CN110160030A - Air-heater heats boiled water steam engine - Google Patents
Air-heater heats boiled water steam engine Download PDFInfo
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- CN110160030A CN110160030A CN201910496793.3A CN201910496793A CN110160030A CN 110160030 A CN110160030 A CN 110160030A CN 201910496793 A CN201910496793 A CN 201910496793A CN 110160030 A CN110160030 A CN 110160030A
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 478
- 230000004087 circulation Effects 0.000 claims abstract description 227
- 238000001816 cooling Methods 0.000 claims abstract description 135
- 238000012546 transfer Methods 0.000 claims abstract description 96
- 230000008676 import Effects 0.000 claims description 45
- 238000005304 joining Methods 0.000 claims description 2
- 238000012545 processing Methods 0.000 abstract description 17
- 230000000694 effects Effects 0.000 abstract description 11
- 238000000034 method Methods 0.000 abstract description 11
- 239000008236 heating water Substances 0.000 abstract description 8
- 238000007664 blowing Methods 0.000 abstract description 2
- 238000010438 heat treatment Methods 0.000 description 37
- 229910000838 Al alloy Inorganic materials 0.000 description 7
- 239000003245 coal Substances 0.000 description 7
- 125000004122 cyclic group Chemical group 0.000 description 7
- 238000005516 engineering process Methods 0.000 description 7
- 239000007789 gas Substances 0.000 description 7
- 230000017525 heat dissipation Effects 0.000 description 7
- 238000010586 diagram Methods 0.000 description 6
- 238000000926 separation method Methods 0.000 description 5
- 238000004064 recycling Methods 0.000 description 4
- 238000002955 isolation Methods 0.000 description 3
- 238000004519 manufacturing process Methods 0.000 description 3
- 238000002485 combustion reaction Methods 0.000 description 2
- 238000004891 communication Methods 0.000 description 2
- 238000005485 electric heating Methods 0.000 description 2
- 238000003912 environmental pollution Methods 0.000 description 2
- 230000005855 radiation Effects 0.000 description 2
- 238000003466 welding Methods 0.000 description 2
- 241001349296 Tragia volubilis Species 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 239000000571 coke Substances 0.000 description 1
- 239000000567 combustion gas Substances 0.000 description 1
- 238000005265 energy consumption Methods 0.000 description 1
- 230000002708 enhancing effect Effects 0.000 description 1
- 239000000446 fuel Substances 0.000 description 1
- JEGUKCSWCFPDGT-UHFFFAOYSA-N h2o hydrate Chemical compound O.O JEGUKCSWCFPDGT-UHFFFAOYSA-N 0.000 description 1
- 230000020169 heat generation Effects 0.000 description 1
- 238000001802 infusion Methods 0.000 description 1
- 238000002386 leaching Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 239000004576 sand Substances 0.000 description 1
- 239000002002 slurry Substances 0.000 description 1
- 239000010935 stainless steel Substances 0.000 description 1
- 229910001220 stainless steel Inorganic materials 0.000 description 1
- 238000010792 warming Methods 0.000 description 1
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F22—STEAM GENERATION
- F22B—METHODS OF STEAM GENERATION; STEAM BOILERS
- F22B33/00—Steam-generation plants, e.g. comprising steam boilers of different types in mutual association
- F22B33/18—Combinations of steam boilers with other apparatus
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Heat-Pump Type And Storage Water Heaters (AREA)
Abstract
The invention discloses a kind of air-heaters to heat boiled water steam engine, including high-temperature warm air machine, boiled water tank, high-temperature warm air machine include air-heater casing, air-heater impeller, air-heater air inlet, air-heater air outlet;Boiled water tank includes water tank shell, water tank chamber, tank inlet pipe, radiator drain;Water tank air inlet, water tank air outlet are additionally provided on boiled water tank;Water tank is intracavitary to be equipped with air inlet heat radiating air duct and circulation cooling air hose;Input inlet box, output air outlet box and circulation transfer bellows are equipped on the outside of boiled water tank;The secondary cistern for being close to water tank shell side wall is equipped on the outside of circulation transfer bellows on the outside of boiled water tank.The present invention can directly process hot boiled water steam high-temperature steam using pneumatic heat high-temperature warm air machine blowing heating water, processing effect is good, it is high-efficient, save that the energy, expense be low, environmentally friendly high-temperature warm air machine heats boiled water steam engine.
Description
Technical field
The present invention relates to a kind of air-heaters to heat boiled water steam engine, belongs to thermal technology's machinery.
Background technique
The various coal and oil boilers processing water effect that present people use is poor, low efficiency, big energy-consuming, exhaust emission gas
Body, pollution environment;The water heaters tool heating effect such as gas fired-boiler water heater, electric heating pot stove water heater that people use is poor,
Low efficiency, big energy-consuming, costly, thus, the various instruments for the processing water that present people use do not adapt to now for people
To processing water a variety of needs.
Summary of the invention
The invention proposes a kind of air-heaters to heat boiled water steam engine, the purpose is to: a kind of pneumatic heat high temperature is provided
Air-heater blowing heating water, directly processes hot boiled water steam high-temperature steam, processing effect is good, it is high-efficient, save the energy, expense
Low, environmentally friendly high-temperature warm air machine heats boiled water steam engine.
Technical solution of the present invention is as follows:
The purpose of the present invention can be reached by following technical measures: a kind of air-heater heating boiled water steam engine, including high temperature
Air-heater, boiled water tank, high-temperature warm air machine include air-heater casing, air-heater air inlet, air-heater air outlet, and boiled water tank includes water
Box shell, water tank chamber, water tank blast pipe, water tank discharge pipe, its main feature is that, water tank air inlet, water tank outlet air are additionally provided on boiled water tank
Mouthful, water tank air inlet is connected to high-temperature warm air machine air outlet, and water tank air outlet is connected to high-temperature warm air machine air inlet;Water tank is intracavitary
Equipped with air inlet heat radiating air duct and circulation cooling air hose;It enters the wind heat radiating air duct both ends and is equipped with air inlet heat radiating air duct import and air inlet heat dissipation
Wind tube outlet, air inlet heat radiating air duct both ends are connected with water tank shell side wall respectively;Circulation cooling air hose both ends are equipped with circulation cooling wind
Pipe import and circulation cooling wind tube outlet, circulation cooling air hose both ends are connected with water tank shell side wall respectively;It is equipped on the outside of boiled water tank
Input inlet box, output air outlet box, circulation transfer bellows;It inputs inlet box import to be connected to water tank air inlet, inputs inlet box
Outlet is with entering the wind heat radiating air duct inlet communication, and the outlet of air inlet heat radiating air duct is with circulation transfer bellows connection;Circulation cooling air hose into
Mouth is with circulation transfer bellows connection;Air outlet box import is exported to be connected to circulation cooling wind tube outlet;Air outlet box import is exported with water
The connection of case air outlet, water tank is intracavitary to be full of Water in Water Tank, enters the wind heat radiating air duct and circulation cooling air hose is immersed in Water in Water Tank, enter the wind
Heat radiating air duct inner cavity and circulation cooling air hose inner cavity tightly completely cut off with water tank chamber inner space, are not connected to mutually;On the outside of boiled water tank
It recycles and is equipped with secondary cistern on the outside of transfer bellows, be full of Water in Water Tank in secondary cistern, recycle transfer bellows inner cavity with the attached water on the outside of it
Box cavity space tightly completely cuts off, and is not connected to mutually, and water tank chamber inner space is with attached on the outside of the circulation transfer bellows on the outside of water tank chamber
Water tank cavity space is connected to each other.
In order to further realize the purpose of the present invention, the present invention is also intracavitary equipped with multiple groups circulation cooling air hose, water in water tank
Multiple circulation transfer bellows are equipped on the outside of case chamber, the both ends of each circulation cooling air hose of multiple groups circulation cooling air hose are designed with
The import of circulation cooling air hose and circulation cooling wind tube outlet, the import of circulation cooling air hose and circulation cooling wind tube outlet are respectively with it
Corresponding circulation transfer bellows connection, multiple groups recycle relieve heat pipe both ends corresponding water tank shell side wall connection, water tank chamber with its respectively
Interior to be full of Water in Water Tank, each heat radiating air duct outer space of multiple groups circulation cooling air hose is all immersed in Water in Water Tank, and multiple groups are followed
Each circulation cooling air hose inner cavity of bostle pipe tightly completely cuts off with the water tank cavity space on the outside of it not to be connected to mutually, and multiple groups circulation dissipates
It is equipped with the secondary cistern for being close to water tank shell side wall on the outside of the corresponding multiple circulation transfer bellows of hot air pipe, is full of water tank in secondary cistern
Water, the corresponding multiple circulation transfer bellows of multiple groups circulation cooling air hose are all immersed in Water in Water Tank, in multiple circulation transfer bellows
Chamber tightly completely cuts off with the attached water box cavity on the outside of it, is not connected to mutually.
In order to further realize the purpose of the present invention, it is equipped on the outside of input inlet box of the invention and is close to water tank shell side wall
Secondary cistern, secondary cistern is interior to be full of Water in Water Tank, and input inlet box is immersed in Water in Water Tank, and input air inlet box cavity is the same as attached water on the outside of it
Box cavity, which tightly completely cuts off, not to be connected to mutually, and secondary cistern intracavity space is connected to each other with water tank chamber inner space.
In order to further realize the purpose of the present invention, it is equipped on the outside of output air outlet box of the invention and is close to water tank shell side wall
Secondary cistern, secondary cistern is interior to be full of Water in Water Tank, and output air outlet box is immersed in Water in Water Tank, and output outlet air box cavity is the same as its outside attached water
Box cavity space tightly completely cuts off, and is not connected to mutually, and secondary cistern intracavity space is connected to each other with water tank chamber inner space.
In order to further realize the purpose of the present invention, the present invention is equipped with steam box also above boiled water tank, and steam box includes
Steam box shell, steam box inner cavity, steam box air inlet, steam box air outlet, steam box air intake, steam box venthole;It steams
Steam chest air inlet is connected to air-heater air outlet, and steam box air outlet is connected to air-heater air inlet;It is set in steam box inner cavity defeated
Enter inlet box, output air outlet box, circulation transfer bellows, steam box inner cavity are connected and fixed wall, air inlet heat radiating air duct, circulation cooling wind
Pipe, input inlet box import are connected to steam box air inlet, and input inlet box outlet end is connected and fixed wall with steam box inner cavity and connects
It connects, output air outlet box import is connected to circulation cooling wind tube outlet, and the outlet of output air outlet box is connected to steam box air outlet, circulation
Transfer bellows are connected and fixed wall with steam box inner cavity and are fitted and connected, enter the wind heat radiating air duct import and be connected and fixed by steam box inner cavity
Wall passes through steam box inner cavity with circulation cooling wind tube outlet respectively and connects with circulation transfer bellows connection, the import of circulation cooling air hose
Fixation wall is connected to circulation transfer bellows with output air outlet box;Steam box inner cavity is full of in steam box water vapour, input inlet box
Chamber, output outlet air box cavity, circulation transfer bellows inner cavity, air inlet heat radiating air duct inner cavity, circulation cooling air hose inner cavity are all with outside it
Side steam box intracavity space, which tightly completely cuts off, not to be connected to mutually;It is fitted and connected on the upside of steam box bottom side and boiled water tank, steam box bottom side is set
There is steam box air intake, boiled water tank venthole is equipped on the upside of boiled water tank, steam box air intake and boiled water tank venthole are corresponding mutual
Connection.
Air-heater of the present invention heating boiled water steam engine compared with various boilers, the water heaters tool such as electric heater it is the same,
It is also using heat exchange principle processing heating water, the difference is that the heat source that existing various water heater tools use is combustion
Coal combustion gas or electric heating, and heat source of the present invention is then the high-temperature hot-air generated using high-temperature warm air machine, passes through heat using high-temperature hot-air
Cold water is directly processed into hot water boiled water, steam high-temperature steam by exchange effect.Since the heat source of use is different, so present invention heat
It is far different with the structural principle of existing various water heater tools that blower heats boiled water steam engine structural principle.
Air-heater heating boiled water steam engine primary structure of the present invention includes two big components, i.e. high-temperature warm air machine and boiled water tank.
High-temperature warm air machine includes air-heater casing, air-heater impeller, air-heater air inlet, air-heater air outlet;Boiled water tank
Including water tank shell, water tank chamber, tank inlet pipe, radiator drain, water tank air inlet, water tank air outlet;Water tank air inlet is with height
Warm fan outlet connection, water tank air outlet are connected to high-temperature warm air machine air inlet.The high-temperature hot-air warp that high-temperature warm air machine generates
Water tank air inlet row becomes low temperature hot wind in the intracavitary radiating and cooling of water tank, which aspirates through air-heater air inlet into high temperature
Circulating-heating re-forms high-temperature hot-air in air-heater, which is arranged again becomes low in water tank cavity circulation radiating and cooling again
Wind is warmed, which is pumped into recycling heating in high-temperature warm air machine through high-temperature warm air machine air inlet again and re-forms high temperature
Hot wind, which is arranged again becomes low temperature hot wind, the low temperature hot wind again through air inlet in circulation cooling in water tank again
It aspirates into high-temperature hot-air is formed through circulating-heating again in high-temperature warm air machine, which is arranged again radiates in water tank cavity circulation
Cooling becomes low temperature hot wind, which is pumped into recycling in high-temperature warm air machine through air-heater air inlet again and is thermally formed
High-temperature hot-air, which is arranged again becomes low temperature hot wind ... in the intracavitary radiating and cooling of water tank, loops back and forth like this, and constitutes
State of cyclic operation process.
Water tank is intracavitary (to enter the wind heat radiating air duct and circulation cooling air hose is all set equipped with air inlet heat radiating air duct and circulation cooling air hose
Meter two or more is designed to air inlet heat radiating air duct group, circulation cooling air hose group), air inlet heat radiating air duct both ends are equipped with air inlet heat dissipation
Air hose import and the outlet of air inlet heat radiating air duct, air inlet heat radiating air duct both ends are connected with water tank shell side wall respectively;Circulation cooling air hose
Both ends are equipped with circulation cooling fan inlet and circulation cooling wind tube outlet, and circulation cooling air hose both ends connect with water tank shell side wall respectively
It connects;The input inlet box for being close to water tank shell side wall, output air outlet box, circulation transfer bellows are equipped on the outside of boiled water tank;Input air inlet
Case import is connected to boiled water tank air inlet, and the outlet of input inlet box is with the blast pipe inlet communication that radiates, the outlet of air inlet heat radiating air duct
With circulation transfer bellows connection;The import of circulation cooling air hose is connected to circulation transfer bellows respectively with circulation cooling wind tube outlet,
Hot wind should be discharged in circulation transfer bellows in circulation cooling air hose, draw hot wind out of circulation transfer bellows again to water tank chamber
Interior Water in Water Tank circulating-heating;Air outlet box import is exported by circulation cooling air hose with circulation transfer bellows connection, exports outlet air
Case outlet is connected to water tank air outlet, and the function of exporting air outlet box is exactly circulation cooling air hose to water tank cavity circulation radiating and cooling
Low temperature hot wind convergence water conservancy diversion afterwards is pumped into high temperature in boiled water tank air outlet, then through boiled water tank air outlet, air-heater air inlet
Circulating-heating is carried out in air-heater.
Water tank is intracavitary to be full of Water in Water Tank, and the intracavitary air inlet heat radiating air duct of water tank and circulation cooling air hose are all immersed in Water in Water Tank
In, air inlet heat radiating air duct all tightly completely cuts off with Water in Water Tank with circulation cooling air hose not to be connected to mutually.It is close to boiled water tank on the outside of boiled water tank
The circulation transfer bellows outer space of shell side wall is full of Water in Water Tank, and the entire transfer bellows that recycle all are immersed in Water in Water Tank, recycle
Transfer bellows tightly completely cut off with its outside Water in Water Tank, are not connected to mutually.The intracavitary Water in Water Tank of water tank is with infusion on the outside of water tank chamber
The Water in Water Tank of transfer bellows is connected to each other.
Air-heater of the present invention heats boiled water steam engine, due to above structure technology, thus just forms following work
Principle: the high-temperature hot-air that high-temperature warm air machine generates is arranged input inlet box in water tank by water tank air inlet, then by input into
Bellows shunt the intracavitary air inlet heat radiating air duct of input water tank, are directly heated to Water in Water Tank by air inlet heat radiating air duct, then again by
The circulation transfer bellows on the outside of water tank chamber are arranged, then are dissipated in circulation cooling air hose by recycling by circulation transfer bellows separation panel
Then hot air pipe is discharged into the output air outlet box on the outside of water tank chamber by confluence again directly to Water in Water Tank circulating-heating, then by exporting out
Bellows are arranged by boiled water tank air outlet, air-heater air inlet forms cyclic high-temperature hot wind in progress circulating-heating in air-heater,
The cyclic high-temperature hot wind is arranged through boiled water tank air inlet in input inlet box again, then by input inlet box separation panel in air inlet heat-dissipating pipe
Directly Water in Water Tank is heated, is then arranged again in circulation transfer bellows, then circulation cooling wind is discharged by the shunting of circulation transfer bellows
Pipe carries out circulating-heating to Water in Water Tank by circulation cooling air hose, and then busbar connector is in output air outlet box again, then by exporting out
Bellows, which are discharged into high-temperature warm air machine, carries out circulation heat, forms cyclic high-temperature hot wind, is then entered the input of boiled water tank again
Inlet box, then the row of being split again heat Water in Water Tank in air inlet heat radiating air duct by air inlet heat radiating air duct ..., so recycle past
It is multiple, constantly Water in Water Tank is heated.
In order to obtain better heating effect, heating efficiency is improved, the present invention can also be in the intracavitary setting multiple groups of water tank
Circulation cooling air hose (each group includes more circulation cooling air hoses), boiled water tank outside are close to water tank shell side wall and multiple circulations are arranged
Transfer bellows, the both ends of each circulation cooling air hose of multiple groups circulation cooling air hose are designed with the import of circulation cooling air hose and follow
With its, corresponding circulation transfer bellows connect respectively for the outlet of ring heat radiating air duct, the import of circulation cooling air hose and circulation cooling wind tube outlet
Logical, each circulation cooling air hose both ends of multiple groups circulation cooling air hose correspond to the connection of water tank shell side wall with it, and multiple groups circulation dissipates
In each circulation cooling air hose of hot air pipe is all immersed in Water in Water Tank, each circulation cooling of multiple groups circulation cooling air hose
Air hose tightly completely cuts off with its Water in Water Tank for impregnating itself not to be connected to mutually.Each circulation cooling air hose of multiple groups circulation cooling air hose
Corresponding multiple circulation transfer bellows outer spaces are full of Water in Water Tank, and multiple circulation transfer bellows are tight with its outer space Water in Water Tank
Close isolation is not connected to mutually.Multiple circulation transferring box outer space Water in Water Tank are connected to each other with the intracavitary Water in Water Tank of water tank.
Multiple groups circulation cooling air hose and its corresponding multiple circulation transfer bellows are set, high-temperature hot-air can be effectively promoted
By recycle air hose back and forth carried out in Water in Water Tank multiple circulation cooling process Water in Water Tank, thus its process Water in Water Tank effect will
More preferably, heating efficiency will be higher.
The present invention can also be in the input inlet box or circulation transfer bellows or output air outlet box of boiled water tank, or exists simultaneously
Inlet box, circulation transfer bellows, output air outlet box outside setting boiled water tank secondary cistern are inputted, secondary cistern lateral wall is entered the wind with input
It is equipped with certain spacing between case side wall or circulation transfer bellows side wall or output air outlet box side wall, is full of water in entire secondary cistern
Case water, it is entire to input inlet box or circulation transfer bellows or output air outlet box is all immersed in secondary cistern inner water tank water, input into
Mutually tightly isolation is not connected to mutually with secondary cistern inner water tank water phase for bellows or circulation transfer bellows or output air outlet box, that is, attached
Water tank cannot input inlet box or circulation transfer wind to leak in input inlet box or circulation transfer bellows or output air outlet box
Case or output air outlet box cannot be to leaking out in secondary cistern;Secondary cistern side wall is equipped with limbers, and secondary cistern inner water tank water passes through attached
Water tank limbers interconnects together with water tank chamber Water in Water Tank.
After secondary cistern is set, so that it may promote to input inlet box or recycle transfer bellows or export the hot wind pair in air outlet box
Secondary cistern inner water tank water-cooled, thus also just improve heating water tank water efficiency.
Function is used in order to further increase, enhancing using effect, raising make the thermal efficiency, and the present invention can also be arranged specially
With steam box, steam box is located above boiled water tank, is connected with boiled water tank appropriateness.Steam box includes steam box shell, in steam box
Chamber, steam box air inlet, steam box air outlet, steam box air intake, steam box venthole;Steam box air inlet goes out with air-heater
Air port connection, steam box air outlet are connected to air-heater air inlet;Input inlet box, output outlet air are equipped in steam box inner cavity
Case, circulation transfer bellows, steam box inner cavity are connected and fixed wall, air inlet heat radiating air duct, circulation cooling air hose, input inlet box import
It is connected to steam box air inlet, input inlet box outlet end is connected and fixed wall connection with steam box inner cavity, and input inlet box is direct
Air-heater is discharged into the high-temperature hot-air come, steam box inner cavity is introduced by air inlet heat radiating air duct, then recycled by circulation cooling air hose
Heat dissipation processing steam box water vapour.It exports air outlet box outlet to be connected to steam box air outlet, output air outlet box can be steam box
The interior low temperature hot wind after circulation cooling air hose radiating and cooling is directly introduced in air-heater by steam box air outlet add again
Heat.Circulation transfer bellows are connected and fixed wall with steam box inner cavity and are fitted and connected, and air inlet heat radiating air duct import passes through steam box inner cavity
It is connected and fixed wall and wall is connected and fixed with circulation by steam box inner cavity with inputting inlet box outlet, the outlet of air inlet heat radiating air duct
The connection of transfer bellows, the import of circulation cooling air hose and circulation cooling wind tube outlet pass through respectively steam box inner cavity be connected and fixed wall with
Circulation transfer bellows are connected to output air outlet box, and steam box water vapour, input inlet box, output outlet air are full of in steam box inner cavity
Case, circulation transfer bellows, air inlet heat radiating air duct, circulation cooling air hose are all immersed in steam box water vapour, can be directly to
The heating of steam box steam heating.
Input air inlet box cavity, output outlet air box cavity, circulation transfer bellows inner cavity, air inlet heat radiating air duct inner cavity, circulation
Heat radiating air duct inner cavity, which all tightly completely cuts off with its outer space steam box water vapour, not to be connected to mutually, that is, input inlet box, defeated
Air outlet box, circulation transfer bellows, air inlet heat radiating air duct, circulation cooling air hose all cannot absolutely leak out to steam box inner cavity out, steam
Steam chest inner cavity absolutely cannot to input inlet box in, output air outlet box in, circulation transfer bellows in, air inlet heat radiating air duct in, follow
Vapour is leaked in ring heat radiating air duct.
It is fitted and connected on the upside of the technology, steam box bottom side and boiled water tank, steam box bottom side is equipped with steam box air inlet, boiled water
Boiled water tank venthole is equipped on the upside of case, steam box air inlet and boiled water tank venthole are corresponding interconnected, produce in the boiled water tank of lower section
Raw water vapour can directly advance rashly top steam box in, then processed formation high-temperature steam or superhigh temperature steam, high temperature or
Superhigh temperature steam draws through steam box venthole use again.
Steam box of the present invention is essentially the same with boiled water box structure, except that the input inlet box of steam box, exporting out
Bellows, circulation transfer bellows are all located in steam box inner cavity;In steam box inner cavity full of water vapour rather than water, steam box are straight
Connect special processing heating steam.
The present invention heats boiled water steam engine according to the air-heater of above-mentioned technology manufacture, and function is more, and purposes is wide, easy to use,
It is high-efficient, save the energy, be good for the environment, air-heater heating boiled water steam engine can directly by cold water be processed into hot water, boiled water,
Steam, high-temperature steam, various for people's production and living use needs.
It is directly that Water in Water Tank and steam box water vapour add by high-temperature warm air machine since this air-heater heats boiled water steam engine
Heat heating, and high-temperature warm air machine thermal effect it is natively high (it is the same with heat pump > 200, be electrothermal efficiency more than two times, still, heat pump
Heat generation temperature is low, and low environment operational efficiency is low), so replacing general electric heater, gas heater heating tens with the technology
The several hundred kg of water of jin, can save 50% or more the energy;Several tons of more than ten tons of tens tons of boilers heating water are replaced with the technology, it can
Energy saving expense is significantly saved, and free from environmental pollution.
Even if the technology processes several tons of more than ten tons of tens tons of water instead of large, medium and small coal-burning boiler, also saved than coal-burning boiler
Energy saving expense;Because coal-burning boiler must assemble air blower air-introduced machine, it is necessary to arrange full-time fireman, it is necessary to pay carrying
Coal clinker expense, although coal is cheap, always altogether, coal-burning boiler energy consumption and expense are than air-heater heating boiled water
Steam machines water consume can be taller with expense, and coal-burning boiler seriously pollutes environment.
Air-heater heating boiled water steam engine of the present invention can replace various electric heater gas heaters, can replace grill pan
Furnace gas fuel boiler can replace the coal-burning boiler of various models to process water.Air-heater heating boiled water steam engine is entirely capable of fitting
Needs preferably are used to the various of processing water for people's production and living now.
Detailed description of the invention
Fig. 1 is the first embodiment structure schematic diagram of the invention.
Fig. 2 is the first embodiment boiled water tank structural schematic diagram of the invention.
Fig. 3 is second of embodiment structure schematic diagram of the invention.
Fig. 4 is second of embodiment boiled water tank structural schematic diagram of the invention.
Fig. 5 is the third embodiment structure schematic diagram of the invention.
Fig. 6 is the third embodiment steam box structural schematic diagram of the invention.
Figure label explanation:
1 high-temperature warm air machine, 2 boiled water tanks, 3 air-heater casings, 4 air-heater impellers, 5 air-heater air inlets, 6 air-heater air outlets, 7
Water tank shell, 8 water tank chambers, 9 tank inlet pipes, 10 radiator drains, 11 water tank air inlets, 12 water tank air outlets, 13 air inlet heat dissipations
Air hose, 14 circulation cooling air hoses, 15 air inlet heat radiating air duct imports, 16 air inlet heat radiating air duct outlets, 17 circulation cooling air hose imports,
18 circulation cooling wind tube outlets, 19 input inlet boxes, 20 output air outlet box, 21 circulation transfer bellows, 22 input inlet box imports,
23 input inlet box outlets, 24 output air outlet box imports, 25 output air outlet box outlets, 26 secondary cisterns, 27 limbers, 28 steam
Cabinet, 29 steam box shells, 30 steam box inner cavities, 31 steam box air inlets, 32 steam box air outlets, 33 steam box air intakes, 34
Steam box venthole, 35 steam box inner cavities are connected and fixed wall, 36 boiled water tank ventholes.
Specific embodiment
The technical solution that the invention will now be described in detail with reference to the accompanying drawings:
Embodiment 1
With reference to Fig. 1, Fig. 2, a kind of air-heater heating boiled water steam engine, including 2 liang of big components of high-temperature warm air machine 1 and boiled water tank, it is high
Warming blower includes air-heater casing 3, air-heater impeller 4, air-heater air inlet 5, air-heater air outlet 6;Boiled water tank includes aluminium
Alloy water tank shell 7, water tank chamber 8, tank inlet pipe 9, radiator drain 10, water tank air inlet 11, water tank air outlet 12, water tank into
Air port 11 is connected to air-heater air outlet 6, and water tank air outlet 12 is connected to air-heater air inlet 5;It is equipped in 15 in water tank chamber 8
The aluminium alloy circulation cooling air hose 14 of the aluminium alloy air inlet heat radiating air duct 13 and 15 piece internal diameter Ф 60 of diameter Ф 60;Every air inlet heat dissipation
Air hose both ends be designed with air inlet heat dissipation hot air pipe import 15 and air inlet heat radiating air duct outlet 16, air inlet heat radiating air duct both ends respectively with
7 two sidewalls of water tank shell weld together;Circulation cooling air hose both ends are equipped with circulation cooling air hose import 17 and circulation cooling air hose
Outlet 18, circulation cooling air hose both ends weld together with 7 two sidewalls of water tank shell respectively;Boiled water tank 2 is equipped on the outside of longitudinal both ends
Input inlet box 19, output air outlet box 20 made of the aluminium alloy plate tightly welded together with 7 side wall of water tank shell, circulation transfer
Bellows 21;It inputs inlet box import 22 to be connected to water tank air inlet 11, the outlet 23 of input inlet box is with entering the wind heat radiating air duct import
15 connections, air inlet heat radiating air duct outlet 16 are connected to circulation transfer bellows 21;Circulation cooling air hose import 17 is with recycling transfer wind
Case 21 is connected to;It exports air outlet box import 24 to be connected to circulation cooling wind tube outlet 18, the outlet 25 of output air outlet box is with water tank outlet air
Mouth 12 is connected to;It is full of Water in Water Tank in water tank chamber 8, enters the wind heat radiating air duct 13 and circulation cooling air hose 14 is all immersed in Water in Water Tank,
Air inlet heat radiating air duct 13 all tightly completely cuts off with Water in Water Tank with circulation cooling air hose 14 not to be connected to mutually, that is, air inlet heat radiating air duct
13 and circulation cooling air hose 14 in be absolutely unable to inlet tank water, enter the wind heat radiating air duct 13 and circulation cooling air hose 14 absolutely cannot be right
Water in Water Tank leaks out;Secondary cistern 26 made of aluminium alloy plate, secondary cistern 26 are equipped on the outside of the circulation transfer bellows 21 in 2 outside of boiled water tank
Side wall is tight with 7 sidewall weld of water tank shell, absolutely cannot external leak, Water in Water Tank is full of in secondary cistern, on 26 side wall of secondary cistern
Limbers 27 equipped with joining water box chamber 8, the Water in Water Tank in secondary cistern 26 is by secondary cistern limbers 27 with the water in water tank chamber 8
Case water is connected together;Entire circulation transfer bellows 21 are all immersed in 26 Water in Water Tank of secondary cistern, recycle transfer bellows 21 with attached
26 inner water tank water of water tank, which tightly completely cuts off, not to be connected to mutually.
This example boiled water tank is designed as 2 tons of water capacities, drives heating water tank water using 22KW high-temperature warm air machine 1.
It is that water tank chamber 8 and secondary cistern 27 fill it up with Water in Water Tank that tank inlet pipe is first passed through before work, then starts high-temperature hot-air
The operating of machine 1 generates > 100 DEG C of high-temperature hot-air, and the high-temperature hot-air is by fan outlet 5,11 row of water tank air inlet in outside water tank
The input inlet box 19 of side, then 15 air inlet heat radiating air ducts 13 of input are shunted by input inlet box outlet 23, it is entered the wind by 15
Heat radiating air duct 13 directly heats Water in Water Tank, the circulation transfer bellows 21 in 8 outside of water tank chamber is then discharged into again, by circulation
Turn bellows to heat the Water in Water Tank in secondary cistern 26, then is led to by circulation transfer bellows separation panel in 15 circulation cooling air hoses 14
15 circulation cooling air hoses 14 are crossed directly to Water in Water Tank circulating-heating, the then output outlet air by busbar connector on the outside of water tank chamber again
Case 20, then arranged by boiled water tank air outlet, air-heater air inlet in being thermally formed in air-heater by output air outlet box 20
Cyclic high-temperature hot wind, the cyclic high-temperature hot wind again through air-heater air outlet 6,11 row of boiled water tank air inlet in boiled water tank input into
Bellows 19, then 15 air inlet heat radiating air ducts 13 by 19 separation panel of input inlet box in boiled water tank again directly add Water in Water Tank
Heat, is then arranged again in circulation transfer bellows 21, then by 21 separation panel of circulation transfer bellows in 15 circulation cooling air hoses 14, by
Circulation cooling air hose to Water in Water Tank carry out circulating-heating, then again busbar connector in output air outlet box, then by output air outlet box again
Arranged in carrying out circulating-heating in high-temperature warm air machine, re-form cyclic high-temperature hot wind, be then entered again the input of boiled water tank into
Bellows, then the row of being split again heat Water in Water Tank in 15 air inlet heat radiating air ducts 13 by air inlet heat radiating air duct ..., so follow
Ring back and forth constantly to Water in Water Tank heat temperature raising, promotes Water in Water Tank to become hot water or boiled water.
For this example to processing hot water or boiled water, the hot water or boiled water being processed into extract use by radiator drain 10, or
Person draws force feed by high-pressure hydraulic pump and uses in distant place.
The heat source of this example processing cold water is the high-temperature hot-air that high-temperature warm air machine 1 generates, and the high-temperature warm air machine thermal efficiency is original
With regard to high (> 200), so this example processing hydro-thermal efficiency is also very high, it is electrically heated twice.This example can replace various water heaters and
Miniature boiler processes hot boiled water, easy to use, and heating efficiency is high, saves the energy, free from environmental pollution.
Embodiment 2
With reference to Fig. 3, Fig. 4, this example is essentially the same with example 1, except that being equipped with three groups of circulation cooling air hoses in this example water tank chamber 8
The aluminium alloy air hose of 20 internal diameter Ф 60 (every group contain) is set on the outside of water tank chamber there are three being close to water tank shell side wall, and with water
Box shell side wall, which tightly welds, recycles transfer bellows 21 made of aluminium alloy plate together, each of three groups of circulation cooling air hoses is followed
The both ends of ring heat radiating air duct 14 are designed with circulation cooling air hose import 17 and circulation cooling wind tube outlet 18, circulation cooling air hose into
Mouth 17 is connected to corresponding circulation transfer bellows 21 respectively with circulation cooling wind tube outlet 18, and each of three groups of circulation cooling air hoses
Corresponding 7 side wall of the water tank shell connection with its respectively of 14 both ends of circulation cooling air hose;Each circulation of three groups of circulation cooling air hoses
Heat radiating air duct 14 is all immersed in 8 Water in Water Tank of water tank chamber, and each circulation cooling air hose 14 of three groups of circulation cooling air hoses is with water
Water in Water Tank in case chamber 8, which tightly completely cuts off, not to be connected to mutually.Three groups of circulation cooling air hoses, 14 corresponding three circulation transfer bellows
21 outsides are designed with secondary cistern 26, and Water in Water Tank is full of in secondary cistern 26, and three circulation transfer bellows 21 impregnate it respectively and correspond to three
In the Water in Water Tank of a secondary cistern, the Water in Water Tank of each circulation corresponding secondary cistern with its of transfer bellows 21 tightly completely cuts off mutually not
Connection.
Second difference of this example is to be designed with secondary cistern on the outside of this example input inlet box 19 and output air outlet box 20
26, secondary cistern 26 is interior to be full of Water in Water Tank, and input inlet box 19 is separately immersed in its corresponding secondary cistern 26 with output air outlet box 20
In Water in Water Tank, the water for being connected to boiled water tank 2 is designed on input inlet box 19 and output corresponding 26 side wall of secondary cistern of air outlet box 20
The limbers 27 of case chamber inputs inlet box 19 and exports the Water in Water Tank in the corresponding secondary cistern 26 of air outlet box 20 with the water of boiled water tank
The intracavitary Water in Water Tank connection of case is together;Input inlet box 19 and output air outlet box 20 respectively with its corresponding secondary cistern Water in Water Tank
Tight isolation is not connected to mutually.
This example boiled water tank 2 is designed as 6 tons of water capacities, drives processing Water in Water Tank using 90KW high-temperature warm air machine 1, processes out
Water vapour.
This example air-heater heats boiled water steam engine working condition as example 1, except that this example is due to being additionally arranged leaching
Steep the circulation transfer bellows 21 being soaked in Water in Water Tank in two groups of circulation cooling air hoses 14 of Water in Water Tank and two, and input into
Bellows 19, output air outlet box 20 are also all soaked in Water in Water Tank, so the high-temperature hot-air that this example high-temperature warm air machine 1 generates will pass through
One group of air inlet heat radiating air duct, 13, three groups of circulation cooling air hose 14(long flow paths, be water tank water coke slurry heat it is more), three circulation in
Turn bellows 21, input inlet box 19, (could also say that at 9) at output air outlet box 20 etc. five it is comprehensive to water tank water-cooled, can
More fully for Water in Water Tank heat temperature raising, it can be seen that, this example heating water effect is more preferable, and speed is faster, more efficient.
Since this example high-temperature warm air machine power is big, boiled water tank water capacity is big, so this example had both been suitable for the big stream of quickly processing
Boiled water is measured, and can be suitable for the steam for processing big flow.
This example is compared with various electric boilers, the oil-burning gas-fired boiler of equal-wattage, can save energy saving expense 50%
More than.
6 tons of boiled water steam engines of this example are compared with the coal-burning boiler of equal-wattage, can also save comparable energy saving phase
When expense, because of 6 tons of homogeneous solution-type reactors, in addition to burn coal, nearly 60KW air blower air-introduced machine and other electric power facilities must be assembled, must
Two full-time firemans must be configured, it is necessary to surcharges such as coal clinker etc. are paid, and this example processes the boiler of 6 tons of water, only
It is only operated and is heated with 90KW(or two 45KW) high-temperature warm air machine.Thus it two compares, 6 tons of coal-burning boilers are than this
6 tons of air-heaters of example heat boiled water steam engines, consume energy and consume much greater, but also to drain polluted gas pollution environment.
Coal-burning boiler must be provided with dedicated roomy boiler room and huge chimney, its space occupied area of the two is wanted
Than one air-heater heating boiled water steam engine device space area occupied is much bigger (several times greater), coal-burning boiler equipment investment than
Air-heater heating boiled water implement equipment investment is much bigger (being twice).
Make a general survey of this example, it is therefore apparent that air-heater heating boiled water steam engine adapts to new era requirement completely and replaces combustion comprehensively
Coal burning boiler is promoted the use of.
Embodiment 3
With reference to Fig. 3, Fig. 4, Fig. 5, Fig. 6, this example is essentially the same with example 2, the difference is that this example is close to open above boiled water tank 2
The steam box 28 that stainless steel material is constituted is arranged in water tank 2, and steam box 28 is by refractory seals pad and fastening screw with boiled water tank 2
It is fitted and connected together.Its dedicated high-temperature warm air machine 1 is equipped on the outside of steam box.Steam box 28 includes steam box shell 29, steams
Steam chest inner cavity 30, steam box air inlet 31, steam box air outlet 32, steam box air intake 33, steam box gas outlet 34, steam box
Air inlet 31 is connected to air-heater air outlet 6, and steam box air outlet 32 is connected to air-heater air inlet 5;In steam box inner cavity 30
Wall 35, air inlet heat dissipation are connected and fixed equipped with input inlet box 19, output air outlet box 20, circulation transfer bellows 21, steam box inner cavity
Air hose 13, circulation cooling air hose 14, input 19 import of inlet box are connected to steam box air inlet 31, and the outlet of input inlet box 19 is logical
It crosses steam box inner cavity to be connected and fixed the welding of wall 35 and be connected to circulation transfer bellows 21, the outlet of output air outlet box 20 goes out with steam box
Air port 32 is docked and connected, and circulation transfer bellows 21 are connected and fixed the fitting of wall 35 with steam box inner cavity and are welded to connect, and enters the wind radiation air
13 import of pipe is connected and fixed wall 35 by steam box inner cavity and is docked and connected with the outlet of input inlet box 19, and air inlet heat-dissipating pipe 13 exports
It is connected and fixed wall 35 by steam box inner cavity to be connected to circulation transfer bellows 21,14 import of circulation cooling air hose and circulation cooling wind
The outlet of pipe 14 is connected and fixed wall 35 by steam box respectively and is connected to circulation transfer bellows 21 with output air outlet box 20;Input air inlet
19 inner cavity of case, output 20 inner cavity of air outlet box, circulation 21 inner cavity of transfer bellows, air inlet 13 inner cavity of heat radiating air duct, circulation cooling air hose
14 inner cavities, which all tightly completely cut off with the steam box intracavity space on the outside of it, not to be connected to mutually, that is, input inlet box 19, output outlet air
Case 20, circulation transfer bellows, air inlet heat radiating air duct 13, circulation cooling air hose 14 etc. are in 29 side wall of steam box shell and steam box
The welding that chamber is connected and fixed 35 junction of wall is tight, does not absolutely have fine crack without sand holes, guarantees input inlet box 19, output outlet air
Case 20, circulation transfer bellows 21, air inlet heat radiating air duct 13, circulation cooling air hose 14 absolutely not leak 30 space of steam box inner cavity
Wind, 30 space of steam box inner cavity dissipate input 19 inner cavity of inlet box output 20 inner cavity of air outlet box circulation 21 inner cavity of transfer bellows air inlet
Vapour is absolutely not leaked in 13 inner cavity of hot air pipe, 14 inner cavity of circulation cooling air hose.
Steam box bottom side is equipped with steam box air intake 33, is equipped with boiled water tank venthole on the upside of corresponding boiled water tank
36, steam box air intake 33 and boiled water tank venthole 36 are corresponding to be interconnected, the water vapour generated in the water tank chamber 8 of boiled water tank to
Upper directly row is equipped with control valve in 30. steam box air intake 33 of steam box inner cavity.
This example steam box assembles special-purpose high temperature air-heater 1, and high-temperature warm air machine 1 is steamed exclusively for the steam box water of steam box inner cavity
Vapour vapour heat temperature raising, the high-temperature warm air machine 1 are equipped with temperature controller.
When this example works, the high-temperature warm air machine 1 of boiled water tank connection is first started, the high-temperature hot-air for enabling high-temperature warm air machine generate is defeated
Enter in boiled water tank 2, be to heat (the principle of heating course of work is as example 2) with the water in secondary cistern 26 in boiled water tank water tank chamber 8,
Water in Water Tank is heated into boiled water and steam, the steam being heated into is emitted directly up in steam box 28, at this moment restarts steam box
The high-temperature warm air machine 1(of the connection high-temperature warm air machine outlet temperature is reachable > and 400 DEG C) generate the steam of high-temperature hot-air input steam box
Cabinet inner cavity 30 passes through the input inlet box 19 of steam box inner cavity, output air outlet box 20, circulation transfer bellows 21, air inlet radiation air
(principle of heating and the course of work are with boiled water tank heating water tank water one to steam box steam heating for pipe 13, circulation cooling air hose 14
Sample), by steam box steam heating at high-pressure and high-temperature steam or high pressure high temperature steam, the high pressure-temperature or super-pressure that are processed into
High-temperature steam is drawn defeated in distant place use by steam box venthole 34.
This example is due to not only setting boiled water tank 2 but also setting steam box 28 and be respectively equipped with the high-temperature warm air machines 1 of two temperature controllables, institute
It is multiple functional with its, hot water boiled water steam and out high temperature or superhigh temperature steam can be processed, can simultaneous processing go out
It is a variety of using needs that hot water boiled water, steam, high-temperature steam, superhigh temperature steam meet people simultaneously, and timesharing can add merely respectively
Work goes out hot water boiled water or steam or high-temperature steam or superhigh temperature steam, and timesharing meets merely people's a certain kind using needs respectively.
It is obvious that this example heating processing 2 effect of water ratio can be more preferable, efficiency can be higher.
Claims (5)
1. a kind of air-heater heats boiled water steam engine, including high-temperature warm air machine (1), boiled water tank (2), high-temperature warm air machine includes hot wind
Machine casing (3), air-heater impeller (4), air-heater air inlet (5), air-heater air outlet (6);Boiled water tank include water tank shell (7),
Water tank chamber (8), tank inlet pipe (9), radiator drain (10), it is characterised in that: be additionally provided with water tank on the boiled water tank (2)
Air inlet (11), water tank air outlet (12), water tank air inlet (11) are connected to air-heater air outlet (6), water tank air outlet (12)
It is connected to air-heater air inlet (5);Air inlet heat radiating air duct (13) and circulation cooling air hose (14) are equipped in water tank chamber (8);Air inlet
Heat radiating air duct (13) both ends are equipped with air inlet heat radiating air duct import (15) and air inlet heat radiating air duct outlet (16), enter the wind heat radiating air duct
(13) both ends are connected with water tank shell (7) side wall respectively;Circulation cooling air hose (14) both ends are equipped with circulation cooling air hose import (17)
With circulation cooling wind tube outlet (18), circulation cooling air hose (14) both ends are connected with water tank shell (7) side wall respectively;Boiled water tank (2)
Outside is equipped with input inlet box (19), output air outlet box (20) and circulation transfer bellows (21);Input inlet box import (22) with
Heat radiating air duct is entered the wind with air inlet heat radiating air duct import (15) connection in water tank air inlet (11) connection, input inlet box outlet (23)
(16) are exported with circulation transfer bellows (21) connection;Circulation cooling air hose import (17) is with circulation transfer bellows (21) connection;It is defeated
Air outlet box import (24) is connected to circulation cooling wind tube outlet (18) out, and output air outlet box outlet (25) is with water tank air outlet (12)
Connection;It is full of Water in Water Tank in water tank chamber (8), enters the wind heat radiating air duct (13) and circulation cooling air hose (14) is all immersed in Water in Water Tank
In, it enters the wind heat radiating air duct (13) inner cavity and circulation cooling air hose (14) inner cavity tightly completely cuts off with water tank chamber inner space, do not connect mutually
It is logical;The secondary cistern (26) for being close to water tank shell (7) side wall, secondary cistern are equipped on the outside of circulation transfer bellows (21) on the outside of boiled water tank
(26) Water in Water Tank is full of in, circulation transfer bellows (21) is immersed in secondary cistern, and circulation transfer bellows (21) inner cavity is with its outside
Secondary cistern (26) inner cavity tightly completely cuts off, and is not connected to mutually, and secondary cistern (26) side wall is equipped with the limbers (27) of joining water box chamber (8),
Secondary cistern (26) intracavity space is connected to by limbers (27) with water tank chamber (8) inner space each other.
2. air-heater as described in claim 1 heats boiled water steam engine, it is characterised in that: followed in water tank chamber (8) equipped with multiple groups
Ring heat radiating air duct (14), is equipped with multiple circulation transfer bellows (21) on the outside of water tank chamber (8), and each of multiple groups circulation cooling air hose
The both ends of circulation cooling air hose (14) are designed with circulation cooling air hose import (17) and circulation cooling wind tube outlet (18), and circulation dissipates
With its, corresponding circulation transfer bellows (21) are connected to respectively with circulation cooling wind tube outlet (18) for hot air pipe import (17), and multiple groups are followed
Corresponding water tank shell (7) the side wall connection with its of ring relieve heat pipe both ends;Water in Water Tank, multiple groups circulation cooling wind are full of in water tank chamber (8)
Each circulation cooling air hose (14) of pipe is all immersed in Water in Water Tank, each circulation cooling wind of multiple groups circulation cooling air hose
Tube cavity tightly completely cuts off with the water tank cavity space on the outside of it, is not connected to mutually;In the corresponding multiple circulations of multiple groups circulation cooling air hose
Turn to be equipped on the outside of bellows (21) full of Water in Water Tank in secondary cistern (26) secondary cistern (26), multiple circulation transfer bellows (21) are soaked respectively
It steeps in its corresponding secondary cistern, multiple circulation transfer bellows (21) inner cavities tightly completely cut off with the attached water box cavity on the outside of it, mutually
It is not connected to.
3. air-heater as described in claim 1 heats boiled water steam engine, it is characterised in that: be equipped on the outside of input inlet box (19)
It is close to the secondary cistern (26) of water tank shell (7) side wall, Water in Water Tank is full of in secondary cistern (26), input inlet box (19) is immersed in water tank
In water, input inlet box (19) inner cavity tightly completely cuts off with secondary cistern (26) intracavity space on the outside of it, is not connected to mutually, secondary cistern
(26) side wall is equipped with limbers (27), and secondary cistern (26) intracavity space is by limbers (27) with water tank chamber (8) inner space
It is connected to each other.
4. air-heater as described in claim 1 heats boiled water steam engine, it is characterised in that: be equipped on the outside of output air outlet box (20)
It is close to the secondary cistern (26) of water tank shell (7) side wall, Water in Water Tank is full of in secondary cistern (26), output air outlet box (20) is immersed in water tank
In water, output air outlet box (20) inner cavity tightly completely cuts off with its outside secondary cistern intracavity space, is not connected to mutually, secondary cistern (26) side wall
It is equipped with limbers (27), secondary cistern (26) intracavity space is connected to by limbers (27) with water tank chamber inner space each other.
5. air-heater as described in claim 1 heats boiled water steam engine, it is characterised in that: be equipped with steam above boiled water tank (2)
Cabinet (28), steam box (28) include that steam box shell (29), steam box inner cavity (30), steam box air inlet (31), steam box go out
Air port (32), steam box air intake (33), steam box venthole (34);Steam box air inlet (31) is with air-heater air outlet (6)
Connection, steam box air outlet (32) are connected to air-heater air inlet (5);Input inlet box is equipped in steam box inner cavity (30)
(19), output air outlet box (20), circulation transfer bellows (21), steam box inner cavity are connected and fixed wall (35), air inlet heat radiating air duct
(13), circulation cooling air hose (14), input inlet box (19) import are connected to steam box air inlet (31), the outlet of input inlet box
End is connected and fixed wall (35) connection with steam box inner cavity, and output air outlet box (20) outlet is connected to steam box air outlet (32), follows
Ring transfer bellows (21) are connected and fixed wall (35) with steam box inner cavity and are fitted and connected, and air inlet heat radiating air duct (13) import passes through steam
Cabinet inner cavity connection wall (35) is connected with inputting inlet box (19) outlet, air inlet heat radiating air duct (13) outlet by steam box inner cavity
Fixation wall (35) is connect with circulation transfer bellows (21) connection, (14) import of circulation cooling air hose and circulation cooling air hose (14) outlet
Wall (35) is connected and fixed by steam box inner cavity respectively to be connected to circulation transfer bellows (21) with output air outlet box (20);Steam box
Water vapour is full of in inner cavity (30), input inlet box (19) inner cavity, recycles in transfer bellows (21) output air outlet box (20) inner cavity
Chamber, air inlet heat radiating air duct (13) inner cavity and circulation cooling air hose (14) inner cavity all with its outside steam box intracavity space tightly every
Absolutely, it is not connected to mutually;Be fitted and connected on the upside of steam box (28) bottom side and boiled water tank (2), steam box (28) bottom side be equipped with steam box into
Steam ports (33), boiled water tank (2) upside are equipped with boiled water tank venthole (36), steam box air intake (33) and boiled water tank venthole (36)
It is corresponding to be interconnected.
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CN201910496793.3A CN110160030A (en) | 2019-06-10 | 2019-06-10 | Air-heater heats boiled water steam engine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
RU2743865C1 (en) * | 2020-03-24 | 2021-03-01 | федеральное государственное бюджетное образовательное учреждение высшего образования "Самарский государственный технический университет" | Method of boiler plant operation |
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CN2740957Y (en) * | 2004-09-06 | 2005-11-16 | 冯梓福 | Hot air water heater |
CN201827879U (en) * | 2010-10-20 | 2011-05-11 | 张志宇 | Horizontal natural-circulation heat exchanger |
CN203082905U (en) * | 2013-01-21 | 2013-07-24 | 高密市华龙板厂 | Boiler air supply smoke exhaust device |
CN207635656U (en) * | 2017-11-09 | 2018-07-20 | 广州泉能智能科技股份有限公司 | A kind of heat pump vacuum evaporator |
CN109373621A (en) * | 2018-11-23 | 2019-02-22 | 烟台通天达风机制造有限公司 | Induced oscillation heat high-temperature warm air machine |
CN210088815U (en) * | 2019-06-10 | 2020-02-18 | 烟台通天达风机制造有限公司 | Water heater heating boiled water steam machine |
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2019
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Publication number | Priority date | Publication date | Assignee | Title |
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CN2740957Y (en) * | 2004-09-06 | 2005-11-16 | 冯梓福 | Hot air water heater |
CN201827879U (en) * | 2010-10-20 | 2011-05-11 | 张志宇 | Horizontal natural-circulation heat exchanger |
CN203082905U (en) * | 2013-01-21 | 2013-07-24 | 高密市华龙板厂 | Boiler air supply smoke exhaust device |
CN207635656U (en) * | 2017-11-09 | 2018-07-20 | 广州泉能智能科技股份有限公司 | A kind of heat pump vacuum evaporator |
CN109373621A (en) * | 2018-11-23 | 2019-02-22 | 烟台通天达风机制造有限公司 | Induced oscillation heat high-temperature warm air machine |
CN210088815U (en) * | 2019-06-10 | 2020-02-18 | 烟台通天达风机制造有限公司 | Water heater heating boiled water steam machine |
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RU2743865C1 (en) * | 2020-03-24 | 2021-03-01 | федеральное государственное бюджетное образовательное учреждение высшего образования "Самарский государственный технический университет" | Method of boiler plant operation |
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