CN208222826U - Vibrate heat high-temperature warm air machine - Google Patents
Vibrate heat high-temperature warm air machine Download PDFInfo
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- CN208222826U CN208222826U CN201820411526.2U CN201820411526U CN208222826U CN 208222826 U CN208222826 U CN 208222826U CN 201820411526 U CN201820411526 U CN 201820411526U CN 208222826 U CN208222826 U CN 208222826U
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- impeller
- fan blade
- air inlet
- air
- impeller disk
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Abstract
The utility model discloses a kind of oscillation heat high-temperature warm air machines, including casing, shell air inlet, shell air outlet, impeller, the impeller disk, impeller air inlet, impeller air outlet, impeller sleeve, side runner in impeller, internal side of shell runner, chassis axial side wall and casing radial sidewalls, it is characterized by: impeller is equipped with can-like fan blade, can-like fan blade includes fan blade lateral wall, fan blade chamber and fan blade chamber air inlet, fan blade chamber air inlet is located at fan blade radially forward, fan blade chamber air inlet is connected to impeller air inlet, fan blade chamber diameter is posteriorly at closed state, entire can-like air port axial edge is connect with the impeller disk, side runner in impeller is equipped between adjacent can-like fan blade circumferential direction.The utility model can generate a large amount of heat, and externally processing heating material charge or object effect are especially good, and efficiency is especially high, in addition also has the advantages that low noise, is good for the environment.
Description
Technical field
The utility model relates to a kind of oscillation heat high-temperature warm air machines, belong to thermal technology's machinery or gas machinery field.
Background technique
The gases such as various ventilation blowers, air blower, compressor, the compressor that present people use are mechanical, can only process cold
Air cannot process hot-air, and function is few, and use scope is narrow, not be able to satisfy in people's production and living to high-temperature hot-air
Use needs.
Utility model content
The utility model proposes oscillation heat high-temperature warm air machine, its object is to: high warm can be generated by providing one kind
Wind, and hot blast rate is big, thermal air pressure is high, thermal effect is high, it is more to save the energy, function, and use scope is broad, is good for the environment, energy
Enough meet in people's production and living to a variety of using the oscillation heat high-temperature warm air machine needed of high-temperature hot-air.
Technical solutions of the utility model are as follows:
A kind of oscillation heat high-temperature warm air machine, including casing, shell air inlet, shell air outlet, impeller, impeller sleeve,
The impeller disk, impeller air inlet, impeller air outlet, side runner in impeller, internal side of shell runner, chassis axial side wall, casing through to
Side wall, it is characterised in that impeller is equipped with can-like fan blade, and can-like fan blade is by fan blade lateral wall, fan blade chamber, fan blade chamber air inlet group
At fan blade chamber air inlet is located at fan blade radially forward, and fan blade chamber air inlet is connected to impeller air inlet, and fan blade chamber does not set its outlet air
Mouthful, fan blade chamber diameter is to the back-end at closed state, and can-like fan blade axial edge is connected with the impeller disk, adjacent can-like fan blade circumferential direction
Between be equipped with impeller in side runner.
In order to further realize the purpose of this utility model, the can-like air port lateral wall is equipped with fan blade and permeates gas
Hole, fan blade permeate stomata and are internally connected to fan blade intracavity space, be connected to side runner in impeller.
In order to further realize the purpose of this utility model, the intracavitary dedicated fan blade of setting of the fan blade of the can-like fan blade
Chamber vibrates heat generator, and fan blade chamber vibrates heat generator and is made of soft flexible material, and fan blade chamber vibration heat generator is filled
Fan blade cavity space, the surrounding edge phyllocyst inner sidewall that follows the wind fit together.
In order to further realize the purpose of this utility model, it is equipped in side runner in the impeller and adds energy blade, add energy
Blade axial edge is connected with the impeller disk, and energy blade radial front end is added to be directed toward impeller air inlet, and adding can blade radial rear end direction
The internal side of shell runner of impeller radial outside.
In order to further realize the purpose of this utility model, the impeller disk is double wall cavity structure formula, outside the impeller disk
Side wall constitutes impeller disk inner cavity, and impeller disk inner cavity is equipped with impeller disk inner cavity air inlet, impeller disk inner cavity air inlet pair radially forward
It is connected to impeller air inlet, is internally connected to impeller disk inner cavity outside.
In order to further realize the purpose of this utility model, the double wall cavity impeller disk radial extremity is equipped with the impeller disk
Stomata is permeated, the impeller disk permeates stomata and is internally connected to impeller disk inner cavity, is externally connected to internal side of shell runner.
In order to further realize the purpose of this utility model, in the impeller disk of double wall cavity impeller disk it is intracavitary be equipped with it is dedicated
Cavity oscillations heat generator in the impeller disk, cavity oscillations heat generator is made of soft flexible material in the impeller disk, impeller disk inner cavity
Oscillation heat generator surrounding edge fits together with chamber inner sidewall in the impeller disk.
In order to further realize the purpose of this utility model, circulating-heating conductor, circulation are equipped on the outside of the casing
Heat transfer device by circulation conductor, recycle blast pipe, recycle air hose and form, circulation conductor is double wall cavity channel structure
Body, circulation conductor front and rear are respectively equipped with circulation blast pipe and recycle air hose, and circulation blast pipe import goes out with casing
Air port connection, outlet recycle air hose import and connect with circulation conductor double wall cavity with circulation conductor double wall cavity connection
Logical, outlet is connected to shell air inlet.
In order to describe conveniently, expression is accurate, first explains several relevant words herein:
The leaf line of demarcation side or side wall, cabinet sides or side wall that impeller central axes are directed toward are axial sides or axial side
Wall.
Impeller or body are axial rear axle towards motor (or other power parts) side, and the corresponding other side is axis
To front side, the rest may be inferred for axial rearward direction and axial rearward direction.
At impeller axle center radially forward for impeller, forward edge is impeller radial front end, at impeller outer circle
Posteriorly for impeller, outer circular edge is impeller radial extremity (or impeller diameter is to the back-end), other associated components of body are censured
The rest may be inferred.
Impeller direction of rotation is that circumferentially, impeller rotates to be rotation front or week forwards along between, backwards to impeller direction of rotation
For rear swivel or week rearward, blade forward leaf turn direction one side for week forwardly, back quadrate lope take turns direction of rotation one side
For blade circumferential direction trailing flank, the rest may be inferred for the denotion of other region of interest of body.
It censures in shell air inlet orientation: before shell air inlet import is, after shell air inlet outlet is, in shell air inlet
The rest may be inferred for the denotion of other orientation.
The airflow inlet that blade radial import, i.e. blade radial front end are constituted.
The airflow inlet that blade axial inlet, i.e. blade axial sides are constituted, e.g., rear flow fan impeller negative pressure gap, together
Walk rear portion draught fan impeller synchronous rear flow fan synchronous concurrent air inlet.
Front side of vane is front side of vane along the Zhou Fang blade side that forward impeller turns to, can also claim blade Zhou Xiangqian
Side is front side of vane.
Impeller channel refers to that side runner in impeller, blade passage, blade is passage component, and blade passage is exactly blade sheet
Body.
Passage component refers to the component that the gas after to be processed and processing passes through in body, such as shell air inlet, impeller, leaf
Take turns the components such as air inlet, impeller air outlet, impeller blade, impeller leaf dish, internal side of shell runner, shell air outlet.
Cold wind is directly processed into hot wind using oscillation heat principle by the utility model, is not needed any other heat source, is appointed
What his thermal medium is only operated by draught fan impeller itself, and gas is made to obtain heat, is promoted temperature, is become high-temperature hot-air, then by
Shell air outlet discharges use.
So-called oscillation heat principle, refers to that portion gas flows through airframe components, promotes airframe components solid material structure point
Sub- high frequency oscillation, promoting gas molecule, frequently fierce oscillation generates heat, forms heat source, and the heat source is again by mutually shutting down
Body component conduction continuously delivers heat to other cold wind in body, promotes its temperature to increase, becomes high temperature
Hot wind.
It is all cold for vibrating heat high-temperature warm air machine relative to existing various ventilation blowers, air blower, compressor, compressor etc.
Blower, oscillation heat high-temperature warm air machine is air-heater, i.e., air-heater is relative to air-cooler.Cold wind will be adapted to need the life of cold wind
It produces sphere of life to use, air-heater is adapted to need the production and living field of hot wind to use.
The utility model air-heater is as the air-coolers such as existing various ventilation blowers, air blower, it may have it is large, medium and small not
Same specification and model, small wind hectowatt is big to tens kilowatts, several hundred kilowatts, and the heat of generation can be several years Celsius, tens
Degree, a few Baidu, the hot blast rate of generation can with it is m3/ seconds a few, tens m3/ seconds, it is m3/ seconds several hundred.The thermal air pressure of generation can be tens
Pa, several hundred Pa, thousands of Pa, tens of thousands of Pa.The utility model hair blower function is more, and use scope is broad, is good for the environment, and saves energy
Source.Adapt to a variety of industry warming and heat insulations of people's production and living multiple fields, drying, baking, food processing, agricultural product, medicine, change
The uses such as work product are processed, and the heat preservations such as high temperature spray painting, industrial goods processing, agriculture fruit and vegetable greenhouses, livestock culture, Fishery cultivation are urged
It needs.In many fields, many industries, it can replace air-cooler ventilation air blast and use.The utility model air-heater compares cold wind
Machine more saves the energy, is good for the environment.
The utility model many-sided can replace various boilers, heat pump, heating equipment.
The utility model impeller is equipped with can-like fan blade, and can-like fan blade is connected with the impeller disk, can be not provided with leaf on impeller
Disk can also set preceding leaf dish or rear leaf dish that diameter is less than impeller diameter.So-called can-like fan blade refers to that entire fan blade is a can-like
Body (thering is bottom to have a lid, the totally enclosed hollow box in the whole body) structure type, entire fan blade just as one can charge tin can (square box,
Circle box, flat box etc.).
Side runner in impeller is constituted on impeller between adjacent can-like fan blade circumferential direction, can-like fan blade is by fan blade lateral wall, wind
Phyllocyst, fan blade chamber air inlet composition, fan blade chamber air inlet are equipped with can-like fan blade radial fan blade lateral wall or axial wind radially forward
On leaf lateral wall, fan blade chamber air inlet is with impeller air inlet (air inlet or impeller axial direction air inlet among impeller), and fan blade chamber is not
If its air outlet.
When work, fan blade chamber air inlet inputs fan blade chamber from intermediate impeller air inlet or impeller between centers air inlet inspiration cold wind
It is interior (due to fan blade chamber be it is closed, gas cannot outflow), by the effect of centrifugal force, will be squeezed full of the intracavitary gas of fan blade
Pressure generates pressure, and the pressure of the higher generation of revolving speed is bigger.When work, fan blade intracavity gas pressure and fan blade chamber enter the wind gas pressure
Power is different, it will forms pressure difference, which persistently rotates the high pressure gas that fan blade can be promoted intracavitary, can promote gas
The strong higher-order of oscillation of body molecule generates heat, and lift gas temperature forms pressure high temperature hot gas group, and pressure high temperature hot gas group borrows
High temperature heat is passed to the cold wind on the outside of can-like fan blade on the inside of impeller in runner, is allowed to by the conduction for helping fan blade lateral wall
Heating, becomes high-temperature hot-air, which is processed into high-voltage high-speed High Temperature Gas through can-like fan blade lateral wall and the impeller disk again
Then body is arranged through impeller air outlet in internal side of shell runner again.
The utility model fan blade chamber air inlet can be located on can-like fan blade radial front end radial direction fan blade lateral wall, the fan blade
Chamber air inlet directly can input fan blade chamber from air inlet inspiration cold wind among impeller.Fan blade chamber air inlet can also be located at can-like
For impeller radially forward on circumferential fan blade lateral wall, which can be from fan blade outer space (including side runner in impeller)
It is intracavitary that inspiration cold wind inputs fan blade.
On one air-heater impeller, can-like fan blade can be set in the preceding axial sides of its impeller disk, it can be in its leaf
Can-like fan blade is set in the rear axial sides of wheel disc, tank can also be all set simultaneously in former and later two axial sides of its impeller
Shape fan blade.
The fan blade that the technology can also be arranged on can-like fan blade diameter posteriorly fan blade lateral wall, permeates stomata, and fan blade seeps
Air hole internally follow the wind phyllocyst connection, be externally connected to side runner in impeller.When work, since fan blade intracavity gas pressure is big
Fan blade infiltration stomata is narrower, and resistance is big, and the intracavitary high pressure gas of fan blade, which passes through fan blade infiltration stomata, must consume partial pressure energy
Energy is generated, gas temperature of the row of order in side runner in impeller increases;On the other hand, the intracavitary high pressure gas of fan blade passes through wind
Leaf infiltration stomata consumption partial pressure can make the air pressure at the intracavitary separate fan blade chamber air inlet position of fan blade more attached than fan blade chamber air inlet
Close air pressure is lower, to form bigger pressure difference, thus makes fan blade intracavity gas because rotates effe is more preferable, thus generate
Heat is with regard to more.
Fan blade infiltration stomata can be various structures and be formed, such as pore eye type, narrower clearance type.
The technology for can-like fan blade, no matter its be equipped with it is fan blade infiltration stomata or not setting fan blade infiltration stomata, all
Heat generator can be vibrated in the intracavitary dedicated blower chamber of setting of its fan blade.The fan blade chamber vibrates heat generator by soft flexible
Material is made, and fan blade chamber vibration heat generator can fill the entire space of fan blade chamber, can fill its segment space, fan blade chamber
Vibration heat generator is filled intracavitary in fan blade, and the surrounding edge phyllocyst inner sidewall that follows the wind is combined together, and can be not only connected but also can
It is mutually not connected to, fan blade cavity oscillations heat generator, can be with the flexible trembling of portraitlandscape, to promote its detail analysis solid by external force
Material-structure molecule high frequency oscillation collision friction heat, generates heat, and the heat of generation passes through fan blade chamber side wall again and is conducted to
The gas of side runner makes gas heating become high-temperature hot-air in impeller.
Soft hard flexible fan blade cavity oscillations heat generator can be various structures and be formed, such as plate-like, cylindric, particle
The structure types such as shape.
There are two functions for the utility model can-like fan blade, first is that its inside fan blade chamber can generate heat, it is effluent in impeller
The gas lift temperature in road;Second is that the same with common fan impeller blade, can increase for the gas of side runner in impeller flow,
Pressure and speed, still, since can-like fan blade volume is big, flow channel space is big on the inside of occupancy impeller, and side runner is narrow in impeller, causes
Keep side runner in impeller small, impeller outlet external pressure low velocity is low, to overcome this disadvantage, can in impeller side runner or tank
Shape fan blade axial front side adds energy blade, by energy blade transmitting energy effect is added, can increase the stream of side runner in impeller
Fast (flow velocity more atmospheric flow is bigger) increases gas flow, and the bigger gas flow rate more high flow capacity the more sufficient on the inside of impeller, impeller
Gas pressure and speed at air outlet is higher.Energy blade is added to be located at side runner in impeller, adding can blade axial edge
It is connected with the impeller disk;Add energy blade to be located at can-like fan blade axial front side, adds energy blade axial edge axial with can-like fan blade
Forward edge connection.
In order to obtain better thermogenic effects, more heats are generated, the impeller disk can also be made by the utility model
Double wall cavity structure formula, impeller disk double wall, that is, impeller disk lateral wall constitute impeller disk inner cavity, and impeller disk inner cavity diameter does not all have forward
Impeller disk inner cavity air inlet, impeller disk inner cavity air inlet externally on the outside of the impeller disk intermediate impeller air inlet connection, internally with
The connection of impeller disk inner cavity, impeller people chamber do not set impeller disk inner cavity air outlet, and entire impeller disk inner cavity is externally closed.Work
When, impeller disk inner cavity is entered from impeller air inlet suction cold wind to wheel disc inner cavity air inlet, since impeller disk inner cavity is externally envelope
It closes, the gas full of impeller disk inner cavity cannot outflow, and act on by rotary centrifugal force, and impeller disk inner chamber gas will be squeezed into
For high pressure gas group, since the impeller disk inner chamber gas pressure of impeller disk inner cavity air inlet pressure is different, impeller disk inner cavity into
Air port pressure and impeller disk chamber pressure can form a pressure difference, which can promote impeller disk inner cavity high pressure gas group
Rotary motion, impeller disk rotating speed is higher, and it is higher that impeller disk inner cavity high pressure gas rolls into a ball revolving speed.The gas of high-speed rotating high pressure gas group
Body molecule can high frequency oscillation, so that a large amount of heat can be generated, which will be transmitted to leaf by wall even outside the impeller disk
The cold wind of side runner, makes high pressure-temperature hot wind in taking turns, and then arranges again through impeller air outlet in internal side of shell runner.
The impeller disk can also be arranged on the lateral wall of impeller disk radial extremity periphery in the impeller disk double wall cavity structure technology
Permeate stomata.After such impeller disk infiltration stomata is arranged, impeller disk inner cavity high pressure gas group gas is intended to wear impeller disk infiltration
Stomata will overcome resistance, and frictional heat generation generates heat, becomes pressure high temperature hot gas, which passes through the impeller disk
After permeating stomata, reflation heat dissipation, gas heat being transmitted in the internal side of shell runner of impeller radial outside promotes in casing
Side runner gas temperature increases.
The same with fan blade infiltration stomata, impeller infiltration stomata is also possible to multiple structural forms, such as pore eye type, canvasses
Clearance type etc..
The technology, double wall cavity impeller disk, regardless of on its lateral wall, setting impeller disk infiltration stomata is still not provided with impeller
Disk permeates stomata, cavity oscillations heat generator in the impeller disk can be arranged in its impeller disk inner cavity.Cavity oscillations heat generator in the impeller disk
It is made of soft flexible material, cavity oscillations heat generator fills impeller disk inner cavity in the impeller disk, and surrounding edge is with leaf
Chamber inner sidewall fits together in wheel disc, can both interconnect, and can not also interconnect, cavity oscillations heat in the entire impeller disk
Device is acted on by centrifugal force, can be with the flexible trembling of portraitlandscape, to promote its detail analysis material-structure molecule higher-order of oscillation
Heat generates heat, and the heat of generation passes through side runner gas in the impeller that impeller disk lateral wall is conducted on the outside of the impeller disk again,
Gas heating is set to become high-temperature hot-air.
Cavity oscillations heat generator can be multiple structural forms in the soft flexible impeller disk, such as plate-like, cylindric,
The structure types such as graininess.
Transmit more heats in order to generate more heats to external enwergy, can process to high-speed and high-efficiency heated material or
Product is produced, circulating-heating conductor can also be arranged in the utility model on the outside of casing, the heat transfer device, conducted by circulation
Body, recycle blast pipe, recycle air hose composition, circulation conductor for double wall cavity channel structural body (straight tube, coil pipe, single layer or
Multi-layer cavity flow passage structure body), circulation conductor front and rear is respectively equipped with circulation blast pipe and recycles air hose, recycles
Air hose import is connected to entire shell air outlet, and with the connection of circulation conductor double wall inner cavity, circulation blast pipe can be with for outlet
Whole hot winds of shell air outlet are introduced circulation conductor double wall inner cavity, give circulation conductor double wall the heat transfer of hot wind
Then cavity transfers heat to the material charge or object that recycle on the outside of conductor by recycling conductor double wall again.Circulation
Discharge pipe import is connected to the connection of circulation conductor double wall inner cavity, outlet with shell air inlet, and recycling air hose can will follow
Conducted in ring conductor double wall cavity and the low temperature hot wind for the heat that scattered and disappeared draw circulation conductor and input casing air inlet
Processing heating is given in mouth input air-heater body again.
The low temperature hot wind heated to processing becomes high-temperature hot-air again, and the high-temperature hot-air is again through shell air outlet and circulation
Blast pipe introduces circulation conductor, then becomes low temperature hot wind through recycling conductor heat loss through conduction.The low temperature hot wind is again through recycling
Air hose and shell air inlet are introduced in air-heater body is heated into high-temperature hot-air again, then is introduced into circulating-heating conduction
Device becomes low temperature hot wind through circulating-heating conductor heat loss through conduction, the low temperature hot wind again by phase into air-heater body again to plus
Work is heated as high-temperature hot-air ... moves in circles in this way, air-heater can be promoted especially to generate more heats, externally especially
More heats are transmitted, externally processing heating material charge or object effect are especially good, and efficiency is especially high.
In addition, since the technology shell air inlet and the air-flow of the interconnected shell air outlet discharge of air outlet are always in pipe
Road internal flow avoids high pressure-temperature air-flow and externally discharges generation expansion noise, thus the technology can reduce air-heater and make an uproar
Sound is good for the environment.
The circulating-heating conductor technology is suitble to the various technologies of the can-like fan blade and double wall cavity impeller disk that describe above
Scheme.
Detailed description of the invention
Fig. 1 is the first embodiment structure schematic diagram of the utility model.
Fig. 2 is the first embodiment blade wheel structure schematic diagram of the utility model.
Fig. 3 is the first embodiment can-like blade structure schematic diagram of the utility model.
Fig. 4 is second of embodiment structure schematic diagram of the utility model.
Fig. 5 is second of embodiment blade wheel structure schematic diagram of the utility model.
Fig. 6 is second of embodiment can-like blade structure schematic diagram of the utility model.
Fig. 7 is the third embodiment structure schematic diagram of the utility model.
Fig. 8 is the third embodiment blade wheel structure schematic diagram of the utility model.
Fig. 9 is the third embodiment can-like blade structure schematic diagram of the utility model.
Figure 10 is the third embodiment fan blade cavity oscillations heat generator structural schematic diagram of the utility model.
Figure 11 is that the third embodiment shell air inlet of the utility model is kept out the wind heat generator structural schematic diagram.
Figure 12 is the 4th kind of embodiment structure schematic diagram of the utility model.
Figure 13 is flow passage structure schematic diagram on the inside of the 4th kind of embodiment internal side of shell runner of the utility model and impeller.
Figure 14 is the 4th kind of embodiment blade wheel structure schematic diagram of the utility model.
Figure 15 is the 4th kind of embodiment can-like fan blade of the utility model and double wall cavity impeller dish structure schematic diagram.
Figure 16 is the 4th kind of embodiment double wall cavity impeller dish structure schematic diagram of the utility model.
Figure 17 is the 4th kind of embodiment casing cumulative heat generator structural schematic diagram of the utility model.
Figure 18 is that the 4th kind of embodiment cumulative heat generator of the utility model conducts protective cover structural schematic diagram.
Figure 19 is that the 4th kind of embodiment cumulative heat generator of the utility model vibrates heating element structural schematic diagram.
Figure 20 is that the 4th kind of embodiment cumulative heat generator of the utility model is insulated dividing wall structural schematic diagram.
Figure 21 is the 5th kind of embodiment structure schematic diagram of the utility model.
Figure 22 is the 5th kind of embodiment blade wheel structure schematic diagram of the utility model.
Figure 23 is the 5th kind of embodiment double wall cavity impeller dish structure schematic diagram of the utility model.
Figure 24 is cavity oscillations heat structural schematic diagram in the 5th kind of embodiment impeller disk of the utility model.
Figure 25 is that the 5th kind of embodiment shell air outlet of the utility model is kept out the wind heat generator structural schematic diagram.
Figure 26 is the 6th kind of embodiment structure schematic diagram of the utility model.
Figure 27 is the 6th kind of embodiment circulating-heating conductor structural schematic diagram of the utility model.
In figure:
1 casing, 2 shell air inlets, 3 shell air outlets, 4 impellers, 5 impeller disks, 6 impeller air inlets, 7 impeller air outlets, 8
Impeller sleeve, side runner in 9 impellers, 10 shell air outlets, 11 chassis axial side walls, 12 casing radial sidewalls, 13 can-like fan blades,
14 fan blade lateral walls, 15 fan blade chambers, 16 fan blade chamber air inlets, 17 fan blades permeate stomata, 18 fan blade cavity oscillations heat generators, 19 impellers
Add energy blade, 20 impeller disk lateral walls, 21 impeller disk inner cavities, 22 impeller disk inner cavity air inlets, 23 impeller disks infiltration stomata, 24 leaves
Cavity oscillations heat generator in wheel disc, 25 circulating-heating conductors, 26 circulation conductors, 27 circulation blast pipes, 28 recycle air hose, and 29
Circulation conductor double wall, 30 circulation conductor double wall space runners, 31 circulation conduction intracoelomic cavities, 32 casing cumulative heat generators, 33
Cumulative heat generator heat transfer shield, 34 cumulative heat generators vibrate heating element, and 35 cumulative heat generators are insulated dividing wall, 36 casings air inlet
Mouth keeps out the wind heat generator, and 37 shell air outlets are kept out the wind heat generator, 38 motors.
Specific embodiment
The technical solution that according to the present invention will be described in detail below with reference to the accompanying drawings:
Embodiment 1 vibrates heat high-temperature warm air machine, including casing 1, shell air inlet 2, casing with reference to Fig. 1, Fig. 2, Fig. 3
Air outlet 3, impeller 4, the impeller disk 5, impeller air inlet 6, impeller air outlet 7, impeller sleeve 8, side runner 9 in impeller, in casing
12,6 side runner 10, chassis axial side wall 11, casing radial sidewalls flat can-like fan blades 13 are symmetrically arranged on the impeller disk, flat
The axial rear wall of square can-like fan blade 13 with 5 front axle of the impeller disk to sidewall weld together, impeller is equipped with intermediate impeller air inlet
6, can-like fan blade is listed in around intermediate impeller air inlet, and can-like fan blade is by fan blade lateral wall 14, fan blade chamber 15, fan blade chamber air inlet
16 compositions, fan blade chamber air inlet 16 are located at can-like fan blade radial front end radial sidewalls lower part, 16 inlet -duct area of fan blade chamber air inlet
Less than the 1/5 of fan blade radial front end radial sidewalls, fan blade chamber air inlet 16 is connected to intermediate impeller air inlet 6, adjacent can-like,
Side runner 9 in impeller is constituted between 13 circumferential direction of fan blade.This example impeller sleeve 8 is with 35 axis connection of motor, the rotation of 35 impeller of motor
Turn.
When work, impeller high speed rotation, side runner 9 is from 6 inspiration of intermediate impeller air inlet in the impeller that can-like fan blade is constituted
Cold wind, the energy boost which reabsorbs the transmitting of can-like fan blade lateral wall accelerate, and form high speed and high pressure air-flow, the high speed and high pressure
Impeller is discharged in side runner radial direction back outlet (impeller air outlet 7) to air-flow in impeller again.
When work, fan blade chamber air inlet 16 aspirates cold wind input from intermediate impeller air inlet 6 and is full of fan blade chamber 15, by
The effect of centrifugal force will be ransacked of tightening full of the intracavitary gas of fan blade, and form high pressure gas group.Due to fan blade chamber air inlet 16
Bore is less than fan blade chamber transverse direction bore (less than the 1/5 of fan blade chamber horizontal area).When work, in fan blade chamber 15 face fan blade chamber into
16 air flow stream pressure of air port other position gas pressures in phyllocyst that follow the wind are different, the air flow stream of face fan blade chamber air inlet 16
Pressure promotes the intracavitary high pressure gas of fan blade to insist on continuous high speed rotation, and high pressure gas group high speed rotation promotes gas molecule high-frequency to shake
It swings, generates heat, lift gas temperature forms pressure high temperature hot gas group, and pressure high temperature hot gas group passes through fan blade lateral wall 14 again
Heat is transmitted in impeller the high-voltage high-speed cold wind in side runner, which, which absorbs heat, becomes high-voltage high-speed high temperature
Hot wind, the high-voltage high-speed high-temperature hot-air are arranged in internal side of shell runner 10, then through shell air outlet through impeller air outlet machine is discharged again
Body draws used for other purposes.
When work, since wheel speed is very high, thus in fan blade chamber 15, high pressure gas group speed is just very high, high pressure gas
Gas molecule frequency of oscillation in body group is just very high, and for the heat of generation with regard to very much, it is just very high that gas rolls into a ball temperature rise, so can just make
The air-flow temperature rise of side runner is very high in impeller, becomes high-voltage high-speed high-temperature hot-air.
The general high-temperature warm air machine of this example suitable for making expedites the emergence of cultivation and uses for heat preservation, heating, drying, Ecological Greenhouse heat preservation.
Embodiment 2, with reference to Fig. 4, Fig. 5, Fig. 6, this example is essentially the same with example 1, the difference is that this example fan blade chamber air inlet
16 are located at can-like fan blade radially forward on fan blade periphery axial direction fan blade lateral wall, and fan blade chamber air inlet 16 is empty from impeller axial front side
Between suction cold wind input fan blade chamber 15 in, fan blade chamber air inlet inlet -duct area be less than fan blade chamber transversal cross-section 1/5.
Second difference is that this example can-like fan blade radial direction rear end lateral wall 14 is equipped with intensive pore eye type
Fan blade permeate stomata 17, fan blade permeate stomata 17 to it is interior follow the wind phyllocyst 15 be connected to, be externally connected to side runner 9 in impeller.
Third difference is to be equipped with plate in side runner 9 in this example impeller and add energy blade 19, and adding can the axial side of blade 19
Edge is connected with the impeller disk 5, and energy 19 radial front end of leaf is added to be directed toward intermediate impeller air inlet 6, and 19 diameter of energy blade is added to be directed toward leaf to the back-end
Internal side of shell runner 10 on the outside of wheel radial adds energy blade 19 radially to indulge from the front to the back across side runner 9 in entire impeller.
As example 1, in the impeller that can-like fan blade 13 is constituted when work side runner therefrom between impeller air inlet 9 aspirate it is cold
Wind, while being processed into high-voltage high-speed cold wind.When work, fan blade chamber air inlet 16 is acted on by centrifugal force from impeller axial front side
Cold wind is aspirated along fan blade axially input fan blade chamber 16 in space, then centrifugal force is borrowed to act on, and radially flowing is full of fan blade to cold wind again
Chamber forms high pressure gas group, and high pressure gas group borrows fan blade cavity pressure difference to act on high speed rotation again, and high pressure gas rolls into a ball high speed rotation
Promote its gas molecule high-frequency intense oscillations, generate heat, the heat of generation is transmitted to side runner cold wind in impeller again, makes impeller
Interior side runner cold wind is at high-temperature hot-air.
Fan blade of this example due to setting not intensive pore eye type on can-like fan blade radial direction rear end fan blade lateral wall
Permeate stomata 17.High pressure gas will be extruded when work, in fan blade chamber 15 penetrates through fan blade lateral wall, high pressure gas from inside to outside
Body infiltration overcomes resistance during passing through fan blade chamber lateral wall, and frictional heat generation generates heat, becomes high temperature hot gas body, the infiltration
Converge again with the high-temperature hot-air in impeller in side runner 9 in the infiltration hot gas of side runner in impeller, is discharged in impeller together
Side runner.Meanwhile in the course of work, intensive fan blade capillary percolation stomata consumption part is worn in high pressure gas infiltration in fan blade chamber 16
Pressure energy promotes fan blade is intracavitary to form bigger pressure difference, promotes high pressure gas group more high speed rotation in fan blade chamber 16, thus
Generate more heats.
This example due to be equipped in side runner 9 in impeller it is radially vertical across in entire impeller side runner plus can blade 19.Work
When making, by the effect for adding energy blade, the flow of side runner in impeller was not only increased, but also the gas in impeller in side runner can be made
Stream obtains higher pressure and speed, becomes high-voltage high-speed high-temperature hot-air, is then discharged impeller again, arranges in internal side of shell stream
Road.
As example 1, the general high-temperature warm air machine of this example suitable for making uses needs with suitable general production, life.
Embodiment 3, with reference to Fig. 7, Fig. 8, Fig. 9, Figure 10, Figure 11, this example is essentially the same with example 2, the difference is that this example tank
Dedicated fan blade cavity oscillations heat generator 18 made of high-temperature resistant rubber sponge, the vibration of sponge fan blade chamber are equipped in the fan blade chamber 15 of shape fan blade
It swings heat generator 18 and fills entire 15 space of fan blade chamber, surrounding edge is close to 15 inner sidewall of fan blade chamber, entire sponge fan blade chamber
Vibrating heat generator 18 can be with the flexible trembling of portraitlandscape in fan blade chamber 15.This example can-like fan blade radial front end radial side is whole
It is located at fan blade chamber air inlet 16.
Second is not both, and air inlet made of cellular rubber is equipped in this example shell air inlet 2 and is kept out the wind heat generator 36, sea
Continuous air inlet heat generator 36 of keeping out the wind fills 2 runner of shell air inlet, and surrounding edge is connected with internal side of shell stream inner sidewall.
When work, the cold air infiltration into shell air inlet 2 passes through sponge air inlet and keeps out the wind heat generator 36, and infiltration is passed through
In the process, cold air curves tortuous capillary percolation stomata by cavernous body and overcomes resistance, and frictional heat generation generates heat, promotes temperature
Degree, shape low temperature warm wind, and low temperature warm wind enters body, into draught fan impeller 4, absorbs the fan blade cavity oscillations of can-like fan blade 13
Heat generator 18 generates and the heat of transmitting, further promotes temperature, becomes high-temperature hot-air, is then arranged in internal side of shell runner
10, then through casing outlet air 3, it is discharged use.
This example sets sponge fan blade cavity oscillations heat generator 18 since the fan blade of can-like fan blade is intracavitary, in the course of work, sponge wind
Phyllocyst oscillation heat generator 18 is acted on by centrifugal force, in the intracavitary portraitlandscape elastic telescopic trembling of fan blade, to promote sponge extra large
Continuous body detail analysis material-structure molecule higher-order of oscillation heat, generating more heats, (more simple than simple fan blade chamber 15 is high
The heat that body of calming the anger group generates is more), thus the heat for being transmitted in impeller low temperature hot wind in side runner is more, promotes on the inside of impeller
Hot blast temperature in runner is higher, becomes high-temperature hot-air.
The general high-temperature warm air machine of this example suitable for making, so that general production and living use needs.
Embodiment 4, with reference to Figure 12, Figure 13, Figure 14, Figure 15, Figure 16, Figure 17, Figure 18, Figure 19, Figure 20, this example is with 3 base of example
This is the same, except that this example impeller disk 5 is double wall cavity structure formula, impeller disk lateral wall 20 constitutes impeller disk inner cavity 21,
Impeller disk inner cavity is equipped with impeller disk inner cavity air inlet 22 radially forward, and impeller disk inner cavity air inlet 22 is externally with the intermediate leaf of impeller
Wheel air inlet diameter is posteriorly connected to, and is internally connected to impeller disk inner cavity 21;Impeller disk inner cavity air inlet 22 is located at the centre of impeller
6 diameter of impeller air inlet posteriorly front axle on side wall.Impeller disk inner cavity air outlet is not set on the impeller disk, entire impeller disk inner cavity is removed
Outside impeller disk inner cavity air inlet 22, entire impeller disk inner cavity 21 is externally closed.This example impeller disk inner cavity air inlet 22 into
Open area is less than the 1/10 of entire impeller disk surface area, that is, is less than impeller disk surface of internal cavity product 1/10.
Second difference of this example is that the chassis axial side wall 11 and radial sidewalls 12(of internal side of shell runner include snail
Tongue) on all edge patch cumulative heat generator 32.Cumulative heat generator includes: the resistant to high temperature of the wear-resisting good heat-transfer of soft high resilience
The conduction of heat generator made of high-grade rubber thin plate protective cover 33, soft high resilience soft cellular rubber slab resistant to high temperature are made
The good nylon sheet resistant to high temperature of heat generator oscillation heating element 34, the big heat-insulating property of tough and tensile intensity made of heat generator insulation every
From wall 35.Heat generator is conducted protective cover 33 and is set on the outside of cumulative heat generator, pastes with the oscillation fitting of heating element 34 of cumulative heat generator
Together.Heat generator vibrates heating element 34 and is set on the inside of cumulative heat generator, and outer surface is bonded with heat generator conduction protective cover 33
It is pasted together.Its bottom side is pasted together with the heat generator insulation fitting of dividing wall 35.Heat generator insulation dividing wall 35 is located at
On the outside of cumulative heat generator bottom, its upper side is with internal side of shell side wall of flow channel (including chassis axial side wall and casing radial sidewalls)
Bottom Surface Mount is combined.Entire cumulative heat generator 32 is connected to by heat generator insulation dividing wall 35 with internal side of shell side wall of flow channel
Together.
When this example works, impeller disk inner cavity air inlet 22 enters impeller disk inner cavity from 6 suction cold wind of impeller air inlet and fills
Full impeller disk inner cavity 21.It is acted on by centrifugal force, gas will be squeezed into as high pressure gas group in the impeller disk.Due to impeller inner cavity
Air inlet inlet -duct area is less than the 1/10 of entire impeller disk surface of internal cavity product, and directly with the extruding of centrifugal force, in the impeller disk
Chamber air inlet pressure and impeller disk chamber pressure are in different size, can form a pressure difference, which can promote impeller
Disk inner cavity high pressure gas rolls into a ball high speed rotary motion, the gas molecule of high-speed rotating high pressure gas group can high-frequency shake strongly
It swings, so that a large amount of heat can be generated, which, which passes through impeller disk lateral wall again and be transmitted to the air-flow of side runner in impeller, makes
Promotion temperature, become the high-temperature hot-air of higher temperature, then arrange in internal side of shell runner through impeller air outlet.
In whole work process, in this example impeller side runner 9 from the cold wind of impeller air inlet inspiration the side runner in impeller
The heat for successively absorbing fan blade chamber 15 and the processing of impeller disk inner cavity 21 in flow process and sending out, promotes temperature, becomes high pressure
High-speed and high-temperature hot wind.High-voltage high-speed high-temperature hot-air is through 7 row of impeller air outlet in internal side of shell runner 10, high-voltage high-speed high warm
Wind will be continually colliding the cumulative life impacted in chassis axial side and radial sidewalls in 10 flow process of internal side of shell runner
The heat generator of hot device 32 conducts protective cover 33, promotes heat generator conduction protective cover 33 to squeeze heat generator oscillation heating element 34, promotes
Heat generator oscillation 34 detail analysis of heating element acutely vibrates frictional heat generation, generates heat.By heat generator insulation dividing wall 35
It is insulated buffer action, the chassis sidewall that the heat that heat generator oscillation heating element 34 generates will not be conducted to internal side of shell runner dissipates
Protective cover 33 will be conducted by heat generator in the heat that outside body, heat generator oscillation heating element 34 is generated by, which losing, is transmitted to internal side of shell stream
The high-voltage high-speed temperature hot wind in road, makes the high-voltage high-speed high-temperature hot-air of higher temperature, the high-voltage high-speed of the higher temperature
High-temperature hot-air is discharged body through shell air outlet 3 again, draws used for other purposes.
This example is subjected to can-like fan blade 13, double wall cavity impeller disk 5 and internal side of shell stream by the cold wind of shell air inlet inspiration
Cumulative heat generator 32 in road is triple to heat temperature raising, and the final contained more temperature rises of heat are higher.
The high-temperature warm air machine of the high-power big flow superhigh temperature of this example suitable for making (200 DEG C of >) is dried for high-temperature baking, high
Temperature spray painting, the processing of food medication chemistry product, the certain product high temperature process of industrial and agricultural production use.
Embodiment 5, Figure 20 with reference to Figure 21, Figure 22, Figure 23, Figure 24, Figure 25, Figure 12 ....
This example is essentially the same with example 4, the difference is that being equipped in the impeller disk inner cavity 21 of this example double wall cavity impeller disk 5
Cavity oscillations heat generator 24 in the impeller disk made of the flexible rubber grain of high temperature resistant, the flexible rubber grain of high temperature resistant
Entire 21 space of impeller disk inner cavity is expired in the blocking of cavity oscillations heat generator 24 in the impeller disk, and surrounding edge is on the inside of impeller disk inner cavity
Wall is tightly bonded, and cavity oscillations heat generator 24 can be with portraitlandscape elastic telescopic in impeller disk inner cavity 21 in the entire sponge impeller disk
Trembling.
Second difference is to set the narrower clearance type leaf of capillary in this example double wall cavity impeller disk radial extremity peripheral sidewalls
Wheel disc permeates stomata 23, and the impeller disk permeates stomata 23 and is connected to interior with impeller disk inner cavity 21, is externally connected to casing inner flow passage 10.
Third difference is, rubber air outlet resistant to high temperature is equipped in this example shell air outlet 3 and is kept out the wind heat generator 37, resistance to
High temperature sponge air outlet heat generator of keeping out the wind fills 3 runner of shell air outlet, and surrounding edge is pasted with shell air outlet inner sidewall
It is combined.
When work, into the cold air of shell air inlet 2, first keeps out the wind 34 pre-heating temperature elevation of heat generator, become through sponge casing
Low temperature hot wind, the low temperature hot wind enter the heat that body absorbs the generation conduction of fan blade cavity oscillations heat generator 18 of impeller can-like fan blade 13
Amount absorbs 5 impeller disk of double wall cavity impeller disk and enters the heat that cavity oscillations heat generator 24 generates conduction, and promoting temperature becomes high warm
Wind, the high-temperature hot-air enter the height that internal side of shell runner is processed into higher temperature through internal side of shell side wall of flow channel cumulative heat generator again
Warm wind, the heat generator 37 of keeping out the wind of the high temperature resistant sponge air outlet through shell air outlet 3 is processed into and promotes temperature again the high-temperature hot-air again
The ultra-high temperature high-temperature hot-air of the higher temperature of degree be discharged again body draw it is used for other purposes.
In the course of work, cavity oscillations heat generator 24 is by impeller in the high-temperature resistant rubber impeller disk of double wall cavity impeller disk 5
Rotary centrifugal force acts on portraitlandscape trembling, to promote its detail analysis material-structure molecule high frequency oscillation heat, generates
More heats, more heats of generation are transmitted to the warm wind in impeller in side runner 9 through the impeller disk and lateral wall again, are allowed to mention
Temperature is risen, high-temperature hot-air is become.
Since the impeller disk that the peripheral sidewalls of double wall cavity impeller disk and radial extremity are equipped with the narrower clearance type of capillary seeps
Air hole 23, cavity oscillations heat generator 24 is again flexible rubber grain assembly (rubber grain assembly structure in the impeller disk
At countless capillary percolation stomatas), in the course of work, acted on by centrifugal force, flexible rubber grain assembly both quivered
It is dynamic, and warm air is aspirated from impeller disk inner cavity air inlet 22, the warm air of suction is compressed into height by centrifugal force effect
Body of calming the anger overcomes resistance, frictional heat generation, becomes high-temperature hot-air when the high pressure gas passes through impeller disk infiltration stomata 23, the high temperature
Hot wind is arranged internal side of shell runner on the outside of impeller again, and the high-temperature hot-air with internal side of shell runner converges, and increases internal side of shell
Runner high-temperature hot-air heat content promotes temperature, becomes the high-temperature hot-air of higher temperature.
In whole work process, it is finally processed into the high temperature resistant sponge air outlet that superhigh temperature hot wind passes through shell air outlet 3
When heat generator 37 of keeping out the wind, overcome resistance to penetrate through cavernous body and curve tortuous capillary percolation stomata, frictional heat generation, generate heat into
One step promotes temperature, becomes the superhigh temperature hot wind of higher temperature (200 DEG C of >).
This example is kept out the wind heat generator 33, leaf line of demarcation by the cold wind experience sponge shell air inlet of shell air inlet 2 inspiration
Cavity oscillations heat generator 24, the impeller disk permeate stomata 23, internal side of shell side wall of flow channel in fan blade cavity oscillations heat generator 18 and the impeller disk
Cumulative heat generator 32, shell air outlet keep out the wind heat generator 37 etc. 4 times to heat temperature raising, are finally processed the higher superelevation of temperature
It warms wind (200 DEG C of >).
As example 4, the high-temperature warm air machine of the high-power superhigh temperature of this example suitable for making (200 DEG C of >) is lived for people to be produced
It needs.
Embodiment 6, Figure 25 ... Figure 19 with reference to Figure 26, Figure 27, Figure 12 ..., this example is essentially the same with example 5, different
It is that circulating-heating conductor 25 is equipped on the outside of this example casing, circulating-heating conductor (31) recycles conductor 26 by stainless steel, no
Rust steel circulation blast pipe 27 is formed with air hose 28 is recycled, and circulation conductor 26 is the long square chest of a stainless steel, long square chest bottom
Four wall of case is Double-layer clamp wall construction formula, and the double-deck double wall recycles conductor double wall 29 and constitutes double wall space, double wall space, that is, bottom
Double wall space is connected to four wall double wall space of case, to constitute entire circulation conductor double wall space runner 30, high warm
Wind can roam through entire four wall double wall space runner 30 of bottom case and dissipate transmitting heat.Long square chest front is equipped with stainless steel
Blast pipe 27 is recycled, circulation 27 import of blast pipe connects together with air-heater shell air outlet 3, exports with long square chest front end
Runner 29 import in side wall double wall space connects, and circulation inlet box 27 is connected to rectangular clamp wall space runner, can be machine
The high-temperature hot-air of shell air outlet discharge all introduces rectangular clamp wall space runner 30, and rectangular box back side wall is equipped with and recycles
Air hose 28, recycle 28 import of air hose with rectangular box back side wall double wall space runner 30 outlet link together, outlet with
Air-heater shell air inlet 2 connects together, and recycles air hose 28 and is connected to rectangular clamp wall space runner 30, can be rectangular
It is empty that the low temperature hot wind that four wall double wall space runner of case bottom case reduces wind-warm syndrome by distributing heat all draws rectangular clamp wall
Between runner and input air-heater shell air inlet 2, input air-heater body in carry out reprocessing reheating.
This example shell air inlet 2 does not set air inlet and keeps out the wind heat generator, and shell air outlet does not set out draught screen wind heat generator, no
Become rusty the steel inner splendid attire food of rectangular box cavity 31 or other medicinal materials or other chemicals, and this example is directly to process food.
This example, air-heater body space and circulating-heating conductor, that is, stainless steel rectangular clamp wall space are interconnected, from
And unified closed double wall space runner 29 is constituted, it is filled with low temperature cold air in the unified double wall space runner, work
It when making, rotates and drives by impeller, circulate air-flow for being formed in the space runner that this can be made unified.When work, by leaf
Wheel rotation driving, promotes air-heater body space first, and low temperature flow of cold air forms high-speed flow, high-speed flow warp
Cumulative heat generator 23 in by can-like fan blade 13, double wall cavity impeller disk 5 and internal side of shell runner gives processing heat temperature raising, is formed
High-temperature hot-air, the high-temperature hot-air is through shell air outlet circulation blast pipe input circulation conductor (the long square chest of stainless steel) double wall space
The conduction of runner 29, which distributes heat, reduces temperature, forms low temperature hot wind, which is recycled air hose 29, shell air inlet again
2 enter air-heater body space rotates by leaf line of demarcation, then is thermally formed high-temperature hot-air, which is arranged again
After entering to recycle conductor heat loss through conduction, then it is entered hot wind body body space runner, then borrows impeller rotation driving to be processed again and add
Thermosetting high-temperature hot-air, after which is discharged into circulation conductor (the long square chest of stainless steel) 26 radiating and coolings again, then it is defeated
Enter air-heater body space runner, then be processed heat temperature raising ... so circulation repeatedly, ultrahigh-temperature may finally be processed
(300 DEG C of >) hot wind is that the long square chest of stainless steel transmits enough heats, to meet the need of the rectangular box cavity processed food of stainless steel
It wants.
This example suitable for making processed food special equipment, uses to boiling or baked goods.
Claims (8)
1. vibrating heat high-temperature warm air machine, including casing (1), shell air inlet (2), shell air outlet (3), impeller (4), impeller
Disk (5), impeller air inlet (6), impeller air outlet (7), impeller sleeve (8), side runner (9), internal side of shell runner in impeller
(10), chassis axial side wall (11) and casing radial sidewalls (12), it is characterised in that: impeller is equipped with can-like fan blade (13), can-like
Fan blade includes fan blade lateral wall (14), fan blade chamber (15) and fan blade chamber air inlet (16), and fan blade chamber air inlet (16) is located at fan blade
Radially forward, fan blade chamber air inlet (16) is connected to impeller air inlet (6), and fan blade chamber diameter is posteriorly at closed state, entire tank
Shape air port axial edge is connect with the impeller disk (5), and side runner (9) in impeller is equipped between adjacent can-like fan blade circumferential direction.
2. oscillation heat high-temperature warm air machine according to claim 1, it is characterised in that: can-like fan blade lateral wall is equipped with wind
Leaf permeates stomata (17), and fan blade infiltration stomata (17) is internally connected to fan blade chamber (15), externally even with side runner in impeller (9)
It is logical.
3. oscillation heat high-temperature warm air machine according to claim 1 or 2, it is characterised in that: the fan blade chamber of can-like fan blade
(15) fan blade cavity oscillations heat generator (18) is equipped in, fan blade cavity oscillations heat generator is made of soft and flexible material, wind
Phyllocyst oscillation heat generator (18) is filled in fan blade chamber (15) space, and surrounding edge is bonded with fan blade chamber inner sidewall.
4. oscillation heat high-temperature warm air machine according to claim 1, it is characterised in that be equipped with and add in side runner (9) in impeller
Energy blade (19) adds energy blade (19) axial edge to connect with the impeller disk (5), and adding can blade radial front end direction impeller air inlet
(6), energy blade radial rear end is added to be directed toward the internal side of shell runner (10) of impeller radial outside.
5. oscillation heat high-temperature warm air machine according to claim 1, it is characterised in that: the impeller disk (5) is double wall cavity type
Structure, impeller disk double wall and impeller disk lateral wall (20) constitute impeller disk inner cavity (21), and impeller disk inner cavity (21) are set radially forward
There is impeller disk inner cavity air inlet (22), impeller disk inner cavity air inlet (22) is externally connected to impeller air inlet (6), internally and impeller
Disk inner cavity (21) connection.
6. oscillation heat high-temperature warm air machine according to claim 5, it is characterised in that: double wall cavity impeller disk (5) is radial
End be equipped with the impeller disk infiltration stomata (23), the impeller disk infiltration stomata (23) be internally connected to impeller disk inner cavity (21), externally with
Internal side of shell runner (10) connection.
7. oscillation heat high-temperature warm air machine according to claim 5 or 6, it is characterised in that: double wall cavity impeller disk (5)
Impeller disk inner cavity (21) is inner to be equipped with cavity oscillations heat generator (24) in the impeller disk, in the impeller disk cavity oscillations heat generator (24) by soft and
Flexible material is constituted, and cavity oscillations heat generator (24) is filled in impeller disk intracavity space in the impeller disk, surrounding edge with
Chamber inner sidewall is bonded in the impeller disk.
8. oscillation heat high-temperature warm air machine according to claim 1 or 4, it is characterised in that: be equipped with circulation on the outside of casing and add
Heat conductor (25), circulating-heating conductor (25) include circulation conductor (26), circulation blast pipe (27) and recycle air hose
(28);Recycling conductor (26) is double wall cavity channel structural body, and circulation conductor (26) front and circulation blast pipe (27) are even
It connects, rear portion is connect with air hose (28) is recycled;Circulation blast pipe (27) import is connected to shell air outlet (3), outlet and circulation
The connection of conductor double wall cavity;It recycles air hose (28) import to be connected to circulation conductor double wall cavity, outlet is entered the wind with casing
Mouth (2) connection.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108518858A (en) * | 2018-03-26 | 2018-09-11 | 烟台通天达风机制造有限公司 | Vibrate heat high-temperature warm air machine |
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2018
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108518858A (en) * | 2018-03-26 | 2018-09-11 | 烟台通天达风机制造有限公司 | Vibrate heat high-temperature warm air machine |
CN108518858B (en) * | 2018-03-26 | 2023-10-27 | 烟台通天达风机制造有限公司 | Oscillating heat generation type high-temperature air heater |
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