CN204693818U - Breeding and planting reverse burning hot water thermal wind furnace - Google Patents
Breeding and planting reverse burning hot water thermal wind furnace Download PDFInfo
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- CN204693818U CN204693818U CN201520380653.7U CN201520380653U CN204693818U CN 204693818 U CN204693818 U CN 204693818U CN 201520380653 U CN201520380653 U CN 201520380653U CN 204693818 U CN204693818 U CN 204693818U
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Abstract
The utility model belongs to cultivation, planting technology field.A kind of breeding and planting reverse burning hot water thermal wind furnace, comprise main stove and secondary stove, described main stove comprises main furnace shell, combustion chamber, fire grate and deslagging chamber, described secondary stove comprises secondary furnace shell and is arranged on the Multi-layer exchanging heat housing in secondary furnace shell, between described secondary furnace shell and heat exchange housing, between adjacent two heat exchange housings, form the exhaust gases passes and air duct alternately arranged, be communicated with successively between described multiple exhaust gases passes and be provided with smoke inlet and exhanst gas outlet, described multiple air ducts are communicated with successively and are provided with cool air inlet and hot air outlet.The utility model adopts main stove, secondary stove complements each other structure, water heating is carried out by main stove, secondary stove carries out its heating, pass through Multilayer Switching, making full use of of abundant guarantee heat energy, the utility model additionally uses and instead sinters structure, makes its heat utilization rate high, fuel consumption reduces greatly, and can effectively control for the burning velocity of whole boiler.
Description
Technical field
The utility model belongs to cultivation, planting technology field, is specifically related to a kind of breeding and planting reverse burning hot water thermal wind furnace.
Background technology
At present, breeding and planting industry needs to carry out ensureing suitable temperature and humidity, and the hot blast that most boiler popular in society, hot-blast stove produce directly cannot be applied and cultivate and plant husbandry, containing a large amount of gas such as carbon monoxide, sulfur dioxide in its hot blast; Also have some generations can the structure of the boiler of direct applied hot blast or hot-blast stove comparatively complicated, and cost is higher, is difficult to carry out promotion and application in middle-size and small-size enterprise.Therefore, the application passes through the comprehensive service condition research of the air water of breeding and planting industry and explores, and hot-blast stove is carried out to the design of new structure, makes it directly can produce the hot water thermal wind furnace of mixing wastewater with air coupling.
Meanwhile, applicant, for how realizing making full use of of boiler heat-energy, reduces the consumption of fuel, has carried out new design to the conventional structure of boiler.
Utility model content
The purpose of this utility model is for above-mentioned Problems existing and deficiency, provides a kind of reasonable in design, can realize anti-burning, and improves the breeding and planting reverse burning hot water thermal wind furnace of heat utilization rate.
For achieving the above object, the technical scheme taked is:
A kind of breeding and planting reverse burning hot water thermal wind furnace, comprise main stove and secondary stove, described main stove comprises main furnace shell, combustion chamber, fire grate and deslagging chamber, described secondary stove comprises secondary furnace shell and is arranged on the Multi-layer exchanging heat housing in secondary furnace shell, between described secondary furnace shell and heat exchange housing, between adjacent two heat exchange housings, form the exhaust gases passes and air duct alternately arranged, be communicated with successively between described multiple exhaust gases passes and be provided with smoke inlet and exhanst gas outlet, described multiple air ducts are communicated with successively and are provided with cool air inlet and hot air outlet, seal chamber is formed between described combustion chamber and main furnace shell, and water inlet and delivery port is respectively equipped with top bottom seal chamber, multiple tracks smoke evacuation heat pipe is laid with in the seal chamber of described top of combustion chamber, exhaust gases passes interlayer or multiple tracks smoke evacuation heat pipe is provided with in the seal chamber of described side, combustion chamber, one end of the exhaust gases passes interlayer of described side, combustion chamber or multiple tracks smoke evacuation heat pipe is communicated with bottom of combustion chamber, the exhaust gases passes interlayer of described side, combustion chamber or the multiple tracks smoke evacuation other end of heat pipe are communicated with the smoke evacuation heat pipe of top of combustion chamber, the other end of the smoke evacuation heat pipe of described top of combustion chamber is communicated with the smoke inlet of secondary stove.
Described fire grate is that multiple tracks is arranged side by side and the hot water pipeline be communicated with seal chamber, and the exhaust gases passes interlayer of described side, combustion chamber or multiple tracks smoke evacuation heat pipe are communicated with deslagging chamber, are provided with secondary oxygen supply port in described combustion chamber and deslagging chamber.
Described combustion chamber and the descending flame hot water pipeline being also provided with multiple tracks between fire grate and being communicated with seal chamber, main chamber is formed between descending flame hot water pipeline and fire grate, the exhaust gases passes interlayer of described side, combustion chamber or multiple tracks smoke evacuation heat pipe are communicated with main chamber, and secondary oxygen supply port is provided with in combustion chamber and main chamber, described main chamber is provided with observation port.
Described combustion chamber and deslagging chamber are respectively arranged with fuel inlet and slag-drip opening.
Be provided with soil cleaning port bottom described seal chamber, bottom described exhaust gases passes and air duct, be also provided with soil cleaning port.
Be provided with maintenance channel between described main furnace roof portion and outer wall of combustion chamber, described maintenance channel top is provided with maintenance cover plate, the exhaust gases passes interlayer of side, combustion chamber or multiple tracks smoke evacuation heat pipe, top of combustion chamber smoke evacuation heat pipe be all communicated with maintenance channel.
Described Inner Wall of Combustion Chamber side is laid with the up hot water pipeline that multiple tracks is communicated with upper-lower seal cavity.
Adopt technique scheme, acquired beneficial effect is:
The utility model adopts main stove, secondary stove complements each other structure, water heating is carried out by main stove, secondary stove carries out its heating, pass through Multilayer Switching, making full use of of abundant guarantee heat energy, the utility model additionally uses and instead sinters structure, make its heat utilization rate high, fuel consumption reduces greatly, and can effectively control for the burning velocity of whole boiler, and the utility model can according to different temperature requirements and humidity requirement, Reasonable adjustment is for cultivating or plant the temperature and humidity of air, realize thermostatic control, guarantee the quality of mixing wastewater with air coupling.
Accompanying drawing explanation
Fig. 1 is one of structural representation of the present utility model.
Fig. 2 is the left TV structure schematic diagram of Fig. 1.
Fig. 3 is structural representation two of the present utility model.
Fig. 4 is the left TV structure schematic diagram of Fig. 3.
Fig. 5 be in Fig. 1 or Fig. 3 A-A to one of structural representation.
Fig. 6 be in Fig. 1 or Fig. 3 A-A to structural representation two.
Sequence number in figure: 1 is main furnace shell, 2 is combustion chamber, 3 is fire grate, 4 is deslagging chamber, 5 is secondary furnace shell, 6 is heat exchange housing, 7 is exhaust gases passes, 8 is air duct, 9 is smoke inlet, 10 is exhanst gas outlet, 11 is cool air inlet, 12 is hot air outlet, 13 is seal chamber, 14 is water inlet, 15 is delivery port, 16 is smoke evacuation heat pipe, 17 is exhaust gases passes interlayer, 18 is secondary oxygen supply port, 19 is descending flame hot water pipeline, 20 is main chamber, 21 is fuel inlet, 22 is slag-drip opening, 23 is soil cleaning port, 24 is maintenance cover plate, 25 is up hot water pipeline, 26 is observation port.
Detailed description of the invention
Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is elaborated.
Embodiment one: see Fig. 1, Fig. 2, Fig. 5, Fig. 6, a kind of breeding and planting reverse burning hot water thermal wind furnace of the utility model, comprise main stove and secondary stove, described main stove comprises main furnace shell 1, combustion chamber 2, fire grate 3 and deslagging chamber 4, the Multi-layer exchanging heat housing 6 that described secondary stove comprises secondary furnace shell 5 and is arranged in secondary furnace shell 5, between described secondary furnace shell 5 and heat exchange housing 6, the exhaust gases passes 7 alternately arranged and air duct 8 is formed between adjacent two heat exchange housings 6, be communicated with successively between described multiple exhaust gases passes 7 and be provided with smoke inlet 9 and exhanst gas outlet 10, described multiple air ducts 8 are communicated with successively and are provided with cool air inlet 11 and hot air outlet 12, seal chamber 13 is formed between described combustion chamber 2 and main furnace shell 1, and water inlet 14 and delivery port 15 is respectively equipped with top bottom seal chamber 13, multiple tracks smoke evacuation heat pipe 16 is laid with in the seal chamber at top, described combustion chamber 2, exhaust gases passes interlayer 17 or multiple tracks smoke evacuation heat pipe 16 is provided with in the seal chamber of described side, combustion chamber 2, the exhaust gases passes interlayer of described side, combustion chamber 2 or multiple tracks smoke evacuation one end of heat pipe are communicated with the deslagging chamber 4 of bottom of combustion chamber, the exhaust gases passes interlayer 17 of described side, combustion chamber or the multiple tracks smoke evacuation other end of heat pipe are communicated with the smoke evacuation heat pipe of top of combustion chamber, the other end of the smoke evacuation heat pipe 16 of described top of combustion chamber is communicated with the smoke inlet 9 of secondary stove, described fire grate 3 is arranged side by side for multiple tracks and the hot water pipeline be communicated with seal chamber 13, secondary oxygen supply port is provided with in described combustion chamber and deslagging chamber.
Described combustion chamber 2 and deslagging chamber 4 are respectively arranged with fuel inlet 21 and slag-drip opening 22, soil cleaning port 23 is provided with bottom described seal chamber, also soil cleaning port 23 is provided with bottom described exhaust gases passes 7 and air duct 8, maintenance channel is provided with between described main furnace roof portion and outer wall of combustion chamber, described maintenance channel top is provided with maintenance cover plate 24, the exhaust gases passes interlayer of side, combustion chamber or multiple tracks smoke evacuation heat pipe, the smoke evacuation heat pipe of top of combustion chamber is all communicated with maintenance channel, described Inner Wall of Combustion Chamber side is laid with the up hot water pipeline 25 that multiple tracks is communicated with upper-lower seal cavity.
Embodiment two: see Fig. 3-Fig. 6, the structure of the present embodiment is substantially identical with embodiment one, something in common no longer repeats, its difference is: described combustion chamber 2 and the descending flame hot water pipeline 19 being also provided with multiple tracks between fire grate 3 and being communicated with seal chamber, main chamber 20 is formed between descending flame hot water pipeline 19 and fire grate 3, the exhaust gases passes interlayer of described side, combustion chamber or multiple tracks smoke evacuation heat pipe are communicated with main chamber, and secondary oxygen supply port is provided with in combustion chamber and main chamber, described main chamber is provided with observation port 26.
Claims (7)
1. a breeding and planting reverse burning hot water thermal wind furnace, comprise main stove and secondary stove, described main stove comprises main furnace shell, combustion chamber, fire grate and deslagging chamber, it is characterized in that, described secondary stove comprises secondary furnace shell and is arranged on the Multi-layer exchanging heat housing in secondary furnace shell, between described secondary furnace shell and heat exchange housing, the exhaust gases passes alternately arranged and air duct is formed between adjacent two heat exchange housings, be communicated with successively between described multiple exhaust gases passes and be provided with smoke inlet and exhanst gas outlet, described multiple air ducts are communicated with successively and are provided with cool air inlet and hot air outlet, seal chamber is formed between described combustion chamber and main furnace shell, and water inlet and delivery port is respectively equipped with top bottom seal chamber, multiple tracks smoke evacuation heat pipe is laid with in the seal chamber of described top of combustion chamber, exhaust gases passes interlayer or multiple tracks smoke evacuation heat pipe is provided with in the seal chamber of described side, combustion chamber, one end of the exhaust gases passes interlayer of described side, combustion chamber or multiple tracks smoke evacuation heat pipe is communicated with bottom of combustion chamber, the exhaust gases passes interlayer of described side, combustion chamber or the multiple tracks smoke evacuation other end of heat pipe are communicated with the smoke evacuation heat pipe of top of combustion chamber, the other end of the smoke evacuation heat pipe of described top of combustion chamber is communicated with the smoke inlet of secondary stove.
2. breeding and planting reverse burning hot water thermal wind furnace according to claim 1, it is characterized in that, described fire grate is that multiple tracks is arranged side by side and the hot water pipeline be communicated with seal chamber, the exhaust gases passes interlayer of described side, combustion chamber or multiple tracks smoke evacuation heat pipe are communicated with deslagging chamber, are provided with secondary oxygen supply port in described combustion chamber and deslagging chamber.
3. breeding and planting reverse burning hot water thermal wind furnace according to claim 1, it is characterized in that, described combustion chamber and the descending flame hot water pipeline being also provided with multiple tracks between fire grate and being communicated with seal chamber, main chamber is formed between descending flame hot water pipeline and fire grate, the exhaust gases passes interlayer of described side, combustion chamber or multiple tracks smoke evacuation heat pipe are communicated with main chamber, and secondary oxygen supply port is provided with in combustion chamber and main chamber, described main chamber is provided with observation port.
4. breeding and planting reverse burning hot water thermal wind furnace according to claim 1, is characterized in that, described combustion chamber and deslagging chamber are respectively arranged with fuel inlet and slag-drip opening.
5. breeding and planting reverse burning hot water thermal wind furnace according to claim 1, is characterized in that, be provided with soil cleaning port bottom described seal chamber, be also provided with soil cleaning port bottom described exhaust gases passes and air duct.
6. breeding and planting reverse burning hot water thermal wind furnace according to claim 1, it is characterized in that, maintenance channel is provided with between described main furnace roof portion and outer wall of combustion chamber, described maintenance channel top is provided with maintenance cover plate, the exhaust gases passes interlayer of side, combustion chamber or multiple tracks smoke evacuation heat pipe, top of combustion chamber smoke evacuation heat pipe be all communicated with maintenance channel.
7. breeding and planting reverse burning hot water thermal wind furnace according to claim 1, is characterized in that, described Inner Wall of Combustion Chamber side is laid with the up hot water pipeline that multiple tracks is communicated with upper-lower seal cavity.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520380653.7U CN204693818U (en) | 2015-06-05 | 2015-06-05 | Breeding and planting reverse burning hot water thermal wind furnace |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520380653.7U CN204693818U (en) | 2015-06-05 | 2015-06-05 | Breeding and planting reverse burning hot water thermal wind furnace |
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Publication Number | Publication Date |
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CN204693818U true CN204693818U (en) | 2015-10-07 |
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CN201520380653.7U Active CN204693818U (en) | 2015-06-05 | 2015-06-05 | Breeding and planting reverse burning hot water thermal wind furnace |
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2015
- 2015-06-05 CN CN201520380653.7U patent/CN204693818U/en active Active
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