CN208186526U - A kind of wall-hung indoor unit of air conditioner - Google Patents

Abstract

The utility model provides a kind of wall-hung indoor unit of air conditioner, including on-hook ontology and at least two air-supply mixed flow components；Wherein, air-supply mixed flow component is fixedly connected on the lower part of on-hook ontology by connector, including tubular mixed flow chamber and the axial flow blower for being distributed in tubular mixed flow chamber two sides；There is spacing distance between tubular mixed flow chamber transverse direction；The axis of tubular mixed flow chamber is parallel with the axis of on-hook ontology, and upper part and lower part are respectively equipped with the first mixed flow air inlet and the second mixed flow air inlet, and both ends are equipped with mixed flow air outlet；First mixed flow air inlet receives at least partly heat exchange air for carrying out autonomous air outlet, and the second mixed flow air inlet introduces room air by the axial flow blower.Amount of jet needed for the indoor on-hook of the utility model greatly improves mixed flow air is formed simultaneously the not equal jet stream mixed flow air-flow to natural wind of variable speed, really realizes that air-flow is cool without cold, not blow-through people.

Description

A kind of wall-hung indoor unit of air conditioner

Technical field

The utility model relates to air conditioners, more particularly to a kind of wall-hung indoor unit of air conditioner.

Background technique

With popularizing for air-conditioning, user is higher and higher to the comfort of air-supply and the requirement of health.Traditional air-conditioning Powerful, cold wind blow-through people, air conditioner disease is the greatest problem that user uses air-conditioning, by the continuous innovation of air-conditioning technical, is occurred Fluidics and drainage technology, bring cool without cold healthy air-supply theory, but there are also its certain limitations for these technologies Property, greatest problem is exactly that mixed flow is uneven, influences the comfortable sexual experience of user；Further user to the different demands of air-conditioning, Such as: when refrigeration, young man likes powerful refrigeration, and old man and child need comfortable cooling, existing conventional jet and drainage technology It can not meet simultaneously.

Traditional air conditioner air supply mode can only realize conventional powerful cooling and warming experience, and existing gentle breeze or jet stream are sent Wind mode, also can only single realization gentle breeze and cool without cold experience, cannot realize a variety of air supply patterns simultaneously.

Utility model content

One purpose of the utility model is to provide for one kind and overcomes the above problem or at least be partially solved above-mentioned ask The wall-hung indoor unit of air conditioner of topic.

The utility model one is blown simultaneously further objective is that realizing that various modes are multi-direction.

The utility model another further objective is that improve user experience.

Particularly, the utility model provides a kind of wall-hung indoor unit of air conditioner, comprising:

On-hook ontology is inside disposed with heat exchanger, and being configured to will be by the heat exchange air of heat exchanger under on-hook ontology The main air outlet in portion is sent out；And

At least two air-supply mixed flow components, the lower part of on-hook ontology, each air-supply mixed flow are fixedly connected on by connector Component includes tubular mixed flow chamber and the axial flow blower that is distributed in inside tubular mixed flow chamber two sides；Wherein,

There is spacing distance between tubular mixed flow chamber transverse direction；The axis of tubular mixed flow chamber is parallel with the axis of on-hook ontology, and its Upper and lower part is respectively equipped with the first mixed flow air inlet and the second mixed flow air inlet, and both ends are equipped with mixed flow air outlet；First is mixed It flows into air port and receives at least partly heat exchange air for carrying out autonomous air outlet, the second mixed flow air inlet is introduced indoor by axial flow blower Air；

The rotation axis of axial flow blower is overlapped with the axis of tubular mixed flow chamber, and axial flow blower is close to tubular mixed flow chamber end Side is provided with baffle liner, and axial flow blower is used to suck heat exchange air and the second mixed flow air inlet from the first mixed flow air inlet The room air of mouth is exported from mixed flow air outlet to interior.

Preferably, heat exchanger is towards being equipped with the main cross flow fan of at least one transversely arranged, main through-flow wind at main air outlet The outside of machine is equipped with main spiral case, and its underpart is correspondingly provided at least one main air outlet；Each main cross flow fan is used for Interior Space Gas is introduced to be sent after heat exchanger exchanges heat in main air duct to main air outlet from main air inlet and be exported respectively.

Preferably, each main cross flow fan independent operating.

Preferably, air-supply mixed flow component includes two air-supply mixed flow components of coaxial arrangement, and each air-supply mixed flow component Tubular mixed flow chamber internal diameter it is consistent.

Preferably, the air output total amount of axial flow blower is less than the air output of main cross flow fan, so that mixed flow air outlet goes out Air quantity is less than the air output of main air outlet.

Preferably, the first mixed flow air inlet and the second mixed flow air inlet of tubular mixed flow chamber are equipped with air-inlet grille, tubular Air outlet grate, air-inlet grille and air outlet grate are equipped at the mixed flow air outlet of mixed flow chamber for guaranteeing safety.

Preferably, axial flow blower includes motor, and the shaft of motor is connect with aerofoil fan；Motor passes through far from shaft side Electric machine support is fixed on side in tubular mixed flow chamber；

The baffle liner is set to tubular mixed flow chamber end and is located at the inside of air outlet grate.

Preferably, in the rear side and on-hook ontology lower end of the first mixed flow air inlet of connector connection tubular mixed flow chamber Portion.

Preferably, connector includes: connecting shaft and the connecting pin by connecting axis connection and fixing end；Wherein,

The arc-shaped face in connecting pin, to match the radian of tubular mixed flow chamber；Fixing end includes solid with on-hook ontology bottom of shell Fixed stationary plane and the joint face extended downwardly along stationary plane towards the side in front of indoor unit, joint face with connect axis connection.

Preferably, the relatively independent operation of each axial flow blower blown in mixed flow component.

Wall-hung indoor unit of air conditioner provided by the utility model, it is mixed due to having additional at least two air-supplies in on-hook body lower part Flow component, the tubular mixed flow chamber and the axial flow blower being distributed in inside tubular mixed flow chamber two sides；Between having between tubular mixed flow chamber transverse direction Gauge from；The axis of tubular mixed flow chamber is parallel with the axis of on-hook ontology, and wherein upper and lower part is respectively equipped with the first mixed flow Air inlet and the second mixed flow air inlet, both ends are equipped with mixed flow air outlet；First mixed flow air inlet, which receives, carrys out autonomous air outlet Exchange heat air, and the second mixed flow air inlet introduces room air, the heat exchange of room air and the output of main air outlet by axial flow blower Air mixing is sent into interior by mixed flow air outlet, not only includes the room air of indoor on-hook two sides, further includes indoor on-hook The room air of lower section makes indoor air circulation faster more evenly, promote the healthiness air-supply experience of user.

Further, the indoor on-hook of the utility model, tubular mixed flow chamber is by axial flow blower inside two sides by Interior Space Gas is drawn into tubular mixed flow chamber from the second mixed flow air inlet, and the mixed flow air outlet by being arranged inside two sides in tubular mixed flow chamber It is irregular to send out, negative pressuren zone is formed in tubular mixed flow chamber in this way, amount of jet needed for greatly improving mixed flow air；Shape simultaneously At the not equal jet stream mixed flow air-flow to natural wind of variable speed, really realize that air-flow is cool without cold, not blow-through people.

Further, the indoor on-hook of the utility model, due to that will blow, mixed flow component is arranged in on-hook body exterior Shell lower part, connect by connector with on-hook ontology, using such structure, family can be used and be changed without on-hook sheet On the basis of body, separately installed air-supply mixed flow component, strong operability, according to the demand of user, can flexibility choose whether to pacify Dress air-supply mixed flow component.

According to the accompanying drawings to the detailed description of the utility model specific embodiment, those skilled in the art will be more Add the above-mentioned and other purposes, advantages and features of clear the utility model.

Detailed description of the invention

Some specific realities of the utility model are described in detail by way of example and not limitation with reference to the accompanying drawings hereinafter Apply example.Identical appended drawing reference denotes same or similar part or part in attached drawing.It should be appreciated by those skilled in the art that The drawings are not necessarily drawn to scale.In attached drawing:

Fig. 1 is the schematic elevational view according to the wall-hung indoor unit of air conditioner of the utility model one embodiment；

Fig. 2 is the schematic diagram of internal structure of indoor on-hook shown in FIG. 1；

Fig. 3 is the air-supply mixed flow component perspective view of the explosion of indoor on-hook shown in FIG. 1；

Fig. 4 is the enlarged diagram of the connector of indoor on-hook shown in FIG. 1.

Specific embodiment

Air conditioner is all generally to enter room air from the air inlet of indoor unit, after heat exchanger exchanges heat, then It is secondary to blow out the gas after heat exchange from indoor unit air outlet, it is recycled with this, is constantly exchanged heat to indoor gas, to remain indoor One blander temperature of air.

Fig. 1 is the schematic elevational view according to the wall-hung indoor unit of air conditioner 10 of the utility model one embodiment；Fig. 2 is figure The schematic diagram of internal structure of interior on-hook 10 shown in 1；The interior on-hook 10 includes on-hook ontology 100 and air-supply mixed flow component 200。

Wherein, it will be understood by those skilled in the art that the function and existing skill of on-hook ontology 100 provided by the utility model The function of individual indoor on-hook in art is the same, i.e., is disposed with heat exchanger in on-hook ontology 100, and indoor gas is from on-hook sheet The main air inlet 110 of body 100 enters, after heat exchanger exchanges heat, blown out from the main air outlet 120 of on-hook ontology 100 it is sent to the room, Circulation exchanges heat to room air.

Further, in heat exchanger towards being equipped with the main cross flow fan of at least one transversely arranged at main air outlet 120 130, in this embodiment, main cross flow fan 130 includes two, and the outside of main cross flow fan 130 is equipped with main spiral case, its underpart pair It should be equipped with above-mentioned main air outlet 120, each main cross flow fan 130 is used to room air introducing on-hook sheet from main air inlet 110 It send after the heat exchange of 100 internal diameter heat exchanger of body to main air outlet 120 and exports.

Further, each main cross flow fan 130 can be with independent operating.In the present embodiment, when two main cross flow fans When 130 whole operations, the outlet air of main air outlet 120 all covers the outlet air of mixed flow air outlet 212；When two main cross flow fans When 130 one of isolated operation, the outlet air of the air-outlet part covering mixed flow air outlet 212 of main air outlet 120 is, it can be achieved that portion Divide jet stream mixed flow, the side of the main cross flow fan 130 of the side and operation for the main cross flow fan 130 not run can accelerate air Flowing and circulation.

Specifically, further combined with Fig. 1, it is found that 100 lower part of on-hook ontology is connected, there are two mixed flow groups of blowing with Fig. 2 analysis Part 200 is fixedly connected on the lower part of on-hook ontology 100 by connector 300.The air-supply mixed flow component 200 includes tubular mixed flow Chamber 210 and the axial flow blower 220 being distributed in inside 210 two sides of tubular mixed flow chamber.Further, between 210 transverse direction of tubular mixed flow chamber There is spacing distance；The axis of tubular mixed flow chamber 210 is parallel with the axis of on-hook ontology 100, and wherein upper and lower part is set respectively There are the first mixed flow air inlet 211 and the second mixed flow air inlet 212.The axis of tubular mixed flow chamber 210 and the axis of on-hook ontology 100 In parallel, the first mixed flow air inlet 211 is parallel with the main air outlet 120 of on-hook ontology 100, main purpose be from the second mixed flow into The heat exchange for the main air outlet 120 of on-hook ontology 100 that the room air and the first mixed flow air inlet 211 that air port 212 introduces introduce is empty Gas is uniformly mixed

, not only include the room air of 100 two sides of indoor on-hook, further include the room air of indoor 100 lower section of on-hook, make Indoor air circulation is faster more evenly.

Specifically, the rotation axis of axial flow blower 220 is overlapped with the axis of tubular mixed flow chamber 210, and axial flow blower 220 leans on The end side of nearly tubular mixed flow chamber 210 is provided with baffle liner 221, axial flow blower 220 for will suck come from the first mixed flow into The heat exchange air in air port 211 and the room air of the second mixed flow air inlet 212 are exported from mixed flow air outlet 213 to interior.

In some preferred embodiments, on-hook ontology 100 further includes wind deflector, and wind deflector is installed at main air outlet 120, And the horizontal plane of wind deflector is vertical with main 120 place plane of air outlet.It is, being sent to indoor wind from main air outlet 120 Flow direction is parallel with wind deflector horizontal plane, so that being at least partially able to enter tubular mixed flow chamber from the wind that main air outlet 120 is sent out In 210 the first mixed flow air inlet 211, the wind after exchanging heat is sent to interior after being mixed with the indoor wind not exchanged heat again.

The wall-hung indoor unit of air conditioner 10 of the utility model, due to having additional at least one air-supply in 100 lower part of on-hook ontology Mixed flow component 200, the tubular mixed flow chamber 210 and the axial flow blower 220 being distributed in inside 210 two sides of tubular mixed flow chamber；Tubular is mixed The axis for flowing chamber 210 is parallel with the axis of on-hook ontology 100, and wherein upper and lower part is respectively equipped with the first mixed flow air inlet 211 and the second mixed flow air inlet 212, both ends be equipped with mixed flow air outlet 213；First mixed flow air inlet 211 receives independently to send The heat exchange air in air port 120, the second mixed flow air inlet 212 introduce room air by axial flow blower 220, and room air is sent with master The heat exchange air mixing that air port 120 exports is sent into interior by mixed flow air outlet 213, promotes the healthiness air-supply body of user It tests.

Particularly, the wall-hung indoor unit of air conditioner 10 of the offer of the utility model, tubular mixed flow chamber 210 pass through two sides inner shaft Room air is drawn into tubular mixed flow chamber 210 by flow fan 220 from the second mixed flow air inlet 212, and by tubular mixed flow chamber 210 The mixed flow air outlet 213 of upper two sides setting is irregularly sent out, and is formed negative pressuren zone in tubular mixed flow chamber 210 in this way, is greatly promoted Amount of jet needed for mixed flow air；It is formed simultaneously the not equal jet stream mixed flow air-flow to natural wind of variable speed, really realizes air-flow It is cool without cold, not blow-through people.

In a particular embodiment, there are two the air-supply mixed flow components 200 of 100 lower part of on-hook ontology connection, respectively first Air-supply mixed flow component (left side in figure) and the second mixed flow component (right side in figure), two air-supply mixed flow component 200 is coaxially set Set, structure it is consistent, and it is each it is described air-supply mixed flow component 200 tubular mixed flow chamber 210 internal diameter it is consistent.Air-supply mixed flow component 200 include tubular mixed flow chamber 210 and the axial flow blower 220 being distributed in inside 210 two sides of tubular mixed flow chamber.Tubular mixed flow chamber 210 Axis it is parallel with the axis of on-hook ontology 100, mainly mixed flow air outlet 213 and the main air outlet 120 of on-hook ontology 100 is flat Row, it is empty that the purpose is to the heat exchange of the room air seen off from mixed flow air outlet 213 and the main air outlet 120 of on-hook ontology 100 Gas is uniformly mixed.

Certainly, the quantity of air-supply mixed flow component 200 can be more, but for the good experience property of user, it had better not More than four.

Specifically, the rotation axis of axial flow blower 220 is overlapped with the axis of tubular mixed flow chamber 210, and axial flow blower 220 leans on Nearly 210 middle part side of tubular mixed flow chamber is provided with baffle liner 221, for drawing the room air sucked by axial flow blower 220 The mixed flow air outlet 213 is delivered to after flowing in tubular mixed flow chamber 210.

Further, in this embodiment, the main cross flow fan 130 of on-hook ontology 100 includes two, laterally parallel row Column, the respectively first main cross flow fan (left side in figure) and the second main cross flow fan (right side in figure).

In this embodiment it is possible to realize a variety of air supply patterns, meet the needs of different user, specific as follows:

The main cross flow fan of mode one: the first and the second main cross flow fan mix wind, the first tubular mixed flow chamber at the same speed at the same speed or not With the independent operating air inducing of the second tubular mixed flow chamber, including the tubular mixed flow chamber two sides every axial flow blower 220 of operation At the same speed or not synchronized or independent operation；

The main cross flow fan of mode two: the first and the second main cross flow fan mix wind, the first tubular mixed flow chamber at the same speed at the same speed or not It is not operated at the same speed or at the same speed simultaneously with the second tubular mixed flow chamber, including in the first tubular mixed flow chamber and the second tubular mixed flow chamber Axial flow blower 220 is synchronized or the operating of not synchronized or various composition independencies

The main cross flow fan of mode three: the first and the second main cross flow fan individual operation, while the first tubular on the other side Mixed flow chamber or the second tubular mixed flow chamber run mixed wind, and another tubular mixed flow chamber can be run also not run

The main cross flow fan of mode four: the first and second one individual operation of main cross flow fan, while on the other side first Tubular mixed flow chamber or the second tubular mixed flow chamber are not run, and the operation of another tubular mixed flow chamber increases indoor air circulation.

In some preferred embodiments, the air output of axial flow blower 220 is respectively less than the air output of main cross flow fan 130, with The air output of mixed flow air outlet 213 is set to be less than the air output of main air outlet 120.If the air output of axial flow blower 220 be greater than or Person is equal to the air output of main cross flow fan 130, then causing the heat exchange air quantity sent out from the main air outlet 120 of on-hook ontology 100 The mixed flow air quantity sent to the room less than or equal to mixed flow air outlet 213, so that room temperature reaches the speed of preset temperature very Slowly, user experience is very poor.

Further, in above-mentioned tubular mixed flow chamber 210, the first mixed flow air inlet 211 and second of tubular mixed flow chamber 210 Mixed flow air inlet 212 is equipped with air-inlet grille, is equipped with air outlet grate at the mixed flow air outlet 213 of tubular mixed flow chamber 210, can prevent Dust enters inside air-supply mixed flow component 200, convenient for the cleaning to air-supply mixed flow component 200.

Fig. 3 is 200 schematic explosive view of air-supply mixed flow component of interior on-hook shown in Fig. 1 10, and air-supply mixed flow component 200 wraps Tubular mixed flow chamber 210 is included, air-inlet grille 214 is provided on mixed flow air inlet, tubular mixed flow chamber is respectively equipped with inside 210 two sides Axial flow blower 220.Wherein axial flow blower 220 includes motor 222, and the shaft of motor 222 is connect with aerofoil fan 224；Motor 222 Side in tubular mixed flow chamber 210 is fixed on by electric machine support 223 far from shaft side；Baffle liner 221 is set to tubular mixed flow chamber 210 ends and the inside for being located at air outlet grate 215.

In addition, mixed flow through-flow component provided by the utility model can be run independently of on-hook ontology 100, user can root It chooses whether to open mixed flow through-flow component according to actual conditions, realizes different air supply patterns.

In other preferred embodiments, air-supply mixed flow component 200 is fixedly connected on on-hook ontology by connector 300 100 lower part, Fig. 4 are the enlarged diagrams of the connector 300 of indoor on-hook 10 shown in FIG. 1, which specifically connects The middle part at the axial middle part and 100 lower end of on-hook ontology of air-inlet grille, the connector 300 connect the middle part of air-inlet grille, make to send Point-to-point connection cooperates between wind mixed flow component 200 and on-hook ontology 100, simple and beautiful structure, simplifies industrialized production, improves The production efficiency of air-conditioning.

Specifically, the connector 300 include connecting shaft 310, connect with above-mentioned connecting shaft 310 have connecting pin 320 and consolidate Fixed end 330；Wherein, the arc-shaped face in connecting pin 320, to match the radian of tubular mixed flow chamber 210, for being connected and fixed air-supply mixed flow Component 200 connects the rear side of the first mixed flow air inlet 211 of tubular mixed flow chamber 210；Fixing end 330 includes and on-hook ontology 100 The joint face 332 bottom of shell fixed stationary plane 331 and extended downwardly on rear side of stationary plane 331, joint face 332 and connecting shaft 310 connections.It, can be firmly fixed by mixed flow component 200 of blowing and on-hook ontology 100 by the connection of the connector 300 Bottom, so that air-supply mixed flow component 200 and 100 cooperating of on-hook ontology, realize different air supply patterns, meet different user pair The demand of air-supply improves user experience effect.

The indoor on-hook 10 of the utility model, the shell being arranged in outside on-hook ontology 100 due to the mixed flow component 200 that will blow The lower part of body is connect by connector 300 with on-hook ontology 100, using such structure, family can be used and be changed without on-hook On the basis of ontology 100, separately installed air-supply mixed flow component 200, strong operability according to the demand of user can flexibility choosing It selects and whether air-supply mixed flow component 200 is installed.For example, when refrigeration, likes powerful air-supply, then both for the room that young man lives It can choose and air-supply mixed flow component 200 is not installed, using traditional indoor unit air conditioner, also can choose installation air-supply mixed flow group The indoor on-hook 10 of part 200, installation air-supply mixed flow component 200 can choose whether to open according to the actual situation.For old man and The room that child lives need to install air-supply mixed flow component 200, carry out comfortable cooling.

So far, although those skilled in the art will appreciate that the more of the utility model have been shown and described in detail herein A exemplary embodiment still, still can be according to the utility model public affairs in the case where not departing from the spirit and scope of the utility model The content opened directly determines or derives many other variations or modifications for meeting the utility model principle.Therefore, this is practical new The range of type is understood that and regards as to cover all such other variations or modifications.

Claims (10)

1. a kind of wall-hung indoor unit of air conditioner, characterized by comprising:

On-hook ontology is inside disposed with heat exchanger, and being configured to will be by the heat exchange air of the heat exchanger from the on-hook sheet The main air outlet of body lower part is sent out；And

At least two air-supply mixed flow components, the lower part of the on-hook ontology, each air-supply are fixedly connected on by connector Mixed flow component includes tubular mixed flow chamber and the axial flow blower that is distributed in inside tubular mixed flow chamber two sides；Wherein,

There is spacing distance between the tubular mixed flow chamber transverse direction；The axis of the axis of the tubular mixed flow chamber and the on-hook ontology is flat Row, and upper part and lower part are respectively equipped with the first mixed flow air inlet and the second mixed flow air inlet, both ends are equipped with mixed flow air outlet； The first mixed flow air inlet receives at least partly heat exchange air from the main air outlet, and the second mixed flow air inlet is logical It crosses the axial flow blower and introduces room air；

The rotation axis of the axial flow blower is overlapped with the axis of the tubular mixed flow chamber, and the axial flow blower is close to the cylinder Shape mixed flow chamber end side is provided with baffle liner, and the axial flow blower will be for that will suck changing from the first mixed flow air inlet The room air of hot-air and the second mixed flow air inlet is exported from the mixed flow air outlet to interior.

2. interior on-hook according to claim 1, which is characterized in that

The heat exchanger is towards being equipped with the main cross flow fan of at least one transversely arranged, the main through-flow wind at the main air outlet The outside of machine is equipped with main spiral case, and its underpart is correspondingly provided at least one described main air outlet；Each main cross flow fan is used for Room air is introduced in main air duct from the main air inlet of the on-hook ontology respectively and is sent after heat exchanger heat exchange to described Main air outlet export.

3. interior on-hook according to claim 2, which is characterized in that

Each main cross flow fan independent operating.

4. interior on-hook according to claim 1, which is characterized in that

The air-supply mixed flow component includes two air-supply mixed flow components of coaxial arrangement, and each air-supply mixed flow component Tubular mixed flow chamber internal diameter it is consistent.

5. interior on-hook according to claim 2, which is characterized in that

The air output total amount of the axial flow blower is less than the air output of the main cross flow fan, so that the mixed flow air outlet goes out Air quantity is less than the air output of the main air outlet.

6. interior on-hook according to claim 1, which is characterized in that

The the first mixed flow air inlet and the second mixed flow air inlet of the tubular mixed flow chamber are equipped with air-inlet grille, described Air outlet grate, the air-inlet grille and the air outlet grate are equipped at the mixed flow air outlet of tubular mixed flow chamber for guaranteeing peace Entirely.

7. interior on-hook according to claim 6, which is characterized in that

The axial flow blower includes motor, and the shaft of the motor is connect with aerofoil fan；The motor is far from the shaft one Side in the tubular mixed flow chamber is fixed on by electric machine support in side；

The baffle liner is set to tubular mixed flow chamber end and is located at the inside of the air outlet grate.

8. interior on-hook according to claim 1, which is characterized in that

The connector connects rear side and the on-hook ontology lower end of the first mixed flow air inlet of the tubular mixed flow chamber Middle part.

9. interior on-hook according to claim 8, which is characterized in that

The connector includes: connecting shaft and connecting pin and fixing end by the connection axis connection；Wherein,

The arc-shaped face in connecting pin, to match the radian of the tubular mixed flow chamber；The fixing end includes and the on-hook sheet The fixed stationary plane of body bottom of shell and the connection extended downwardly along the stationary plane towards the side in front of the indoor on-hook Face, the joint face and the connection axis connection.

10. interior on-hook according to claim 1, which is characterized in that

The relatively independent operation of the axial flow blower each of in the air-supply mixed flow component.