.

Compared with prior art, the beneficial effects of the utility model are：It is made using the technical solution of the utility model Bacterium valve type multicell rotates waste gas combustion furnace, can combine closely in mushroom hemispherical valve body with round air door, improves exhaust gas Treatment effeciency, and noise when wind direction switches is substantially reduced, meanwhile, the indoor seven sectors cycle of accumulation of heat carries out heat absorption heat release, The indoor pressure oscillation of burning can be reduced, energy consumption is reduced, is more energy-saving and environmentally friendly.

Description of the drawings

Fig. 1 is the structure diagram of the utility model；

Fig. 2 is the sectional view in air duct in the utility model.

In figure：1st, combustion chamber；2nd, burner；3rd, regenerative chamber；4th, interface channel；5th, exhaust gas air duct；6th, purification gas air duct； 7th, blowback air duct；8th, exhaust gas entrance；9th, purified gas outlet；10th, blowback exports；11st, hoisting type bacterial type valve；12nd, venting； 13rd, furnace body；14th, arc end socket.

Specific embodiment

The utility model is specifically described below in conjunction with the accompanying drawings.

As depicted in figs. 1 and 2, a kind of bacterium valve type multicell rotation waste gas combustion furnace, including whole cylindrical stove Body 13, the upper end of the furnace body 13 have arc end socket 14, and the furnace body 13 includes combustion chamber 1 on its interior, the combustion It burns and burner 2 is installed on a side wall of room 1, the top of the arc end socket 14 is provided with venting 12, the burning The lower part of room 1 is connected with regenerative chamber 3, and the regenerative chamber 3 is internally divided into seven sectors, and the lower part of the regenerative chamber 3 is connected to Air duct 4 is connected, seven sectors, each sector and the combustion chamber in the connection air duct 4 are equally divided into the connection air duct 4 3 each sector is corresponding, and connection 4 lower part of air duct is cyclic annular three air ducts being nested together, and is respectively from outside to inside Exhaust gas air duct 5, purification gas air duct 6 and blowback air duct 7, and it is provided with exhaust gas entrance 8, purified gas on the exhaust gas air duct 5 Body outlet 9 and blowback outlet 10, connect and are provided with circle between air duct 4 and exhaust gas air duct 5, purification gas air duct 6, blowback air duct 7 Shape air port carries out folding control by hoisting type bacterial type valve 11.

As depicted in figs. 1 and 2, thermal storage ceramic is placed in each sector of the regenerative chamber 3, the connection air duct 4 Bottom offers 21 circular holes altogether, and wherein the seven of outmost turns circular hole is exhaust gas air port, and seven circular holes of one circle of centre are purification Gas air port, seven circular holes of innermost circle are blowback air port, and the diameter in exhaust gas air port is identical with the diameter in purification gas air port, More than the diameter in blowback air port.The exhaust gas air duct 5 is located at the outmost turns in three air ducts, and the top in exhaust gas air duct 5 is uniformly distributed Seven exhaust gas air ports, exhaust gas entrance 8 is additionally provided on exhaust gas air duct 5；The purification gas air duct 6 is located in three air ducts Between, the top in purification gas air duct 6 is uniform-distribution with seven purification gas air ports, and purification is additionally provided on purification gas air duct 6 Gas vent 9；The blowback air duct 7 is located at the innermost circle in three air ducts, and the top in blowback air duct 7 is uniform-distribution with seven blowbacks Air port is additionally provided with blowback outlet 10 on blowback air duct 7.

Bacterium valve type multicell rotation waste gas combustion furnace described in the technical program, specific embodiment are：

Bacterium valve type multicell rotates waste gas combustion furnace when handling organic exhaust gas, is first introduced exhaust gas into via high-pressure suction fan, Exhaust gas air duct is entered by exhaust gas entrance, the hoisting type bacterial type valve of first, second and third sector declines at this time, and exhaust gas air port is opened, and gives up Gas enters corresponding regenerative chamber, enters combustion chamber after absorbing the heat being stored in ceramic heat-storing body, at a high temperature of 850 DEG C Oxidation is burned, and organic matter is made to be decomposed into carbon dioxide and water, carries out heat release into the regenerative chamber of fourth, fifth, six sectors later, Gas temperature is reduced, increases ceramic heat-storing temperature, the hoisting type bacterial type valve of purification gas air duct respective sectors declines at this time, Purification gas air port is opened, and exhaust gas is discharged after entering purification gas air duct by purified gas outlet.The action lasts about 35 seconds, At last 5 seconds, the blowback air port of the 7th sector is opened, and the exhaust gas remained in connection air hose is quickly extracted out, is sent to exhaust gas Wind turbine front end reenters exhaust gas air duct together with the exhaust gas newly entered.

Above action is initial actuating, and hoisting type bacterial type valve starts simulation rotation later, when the back-blowing of the 7th sector After mouth is closed, the purification gas air port of the sector is opened, while the purification gas air port of the 4th sector is closed, the fan after closing The exhaust gas air port in area is opened, and the exhaust gas air port of first sector is closed, when bacterial type valve events in place after, kept for 35 seconds, last 5 During the second, the blowback air port of first sector is opened, and remaining exhaust gas is extracted out, the purification gas air port of the sector is beaten after closing Open, while the purification gas air port of the 5th sector is closed, the exhaust gas air port of the sector is opened after closing, second sector it is useless Gas air port is closed, and is so recycled.

Exhaust gas absorbs heat of the upper cycle " storage " in ceramic heat-storing body, later during regenerative chamber is entered Enter combustion chamber with higher temperature to burn.Since exhaust gas temperature have passed through the warm of ceramic heat storage body, so as to save The firing rate of burner has been saved, has reduced operating cost.Purification gas after burning enters back into the regenerative chamber of opposite sector Heat is discharged, purification gas air duct corresponds to the bacterial type valve opening of sector at this time, and purification gas is allowed to discharge.

Itself a large amount of heat can be generated when oxidative cracking reaction occurring under high temperature environment due to the organic exhaust gas being passed through, In cycle after a certain period of time, the indoor heat that burns can be replaced partly or entirely by the heat that organic exhaust gas itself generates, at this time Burner can be switched to small fire state and even completely close, and only promotes burning cracking reaction by organic exhaust gas self heat, makes to set The energy that received shipment row is consumed substantially reduces.

Also, the fanned partition of regenerative chamber and the open and close according to this of hoisting type bacterial type valve, make exhaust gas in incinerator " rotation " is handled, and is avoided exhaust gas and is commutated suddenly in the combustion chamber and cause furnace pressure frequent fluctuation, it is ensured that ignition temperature More stablize.

In addition, the equipment also has a set of security system, when chamber temperature or pressure superelevation, top venting can be beaten It opens, releases pressure, while 21 hoisting type bacterial type valves of bottom are opened, and internal high temperature gas is quickly discharged, ensure equipment Safety.

Above-mentioned technical proposal only embodies the optimal technical scheme of technical solutions of the utility model, the technology of the art Personnel embody some variations that some of which part may be made the principle of the utility model, belong to the utility model Protection domain within.

Claims (7)

1. a kind of bacterium valve type multicell rotates waste gas combustion furnace, which is characterized in that including whole cylindrical furnace body（13）, it is described Furnace body（13）Upper end have arc end socket（14）, the furnace body（13）Including combustion chamber on its interior（1）, the burning Room（1）A side wall on burner is installed（2）, in the arc end socket（14）Top be provided with venting（12）, institute State combustion chamber（1）Lower part be connected with regenerative chamber（3）, the regenerative chamber（3）It is internally divided into seven sectors, the regenerative chamber （3）Lower part be connected to connection air duct（4）, the connection air duct（4）Inside equally it is divided into seven sectors, the connection air duct（4） Each sector and the combustion chamber（1）Each sector it is corresponding, the connection air duct（4）Lower part is nested together for ring-type Three air ducts, respectively exhaust gas air duct from outside to inside（5）, purification gas air duct（6）With blowback air duct（7）, and described useless Gas air duct（5）On be provided with exhaust gas entrance（8）, purified gas outlet（9）It is exported with blowback（10）, connect air duct（4）And exhaust gas Air duct（5）, purification gas air duct（6）, blowback air duct（7）Between be provided with round air port, by hoisting type bacterial type valve（11）It carries out Folding control.

2. bacterium valve type multicell according to claim 1 rotates waste gas combustion furnace, which is characterized in that the regenerative chamber（3）'s Thermal storage ceramic is placed in each sector.

3. bacterium valve type multicell according to claim 2 rotates waste gas combustion furnace, which is characterized in that the connection air duct（4） Bottom offer 21 circular holes altogether, wherein the seven of outmost turns circular hole is exhaust gas air port, and seven circular holes of one circle of centre are net Change gas air port, seven circular holes of innermost circle are blowback air port.

4. bacterium valve type multicell according to claim 3 rotates waste gas combustion furnace, which is characterized in that the exhaust gas air duct（5） Outmost turns positioned at three air ducts, exhaust gas air duct（5）Top be uniform-distribution with seven exhaust gas air ports, exhaust gas air duct（5）It is upper to go back It is provided with exhaust gas entrance（8）.

5. bacterium valve type multicell according to claim 3 rotates waste gas combustion furnace, which is characterized in that the purification gas air duct （6）Positioned at the centre in three air ducts, purification gas air duct（6）Top be uniform-distribution with seven purification gas air ports, purified gas Body air duct（6）On be additionally provided with purified gas outlet（9）.

6. bacterium valve type multicell according to claim 3 rotates waste gas combustion furnace, which is characterized in that the blowback air duct（7） Innermost circle positioned at three air ducts, blowback air duct（7）Top be uniform-distribution with seven blowback air ports, blowback air duct（7）It is upper to go back It is provided with blowback outlet（10）.

7. bacterium valve type multicell according to claim 3 rotates waste gas combustion furnace, which is characterized in that the diameter in exhaust gas air port and The diameter in purification gas air port is identical, is all higher than the diameter in blowback air port.