CN108317607B - Indoor hanging machine of air conditioner - Google Patents

Abstract

The invention provides an indoor hanging machine of an air conditioner, which comprises a hanging machine body and at least one air supply mixed flow component, wherein a heat exchanger is arranged in the hanging machine body and is configured to send heat exchange air passing through the heat exchanger out of a main air supply port at the lower part of the hanging machine body; the air supply mixed flow assembly is fixedly connected to the lower part of the hanging machine body through a connecting piece and comprises a cylindrical mixed flow cavity and axial flow fans distributed inside two sides of the cylindrical mixed flow cavity. Further, the axis of the cylindrical mixed flow cavity is parallel to the axis of the hanging machine body, the upper part of the cylindrical mixed flow cavity is provided with a mixed flow air outlet, and both ends of the cylindrical mixed flow cavity are provided with mixed flow air inlets; the rotation axis of each axial flow fan coincides with the axis of the cylindrical mixed flow cavity, and a guide ring is arranged on one side of the axial flow fan, which is close to the middle part of the cylindrical mixed flow cavity, and is used for guiding indoor air sucked by the axial flow fan into the cylindrical mixed flow cavity and then conveying the indoor air to the mixed flow air outlet to be mixed with heat exchange air from the main air supply outlet.

Description

Indoor hanging machine of air conditioner

Technical Field

The invention relates to an air conditioner, in particular to an indoor hanging machine of an air conditioner.

Background

With the popularization of air conditioners, the requirements of users on the comfort and health of air supply are increasing. The traditional air conditioner has the advantages that the air supply is strong, cold air directly blows to people, air conditioning diseases are the biggest problem of using the air conditioner by users, through the continuous innovation of air conditioning technology, jet technology and drainage technology are presented, and a cool and uncooled healthy air supply concept is brought, but the technologies have certain limitations, namely, mixed flow is uneven, and the comfort experience of users is affected; further, the user has different requirements for air supply of the air conditioner, such as: during refrigeration, young people like strong refrigeration, but old people and children need comfortable refrigeration, and the existing common jet flow and drainage technology cannot be met at the same time.

Traditional drainage or efflux scheme, drainage efflux wind direction is single, though can bring comfortable experience for the user in the temperature, and wind direction list always blows the people and also makes user experience nature poor, and the drainage power supply all relies on the effect of the cross flow fan of indoor hanging machine, and induced air volume is little, and induced air effect is limited.

Disclosure of Invention

It is an object of the present invention to provide an indoor unit of an air conditioner that overcomes or at least partially solves the above-mentioned problems.

It is a further object of the present invention to increase the amount of drainage required in mixed flow air.

It is a further object of the invention to improve the user experience.

In particular, the present invention provides an indoor unit of an air conditioner, comprising:

The on-hook body is internally provided with a heat exchanger and is configured to send heat exchange air passing through the heat exchanger out of a main air supply port at the lower part of the on-hook body; and

The at least two air supply mixed flow components are fixedly connected to the lower part of the hanging machine body through connecting pieces and comprise a cylindrical mixed flow cavity and axial flow fans distributed in the two sides of the cylindrical mixed flow cavity; wherein,

The transverse space of the cylindrical mixed flow cavity is provided with a spacing distance; the axis of the cylindrical mixed flow cavity is parallel to the axis of the hanging machine body, the upper part of the cylindrical mixed flow cavity is provided with a mixed flow air outlet, and both ends of the cylindrical mixed flow cavity are provided with mixed flow air inlets;

The rotation axis of each axial flow fan coincides with the axis of the cylindrical mixed flow cavity, and a guide ring is arranged on one side of the axial flow fan, which is close to the middle part of the cylindrical mixed flow cavity, and is used for guiding indoor air sucked by the axial flow fan into the cylindrical mixed flow cavity and then conveying the indoor air to the mixed flow air outlet to be mixed with heat exchange air from the main air supply outlet.

Preferably, the heat exchanger is provided with at least one main cross-flow fan which is transversely arranged towards the main air supply opening, the outside of the main cross-flow fan is provided with a main volute, and the lower part of the main cross-flow fan is correspondingly provided with at least one main air supply opening; each main cross flow fan is used for respectively leading indoor air into the main air duct from the main air inlet, exchanging heat through the heat exchanger and then delivering the indoor air to the main air outlet for guiding.

Preferably, each main cross flow fan operates independently.

Preferably, the air supply mixed flow assembly comprises two air supply mixed flow assemblies coaxially arranged, and the inner diameter of the cylindrical mixed flow cavity of each air supply mixed flow assembly is consistent.

Preferably, the total air supply amount of the axial flow fan is smaller than the air output amount of the main through flow fan, so that the air output amount of the mixed air outlet is smaller than the air output amount of the main air outlet.

Preferably, the mixed flow air outlet and the mixed flow air inlet of the cylindrical mixed flow cavity are respectively provided with an air outlet grid and an air inlet grid for ensuring safety.

Preferably, the connecting piece connects the rear side of the mixed flow air outlet of the cylindrical mixed flow cavity and the middle part of the lower end of the hanging machine body.

Preferably, the connector comprises: the connecting shaft, and the connecting end and the fixed end which are connected through the connecting shaft; wherein,

The connecting end 320 is arc-shaped to match the arc of the cylindrical mixed flow cavity; the fixed end comprises a fixed surface fixed with the bottom of the casing of the hanging machine body and a connecting surface extending downwards along one side of the fixed surface towards the front of the indoor unit, and the connecting surface is connected with the connecting shaft.

Preferably, the axial flow fan comprises a motor, a rotating shaft of the motor penetrates through a motor bracket to be connected with the axial flow fan, and the motor is fixed on one side in the cylindrical mixed flow cavity through the motor bracket;

the guide ring is arranged in the cylindrical mixed flow cavity and is communicated with the axial flow fan and the cylindrical mixed flow cavity.

Preferably, each axial flow fan within the air mixing assembly operates relatively independently.

According to the indoor hanging machine of the air conditioner, as the lower part of the hanging machine body is additionally provided with at least two air supply mixed flow components, the cylindrical mixed flow cavity and the axial flow fans are distributed on two sides of the cylindrical mixed flow cavity; the transverse space of the cylindrical mixed flow cavity is provided with a spacing distance; the axis of tube-shape mixed flow chamber is parallel with the axis of hanging the machine body, and wherein upper portion is equipped with mixed flow air outlet, and both ends are equipped with mixed flow air intake, not only including the indoor air of indoor hanging the machine both sides, still include the indoor air of indoor hanging the machine below, make indoor air cycle faster more even, introduce the tube-shape mixed flow chamber back from mixed flow air intake through axial fan with indoor air, through mixed flow air outlet discharge, indoor air and the heat transfer air mixture of main air supply mouth output send into indoor, promote user's comfortable healthy air supply experience.

Further, according to the indoor hanging machine disclosed by the invention, the tubular mixed flow cavity sucks indoor air into the tubular mixed flow cavity through the axial flow fans at two sides in different trend at different speeds, and the indoor air is irregularly sent out through the mixed flow air outlets arranged on the tubular mixed flow cavity, so that different negative pressure areas with different pressure orientations are formed between the main air inlet and the mixed flow air outlets of the tubular mixed flow cavity, different jet air flows with different air supply directions at different speeds are formed, and the different constant speed unequal air flows of the jet air flows and the mixed flow air outlets of the tubular mixed flow cavity jointly form indoor air jet flows, so that the jet flow required by the mixed flow air is greatly improved; meanwhile, jet mixed-flow air flows of different speeds and different directions of natural wind are formed, so that the air flows are really cool and not cool, and people are not blown directly.

Furthermore, the indoor hanging machine of the invention has the advantages that the air supply mixed flow component is arranged at the lower part of the shell outside the hanging machine body and is connected with the hanging machine body through the connecting piece, so that a user can independently install the air supply mixed flow component on the basis of not replacing the hanging machine body, the operability is strong, and the user can flexibly select whether to install the air supply mixed flow component according to the requirement of the user.

The above, as well as additional objectives, advantages, and features of the present invention will become apparent to those skilled in the art from the following detailed description of a specific embodiment of the present invention when read in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or portions. It will be appreciated by those skilled in the art that the drawings are not necessarily drawn to scale. In the accompanying drawings:

fig. 1 is a schematic front view of an indoor unit of an air conditioner according to an embodiment of the present invention;

Fig. 2 is a schematic view illustrating an internal structure of the indoor unit of fig. 1;

FIG. 3 is an exploded schematic view of an air mix assembly of the indoor unit of FIG. 1;

fig. 4 is an enlarged schematic view of a connection member of the indoor unit of fig. 1.

Detailed Description

The air conditioner generally enters indoor air from an air inlet of the indoor unit, and after heat exchange of the heat exchanger, the air after heat exchange is blown out from an air supply outlet of the indoor unit again, so that the indoor air is continuously subjected to heat exchange in a circulating way, and the indoor air is kept at a comfortable temperature.

Fig. 1 is a schematic front view of an indoor unit 10 of an air conditioner according to one embodiment of the present invention; fig. 2 is a schematic view illustrating an internal structure of the indoor unit 10 shown in fig. 1; the indoor unit 10 includes a main body 100 and a mixed air flow assembly 200.

It can be understood by those skilled in the art that the function of the on-hook body 100 provided by the present invention is the same as that of an independent indoor on-hook in the prior art, that is, a heat exchanger is arranged in the on-hook body 100, indoor air enters from the main air inlet 110 of the on-hook body 100, and after heat exchange by the heat exchanger, the indoor air is blown out from the main air inlet 120 of the on-hook body 100 and sent into a room, and the indoor air is circulated for heat exchange.

Further, at least one main through-flow fan 130 is disposed at a position facing the main air inlet 120 of the heat exchanger, in this embodiment, the main through-flow fans 130 include two main volutes disposed outside the main through-flow fans 130, the main air inlet 120 is correspondingly disposed at a lower portion of the main through-flow fans, and each main through-flow fan 130 is configured to introduce indoor air from the main air inlet 110 into the heat exchanger of the inside diameter of the on-hook body 100, exchange heat, and send the indoor air to the main air inlet 120 for export.

Further, each main cross flow fan 130 may operate independently. In the present embodiment, when the two main through-flow fans 130 are all operated, the air outlets of the main air inlets 120 all cover the air outlets of the mixed air outlets 212; when one of the two main cross flow fans 130 is independently operated, the air outlet part of the main air inlet 120 covers the air outlet of the mixed flow air outlet 212, so that partial jet mixed flow can be realized, and the air flow and circulation can be accelerated by one side of the main cross flow fan 130 which is not operated and one side of the main cross flow fan 130 which is operated.

Specifically, as further shown in fig. 1 and 2, two air-supplying mixed-flow assemblies 200 are connected to the lower portion of the on-hook body 100, and are fixedly connected to the lower portion of the on-hook body 100 through a connecting piece 300. The air-supplying mixed flow assembly 200 includes a cylindrical mixed flow chamber 210 and axial flow fans 220 distributed inside both sides of the cylindrical mixed flow chamber 210. Further, a space is provided between the lateral directions of the cylindrical mixed flow chambers 210; the axis of the cylindrical mixed flow cavity 210 is parallel to the axis of the on-hook body 100, and the upper part thereof is provided with a mixed flow air outlet 212, and both sides thereof are provided with mixed flow air inlets 211. The axis of the cylindrical mixed flow cavity 210 is parallel to the axis of the on-hook body 100, the mixed flow air outlet 212 is parallel to the main air outlet 120 of the on-hook body 100, and the main purpose of the cylindrical mixed flow cavity is that the indoor air sent out from the mixed flow air outlet 212 is uniformly mixed with the heat exchange air of the main air outlet 120 of the on-hook body 100, so that the indoor air circulation is faster and more uniform due to the fact that the cylindrical mixed flow cavity not only comprises the indoor air on two sides of the indoor on-hook 100, but also comprises the indoor air below the indoor on-hook 100.

Specifically, the rotation axis of the axial flow fan 220 coincides with the axis of the cylindrical mixed flow cavity 210, and a guide ring 221 is disposed on one side of the axial flow fan 220 near the middle of the cylindrical mixed flow cavity 210, so as to guide the indoor air sucked from the mixed flow air inlet 211 through the axial flow fan 220 into the cylindrical mixed flow cavity 210 and then convey the indoor air to the mixed flow air outlet 212.

In some preferred embodiments, the hanging machine body 100 further includes an air deflector, where the air deflector is installed at the main air inlet 120, and the horizontal plane of the air deflector is perpendicular to the plane of the main air inlet 120. That is, the flow direction of the wind fed from the main air inlet 120 into the room is parallel to the horizontal plane of the air guide plate, so that at least a part of the wind fed from the main air inlet 120 can be mixed with the wind discharged from the converging air outlet of the mixed flow cross flow assembly, and the wind after heat exchange is mixed with the indoor wind without heat exchange and then fed into the room again.

The indoor hanging machine 10 of the invention, the lower part of the hanging machine body 100 is connected with the tubular mixed flow cavity 210, the tubular mixed flow cavity 210 sucks indoor air from the mixed flow air inlet 211 into the tubular mixed flow cavity 210 in different directions at different speeds through the axial flow fans 220 at two sides, and the indoor air is irregularly sent out by the mixed flow air outlet 212 arranged on the tubular mixed flow cavity 210, thus forming negative pressure areas with different pressure unequal directions between the main air inlet 120 and the mixed flow air outlet 212 of the tubular mixed flow cavity 210, thus forming jet air flows with different air supply directions at different speeds, and the jet air flows and the different air flows at different speeds of the mixed flow air outlet 212 of the tubular mixed flow cavity 210 jointly form indoor air jet flows, thus greatly improving the jet flow required by the mixed flow air; meanwhile, jet mixed-flow air flows of different speeds and different directions of natural wind are formed, so that the air flows are really cool and not cool, and people are not blown directly.

In particular, in the indoor unit 10 for an air conditioner provided by the invention, since the air supply mixed flow assembly 200 is additionally arranged at the lower part of the unit body 100, the air supply mixed flow assembly 200 is provided with the cylindrical mixed flow cavity 210, the two sides of the cylindrical mixed flow cavity 210 are respectively provided with the axial flow fans 220, the upper part of the cylindrical mixed flow cavity 210 is provided with the mixed flow air inlets 212, the two end parts are provided with the mixed flow air inlets 211, the axial flow fans 220 respectively suck indoor air into the cylindrical mixed flow cavity 210 from the mixed flow air inlets 211, then discharge the indoor air from the mixed flow air inlets 212, and mix the indoor air with heat exchange air discharged from the main air inlet 120 of the unit body 100 to form cool and uncooled air flow.

In a specific embodiment, two air-supply mixed flow assemblies 200 are connected to the lower portion of the on-hook body 100, which are a first air-supply mixed flow assembly (left side in the figure) and a second air-supply mixed flow assembly (right side in the figure), the two air-supply mixed flow assemblies 200 are coaxially arranged and have a consistent structure, and the inner diameters of the cylindrical mixed flow cavities 210 of each air-supply mixed flow assembly 200 are consistent. The air supply mixing assembly 200 includes a cylindrical mixing chamber 210 and axial fans 220 distributed at both sides of the cylindrical mixing chamber 210. The axis of the cylindrical mixed flow cavity 210 is parallel to the axis of the on-hook body 100, and mainly the mixed air outlet 212 is parallel to the main air outlet 120 of the on-hook body 100, so that the indoor air sent out from the mixed air outlet 212 is uniformly mixed with the heat exchange air of the main air outlet 120 of the on-hook body 100.

Of course, the number of air mix assemblies 200 may be greater, but preferably not more than four for good user experience.

Specifically, the rotation axis of the axial flow fan 220 coincides with the axis of the cylindrical mixed flow cavity 210, and a guide ring 221 is disposed on one side of the axial flow fan 220 near the middle of the cylindrical mixed flow cavity 210, so as to guide the indoor air sucked by the axial flow fan 220 into the cylindrical mixed flow cavity 210 and then convey the indoor air to the mixed flow air outlet 212.

Further, in this embodiment, the main cross-flow fans 130 of the on-hook body 100 include two main cross-flow fans (left side in the drawing) and a second main cross-flow fan (right side in the drawing) which are arranged in parallel in the lateral direction.

In this embodiment, a plurality of air supply modes can be realized, and the requirements of different users are satisfied, specifically as follows:

Mode one: the first main cross flow fan and the second main cross flow fan supply air at the same speed or different speeds, and the first cylindrical mixed flow cavity and the second cylindrical mixed flow cavity are independently operated to induce air, wherein the operation comprises the operation of the axial flow fans 220 at the two sides of the cylindrical mixed flow cavity at the same speed or different speeds or independently operated;

mode two: the first main cross flow fan and the second main cross flow fan supply air at the same speed or different speeds, the first cylindrical mixed flow cavity and the second cylindrical mixed flow cavity run at the same speed or different speeds, wherein the axial flow fans 220 in the first cylindrical mixed flow cavity and the second cylindrical mixed flow cavity run at the same speed or different speeds or various combinations independently

Mode three: the first main cross-flow fan and the second main cross-flow fan independently operate, and simultaneously the first cylindrical mixed flow cavity or the second cylindrical mixed flow cavity opposite to the first main cross-flow fan and the second main cross-flow fan operate to draw air, and the other cylindrical mixed flow cavity can operate or not operate

Mode four: the first main cross-flow fan and the second main cross-flow fan are independently operated, the first cylindrical mixed flow cavity or the second cylindrical mixed flow cavity opposite to the first main cross-flow fan or the second main cross-flow fan is not operated, and the other cylindrical mixed flow cavity is operated to increase indoor air circulation

In some preferred embodiments, the air output of the axial flow fans 220 is smaller than the air output of the main through flow fans 130, so that the air output of the mixed air outlets 212 is smaller than the air output of the main air outlets 120. If the air output of the axial flow fan 220 is greater than or equal to the air output of the main through flow fan 130, the heat exchange air output from the main air outlet 120 of the on-hook body 100 is less than or equal to the mixed air output from the mixed air outlet 212 to the indoor space, so that the indoor temperature reaches the preset temperature at a very low speed, and the user experience is very poor.

Further, on the cylindrical mixed flow cavity 210, an air inlet grille and an air outlet grille are respectively disposed at the mixed flow air inlet 211 and the mixed flow air outlet 212, which are used for ensuring safety, preventing dust from entering the air supply mixed flow assembly 200, and facilitating cleaning of the air supply mixed flow assembly 200.

Fig. 3 is a schematic exploded view of the air-supplying mixed flow assembly 200 of the indoor unit 10 shown in fig. 1, the air-supplying mixed flow assembly 200 includes a cylindrical mixed flow cavity 210, an air inlet grille 213 and an air outlet grille 214 are respectively disposed at a mixed flow air inlet 211 and a mixed flow air outlet 212, and axial fans 220 are respectively disposed at two sides of the cylindrical mixed flow cavity 210. The axial flow fan 220 comprises a motor 222, a rotating shaft of the motor 222 passes through a motor bracket 223 and is connected with an axial flow fan 224, and the motor 222 is fixed at one side in the cylindrical mixed flow cavity 210 through the motor bracket 223; the guide ring 221 is disposed in the cylindrical mixed flow chamber 210 and communicates with the axial flow fan 220 and the cylindrical mixed flow chamber 210.

In addition, the mixed-flow through-flow assembly provided by the invention can operate independently of the on-hook body 100, and a user can select whether to open the mixed-flow through-flow assembly according to actual conditions so as to realize different air supply modes.

In other preferred embodiments, the air-supplying mixed flow assembly 200 is fixedly connected to the lower portion of the on-hook body 100 through a connecting member 300, fig. 4 is an enlarged schematic view of the connecting member 300 of the indoor on-hook 10 shown in fig. 1, the connecting member 300 is specifically connected to the axial middle portion of the cylindrical mixed flow cavity 210 and the middle portion of the lower end of the on-hook body 100, and the connecting member 300 is connected to the rear side of the mixed flow air outlet, so that the air-supplying mixed flow assembly 200 is matched with the on-hook body 100 in a point-to-point connection manner, the structure is simple and attractive, the industrial production is simplified, and the production efficiency of the air conditioner is improved.

Specifically, the connector 300 includes a connecting shaft 310, a connecting end 320 and a fixed end 330 connected to the connecting shaft 310; wherein, the connecting end 320 is an arc surface to match the radian of the cylindrical mixed flow cavity 210, and is used for connecting the fixed air supply mixed flow assembly 200 and the rear side of the mixed flow air outlet 212 of the cylindrical mixed flow cavity 210; the fixing end 330 includes a fixing surface 331 fixed to the bottom of the casing of the hanging machine body 100 and a connection surface 332 extending downward along one side of the fixing surface 331 toward the front of the indoor unit, and the connection surface 332 is connected to the connection shaft 310. Through the connection of this connecting piece 300, can be firm mix the flow subassembly 200 of will supplying air fixed with the bottom of hanging machine body 100 for supply air mix flow subassembly 200 and hang machine body 100 cooperation work, realize different air supply modes, satisfy different users' demand to the air supply, improve user experience effect.

In the indoor hanging machine 10 of the present invention, since the air-supply mixed flow assembly 200 is disposed at the lower part of the housing outside the hanging machine body 100 and is connected to the hanging machine body 100 through the connector 300, the air-supply mixed flow assembly 200 can be individually installed by a user without replacing the hanging machine body 100, and the operability is high, and whether to install the air-supply mixed flow assembly 200 can be flexibly selected according to the user's needs. For example, for a room where young people live, strong air supply is preferred during cooling, the air supply mixed flow component 200 may be omitted, a conventional indoor unit air conditioner may be used, the air supply mixed flow component 200 may be omitted, and the indoor unit 10 provided with the air supply mixed flow component 200 may be turned on or not according to actual situations. For the rooms where the old and the children live, the air supply mixed flow assembly 200 is installed for comfortable refrigeration.

By now it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described herein in detail, many other variations or modifications of the invention consistent with the principles of the invention may be directly ascertained or inferred from the present disclosure without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and deemed to cover all such other variations or modifications.

Claims (10)

1. An indoor hanging machine of an air conditioner, comprising:

the on-hook body is internally provided with a heat exchanger and is configured to send heat exchange air passing through the heat exchanger out of a main air inlet at the lower part of the on-hook body; and

The air supply mixed flow components are fixedly connected to the lower part of the hanging machine body through connecting pieces, and each air supply mixed flow component comprises a cylindrical mixed flow cavity and axial flow fans distributed in two sides of the cylindrical mixed flow cavity; wherein,

The cylindrical mixed flow cavity is transversely spaced by a spacing distance; the axis of the cylindrical mixed flow cavity is parallel to the axis of the on-hook body, the upper part of the cylindrical mixed flow cavity is provided with a mixed flow air outlet, and both ends of the cylindrical mixed flow cavity are provided with mixed flow air inlets;

the rotation axis of each axial flow fan coincides with the axis of the cylindrical mixed flow cavity, and one side of the axial flow fan, which is close to the middle part of the cylindrical mixed flow cavity, is provided with a guide ring for guiding indoor air sucked by the axial flow fan into the cylindrical mixed flow cavity and then conveying the indoor air to the mixed flow air outlet to be mixed with heat exchange air from the main air inlet.

2. The indoor hanger of claim 1, wherein,

At least one main cross flow fan which is transversely arranged is arranged at the position, facing the main air supply opening, of the heat exchanger, a main volute is arranged outside the main cross flow fan, and at least one main air supply opening is correspondingly arranged at the lower part of the main volute; each main cross flow fan is used for respectively leading indoor air into the main air duct from the main air inlet, exchanging heat by the heat exchanger and then delivering the indoor air to the main air outlet for guiding.

3. The indoor unit of claim 2, wherein,

Each main cross-flow fan operates independently.

4. The indoor hanger of claim 1, wherein,

The air supply mixed flow assembly comprises two air supply mixed flow assemblies which are coaxially arranged, and the inner diameters of the cylindrical mixed flow cavities of each air supply mixed flow assembly are consistent.

5. The indoor unit of claim 2 or 3, wherein,

The total air supply amount of the axial flow fan is smaller than the air output of the main through flow fan, so that the air output of the mixed flow air outlet is smaller than the air output of the main air outlet.

6. The indoor hanger of claim 1, wherein,

And the mixed flow air outlet and the mixed flow air inlet of the cylindrical mixed flow cavity are respectively provided with an air outlet grille and an air inlet grille for ensuring safety.

7. The indoor hanger of claim 1, wherein,

The connecting piece is connected with the rear side of the mixed flow air outlet of the cylindrical mixed flow cavity and the middle part of the lower end of the hanging machine body.

8. The indoor hanger of claim 7, wherein,

The connector includes: the connecting shaft, and the connecting end and the fixed end which are connected through the connecting shaft; wherein,

The connecting end is an arc-shaped surface to match the radian of the cylindrical mixed flow cavity; the fixed end comprises a fixed surface fixed with the bottom of the machine shell of the hanging machine body and a connecting surface extending downwards along one side of the fixed surface towards the front of the indoor hanging machine, and the connecting surface is connected with the connecting shaft.

9. The indoor hanger of claim 1, wherein,

The axial flow fan comprises a motor, a rotating shaft of the motor penetrates through a motor support to be connected with the axial flow fan, and the motor is fixed on one side in the cylindrical mixed flow cavity through the motor support;

The guide ring is arranged in the cylindrical mixed flow cavity and is communicated with the axial flow fan and the cylindrical mixed flow cavity.

10. The indoor hanger of claim 1, wherein,

Each axial flow fan in the air supply mixed flow assembly independently operates.