CN209355713U - A kind of circulation mechanism of high temperature oxidation furnace - Google Patents
A kind of circulation mechanism of high temperature oxidation furnace Download PDFInfo
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- CN209355713U CN209355713U CN201822240723.5U CN201822240723U CN209355713U CN 209355713 U CN209355713 U CN 209355713U CN 201822240723 U CN201822240723 U CN 201822240723U CN 209355713 U CN209355713 U CN 209355713U
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Abstract
The utility model discloses a kind of circulation mechanisms of high temperature oxidation furnace, including blower and venthole, the upper end of the blower is connected with exhaust gas suction pipe, and furnace body is connected on the right side of blower, cooling chamber is connected on the right side of the furnace body, and the right end of cooling chamber is connected with reaction chamber, the venthole is connected to the upper right side of reaction chamber.The setting that the circulation mechanism of the high temperature oxidation furnace passes through air inlet below activity back box, gas after cooling can be allowed to enter reaction chamber, and lime stone is placed in activity back box, it can be reacted with the sulfur dioxide in gas, and generate gypsum, it can prevent sulfur dioxide pollution air, it can turn waste into wealth again, by buckling the setting with card hole, activity back box can conveniently be removed, so as to take out reaction product and addition lime stone, and card hole is internally provided with sealing ring, reaction chamber can be made to form the structure of sealing, pass through the peculiar smell in the adsorbable gas of setting of activated carbon adsorption net, with the residual impurity after some remaining reactions.
Description
Technical field
The utility model relates to environmental technology field, specially a kind of circulation mechanism of high temperature oxidation furnace.
Background technique
Currently, industrial waste gas refers to that generate in plant area, enterprise fuel combustion and production process various are discharged into air
General name containing contaminant gases, these exhaust gas have: carbon dioxide, carbon disulfide, hydrogen sulfide, fluoride, nitrogen oxides, chlorine,
Hydrogen chloride, carbon monoxide, sulfuric acid (mist) lead mercury, beryllide, flue dust and industrial dust, are discharged into atmosphere, can pollute air, these
Substance enters the internal of people by different approach, by respiratory tract, and some directly generates harm, some there are also cumulative effect,
Can the more serious health for endangering people, different material has Different Effects, thus at present generally with the mode of high-temperature oxydation come
Handle these exhaust gas.
High temperature oxidation furnace in the market is typically all to be directly discharged into air after aoxidizing gas, the gas temperature ejected
Can be relatively high, the gas there is may damage to people or other things, and after aoxidizing can may also contain
There is sulfur dioxide, there is secondary pollution can be caused to environment, for this purpose, it is proposed that a kind of there is group to connect regulating mechanism
High temperature oxidation furnace circulation mechanism.
Utility model content
The purpose of this utility model is to provide a kind of circulation mechanisms of high temperature oxidation furnace, to solve in above-mentioned background technique
The high temperature oxidation furnace of proposition is typically all to be directly discharged into air after aoxidizing gas, and the gas temperature ejected can be relatively high,
Gas there is may damage to people or other things, and after aoxidizing can may also contain titanium dioxide
Sulphur, there is can cause secondary pollution to environment.
To achieve the above object, the utility model provides the following technical solutions: a kind of circulation mechanism of high temperature oxidation furnace, packet
Blower and venthole are included, the upper end of the blower is connected with exhaust gas suction pipe, and furnace body is connected on the right side of blower, the furnace body
Right side is connected with cooling chamber, and the right end of cooling chamber is connected with reaction chamber, and the venthole is connected to the upper right side of reaction chamber.
Preferably, the furnace body includes exhaust gas entrance, gas vent, ceramic heat storage body and burner, and exhaust gas entrance and
Gas vent is separately positioned on the left and right sides of furnace body, and the inside of furnace body is arranged in ceramic heat storage body, and burner is solid
It is scheduled on the inside of the upper surface of furnace body.
Preferably, the cooling chamber includes cooling tube, return pipe, exhaust pipe and refrigeration machine, and cooling tube is connected to cooling
The inside of room, and exhaust pipe is connected to the top of cooling tube, and return pipe is connected to the right end of cooling tube, while refrigeration machine
The bottom righthand side of cooling chamber is set.
Preferably, the return pipe and cooling tube and exhaust pipe are engaging structure, and the right end of exhaust pipe is provided with the
One valve, and the upper end of return pipe is provided with the second valve.
Preferably, the reaction chamber includes chamber body, inclined floor, activated carbon adsorption net, activity back box and lime stone, and room
It is provided with inclined floor below body, and is provided with activated carbon adsorption net at the horizontal centre of chamber body, and inclined floor
Inside is connected with activity back box, while being placed with lime stone on the inside of activity back box.
Preferably, the overhead surface of the inclined floor is provided with card hole, and sealing ring is provided on the inside of card hole, described
It is provided with buckle at left and right sides of the top of activity back box, and buckles and constitutes fit structure, and activity back box between card hole
Bottom be provided with air inlet.
Compared with prior art, the utility model has the beneficial effects that
1, the circulation mechanism of the high temperature oxidation furnace is provided with blower, exhaust gas can be sucked furnace interior by blower, passed through
Furnace interior is provided with burner, can carry out high-temperature oxydation reaction to the intracorporal exhaust gas of furnace is entered, pass through setting for ceramic heat storage body
It sets, internal hot gas can be stored, thus energy saving;
2, it by being provided with refrigeration machine in cooling chamber, can cool down to the gas after high-temperature oxydation, by cooling tube, return
Flow tube and the group of exhaust pipe connect, and gas can be made to be sufficiently cooled, can be to gas by the setting of the first valve and the second valve
The flow direction of body is controlled, and after being fully cooled gas and is discharged;
3, by the setting of air inlet below activity back box, gas after cooling can be allowed to enter reaction chamber, and dump bottom
It is placed with lime stone in box, can be reacted with the sulfur dioxide in gas, and generate gypsum, sulfur dioxide pollution can be prevented empty
Gas, and can turn waste into wealth, by buckling the setting with card hole, activity back box can be removed, conveniently so as to take out reaction product
With addition lime stone, and card hole is internally provided with sealing ring, and reaction chamber can be made to form the structure of sealing, inhaled by active carbon
Peculiar smell in the adsorbable gas of setting of attached net and the residual impurity after some remaining reactions.
Detailed description of the invention
FIG. 1 is a schematic structural view of the utility model;
Fig. 2 is the utility model cooling chamber structural schematic diagram;
Fig. 3 is the utility model inclined floor and activity back box fit structure schematic diagram.
In figure: 1, blower;2, exhaust gas suction pipe;3, furnace body;301, exhaust gas entrance;302, gas vent;303, ceramic heat-storing
Body;304, burner;4, cooling chamber;401, cooling tube;402, return pipe;403, exhaust pipe;404, refrigeration machine;405, the first valve
Door;406, the second valve;5, reaction chamber;501, chamber body;502, inclined floor;503, activated carbon adsorption net;504, activity back box;
505, lime stone;506, card hole;507, sealing ring;508, it buckles;509, air inlet;6, venthole.
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 making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of circulation mechanism of high temperature oxidation furnace, including
Blower 1 and venthole 6, the upper end of blower 1 is connected with exhaust gas suction pipe 2, and the right side of blower 1 is connected with furnace body 3, and furnace body 3 includes
Exhaust gas entrance 301, gas vent 302, ceramic heat storage body 303 and burner 304, and exhaust gas entrance 301 and gas vent 302 divide
The left and right sides of furnace body 3 is not set, and the inside of furnace body 3 is arranged in ceramic heat storage body 303, and burner 304 is fixed
On the inside of the upper surface of furnace body 3, burner 304 is internally provided with by furnace body 3, the exhaust gas entered in furnace body 3 can be carried out high
Warm oxidation reaction can store internal hot gas, by the setting of ceramic heat storage body 303 thus energy saving, furnace body 3
Right side be connected with cooling chamber 4, and the right end of cooling chamber 4 is connected with reaction chamber 5, and cooling chamber 4 includes cooling tube 401, return pipe
402, exhaust pipe 403 and refrigeration machine 404, and cooling tube 401 is connected to the inside of cooling chamber 4, and exhaust pipe 403 be connected to it is cold
But the top of pipe 401, and return pipe 402 is connected to the right end of cooling tube 401, while cooling chamber 4 is arranged in refrigeration machine 404
Bottom righthand side can cool down to the gas after high-temperature oxydation by being provided with refrigeration machine 404 in cooling chamber 4, return pipe 402 with
Cooling tube 401 and exhaust pipe 403 are engaging structure, and the right end of exhaust pipe 403 is provided with the first valve 405, and flows back
The upper end of pipe 402 is provided with the second valve 406, is connect by the group of cooling tube 401, return pipe 402 and exhaust pipe 403, can make gas
Body is sufficiently cooled, and by the setting of the first valve 405 and the second valve 406, can be controlled the flow direction of gas, be made
After gas is fully cooled and it is discharged;
Reaction chamber 5 includes chamber body 501, inclined floor 502, activated carbon adsorption net 503, activity back box 504 and lime stone
505, and the lower section of chamber body 501 is provided with inclined floor 502, and is provided with activated carbon adsorption at the horizontal centre of chamber body 501
Net 503, and the inside of inclined floor 502 is connected with activity back box 504, while the inside of activity back box 504 is placed with lime
Stone 505 is placed with lime stone 505 in activity back box 504, can react with the sulfur dioxide in gas, and generate gypsum, can
Sulfur dioxide pollution air is prevented, and can be turned waste into wealth, by different in the adsorbable gas of setting of activated carbon adsorption net 503
Residual impurity after taste and some remaining reactions, the overhead surface of inclined floor 502 are provided with card hole 506, and card hole 506
Inside be provided with sealing ring 507, buckle 508 is provided at left and right sides of the top of activity back box 504, and buckle 508 and card
Fit structure is constituted between hole 506, and the bottom of activity back box 504 is provided with air inlet 509, by under activity back box 504
The setting of square air inlet 509, can allow gas after cooling to enter reaction chamber 5, can be square by the setting of buckle 508 and card hole 506
Just activity back box 504 is removed, so as to take out reaction product and addition lime stone 505, and card hole 506 is internally provided with
Sealing ring 507, can make reaction chamber 5 form the structure of sealing, and venthole 6 is connected to the upper right side of reaction chamber 5.
Working principle: for the circulation mechanism of this kind of high temperature oxidation furnace, sucking inside for exhaust gas by blower 1 first,
Entered inside furnace body 3 by exhaust gas entrance 301, the model F4-72 of blower 1, is entered in furnace body 3 by 304 Duis of burner
Exhaust gas carries out high-temperature oxydation reaction, the model RY-875 of burner 304, and the gas after burning is entered cold by gas vent 302
But in room 4, the first valve 405 is then opened, flows gas back and forth in cooling tube 401, return pipe 402 and exhaust pipe 403,
Start refrigeration machine 404, can cool down to the gas after high-temperature oxydation, the model JSFL-05 of refrigeration machine 404, when gas fills
Divide cooling, close the first valve 405, opening the second valve 406 is discharged gas from exhaust pipe 403, and passes through activity back box
The air inlet 509 of 504 lower sections enters reaction chamber 5, can make the lime stone placed in sulfur dioxide and activity back box 504 in gas
505 are reacted, and generate gypsum, can prevent sulfur dioxide pollution air, and can turn waste into wealth, and pass through buckle 508 and card
The setting in hole 506 can conveniently remove activity back box 504, so as to take out reaction product and addition lime stone 505, and block
Hole 506 is internally provided with sealing ring 507, and reaction chamber 5 can be made to form the structure of sealing, and the gas after reaction is inhaled by active carbon
Attached net 503, the peculiar smell in adsorbable gas and the residual impurity after some remaining reactions, are finally discharged by venthole 6, just
The use process of the circulation mechanism of entire high temperature oxidation furnace is completed in this way.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired
Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.
Claims (6)
1. a kind of circulation mechanism of high temperature oxidation furnace, including blower (1) and venthole (6), it is characterised in that: the blower (1)
Upper end be connected with exhaust gas suction pipe (2), and be connected with furnace body (3) on the right side of blower (1), be connected on the right side of the furnace body (3)
Cooling chamber (4), and the right end of cooling chamber (4) is connected with reaction chamber (5), the venthole (6) is connected to the upper right of reaction chamber (5)
Side.
2. a kind of circulation mechanism of high temperature oxidation furnace according to claim 1, it is characterised in that: the furnace body (3) includes
Exhaust gas entrance (301), gas vent (302), ceramic heat storage body (303) and burner (304), and exhaust gas entrance (301) is gentle
Body outlet (302) is separately positioned on the left and right sides of furnace body (3), and ceramic heat storage body (303) is arranged in the interior of furnace body (3)
Portion, and burner (304) is fixed on the inside of the upper surface of furnace body (3).
3. a kind of circulation mechanism of high temperature oxidation furnace according to claim 1, it is characterised in that: cooling chamber (4) packet
Cooling tube (401), return pipe (402), exhaust pipe (403) and refrigeration machine (404) are included, and cooling tube (401) is connected to cooling chamber
(4) inside, and exhaust pipe (403) is connected to the top of cooling tube (401), and return pipe (402) is connected to cooling tube
(401) right end, while refrigeration machine (404) setting is in the bottom righthand side of cooling chamber (4).
4. a kind of circulation mechanism of high temperature oxidation furnace according to claim 3, it is characterised in that: the return pipe (402)
It is engaging structure with cooling tube (401) and exhaust pipe (403), and the right end of exhaust pipe (403) is provided with the first valve
(405), and the upper end of return pipe (402) is provided with the second valve (406).
5. a kind of circulation mechanism of high temperature oxidation furnace according to claim 1, it is characterised in that: reaction chamber (5) packet
Include chamber body (501), inclined floor (502), activated carbon adsorption net (503), activity back box (504) and lime stone (505), and chamber body
(501) it is provided with below inclined floor (502), and is provided with activated carbon adsorption net at the horizontal centre of chamber body (501)
(503), it and on the inside of inclined floor (502) is connected with activity back box (504), while the inside of activity back box (504) is placed
There are lime stone (505).
6. a kind of circulation mechanism of high temperature oxidation furnace according to claim 5, it is characterised in that: the inclined floor
(502) overhead surface is provided with card hole (506), and sealing ring (507), the dump bottom are provided on the inside of card hole (506)
It is provided with buckle (508) at left and right sides of the top of box (504), and buckles and constitute cooperation knot between (508) and card hole (506)
Structure, and the bottom of activity back box (504) is provided with air inlet (509).
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CN201822240723.5U CN209355713U (en) | 2018-12-29 | 2018-12-29 | A kind of circulation mechanism of high temperature oxidation furnace |
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CN201822240723.5U CN209355713U (en) | 2018-12-29 | 2018-12-29 | A kind of circulation mechanism of high temperature oxidation furnace |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115554804A (en) * | 2022-09-28 | 2023-01-03 | 诸暨正鑫管业有限公司 | Air conditioning system of pipeline production workshop |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115554804A (en) * | 2022-09-28 | 2023-01-03 | 诸暨正鑫管业有限公司 | Air conditioning system of pipeline production workshop |
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