CN110762611A - Fresh air cabinet type air conditioner indoor unit - Google Patents

Abstract

The invention provides a fresh air cabinet type air conditioner indoor unit, comprising: a housing having a housing air inlet and at least one housing air outlet; the air supply assembly is arranged in the shell and comprises a centrifugal fan and a volute arranged outside the centrifugal fan, and the centrifugal fan is configured to suck indoor air from an air inlet of the shell and impel the indoor air to be sent to the indoor environment again through an air outlet of the shell; the heat exchanger is arranged on the air inlet main air duct between the volute of the centrifugal fan and the air inlet of the shell, so that indoor air entering through the air inlet of the shell exchanges heat with the heat exchanger; the fresh air device is arranged below the air supply assembly; comprises an air inlet module and a fan module communicated with the air inlet module; the air inlet module is positioned at the lower part of the fan module; the at least one air supply assembly is also configured to suck at least part of outdoor fresh air discharged by the fresh air fan from the air inlet of the shell, and the outdoor fresh air is discharged from the air outlet of the shell after exchanging heat with the heat exchanger.

Description

Fresh air cabinet type air conditioner indoor unit

Technical Field

The invention relates to the technical field of fresh air conditioners, in particular to an indoor unit of a fresh air cabinet type air conditioner.

Background

The air conditioner is a household appliance which is widely applied, generally has heating and refrigerating functions, adjusts the temperature of indoor air when the ambient temperature is too low or too high, provides a proper indoor environment for users, and effectively improves the life quality of the users.

However, since the conventional air conditioner only circularly heats or cools indoor air during heating or cooling, and a user simultaneously closes a door of a living room to maintain the indoor temperature, the indoor air quality is gradually deteriorated over a long period of time, thereby causing adverse effects on the physical health of the user. Particularly, in recent years, the air pollution is increasingly serious, and people are reluctant to open windows for ventilation particularly in winter heating seasons, so that the indoor air quality is increasingly poor, the oxygen content is increasingly low, and the physical health is affected.

Disclosure of Invention

The invention aims to provide a fresh air cabinet type air conditioner indoor unit, which at least solves part of defects in the prior art.

A further object of the present invention is to improve the indoor air quality.

The invention also aims to simplify the internal structure of the indoor unit of the fresh air cabinet type air conditioner and reduce the cost.

In particular, the present invention provides a fresh air cabinet type air conditioner indoor unit, comprising:

a housing having a housing air inlet and at least one housing air outlet;

the air supply assembly is arranged in the shell and comprises a centrifugal fan and a volute arranged outside the centrifugal fan, and the centrifugal fan is configured to suck indoor air from an air inlet of the shell and impel the indoor air to be sent to the indoor environment again through an air outlet of the shell;

the heat exchanger is arranged on the air inlet main air duct between the volute of the centrifugal fan and the air inlet of the shell, so that indoor air entering through the air inlet of the shell exchanges heat with the heat exchanger; and

the fresh air device is arranged below the air supply assembly; wherein

The fresh air device comprises an air inlet module and a fan module communicated with the air inlet module; the air inlet module is positioned at the lower part of the fan module;

an air inlet cavity is defined in the air inlet module and is connected with a fresh air inlet pipe leading to the outside;

the fan module includes:

the air supply cavity is communicated with the air inlet cavity;

the fresh air fan is positioned on one side of the air supply cavity close to the air inlet of the shell;

the volute is arranged outside the fresh air fan; wherein

The air inlet of the volute of the fresh air fan is communicated with the air inlet cavity, the air outlet of the volute is connected with a fresh air outlet pipe leading to the outside of the shell, the air outlet of the fresh air outlet pipe faces the top of the shell, and the fresh air fan is configured to suck outdoor fresh air in the air inlet cavity and discharge the fresh air from the air outlet of the volute; and is

The at least one air supply assembly is also configured to suck at least part of outdoor fresh air discharged by the fresh air fan from the air inlet of the shell, and the outdoor fresh air is discharged from the air outlet of the shell after exchanging heat with the heat exchanger.

Preferably, the air outlet of the fresh air outlet pipe is positioned below the air inlet of the machine shell.

Preferably, the fresh air cabinet type air conditioner indoor unit further comprises,

and the electrical box is arranged on the upper part of the fresh air device.

Preferably, the upper part of the air supply cavity comprises a horizontal section extending backwards from the front part of the casing and an inclined section extending upwards along the horizontal section and towards the air outlet direction of the volute of the fresh air fan;

the electrical box is located on the inclined section.

Preferably, the at least one air supply assembly comprises a first air supply assembly and a second air supply assembly arranged below the first air supply assembly; and is

The at least one cabinet outlet includes a top outlet and a lower outlet, and the first and second air supply assemblies are configured to facilitate air flow to the indoor environment via the top and lower outlets, respectively.

Preferably, the first air supply assembly is parallel to the rotation axis of the centrifugal fan of the second air supply assembly; and is

The rotation axis of the fresh air fan is perpendicular to the vertical plane where the rotation axes of the centrifugal fans of the first air supply assembly and the second air supply assembly are located.

Preferably, the fresh air device further comprises an air deflector, the air deflector is arranged opposite to the air inlet of the air inlet cavity, and the air inlet cavity is longitudinally divided into a first air inlet cavity and a second air inlet cavity;

a gap is reserved between the bottom end of the air deflector and the bottom of the air inlet cavity; outdoor fresh air enters the first air inlet cavity, changes the flow direction through the air deflector, and enters the second air inlet cavity through the gap.

Preferably, one side of the air inlet cavity, which is close to the air supply cavity, is provided with a purification module for purifying outdoor air delivered to the indoor space.

Preferably, the air inlet of the fresh air inlet pipe is detachably provided with a filter screen.

Preferably, the fresh air device is independent of the indoor unit for heating or cooling operation.

According to the fresh air cabinet type air conditioner indoor unit, the fresh air device is additionally arranged on the traditional cabinet type air conditioner indoor unit, so that in the air conditioner refrigerating or heating process, even if a window is closed, outdoor fresh air can be introduced into a room through the fresh air device, continuous and fresh air is provided for a closed indoor space, the oxygen content of the indoor air is increased, and air conditioning diseases are avoided.

Furthermore, the fresh air cabinet type air conditioner indoor unit is particularly suitable for an air conditioner with double centrifugal fans for supplying air up and down, the air supply quantity is large, indoor air can be updated in time, and the fresh air outside is supplied to the indoor space and then is supplied to the indoor space again after heat exchange through the heat exchanger of the indoor unit, so that the stability of the indoor temperature is maintained; the structure of the fresh air device is reasonably designed, the electrical box is obliquely arranged above the fresh air device, the space inside the indoor unit is effectively utilized, and more spaces are used for circulation of outdoor fresh air. In addition, install purifier in the new trend device, can purify the outdoor new trend that gets into indoor, especially the atmospheric pollution aggravates day by day now, send into indoor with the air after the purification, improve the quality of room air, reduce the injury of contaminated air to the health.

Furthermore, the fresh air device of the invention is arranged inside the indoor unit, is integrated with the indoor unit and can also be arranged outside the indoor unit. No matter the installation state of any form, all can reduce the cost of using the new trend system among the prior art by a wide margin, and the noise is low, has better user experience.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is a schematic block diagram of the entire front part of a fresh air cabinet air conditioner indoor unit according to one embodiment of the present invention;

fig. 2 is a schematic block diagram of the entire rear portion of the fresh air cabinet air conditioner indoor unit shown in fig. 1;

FIG. 3 is a schematic block diagram of the interior of the fresh air cabinet air conditioner indoor unit shown in FIG. 1;

FIG. 4 is a schematic gas flow diagram of the fresh air cabinet air conditioner indoor unit of FIG. 3;

FIG. 5 is a schematic block diagram of a fresh air device of the embodiment shown in FIG. 3;

fig. 6 is a schematic structural view of a fresh air device of another embodiment shown in fig. 3.

Detailed Description

Fig. 1 is an overall front schematic block diagram of a fresh air cabinet air conditioner indoor unit 10 according to one embodiment of the present invention; fig. 2 is a schematic block diagram of the entire rear portion of the fresh air cabinet air conditioner indoor unit 10 shown in fig. 1; fig. 3 is a schematic block diagram of the interior of the fresh air cabinet air conditioner indoor unit 10 shown in fig. 1. As shown in fig. 1, the indoor unit 10 of the fresh air cabinet air conditioner provided by the present invention includes a fresh air device 200 at the bottom end thereof, in addition to the indoor unit having the same appearance and performance as those of the prior art. Specifically, as will be understood from fig. 1 to 3, the indoor unit 10 includes a casing 100, at least one air supply assembly and a heat exchanger 130 are disposed inside the casing 100, and a casing air inlet 101 and at least one casing air outlet (102 or 103) are disposed on the casing 100. Indoor air is introduced into the indoor unit 10 from the casing air inlet 101 through any air supply assembly, and is subjected to heat exchange (refrigeration or heating) through the heat exchanger 130, and then the air subjected to heat exchange is introduced into the room from the casing air outlet (102 or 103), and the circulation is performed, so that the temperature of the indoor air is adjusted when the ambient temperature is too low or too high, the preset temperature of a user is reached, a suitable indoor environment is provided for the user, and the life quality of the user is effectively improved.

Further, as shown in fig. 2 and fig. 3, an air outlet 203 of the fresh air device 200 of the present invention leads to the outside of the casing 100 of the indoor unit 10, the air outlet 203 faces the top of the casing 100, and at least one air supply assembly is configured to suck at least part of the fresh air from the casing air inlet 101 and discharge the fresh air from the casing air outlet (102 or 103) after exchanging heat with the heat exchanger 130, so as to complete the transportation of the fresh air from the outside to the inside.

The outdoor fresh air is introduced by the fresh air device 200 and then directly sent out of the air inlet 101 of the machine shell instead of being sent into the machine shell 100, the outdoor fresh air sent into the room is sucked into the machine shell 100 by at least one air supply assembly, and is quickly sent into the room again from the air outlet (102 or 103) of the machine shell after reaching the indoor set temperature after heat exchange by the heat exchanger 130 of the indoor machine 10, so that the indoor temperature is not greatly fluctuated, the stability of the indoor temperature is kept, and a comfortable and healthy environment is provided for users.

Specifically, at least one air supply assembly is disposed in the cabinet 100, wherein preferably, the at least one air supply assembly includes a first air supply assembly 110 and a second air supply assembly 120, and the second air supply assembly 120 is disposed below the first air supply assembly 110. Each of the first and second air supply assemblies 110 and 120 includes a centrifugal fan (111 and 121) and a volute (112 and 122) disposed outside the centrifugal fan (111 and 121), and the centrifugal fan (111 and 121) is configured to draw in indoor air and outdoor fresh air from the cabinet air inlet 101 and to cause the air to be re-introduced into the indoor environment through the cabinet air outlet (102 or 103).

The heat exchanger 130 is disposed on the main air intake duct between the volutes (112 and 122) of the centrifugal fans (111 and 121) and the housing air intake 101, so that indoor air and outdoor fresh air entering through the housing air intake 101 exchange heat with the heat exchanger 130.

The at least one housing outlet (102 or 103) includes a top outlet 102 and a lower outlet 103, wherein the top outlet 102 corresponds to the outlet of the volute 112 of the first air supply assembly 110, and the lower outlet 103 corresponds to the outlet of the volute 122 of the second air supply assembly 120. The first and second air supply assemblies 110 and 120 are configured to promote the air to be conveyed from the main air duct after being heat exchanged by the heat exchanger 130, and finally to flow to the indoor environment through the top air outlet 102 and the lower air outlet 103, respectively.

In an exemplary embodiment, fig. 4 is a schematic gas flow diagram of the fresh air cabinet air conditioner indoor unit 10 shown in fig. 3; in fig. 4, the arrows show the schematic gas flow of the fresh air cabinet air conditioner indoor unit 10 (the thick arrows represent the flow direction of indoor air, and the thin arrows represent the flow direction of outdoor fresh air), and the first air supply assembly 110 and the second air supply assembly 120 can be operated simultaneously or independently.

When the first air supply assembly 110 or the second air supply assembly 120 operates alone, after the fresh outdoor air is sent to the periphery of the casing air inlet 101 from the fresh air device 200, the indoor air and the fresh outdoor air are sucked into the indoor unit 10 from the casing air inlet 101, and the first air supply assembly 110 or the second air supply assembly 120 sends the indoor air and the fresh outdoor air to the indoor space through the top air outlet 102 or the lower air outlet 103, so that the air circulation flow is completed. In this case, the fresh air cabinet air conditioner indoor unit 10 of the present invention has a small difference in ventilation air volume and a small change in operation capacity compared to the cabinet air conditioners of the prior art, but can deliver outdoor fresh air to the room, update indoor air in real time, and keep the indoor air fresh.

When the first air supply assembly 110 and the second air supply assembly 120 operate simultaneously, the centrifugal fans (111 and 121) work together to supply indoor air and outdoor fresh air to the indoor space through the top air outlet 102 or the lower air outlet 103 respectively, so that air circulation is completed. Under the condition that the first air supply assembly 110 and the second air supply assembly 120 operate simultaneously, compared with a cabinet air conditioner in the prior art, the fresh air cabinet air conditioner indoor unit 10 provided by the invention can realize up-and-down air supply, the air supply quantity is large, the air exchange capacity of the indoor unit 10 is increased, on the basis of increasing the air exchange quantity, outdoor fresh air is sent into the room by the fresh air device 200, then the indoor unit 10 has enough power to send the fresh air into the room again after heat exchange of the heat exchanger 130, more outdoor fresh air after heat exchange is sent into the room, indoor air can be updated rapidly, and the quality of the indoor air can be improved more effectively and timely.

In the above embodiment, the fresh air device 200 of the fresh air cabinet air conditioner indoor unit 10 has the following specific structure:

FIG. 5 is a schematic block diagram of the fresh air device 200 of the embodiment shown in FIG. 3; the fresh air device 200 is disposed below the air supply assembly, specifically, below the second air supply assembly 120.

The fresh air device 200 includes an air intake module 210 and a fan module 220, specifically, in this embodiment, the fan module 220 is disposed above the air intake module 210, the air intake module 210 and the fan module 220 are distributed up and down inside the casing 100, and the air intake module 210 and the fan module 220 are communicated up and down.

Further, it is understood that the distribution positions of the air intake module 210 and the fan module 220 may be various, such as longitudinal left and right distribution, and in the present invention, the distribution is preferably up and down, for the specific reason described in detail later.

Specifically, the air intake module 210 defines an air intake cavity 211 therein, and the air intake cavity 211 is connected to a fresh air intake pipe 212 leading to the outside. Outdoor fresh air enters the air inlet cavity 211 from the fresh air inlet pipe 212 under the action of the fan module 220.

The fan module 220 includes a supply air chamber 221, a fresh air fan 222, and a volute 223. The fresh air fan 222 is specifically a centrifugal fan, the air supply cavity 221 is communicated with the air inlet cavity 211, the centrifugal fan is located on one side of the air supply cavity 221 close to the casing air inlet 101, and the volute 223 is arranged outside the fresh air fan 222. An air inlet of a volute 223 of the centrifugal fan is communicated with the air inlet cavity 211, an air outlet 202 of the volute is connected with a fresh air outlet pipe 224 leading to the outside of the machine shell 100, and an air outlet 203 of the fresh air outlet pipe 224 faces to the top of the machine shell 100, so that more air is directly conveyed to the air inlet 101 of the machine shell; the centrifugal fan is configured to suck fresh air from the outdoor through the air inlet cavity 211 and send the fresh air out of the cabinet 100 through the fresh air outlet pipe 224.

Some of the outdoor fresh air entering the room from the fan module 220 enters the indoor unit 10 from the casing air inlet 101 through the air supply assembly of the indoor unit 10 for heat exchange and then is sent to the room again, therefore, the fresh air device 200 is selectively installed at the side close to the casing air inlet 101 of the indoor unit 10 as soon as possible, so that more fresh air from the outside is sucked into the air supply assembly to enter the indoor unit 10 and is discharged into the room after heat exchange of the indoor unit 10, more outdoor fresh air enters the indoor unit 10 for heat exchange, and the fluctuation of the indoor temperature is smaller, and the indoor temperature is more stable. After the outdoor fresh air is sent to the indoor space by the fan module 220, the first air supply assembly 110 and/or the second air supply assembly 120 are sent to the indoor space from the top air outlet 102 and the lower air outlet 103 respectively, so that the fresh outdoor fresh air is sent to the indoor space, the oxygen content of the air in the closed indoor space is increased, and the probability of air conditioning diseases of users is effectively reduced.

In some preferred embodiments, the first air supply assembly 110 is parallel to the rotation axis of the centrifugal fans (111 and 121) of the second air supply assembly 120; and the rotation axis of the fresh air fan 222 is perpendicular to the rotation axes of the centrifugal fans (111 and 121) of the first and second air supply assemblies 110 and 120. The rotation axes of the centrifugal fans (111 and 121) of the first air supply assembly 110 and the second air supply assembly 120 are parallel, so that the noise of the indoor unit 10 is reduced, and the user experience is improved. The distribution of the fresh air fans 222, the rotation axis of which can be perpendicular to the vertical plane or the plane on which the rotation axes of the centrifugal fans (111 and 121) of the first air supply assembly 110 and the second air supply assembly 120 are located, is mainly to longitudinally arrange the centrifugal fans (111 and 121) so as to save the internal space of the cabinet 100. In the embodiment of the present invention, the rotation axis of the fresh air fan 222 is perpendicular to the vertical plane of the rotation axes of the centrifugal fans (111 and 121) of the first air supply assembly 110 and the second air supply assembly 120.

Further, the radiuses of the impellers of the centrifugal fans (111 and 121) of the first air supply assembly 110 and the second air supply assembly 120 may be the same or different, and the air supply capacities of the first air supply assembly 110 and the second air supply assembly 120 are not required, and may be the same or different. The second air supply assembly 120 may be an alternative air supply assembly, when the air conditioner is started up in an initial stage, the indoor temperature needs to be quickly lowered or raised, a large air volume circulation is needed, the second air supply assembly 120 may be turned on to increase the air volume of the indoor unit 10, so that the indoor temperature quickly reaches the preset temperature of the user, when the indoor temperature is stable, the second air supply assembly 120 may not be operated, and only the first air supply assembly 110 is operated to maintain the indoor temperature stable, so that the air supply capacity of the second air supply assembly 120 is not required to be the same as the air supply capacity of the first air supply assembly 110.

Or, when the indoor air quality is seriously polluted and the oxygen content is low, and the fresh air device 200 needs to be opened, the second air supply assembly 120 can be started to operate, so that the function of auxiliary air supply is achieved, the indoor air is rapidly updated by the outdoor fresh air, and the indoor air quality is rapidly recovered to a good state.

As mentioned above, the air intake module 210 and the fan module 220 of the fresh air device 200 of the present invention are distributed vertically, so as to utilize the space inside the enclosure 100 more reasonably. Specifically, the fresh air cabinet air conditioner indoor unit 10 further includes an electrical box 140, as shown in fig. 3, the electrical box 140 is disposed at the upper portion of the fresh air device 200, and in order to effectively utilize the limited space inside the casing 100 of the indoor unit 10, the upper portion of the air supply cavity 221 includes a horizontal section 221a extending backward from the front portion of the casing 100 and an inclined section 221b extending along the horizontal section 221a and continuously inclining upward toward the air outlet 202 of the volute 223 of the fresh air blower 222; the electrical box 140 is located on the inclined section 221 b.

Generally, the electrical boxes 140 are laterally distributed inside the cabinet 100, however, in the present invention, the electrical boxes 140 are creatively and obliquely arranged and fixedly installed on the oblique section 221b of the air supply cavity 221 of the fresh air device 200, the air supply cavity 221 further plays a role of a bracket, which reduces the original fixing structure of the electrical boxes 140, and makes more space inside the cabinet 100 used for air circulation, therefore, the fresh air cabinet type air conditioner indoor unit 10 provided by the present invention not only has enough power to drive the outdoor fresh air to flow, but also has enough space to make the outdoor fresh air enter the indoor unit 10.

Moreover, the electrical box 140 is obliquely arranged, the interior of the electrical box 140 faces the front part of the shell 100, and the wiring groove of the electrical box 140 is close to the front upright post of the cabinet air conditioner, so that the wiring and the arranging are convenient to maintain, the production efficiency of a production line is improved, and the inspection and the maintenance of after-sales personnel are also convenient.

As for the fresh air device 200, fig. 6 is a schematic structural diagram of the fresh air device 200 of another embodiment shown in fig. 3, and the fresh air device 200 of this embodiment can be applied to the fresh air cabinet type air conditioner indoor unit 10 of the above embodiments.

In this embodiment, the fresh air device 200 further includes an air deflector 213, the air deflector 213 is disposed opposite to the air inlet 201 of the air inlet cavity 211, and the air deflector 213 longitudinally partitions the air inlet cavity 211 into a first air inlet cavity 211a and a second air inlet cavity 211 b; a gap is formed between the bottom end of the air deflector 213 and the bottom of the air inlet cavity 211; after entering the first air inlet cavity 211a, the fresh outdoor air changes the flow direction through the air guide plate 213 and enters the second air inlet cavity 211b through the gap. The air deflector 213 plays two roles in this embodiment, one is to play a role in shielding dust, so as to prevent dust in outdoor fresh air from being directly sucked into the fresh air fan 222 by the fresh air device 200 and damaging the blades of the fresh air fan; secondly, the centrifugal dust settling effect is achieved, outdoor fresh air enters the air inlet cavity 211 from the fresh air inlet pipe 212 under the action of the air deflector 213, the flowing direction is changed to form annular circulating inlet air, large granular substances can be thrown out under the centrifugal effect of the annular inlet air, the large granular substances are prevented from entering the fresh air fan 222, and the two effects jointly guarantee the effect of fresh air exchange.

In the fresh air device 200 in each of the above embodiments, the air inlet cavity 211 is provided with a purification module on a side close to the air supply cavity 221 for purifying the outdoor fresh air delivered indoors. The purification module 226 uses intense field dielectric technology to purify the air delivered to the room. Specifically, this purification module 226 is IFD purifier, and IFD is a dust removal technique, for the most advanced among the present dust removal technique, the most efficient technique, and the effectivity is extremely strong. A strong electric field with a dielectric material as a carrier is utilized. The dielectric material forms a honeycomb hollow micro-channel, the dielectric wrapping electrode slice forms a strong electric field in the channel, the strong electric field exerts huge attraction on charged particles moving in the air, only generates minimum air flow impedance, and can adsorb almost 100% of particles moving in the air, and the removal effect on particle pollutants such as PM2.5 and the like is particularly obvious. Adopt above-mentioned purification module 226, can reduce the PM2.5 granule in the air by a wide margin in the weather that the haze was abused, effectively improve the quality of sending into indoor outdoor air.

The purification module 226 may also be filtered by HEPA, which is a high efficiency filter paper that can filter 99% of the fine particles in the air, ensuring the air output by the fan module 220 to be clean and avoiding secondary pollution.

In addition, the filter screen is detachably installed at the air inlet of the fresh air inlet pipe 212, so that dust or mosquitoes can be prevented from entering the fresh air device 200 to pollute or destroy the internal structure of the fresh air device 200, and the quality of fresh air exchanged by the fresh air device 200 is prevented from being reduced.

In the fresh air device 200, the filter screen and the purification device are arranged, so that fresh air entering a room can be purified, especially, the air pollution is increasingly aggravated at present, the purified air is sent into the room, the quality of the indoor air is improved, and the harm of the polluted air to the body is reduced.

The fresh air device 200 in each of the above embodiments can be operated independently of the heating or cooling operation of the indoor unit 10, and can also be operated synchronously with the heating and cooling operation of the indoor unit 10.

In the indoor unit 10 of the fresh air cabinet air conditioner of the present invention, the fresh air device 200 may be installed inside the indoor unit 10, integrated with the indoor unit 10, or installed outside the indoor unit 10. No matter the installation state of any form, all can reduce the cost of using the new trend system among the prior art by a wide margin, and the noise is low, has better user experience.

In the following description, the terms "front", "back", "upper", "lower", "top", "bottom", "inner", "outer", "lateral", "longitudinal", "left and right", and the like, are used in the orientations and positional relationships indicated in the drawings, which are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

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

Claims (10)

1. A fresh air cabinet type air conditioner indoor unit comprises:

a housing having a housing air inlet and at least one housing air outlet;

at least one air supply assembly disposed within the enclosure, the air supply assembly including a centrifugal fan and a volute disposed outside the centrifugal fan, and the centrifugal fan configured to draw in indoor air from the enclosure air inlet and cause it to be re-delivered to an indoor environment via the enclosure air outlet;

the heat exchanger is arranged on the air inlet main air duct between the volute of the centrifugal fan and the air inlet of the shell, so that the indoor air entering through the air inlet of the shell exchanges heat with the heat exchanger; and

the fresh air device is arranged below the air supply assembly; wherein

The fresh air device comprises an air inlet module and a fan module communicated with the air inlet module; the air inlet module is positioned at the lower part of the fan module;

an air inlet cavity is defined in the air inlet module and is connected with a fresh air inlet pipe leading to the outside;

the fan module includes:

the air supply cavity is communicated with the air inlet cavity;

the fresh air fan is positioned on one side of the air supply cavity, which is close to the air inlet of the shell;

the volute is arranged outside the fresh air fan; wherein

An air inlet of a volute of the fresh air fan is communicated with the air inlet cavity, an air outlet of the volute is connected with a fresh air outlet pipe leading to the outside of the shell, an air outlet of the fresh air outlet pipe faces the top of the shell, and the fresh air fan is configured to suck outdoor fresh air in the air inlet cavity and discharge the fresh air from the air outlet of the volute; and is

The at least one air supply assembly is also configured to suck at least part of outdoor fresh air exhausted by the fresh air fan from the air inlet of the machine shell, and the outdoor fresh air is exhausted from the air outlet of the machine shell after exchanging heat with the heat exchanger.

2. The fresh air cabinet air conditioner indoor unit according to claim 1,

the air outlet of the fresh air outlet pipe is positioned below the air inlet of the shell.

3. The fresh air cabinet air conditioner indoor unit according to claim 1, further comprising,

and the electrical box is arranged on the upper part of the fresh air device.

4. The fresh air cabinet air conditioner indoor unit according to claim 3,

the upper part of the air supply cavity comprises a horizontal section extending backwards from the front part of the casing and an inclined section which continues to incline upwards along the horizontal section and extends towards the direction of an air outlet of the volute of the fresh air fan;

the electrical box is located on the inclined section.

5. The fresh air cabinet air conditioner indoor unit according to any one of claims 1 to 4,

the at least one air supply assembly comprises a first air supply assembly and a second air supply assembly arranged below the first air supply assembly; and is

The at least one cabinet outlet includes a top outlet and a lower outlet, and the first and second blower assemblies are configured to facilitate flow of air to an indoor environment via the top and lower outlets, respectively.

6. The fresh air cabinet air conditioner indoor unit according to claim 5,

the first air supply assembly is parallel to the rotation axis of the centrifugal fan of the second air supply assembly; and is

And the rotation axis of the fresh air fan is vertical to the vertical plane where the rotation axes of the centrifugal fans of the first air supply assembly and the second air supply assembly are located.

7. The fresh air cabinet air conditioner indoor unit according to claim 1,

the fresh air device also comprises an air deflector, the air deflector is arranged opposite to an air inlet of the air inlet cavity, and the air inlet cavity is longitudinally divided into a first air inlet cavity and a second air inlet cavity;

a gap is formed between the bottom end of the air deflector and the bottom of the air inlet cavity; after entering the first air inlet cavity, the outdoor fresh air changes the flow direction through the air deflector and enters the second air inlet cavity through the gap.

8. The apparatus of claim 1, wherein,

and one side of the air inlet cavity, which is close to the air supply cavity, is provided with a purification module for purifying the outdoor air which is conveyed to the indoor space.

9. The apparatus of claim 1, wherein,

the air inlet of the fresh air inlet pipe is detachably provided with a filter screen.

10. The apparatus of claim 1, wherein,

the fresh air device is independent of the indoor unit for heating or refrigerating operation.

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