CN115875747A

CN115875747A - Embedded air conditioner indoor unit and air conditioner display model machine

Info

Publication number: CN115875747A
Application number: CN202111168037.1A
Authority: CN
Inventors: 黄俊豪; 黎建峰; 孙泽成
Original assignee: Midea Group Co Ltd; GD Midea Air Conditioning Equipment Co Ltd
Current assignee: Midea Group Co Ltd; GD Midea Air Conditioning Equipment Co Ltd
Priority date: 2021-09-30
Filing date: 2021-09-30
Publication date: 2023-03-31

Abstract

The invention discloses an embedded air-conditioning indoor unit and an air-conditioning display prototype.A first air outlet and a second air outlet are arranged at the lower part of the embedded air-conditioning indoor unit, and a first air inlet and a second air inlet are sequentially arranged at the panel and the top of the embedded air-conditioning indoor unit, so that the embedded air-conditioning indoor unit has an indoor air supply mode and a cabinet body dehumidification mode. And under the cabinet body dehumidification mode, air in the cabinet enters the embedded air conditioner indoor unit from the second air inlet to be refrigerated and dehumidified, and then is discharged back to the inside of the cabinet body from the second air outlet. Therefore, the circulation dehumidification is realized in the cabinet body, and the problem that the clothes in the cabinet body cannot be directly dehumidified and dried by the existing embedded hanging machine is solved.

Description

Embedded air conditioner indoor unit and air conditioner display prototype

Technical Field

The invention relates to the field of air conditioners, in particular to an embedded air conditioner indoor unit and an air conditioner display prototype.

Background

Air conditioners have been introduced into thousands of households as a common device for adjusting indoor temperature, and existing indoor air conditioners include a hanging type air conditioner, a vertical type air conditioner, a ceiling type air conditioner, and the like. In order to achieve the appearance and the integrity of the wall, an air duct air conditioner is developed at present, and the problem that a hanging air conditioner is more obtrusive in vision is solved. In addition, an embedded air conditioner indoor unit has been developed, that is, a hanging air conditioner indoor unit is installed in the cabinet body, and only the space outside the cabinet body can be cooled, heated and dehumidified when the air conditioner is in operation. However, when the humidity of the air inside the cabinet is high, the clothes inside the cabinet cannot be directly dehumidified and dried.

Disclosure of Invention

The invention mainly aims to provide an embedded air conditioner indoor unit and an air conditioner display prototype, and aims to solve the problem that an embedded air conditioner in the prior art cannot dry and dehumidify clothes in a cabinet body.

In order to achieve the above object, the present invention provides an embedded air conditioner indoor unit, comprising:

a housing having a front panel, a bottom panel, and a top panel; a heat exchange air channel is formed in the shell, a first air inlet and a first air outlet which are communicated with the heat exchange air channel are formed in the front panel, a second air inlet which is communicated with the heat exchange air channel is formed in the top plate, and a second air outlet which is communicated with the heat exchange air channel is formed in the bottom plate;

the embedded air conditioner indoor unit is provided with a cabinet body dehumidification mode and an indoor air supply mode;

in the cabinet body dehumidification mode, the first air inlet is closed, the second air inlet is opened, the first air outlet is closed, and the second air outlet is opened; or the first air inlet is opened, the second air inlet is closed, the first air outlet is closed, and the second air outlet is opened;

in the indoor air supply mode, the first air inlet is opened, the second air inlet is closed, the first air outlet is opened, and the second air outlet is closed.

In an embodiment, the first air inlet is provided with a first air door for controlling the opening and the closing of the first air inlet; the second air inlet is provided with a second air door for controlling the opening and the closing of the second air inlet; the first air outlet is provided with a third air door for controlling the first air outlet to open and close; and the second air outlet is provided with a fourth air door for controlling the second air outlet to be opened and closed.

In an embodiment, the third damper and the fourth damper are linked, when the first outlet is opened, the second outlet is closed, and when the first outlet is closed, the second outlet is opened.

In an embodiment, the third air door includes a secondary air guiding plate, and the fourth air door includes a lower air guiding plate, and the secondary air guiding plate is connected to the lower air guiding plate.

In one embodiment, the negative air guiding plate is arranged in a cambered surface.

In an embodiment, the second air inlet and the second air outlet are configured to be disposed inside the cabinet, and the first air inlet and the first air outlet are configured to communicate with air outside the cabinet; the cabinet body dehumidification mode comprises a refrigeration dehumidification mode, in the refrigeration dehumidification mode, the first air inlet is closed, the second air inlet is opened, the first air outlet is closed, the second air outlet is opened, and the embedded air conditioner indoor unit is used for performing inner circulation dehumidification in the cabinet body.

In one embodiment, the upper end of the cabinet body is further provided with an air outlet communicated with the outside, and the air outlet is provided with a fifth air door;

the cabinet body dehumidification mode also comprises a heating dehumidification mode, and in the heating dehumidification mode, the air outlet is opened, the first air inlet is opened, the second air inlet is closed, the first air outlet is closed, and the second air outlet is opened; outside air certainly first air intake gets into the heat transfer wind channel heating, and follow the second air outlet gets into inside the cabinet body, follow afterwards the air exit is arranged to the cabinet body is outside.

The invention also provides an air conditioner display prototype which comprises the embedded air conditioner indoor unit and the cabinet body.

In an embodiment, a first partition board is further disposed in the cabinet body, the cabinet body is divided into a first cavity and a second cavity which are arranged from top to bottom by the first partition board, a first through hole and a second through hole are further disposed on the first partition board, the first through hole is spaced from the second through hole, the second air outlet is communicated with the second cavity through the first through hole, and the second cavity is communicated with the first cavity through the second through hole.

In an embodiment, a second partition plate is further disposed in the first cavity, the second partition plate divides the first cavity into an installation cavity and an exhaust cavity which are arranged from bottom to top, a third through hole and a fourth through hole are disposed on the second partition plate, the third through hole is communicated with the second air inlet, the fourth through hole is spaced from the third through hole, and the exhaust cavity is communicated with outside air.

The embedded air conditioner indoor unit is arranged in the cabinet body, and air enters from the first air inlet and is discharged out of the cabinet from the first air outlet in the indoor air supply mode. And under the cabinet body dehumidification mode, air in the cabinet enters the embedded air conditioner indoor unit from the second air inlet to be refrigerated and dehumidified, and then is discharged back to the inside of the cabinet body from the second air outlet. Therefore, the circulation dehumidification is realized in the cabinet body, and the problem that the clothes in the cabinet body cannot be directly dehumidified and dried by the existing embedded hanging machine is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embedded air conditioner indoor unit according to an embodiment of the present invention;

FIG. 2 is a flow diagram of the air flow of the embedded air conditioner indoor unit in the cooling and dehumidifying mode;

FIG. 3 is a flow chart of the air flow of the embedded air conditioner indoor unit in the heating and dehumidifying mode;

FIG. 4 is a flow chart of the air flow of the embedded air conditioner indoor unit in the air supply mode;

FIG. 5 is the air flow diagram of the embedded air conditioner indoor unit in the forced air supply mode;

FIG. 6 is a schematic view of the construction of the third damper and the fourth damper in the embodiment of FIG. 2;

FIG. 7 is a schematic illustration of the construction of the third damper and the fourth damper in the embodiment of FIG. 4;

FIG. 8 is a schematic view of the damper drive mechanism of the embodiment of FIG. 1;

the reference numbers illustrate:

the object realization, mode features and advantages of the present invention will be further explained with reference to the accompanying drawings in conjunction with embodiments.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, if appearing throughout the text, "and/or" is meant to include three juxtaposed aspects, taking "A and/or B" as an example, including either the A aspect, or the B aspect, or both A and B satisfied aspects. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The invention provides an embedded air-conditioning indoor unit, and referring to fig. 1 to 8, the embedded air-conditioning indoor unit comprises a shell, a front panel 10a, a bottom plate 10b and a top plate 10c, wherein the shell is provided with a front panel 10a, a bottom plate 10b and a top plate 10 c; a heat exchange air duct 11 is formed in the shell, the front panel 10a is provided with a first air inlet 14 and a first air outlet 13 which are communicated with the heat exchange air duct 11, the top plate 10c is provided with a second air inlet 15 which is communicated with the heat exchange air duct 11, and the bottom plate 10b is provided with a second air outlet 12 which is communicated with the heat exchange air duct 11; the embedded air conditioner indoor unit has a cabinet body 20 dehumidification mode and an indoor air supply mode; in the dehumidification mode of the cabinet 20, referring to fig. 2, the first air inlet 14 is closed, the second air inlet 15 is opened, the first air outlet 13 is closed, and the second air outlet 12 is opened; alternatively, referring to fig. 3, the first air inlet 14 is opened, the second air inlet 15 is closed, the first air outlet 13 is closed, and the second air outlet 12 is opened; in the indoor air supply mode, referring to fig. 4 and 5, the first air inlet 14 is open, the second air inlet 15 is closed, the first air outlet 13 is open, and the second air outlet 12 is closed.

In this embodiment, the embedded air conditioner indoor unit is disposed to be attached to an inner wall of the cabinet 20 and located at an upper portion of the cabinet 20, through holes corresponding to the first air inlet 14 and the first air outlet 13 are formed in a side wall of the cabinet 20, referring to fig. 2, in a dehumidification mode of the cabinet 20, the first air inlet 14 and the first air outlet 13 are closed, air flow enters the heat exchange air duct 11 from the second air inlet 15 at the upper portion of the embedded air conditioner hanging machine, a heat exchanger in the heat exchange air duct 11 is in a refrigeration state, water vapor in air in the cabinet is condensed and discharged outdoors in the heat exchange air duct 11, humidity of the air after refrigeration and dehumidification is reduced, the air flow is discharged back to the inside of the cabinet 20 from the second air outlet 12, and the air flow at the second air outlet 12 is transmitted upward from a side of the inside of the cabinet 20 away from the embedded air conditioner indoor unit and enters the second air inlet 15 again. The airflow thus forms a circulation flow inside the cabinet 20, and a circulation dehumidification inside the cabinet is achieved.

Or, referring to fig. 3, the first air inlet 14 is opened, the second air inlet 15 is closed, the first air outlet 13 is closed, the second air outlet 12 is opened, outside air enters the cabinet body 20 from the first air inlet 14, is heated in the heat exchange air duct 11 and then enters the cabinet body 20 from the second air outlet 12, the evaporation of moisture on clothes in the cabinet is accelerated by the inflow of hot air, air carrying moisture is discharged from other through holes in the cabinet body 20, and the clothes in the cabinet can be dried after the flow is continued for a certain time.

In the indoor air supply mode, referring to fig. 4, the heat exchange air duct 11 is not communicated with the inside of the cabinet 20, the second air inlet 15 and the second air outlet 12 are closed, and the air flow enters from the first air inlet 14 and is discharged from the first air outlet 13. Meanwhile, the heat exchanger in the heat exchange air duct 11 can also perform refrigeration and heating, so that cold air and hot air can be conveyed indoors.

The refrigeration dehumidification and heating dehumidification modes can be selected according to the temperature of the external environment, and when the weather is hot and needs to be cooled indoors, the refrigeration dehumidification mode can be adopted. When the weather is cold and the indoor temperature meets the background, a heating and dehumidifying mode is adopted. The heating dehumidification efficiency is higher in consideration of the dehumidification efficiency, and the mode is generally selected when the dehumidification is fast.

The embedded air-conditioning indoor unit is arranged in the cabinet body 20, and in the indoor air supply mode, air enters from the first air inlet 14 and is discharged out of the cabinet from the first air outlet 13. In the dehumidification mode of the cabinet 20, the air in the cabinet enters the interior of the embedded air conditioner indoor unit from the second air inlet 15 to perform refrigeration and dehumidification, and then is discharged back to the interior of the cabinet 20 from the second air outlet 12. Therefore, the circulation dehumidification is realized in the cabinet body 20, and the problem that the clothes in the cabinet body 20 cannot be directly dehumidified and dried by the existing embedded hanging machine is solved.

In an embodiment, referring to fig. 1 to 8, the first air inlet 14 is provided with a first air door 31 for controlling the opening and closing thereof; the second air inlet 15 is provided with a second air door 32 for controlling the opening and the closing of the second air inlet; the first air outlet 13 is provided with a third air door 33 for controlling the opening and the closing of the first air outlet; the second outlet 12 is provided with a fourth damper 34 for controlling the opening and closing of the second outlet. In this embodiment, the preferred shutter door of first air door 31 and second air door 32 because the size of air intake is great, when adopting the single door body, the door body rotates the back, and the air intake lacks and shelters from, can directly see the inner structure of air intake, adopts the shutter door more pleasing to the eye in the outward appearance. A plurality of door bodies of the louver door are connected through connecting rods, and the air door driving mechanism is arranged to drive the door bodies to turn over so as to control the opening and closing of all the doors. The structure of a particular damper drive mechanism is described below.

In an embodiment, referring to fig. 1 to 8, the third damper 33 and the fourth damper 34 are linked, when the first outlet 13 is opened, the second outlet 12 is closed, and when the first outlet 13 is closed, the second outlet 12 is opened. In this embodiment, a door may be disposed between the first outlet 13 and the second outlet 12, and the opening and closing between the two outlets are realized by driving the single door to rotate. In addition, linked door bodies may also be provided. The third air door 33 is hinged with the side wall of the first air outlet 13, the fourth air door 34 is hinged with the side wall of the second air outlet 12, and the hinged shafts of the two are arranged in parallel. The link rod is arranged to connect the two hinge shafts, so that the third door body, the fourth door body and the link rod form a parallelogram link mechanism, and the linkage of the third air door 33 and the fourth air door 34 is realized. In addition, the linkage can also be realized through a gear set, specifically, driven gears are respectively arranged on the hinged shafts of the third air door 33 and the fourth air door 34, the two driven gears are respectively engaged with a driving gear arranged between the two driven gears, and the driving gear is driven by a motor to rotate so as to enable the third door body and the fourth door body to synchronously rotate.

In an embodiment, referring to fig. 1 to 8, the third damper 33 includes a secondary air deflector, and the fourth damper 34 includes a lower air deflector, and the secondary air deflector is connected to the lower air deflector. In this embodiment, the first air outlet 13 is horizontally disposed, and the second air outlet 12 is vertically disposed downward. When the lower air deflector is in a flat state, the second air outlet 12 is in a closed state, and when the lower air deflector is in a vertical state, the second air outlet 12 is completely opened. When the auxiliary air deflector is in a flat state, the first air outlet 13 is in an open state, and when the lower air deflector is vertically arranged, the first air outlet 13 is completely closed.

In an embodiment, the upper auxiliary air guiding plate and the lower air guiding plate are in a linkage state, and can also be driven by different driving mechanisms respectively, so as to realize independent control of the upper auxiliary air guiding plate and the lower air guiding plate, thereby controlling the wind direction at the second air outlet 12 by controlling the included angle between the lower air guiding plate and the bottom plate 10 b. The wind direction at the first wind outlet 13 is controlled by controlling the included angle between the auxiliary wind deflector and the panel 10 a.

In an embodiment, referring to fig. 6 and 7, the secondary air guiding plate is disposed in an arc surface. In this embodiment, an inward side of the secondary air guiding plate is an arc surface, and a concave side of the arc surface faces the heat exchanging air duct 11. The direction of the heat exchange air duct 11 at the first air outlet 13 and the second air outlet 12 is set obliquely downwards. When the first air outlet 13 is closed, the air flow of the heat exchange air duct 11 meets the auxiliary air deflector and flows towards the second air outlet 12 at the lower part along the concave arc surface of the auxiliary air deflector. The cambered surface of the auxiliary air guide plate can play a role in internal air guide, and internal partial loss is reduced.

In an embodiment, a main air guiding plate is further disposed at the first air outlet 13, and the main air guiding plate is hinged to an inner wall of the first air outlet 13 and is driven to rotate by a synchronous motor. Specifically, a gear transmission mechanism can be arranged on a hinge shaft of the main air guide plate and the first air outlet 13, and the main air guide plate is driven by connecting the gear transmission mechanism with a synchronous motor. The articulated shaft and the rotating shaft of the motor can be directly connected through a connecting piece to realize driving. When the embedded air conditioner indoor unit is in an indoor air supply mode, the main air deflector is driven to rotate, and the air direction of air supplied outside the cabinet can be adjusted.

In an embodiment, referring to fig. 1 and fig. 2, the second air inlet 15 and the second air outlet 12 are configured to be disposed inside the cabinet 20, and the first air inlet 14 and the first air outlet 13 are configured to communicate with the outside air of the cabinet 20; the cabinet body 20 dehumidification mode includes the refrigeration dehumidification mode, under the refrigeration dehumidification mode, first air intake 14 is closed, second air intake 15 is opened, first air outlet 13 is closed, second air outlet 12 is opened, embedded air conditioning indoor set is in carry out the inner loop dehumidification in the cabinet body 20.

In an embodiment, referring to fig. 1 to 8, an air outlet 29 communicated with the outside is further provided at the upper end of the cabinet 20, and a fifth air door is provided at the air outlet 29; the cabinet 20 further includes a heating and dehumidifying mode, and in the heating and dehumidifying mode, the air outlet 29 is opened, the first air inlet 14 is opened, the second air inlet 15 is closed, the first air outlet 13 is closed, and the second air outlet 12 is opened; the external air enters the heat exchange air duct 11 from the first air inlet 14 for heating, enters the cabinet body 20 from the second air outlet 12, and is then discharged to the outside of the cabinet body 20 from the air outlet 29. In this embodiment, the embedded air conditioner indoor unit is disposed to be attached to the inner wall of the cabinet 20 and located at the upper portion of the cabinet 20, and the air outlet 29 is disposed on the sidewall of the cabinet 20 close to the panel 10a and located above the embedded air conditioner indoor unit. For aesthetic reasons, the fifth air door is also a louver door, and the opening and the closing of the fifth air door are driven by a door separating driving mechanism. The cabinet is closed in a refrigeration dehumidification mode, and is opened in a heating dehumidification mode, so that hot and humid air in the cabinet is discharged, and a drying effect is achieved.

In the indoor air supply mode, referring to fig. 5, in order to increase the air speed, the first damper 31 and the second damper 32 can be controlled to open, and the air inside the cabinet and the air outside the cabinet enter the heat exchange air duct 11 through the second air inlet 15 and the air outlet 29. Because the area of the air inlet is increased, the air resistance of the air inlet is reduced, and the air speed of the air outlet is correspondingly increased. When the indoor refrigeration is carried out for air supply, the dehumidification treatment can be carried out on the air in the cabinet. And the refrigeration dehumidification mode and the refrigeration air supply mode are realized in parallel.

In this embodiment, the two ends of the louver door are respectively provided with a first hinge shaft 29, one side of the first hinge shaft 29 is provided with a second hinge shaft 29b, the first hinge shaft 29 is hinged with the side wall of the air outlet 29, and the side wall is provided with an opening for swinging the second hinge shaft 29 b. The damper drive mechanism includes a drive motor 44, a first gear 43, a second gear 42, and a damper link 41. The first gear 43 is provided on the rotation shaft of the drive motor 44; the damper link 41 is hinged to each of the second hinge shafts 29 b; the center of the second gear 42 is hinged with the side wall of the air outlet 29 and is meshed with the driving gear, and one position of the second gear 42 far away from the center is hinged with the second hinge shaft 29b or the connecting rod. The driving motor 44 drives the gear to rotate and drives the connecting rod to swing, so that the integral driving of the shutter door body is realized.

The invention also provides an air conditioner display prototype, which comprises the embedded air conditioner indoor unit and the cabinet body 20, and refers to fig. 1 to 8. In an embodiment, a first partition plate 23 is further disposed in the cabinet 20, the first partition plate 23 divides the cabinet 20 into a first cavity 21 and a second cavity 22 which are arranged from top to bottom, a first through hole 25 and a second through hole 26 are further disposed on the first partition plate 23, the first through hole 25 and the second through hole 26 are disposed at an interval, the second air outlet 12 is communicated with the second cavity 22 through the first through hole 25, and the second cavity 22 is communicated with the first cavity 21 through the second through hole 26. In this embodiment, the built-in air conditioning indoor unit is disposed in the first chamber 21, and the bottom plate 10b thereof is disposed on the first partition 23. The panel 10a is attached to the inner wall of the cabinet 20, and the second air outlet 12 faces the first through hole 25. The airflow of the second outlet 12 enters the second cavity 22 from the first through hole 25 and blows towards the bottom of the second cavity 22. Due to the suction of the second air inlet 15 in the first cavity 21, negative pressure is formed in the first cavity 21, so that the air in the second cavity 22 returns to the first cavity 21 through the second through hole 26, and convection between the first cavity 21 and the second cavity 22 is realized.

In an embodiment, a second partition plate 24 is further disposed in the first cavity 21, the second partition plate 24 divides the first cavity 21 into an installation cavity 21a and an exhaust cavity 21b arranged from bottom to top, a third through hole 27 and a fourth through hole 28 are disposed on the second partition plate 24, the third through hole 27 is communicated with the second air inlet 15, the fourth through hole 28 is disposed at an interval from the third through hole 27, and the exhaust cavity 21b is communicated with outside air. In the present embodiment, the second partition 24 is provided, and the built-in air conditioning indoor unit is disposed between the two partitions, so that the second partition 24 is attached to the top plate 10c of the built-in air conditioning indoor unit. Thereby forming a discharge chamber 21b between the second partition 24 and the inner top wall of the cabinet 20. The exhaust hole is provided in the exhaust chamber 21b, and the opening direction thereof coincides with the opening direction of the first intake port. When the cabinet 20 is heated and dehumidified, the moisture inside is discharged outward.

In this embodiment, the first through hole 25 and the third through hole 27 are disposed near the inner wall of the cabinet 20 where the indoor unit of the air conditioner is disposed, and the second through hole 26 and the fourth through hole 28 are disposed near the other opposite inner wall of the cabinet 20, so that the air in the cabinet 20 contacts more clothes and takes more moisture away when flowing in the first cavity 21. Through the arrangement of the first partition 23 and the second partition 24, and the through holes arranged on the partitions, the air in the cabinet is discharged downwards along the inner wall of the cabinet body 20 where the indoor unit of the air conditioner is arranged, and then is diffused into the second cavity 22. In the cooling and dehumidifying mode, since the air outlet 29 of the air discharging cavity 21b is closed and the second air inlet is opened, a negative pressure is formed inside the air discharging cavity 21b, so that the air inside the second cavity 22 flows vertically upward and enters the air discharging cavity 21b through the installation cavity 21 a. In the heating and dehumidifying mode, the external air enters the cabinet 22 through the first air inlet 14 and the heat exchange air duct 11, and the air pressure in the cabinet increases to make the humid hot air flow enter the exhaust chamber 21b along the second through hole 26 and the fourth through hole 28 and discharge the humid air outwards.

In addition, also can set installation cavity 21a to the confined cavity, it does not communicate with two other cavities, avoids during the air current gets into installation cavity 21a to reduce inside wind damage, can promote dehumidification efficiency. Also can be with setting up first tuber pipe in the bottom of second cavity 22, be provided with a plurality of vertical air inlets that make progress on first tuber pipe to through first tuber pipe of second tuber pipe intercommunication and second air outlet 12, so that with airing exhaust of second air outlet 12, from the vertical upwards discharge of the lower part of clothes, further promote dehumidification efficiency. The inner wall of the cabinet 20 may be adhered with a heat insulation film, and in a heating and dehumidifying state, the heat insulation film may further reduce the loss of the internal heat, so that the heat is more used for heating and evaporating the moisture in the cabinet. An ozone generating device can be arranged in the embedded air conditioner indoor unit, and ozone generated by the ozone generating device enters the cabinet body along with the second air outlet 12 and disinfects the clothes inside.

The embedded air-conditioning indoor unit is arranged in the cabinet body 20, and in the indoor air supply mode, air enters from the first air inlet 14 and is discharged out of the cabinet from the first air outlet 13. In the dehumidification mode of the cabinet 20, the air in the cabinet enters the interior of the embedded air conditioner indoor unit from the second air inlet 15 for refrigeration and dehumidification, and then is discharged back to the interior of the cabinet 20 from the second air outlet 12. Therefore, the circulation dehumidification is realized in the cabinet body 20, and the problem that the existing embedded hanging machine cannot directly dehumidify and dry the clothes in the cabinet body 20 is solved.

The driving mechanism for driving the guide plate and the guide air duct to rotate can adopt a connecting rod mechanism to connect and realize transmission besides gear transmission, so that various driving schemes can be extended, and the extended schemes are all within the protection scope of the invention.

The above description is only an alternative embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides an embedded air conditioning indoor unit for install in the cabinet body, its characterized in that includes:

a housing having a front panel, a bottom panel, and a top panel; a heat exchange air channel is formed in the shell, the front panel is provided with a first air inlet and a first air outlet which are communicated with the heat exchange air channel, the top plate is provided with a second air inlet which is communicated with the heat exchange air channel, and the bottom plate is provided with a second air outlet which is communicated with the heat exchange air channel;

2. The indoor unit of an embedded air conditioner as claimed in claim 1, wherein the first air inlet is provided with a first damper for controlling the opening and closing of the first air inlet; the second air inlet is provided with a second air door for controlling the opening and the closing of the second air inlet; the first air outlet is provided with a third air door for controlling the first air outlet to open and close; and the second air outlet is provided with a fourth air door for controlling the second air outlet to be opened and closed.

3. An indoor unit of an air conditioner as defined in claim 2, wherein the third damper is linked to the fourth damper, and the second outlet is closed when the first outlet is opened and opened when the first outlet is closed.

4. The indoor unit of an air conditioner as claimed in claim 3, wherein the third damper includes a sub-guide, and the fourth damper includes a lower guide, and the sub-guide is connected to the lower guide.

5. The indoor unit of an air conditioner as claimed in claim 4, wherein the auxiliary air guide plate is formed in a curved surface.

6. The indoor unit of an embedded air conditioner as claimed in claim 3, wherein the second air inlet and the second air outlet are configured to be disposed in the cabinet, and the first air inlet and the first air outlet are configured to communicate with the air outside the cabinet; the cabinet body dehumidification mode comprises a refrigeration dehumidification mode, in the refrigeration dehumidification mode, the first air inlet is closed, the second air inlet is opened, the first air outlet is closed, the second air outlet is opened, and the embedded air conditioner indoor unit is used for performing inner circulation dehumidification in the cabinet body.

7. The indoor unit of an embedded air conditioner as claimed in claim 6, wherein the upper end of the cabinet body is further provided with an air outlet communicated with the outside, and the air outlet is provided with a fifth air door;

8. An air conditioner display prototype, which is characterized by comprising the embedded air conditioner indoor unit and the cabinet body as claimed in any one of claims 1 to 7.

9. The air-conditioning display sample machine as claimed in claim 8, wherein a first partition board is further arranged in the cabinet body, the first partition board divides the cabinet body into a first cavity and a second cavity which are arranged from top to bottom, a first through hole and a second through hole are further arranged on the first partition board, the first through hole is separated from the second through hole, the second air outlet is communicated with the second cavity through the first through hole, and the second cavity is communicated with the first cavity through the second through hole.

10. The air-conditioning display prototype recited in claim 9, wherein a second partition is further provided in the first cavity, the second partition divides the first cavity into an installation cavity and an air exhaust cavity arranged from bottom to top, a third through hole and a fourth through hole are provided in the second partition, the third through hole is communicated with the second air inlet, the fourth through hole is arranged at an interval with the third through hole, and the air exhaust cavity is communicated with outside air.