CN216143852U - Ultra-thin indoor cabinet and air conditioner - Google Patents

Abstract

The utility model discloses an ultrathin indoor cabinet machine and an air conditioner, which comprise a machine body, wherein a heat exchange air channel and a heat exchange assembly arranged in the heat exchange air channel are arranged in the machine body, the heat exchange assembly comprises a fan and a main heat exchanger, an air inlet communicated with the heat exchange air channel is formed in the machine body, a front panel is arranged on the front side of the machine body, an air outlet is formed in the front panel, a radiation heat dissipation plate is arranged on the front surface of the front panel, the radiation heat dissipation plate avoids the air outlet, an auxiliary heat exchanger is also arranged right behind the radiation heat dissipation plate on the front panel, and the auxiliary heat exchanger is used for radiating heat or cold to the radiation heat dissipation plate. In the practical application process, when the air conditioning quantity that main heat exchanger passes through the air outlet output can't satisfy user's air conditioning demand, can open and assist the heat exchanger, through assisting the heat exchanger to radiation heating panel radiant heat or cold volume, then radiate to indoor environment by radiation heating panel and heat or refrigerate to it has the poor problem of air conditioning effect to have avoided ultra-thin indoor cabinet-type air conditioner to have.

Description

Ultra-thin indoor cabinet and air conditioner

Technical Field

The utility model relates to the technical field of air conditioners, in particular to an ultrathin indoor cabinet and an air conditioner.

Background

The air conditioner has become the indispensable electrical apparatus in more and more multi-user's family at present, and along with the continuous development of air conditioning technology, the indoor cabinet-type air conditioner of air conditioner develops to ultra-thin direction gradually, but along with the indoor cabinet-type air conditioner is more and more thin, has also made ultra-thin indoor cabinet-type air conditioner a common fault has appeared, just is holistic air conditioning effect worsens.

In summary, how to solve the problem that the air conditioning effect of the ultra-thin indoor cabinet becomes poor becomes a technical problem that needs to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an ultrathin indoor cabinet and an air conditioner, and aims to solve the problem that the air conditioning effect of the ultrathin indoor cabinet is poor.

In order to achieve the purpose, the utility model provides an ultrathin indoor cabinet machine which comprises a machine body, wherein a heat exchange air channel and a heat exchange assembly arranged in the heat exchange air channel are arranged in the machine body, the heat exchange assembly comprises a fan and a main heat exchanger, an air inlet communicated with the heat exchange air channel is formed in the machine body, a front panel is arranged on the front side of the machine body, an air outlet is formed in the front panel, a radiation heat dissipation plate is arranged on the front surface of the front panel, the radiation heat dissipation plate avoids the air outlet, an auxiliary heat exchanger located right behind the radiation heat dissipation plate is further arranged on the front panel, and the auxiliary heat exchanger is used for radiating heat or cold to the radiation heat dissipation plate.

Preferably, the auxiliary heat exchanger and the main heat exchanger are connected in series through a refrigerant transmission pipeline.

Preferably, the air inlet includes a left air inlet and a right air inlet which are arranged at two sides of the machine body, the heat exchange air duct includes a left heat exchange air duct and a right heat exchange air duct which are symmetrically arranged, the left heat exchange air duct is communicated with the left air inlet, the right heat exchange air duct is communicated with the right air inlet, the fan includes a left cross flow fan which is vertically arranged in the left heat exchange air duct and a right cross flow fan which is vertically arranged in the right heat exchange air duct, the main heat exchanger includes a left main heat exchanger and a right main heat exchanger, the left main heat exchanger is arranged between the left air inlet and the left cross flow fan, the right main heat exchanger is arranged between the right air inlet and the right cross flow fan, and the auxiliary heat exchanger includes a left auxiliary heat exchanger which is connected in series with the left main heat exchanger and a right auxiliary heat exchanger which is connected in series with the right main heat exchanger.

Preferably, the radiation heat dissipation plate comprises a left radiation heat dissipation plate arranged opposite to the left auxiliary heat exchanger and a right radiation heat dissipation plate arranged opposite to the right auxiliary heat exchanger.

Preferably, the air outlet is long and vertically arranged on the front panel, and the left radiation heat dissipation plate and the right radiation heat dissipation plate are respectively located on two sides of the air outlet.

Preferably, the air outlet includes a left air outlet communicated with the left heat exchange air duct and a right air outlet communicated with the right heat exchange air duct, the left cross-flow fan is configured to convey the airflow from the left air inlet to the left air outlet, and the right cross-flow fan is configured to convey the airflow from the right air inlet to the right air outlet.

Preferably, the left main heat exchanger is arranged obliquely from the rear side of the machine body to the front left side of the machine body on the left side of the left crossflow blower, and the right main heat exchanger is arranged obliquely from the rear side of the machine body to the front right side of the machine body on the right side of the right crossflow blower.

Preferably, the rear shell of the machine body comprises a left inclined plate arranged opposite to the left main heat exchanger and a right inclined plate arranged opposite to the right main heat exchanger, the left air inlet is formed in the left inclined plate, and the right air inlet is formed in the right inclined plate.

Preferably, a louver assembly for adjusting the air outlet direction of the air outlet is further arranged at a position, corresponding to the air outlet, on the front panel, and the louver assembly can at least swing up and down.

Preferably, an openable sliding plate and a driving assembly for driving the sliding plate to open and close are arranged on the front panel corresponding to the air outlet.

Preferably, the machine body further comprises a base plate and a supporting column perpendicular to the base plate, and the machine body is fixed to the upper end of the supporting column.

Compare in background introduction content, above-mentioned ultra-thin indoor cabinet-type air conditioner, which comprises a bod, be provided with the heat transfer wind channel in the organism and set up in the heat exchange subassembly in heat transfer wind channel, heat exchange subassembly includes fan and main heat exchanger, be provided with the air intake with heat transfer wind channel intercommunication on the organism, the front side of organism is provided with the front panel, be provided with the air outlet on the front panel, the front of front panel is provided with radiation heating panel, and radiation heating panel avoids the air outlet, still be provided with the assistance heat exchanger that is located radiation heating panel's dead astern on the front panel, assist the heat exchanger and be used for radiating heat or cold volume to radiation heating panel. This ultra-thin indoor cabinet-type air conditioner, in the practical application process, arrange the radiation heating panel through the front at ultra-thin indoor cabinet-type air conditioner's front panel, be equipped with the auxiliary heat exchanger simultaneously at radiation heating panel positive rear, when the air conditioning demand of main heat exchanger through the air outlet output can't satisfy the user, can open the auxiliary heat exchanger, through auxiliary heat exchanger to radiation heating panel radiant heat or cold volume, then radiate to the indoor environment by radiation heating panel and heat or refrigerate, thereby avoided ultra-thin indoor cabinet-type air conditioner to have the poor problem of air conditioning effect, and this radiation heating panel can also design into the structural style of decorative board, can help promoting ultra-thin indoor cabinet-type air conditioner's whole outward appearance.

In addition, the utility model also provides an air conditioner which comprises the ultrathin indoor cabinet machine, wherein the ultrathin indoor cabinet machine is the ultrathin indoor cabinet machine described in any scheme. Because above-mentioned ultra-thin indoor cabinet machine has above-mentioned technological effect, consequently the air conditioner that has this ultra-thin indoor cabinet machine should also have corresponding technological effect, and no longer give unnecessary details here.

Drawings

Fig. 1 is a schematic structural view of an axial view of an ultra-thin indoor cabinet according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a front view of an ultra-thin indoor cabinet according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a right side view of an ultra-thin indoor cabinet according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a rear view of an ultra-thin indoor cabinet according to an embodiment of the present invention;

fig. 5 is an exploded view of an ultra-thin indoor cabinet according to an embodiment of the present invention;

FIG. 6 is a schematic sectional view A-A of FIG. 2.

In the context of figures 1-6,

the heat exchanger comprises a machine body 1, a rear shell 1a, a rear shell main body 1a0, a radiation heat dissipation plate 10, a left radiation heat dissipation plate 10a, a right radiation heat dissipation plate 10b, an auxiliary heat exchanger 101, a left auxiliary heat exchanger 101a, a right auxiliary heat exchanger 101b, a refrigerant transmission pipeline 102, a heat exchange air duct 11, a left heat exchange air duct 11a, a right heat exchange air duct 11b, an air inlet 12, a left air inlet 12a, a right air inlet 12b, a front panel 13, a sliding plate 13a, a driving assembly 13b, an air outlet 14, a left air outlet 14a, a right air outlet 14b, a left cross-flow fan 15, a left main heat exchanger 16, a right cross-flow fan 17, a right main heat exchanger 18, a louver assembly 19, a chassis 2, a support column 3, a display screen 4, a water receiving tray 5, a rear lower shell 6, a fixed seat 7, an electric heating pipe 8 and an upper cover 9.

Detailed Description

The core of the utility model is to provide an ultrathin indoor cabinet and an air conditioner, so as to solve the problem that the air conditioning effect of the ultrathin indoor cabinet is poor.

In order to make those skilled in the art better understand the technical solutions provided by the present invention, the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 6, an embodiment of the present invention provides an ultra-thin indoor cabinet, which includes a cabinet 1, a heat exchange air duct 11 and a heat exchange assembly disposed in the heat exchange air duct 11 are disposed in the cabinet 1, the heat exchange assembly includes a fan and a main heat exchanger, an air inlet 12 communicated with the heat exchange air duct 11 is disposed on the cabinet 1, a front panel 13 is disposed on a front side of the cabinet 1, an air outlet 14 is disposed on the front panel 13, a radiation heat dissipation plate 10 is disposed on a front surface of the front panel 13, the radiation heat dissipation plate 10 avoids the air outlet 14, an auxiliary heat exchanger 101 disposed right behind the radiation heat dissipation plate 10 is further disposed on the front panel 13, and the auxiliary heat exchanger 101 is configured to radiate heat or cold to the radiation heat dissipation plate 10.

This ultra-thin indoor cabinet-type air conditioner, in the practical application process, arrange the radiation heating panel through the front at ultra-thin indoor cabinet-type air conditioner's front panel, be equipped with the auxiliary heat exchanger simultaneously at radiation heating panel positive rear, when the air conditioning demand of main heat exchanger through the air outlet output can't satisfy the user, can open the auxiliary heat exchanger, through auxiliary heat exchanger to radiation heating panel radiant heat or cold volume, then radiate to the indoor environment by radiation heating panel and heat or refrigerate, thereby avoided ultra-thin indoor cabinet-type air conditioner to have the poor problem of air conditioning effect, and this radiation heating panel can also design into the structural style of decorative board, can help promoting ultra-thin indoor cabinet-type air conditioner's whole outward appearance.

In addition, due to the design of the auxiliary heat exchanger and the radiation heat dissipation plate, when heating or cooling is needed, a user can selectively open the auxiliary heat exchanger according to actual requirements, for example, when some special users cannot be directly blown by an air conditioner, the auxiliary heat exchanger can be opened, and radiation heating or cooling is carried out through the radiation heat dissipation plate; for another example, in order to realize rapid heating or cooling, the auxiliary heat exchanger and the main heat exchanger may be simultaneously turned on, and in the practical application process, the user may selectively turn on the auxiliary heat exchanger and the main heat exchanger according to the own requirements.

It should be noted that, the radiation heat dissipation plate 10 generally adopts a high thermal conductive material fiber heat conduction plate, heat on the auxiliary heat exchanger is dissipated to the radiation heat dissipation plate through radiation, and as the radiation heat dissipation plate adopts the high thermal conductive material fiber heat conduction plate, 80% of heat or cold generated by a refrigerant of the auxiliary heat exchanger can be conducted to the front radiation heat dissipation plate.

In some specific embodiments, the front panel 13 of the body 1 may further have a display screen 4, for example, the display screen 4 may be disposed near the top of the front panel, and the display screen 4 may be used for displaying temperature information and the like. In addition, as will be understood by those skilled in the art, the bottom of the machine body 1 is also generally provided with a water pan 5.

Further embodiment, in order to further promote the effect of heating of ultra-thin indoor cabinet-type air conditioner, generally speaking, can also arrange electric heating pipe 8 in heat transfer wind channel, through 8 auxiliary electric heating of electric heating pipe, can further promote the ability of heating of ultra-thin indoor cabinet-type air conditioner, realize heating fast easily.

In some specific embodiments, the auxiliary heat exchanger 101 may be connected in series with the main heat exchanger through the refrigerant conveying pipeline 102, or may be arranged in parallel with the main heat exchanger 101, and in an actual application process, the arrangement may be selected according to actual requirements.

In some specific embodiments, the air inlet 12 may specifically include a left air inlet 12a and a right air inlet 12b disposed on two sides of the machine body 1, the heat exchange air duct 11 includes a left heat exchange air duct 11a and a right heat exchange air duct 11b symmetrically disposed left and right, the left heat exchange air duct 11a is communicated with the left air inlet 12a, the right heat exchange air duct 11b is communicated with the right air inlet 12b, the blower includes a left cross flow fan 15 vertically disposed on the left heat exchange air duct 11a and a right cross flow fan 17 vertically disposed on the right heat exchange air duct 11b, the main heat exchanger includes a left main heat exchanger 16 and a right main heat exchanger 18, the left main heat exchanger 16 is disposed between the left air inlet 12a and the left cross flow fan 15, the right main heat exchanger 18 is disposed between the right air inlet 12b and the right cross flow fan 17, and the auxiliary heat exchanger 101 includes a and a left auxiliary heat exchanger 101b connected in series with the left main heat exchanger 16 and a right auxiliary heat exchanger 101b connected in series with the right main heat exchanger 18. The heat exchange air duct is designed into a structural form of bilateral symmetry arrangement, and is matched with the structures of a left cross-flow fan, a right cross-flow fan, a left main heat exchanger, a right main heat exchanger and an air outlet which are arranged bilaterally symmetrically, so that the air quantity is larger, and the quick refrigeration and heating are facilitated; meanwhile, the auxiliary heat exchanger is designed into a left auxiliary heat exchanger and a right auxiliary heat exchanger which are arranged on the left and right, so that the radiation refrigeration or heating of the auxiliary heat exchanger can be better matched with the main heat exchanger, and the uniform refrigeration or heating is realized.

In a further embodiment, the radiation heat dissipation plate 10 may specifically include a left radiation heat dissipation plate 10a disposed opposite to the left auxiliary heat exchanger 101a and a right radiation heat dissipation plate 10b disposed opposite to the right auxiliary heat exchanger 101 b. The radiation cooling plate is designed into the radiation cooling plate structure which is arranged opposite to the left auxiliary heat exchanger and the right auxiliary heat exchanger respectively, so that the radiation cooling plate can better receive heat or cold radiated by the auxiliary heat exchangers. It should be understood that the structural form of the left and right radiation heat dissipation plates is merely a preferred example of the embodiment of the present invention, and in the practical application process, the structural form of a single radiation heat dissipation plate may also be adopted, and in the practical application process, the radiation heat dissipation plate may be configured according to specific requirements, and is not limited herein in more detail.

In some specific embodiments, the air outlet 14 may be designed to have an elongated structure, and is vertically arranged on the front panel, and the left radiation heat dissipation plate 10a and the right radiation heat dissipation plate 10b are respectively located at two sides of the air outlet 14. The air outlet in the long strip shape can be matched with the left and right heat exchange air channels, and the air outlet area is improved. It should be understood that the structural form of the elongated air outlet is merely a preferred example of the embodiment of the present invention, and in the practical application process, other structural forms of the air outlet may also be adopted, which is not limited herein.

In a further embodiment, the air outlet 14 may specifically include a left air outlet 14a communicated with the left heat exchange air duct 11a and a right air outlet 14b communicated with the right heat exchange air duct 11b, the left cross flow fan 15 is configured to deliver the airflow from the left air inlet 12a to the left air outlet 14a, and the right cross flow fan 17 is configured to deliver the airflow from the right air inlet 12b to the right air outlet 14 b. Through the structural style of designing into left and right air outlet for the control of air-out direction is more nimble changeable, for example, the user can be according to the demand, and the selective at least one in opening left cross-flow fan and the right cross-flow fan carries out air conditioning.

In some more specific embodiments, the left main heat exchanger 16 is disposed obliquely from the rear side of the body 1 to the front left side of the body 1 on the left side of the left crossflow blower 15, and the right main heat exchanger 18 is disposed obliquely from the rear side of the body 1 to the front right side of the body 1 on the right side of the right crossflow blower 17. Through the mode of designing into the both sides slope to the organism respectively about with the heat exchanger, under the prerequisite that helps guaranteeing the whole thickness of organism more, promote the heat transfer area of heat exchanger to can improve refrigeration heating efficiency.

In a further embodiment, the rear housing 1a of the machine body 1 may specifically include a left inclined plate disposed opposite to the left main heat exchanger 16 and a right inclined plate disposed opposite to the right main heat exchanger 18, the left air inlet 12a is disposed on the left inclined plate, and the right air inlet 12b is disposed on the right inclined plate. Through designing into the structural style of left and right inclined plate with the backshell, help reducing the whole volume of organism, observe the complete machine from the lateral part visual angle simultaneously, can give people more ultra-thin sensation.

It should be noted that the foregoing directional descriptions related to "left" and "right" are based on the direction defined when the front face of the ultra-thin indoor cabinet is viewed, and are only for convenience of description.

It should be noted that, in order to facilitate the maintenance of the machine body 1, the rear housing 1a may be designed into a structure of assembling a plurality of upper and lower pieces, and may specifically include a rear housing main body 1a0, an upper cover 9 located at the upper part of the rear housing main body 1a0, and a rear lower housing 6 located at the lower part of the rear housing main body 1a 0.

In some specific embodiments, in order to adjust the air outlet direction, generally, a louver assembly 19 for adjusting the air outlet direction of the air outlet 14 is further disposed on the front panel 13 corresponding to the air outlet 14, and the louver assembly 19 can at least swing up and down. Through designing the tripe subassembly to design into the structural style that can realize the luffing motion, make air conditioner air outlet can realize the mode of blowing down, thereby can avoid the air outlet to blow directly on the people. It should be noted that, when the air outlet adopts the structural form of the left air outlet and the right air outlet, the corresponding louver assemblies may also be designed as a left louver assembly corresponding to the left air outlet and a right louver assembly corresponding to the right air outlet. In addition, since the specific structure and implementation manner of the louver assembly capable of swinging up and down belong to the prior art well known to those skilled in the art, they are not described in detail herein.

In some more specific embodiments, in order to prevent external dust from entering the interior of the machine body, an openable and closable slide plate 13a and a driving assembly 13b for driving the slide plate 13a to open and close may be further provided on the front panel 13 corresponding to the air outlet 14. When the air outlet does not need to be ventilated, the sliding plate can be driven by the driving assembly to close the air outlet, so that external dust can be prevented from entering the machine body. It should be noted that, the specific structural style of the driving assembly can adopt the structural style of the driving motor matching with the gear, the sliding plate can be designed into the structural style of horizontal sliding matching with the front panel, and meanwhile, the sliding plate is provided with a rack structure meshed with the gear connected with the driving motor, so that the sliding plate can be driven to horizontally slide horizontally by the rotation of the driving motor. It is understood that the structure of the driving assembly driving the sliding plate is merely a preferred example of the embodiment of the present invention, and in practical applications, other structure of the driving assembly commonly used by those skilled in the art may also be adopted, such as a way that the linear motor pushes the sliding plate to slide, and the like, and is not limited herein in more detail.

In some specific embodiments, the ultra-thin indoor cabinet may further include a base pan 2 and a supporting pillar 3 disposed perpendicular to the base pan 2, and the body 1 is fixed to an upper end of the supporting pillar 3. Through designing into the structural style that chassis and support column supported the organism, can make organism and ground break away from the certain distance, give other people a sense that area is little, the space between chassis and the organism can also supply the user to place some article simultaneously, has promoted space utilization greatly. Of course, the supporting column can also be designed into a structure form capable of freely rotating on the chassis, so that the front orientation angle of the machine body can be conveniently adjusted.

In addition, the utility model also provides an air conditioner which comprises the ultrathin indoor cabinet machine, wherein the ultrathin indoor cabinet machine is the ultrathin indoor cabinet machine described in any scheme. Because above-mentioned ultra-thin indoor cabinet machine has above-mentioned technological effect, consequently the air conditioner that has this ultra-thin indoor cabinet machine should also have corresponding technological effect, and no longer give unnecessary details here.

The ultra-thin indoor cabinet and the air conditioner provided by the utility model are described in detail above. It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other.

It is also noted that, in this document, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such article or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in an article or device that comprises the element.

The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the core concepts of the present invention. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (12)

1. An ultrathin indoor cabinet machine comprises a machine body (1), wherein a heat exchange air duct (11) and a heat exchange assembly arranged on the heat exchange air duct (11) are arranged in the machine body (1), the heat exchange component comprises a fan and a main heat exchanger, an air inlet (12) communicated with the heat exchange air duct (11) is arranged on the machine body (1), a front panel (13) is arranged on the front side of the machine body (1), an air outlet (14) is arranged on the front panel (13), characterized in that the front face of the front panel (13) is provided with a radiation heat dissipation plate (10), the radiation heat dissipation plate (10) avoids the air outlet (14), the front panel (13) is also provided with an auxiliary heat exchanger (101) which is positioned right behind the radiation heat dissipation plate (10), the auxiliary heat exchanger (101) is used for radiating heat or cold to the radiation heat dissipation plate (10).

2. The ultra-thin cabinet indoor unit as claimed in claim 1, wherein the auxiliary heat exchanger (101) is connected in series with the main heat exchanger through a refrigerant transfer pipe (102).

3. The ultra-thin indoor cabinet unit as claimed in claim 2, wherein the air inlet (12) comprises a left air inlet (12a) and a right air inlet (12b) disposed at both sides of the machine body (1), the heat exchange duct (11) comprises a left heat exchange duct (11a) and a right heat exchange duct (11b) symmetrically disposed at left and right sides, the left heat exchange duct (11a) communicates with the left air inlet (12a), the right heat exchange duct (11b) communicates with the right air inlet (12b), the blower comprises a left cross flow fan (15) vertically disposed at the left heat exchange duct (11a) and a right cross flow fan (17) vertically disposed at the right heat exchange duct (11b), the main heat exchanger comprises a left main heat exchanger (16) and a right main heat exchanger (18), the left main heat exchanger (16) is disposed between the left air inlet (12a) and the left cross flow fan (15), the right main heat exchanger (18) is arranged between the right air inlet (12b) and the right cross-flow fan (17), and the auxiliary heat exchanger (101) comprises a left auxiliary heat exchanger (101a) connected with the left main heat exchanger (16) in series and a right auxiliary heat exchanger (101b) connected with the right main heat exchanger (18) in series.

4. Ultra thin indoor cabinet according to claim 3, wherein the radiation heat dissipation plate (10) comprises a left radiation heat dissipation plate (10a) arranged opposite to the left auxiliary heat exchanger (101a) and a right radiation heat dissipation plate (10b) arranged opposite to the right auxiliary heat exchanger (101 b).

5. The ultra-thin indoor cabinet unit according to claim 4, wherein the air outlet (14) is elongated and is vertically arranged on the front panel, and the left radiation heat dissipating plate (10a) and the right radiation heat dissipating plate (10b) are respectively located at both sides of the air outlet (14).

6. The slim indoor cabinet unit of claim 5, wherein said air outlet (14) comprises a left air outlet (14a) communicated with said left heat exchange air duct (11a) and a right air outlet (14b) communicated with said right heat exchange air duct (11b), said left cross flow fan (15) is used for conveying the air flow of said left air inlet (12a) to said left air outlet (14a), and said right cross flow fan (17) is used for conveying the air flow of said right air inlet (12b) to said right air outlet (14 b).

7. Ultra thin indoor cabinet machine according to claim 3, wherein the left main heat exchanger (16) is arranged obliquely from the rear side of the machine body (1) to the front left side of the machine body (1) at the left side of the left crossflow blower (15), and the right main heat exchanger (18) is arranged obliquely from the rear side of the machine body (1) to the front right side of the machine body (1) at the right side of the right crossflow blower (17).

8. The ultra-thin indoor cabinet unit according to claim 7, wherein the rear case (1a) of the machine body (1) includes a left inclination plate disposed opposite to the left main heat exchanger (16) and a right inclination plate disposed opposite to the right main heat exchanger (18), the left intake port (12a) is provided at the left inclination plate, and the right intake port (12b) is provided at the right inclination plate.

9. The ultra-thin indoor cabinet unit as claimed in claim 1, wherein a louver assembly (19) for adjusting an air outlet direction of the air outlet (14) is further disposed on the front panel (13) corresponding to the air outlet (14), and the louver assembly (19) is at least capable of swinging up and down.

10. The ultra-thin indoor cabinet unit as claimed in claim 1, wherein a slide plate (13a) which can be opened and closed and a driving assembly (13b) for driving the slide plate (13a) to be opened and closed are provided on the front panel (13) corresponding to the air outlet (14).

11. The ultra-thin indoor cabinet unit according to claim 1, further comprising a base pan (2) and a support pillar (3) disposed perpendicular to the base pan (2), wherein the body (1) is fixed to an upper end of the support pillar (3).

12. An air conditioner comprising a slim indoor cabinet, wherein the slim indoor cabinet is the slim indoor cabinet as claimed in any one of claims 1 to 10.

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