CN219036846U - Indoor unit and air conditioner - Google Patents

Abstract

The application relates to the technical field of air conditioners, and discloses an indoor unit, which comprises: a cabinet, the interior of which is partitioned by a middle partition into a first compartment and a second compartment, the first compartment being adjacent to a front panel of the cabinet, the second compartment being adjacent to a rear panel of the cabinet; the vibration reduction assembly is arranged in the second compartment and comprises vibration reduction materials and an accommodating housing; the vibration reduction material is arranged in the accommodating housing, and the accommodating housing is buckled on the upper panel of the shell; the fan assembly is arranged in the second compartment and comprises a motor base and a motor; one side of the motor base is connected with the accommodating housing, and the other side of the motor base faces to the lower panel of the housing and is used for installing the motor. The installation sequence of the motor is more in line with the production and assembly environment of the indoor unit, and the vibration of the indoor unit after installation can be reduced under the action of the vibration reduction assembly. The application also discloses an air conditioner.

Description

Indoor unit and air conditioner

Technical Field

The present application relates to the technical field of air conditioners, and for example, to an indoor unit and an air conditioner.

Background

The air duct type air conditioner is commonly called an air duct type air conditioner, and the air duct type air conditioner adopts a one-to-one type air conditioner and comprises an outdoor unit and an indoor unit. The indoor unit, the refrigerant pipeline, the drainage pipeline and the line pipeline are all hidden in the suspended ceiling during installation. Therefore, compared with wall-mounted air conditioners and cabinet air conditioners, the air duct type air conditioner is more attractive and space-saving, and the installation position is more flexible.

The related art discloses an indoor unit of tuber pipe machine, including chassis, middle baffle and motor support, the middle baffle is fixed in the chassis top perpendicularly, and the motor support is fixed in one side of middle baffle for install the motor.

In the process of implementing the embodiments of the present disclosure, it is found that at least the following problems exist in the related art:

the motor is inconvenient to install when being installed on the middle partition plate, and generates larger vibration to the middle partition plate when the motor rotates.

It should be noted that the information disclosed in the above background section is only for enhancing understanding of the background of the present application and thus includes information that does not constitute prior art known to those of ordinary skill in the art.

Disclosure of Invention

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview, and is intended to neither identify key/critical elements nor delineate the scope of such embodiments, but is intended as a prelude to the more detailed description that follows.

The embodiment of the disclosure provides an indoor unit and an air conditioner, which solve the problems of inconvenient motor installation and large motor vibration.

In some embodiments, the indoor unit includes:

a cabinet, the interior of which is partitioned by a middle partition into a first compartment and a second compartment, the first compartment being adjacent to a front panel of the cabinet, the second compartment being adjacent to a rear panel of the cabinet;

the vibration reduction assembly is arranged in the second compartment and comprises vibration reduction materials and an accommodating housing; the vibration reduction material is arranged in the accommodating housing, and the accommodating housing is buckled on the upper panel of the shell;

the fan assembly is arranged in the second compartment and comprises a motor base and a motor; one side of the motor base is connected with the accommodating housing, and the other side of the motor base faces to the lower panel of the housing and is used for installing the motor.

Optionally, the accommodating casing includes:

the side edges of the periphery of the mounting plate are bent towards the upper panel of the shell to form a baffle edge, and the baffle edge and the mounting plate enclose a containing space of the vibration reduction material.

Optionally, the mounting plate is parallel to the upper panel of the chassis.

Optionally, the enclosure flap is perpendicular to the mounting plate.

Optionally, the mounting plate is configured as a rectangular plate.

Optionally, at least two the enclosure hem is bent towards the direction away from the accommodation space to form a fixed hem, and the fixed hem is used for connecting the upper panel of the casing.

Optionally, the fixed flap is perpendicular to the enclosure flap.

Optionally, the fixing flange is connected to the upper panel of the casing through a bolt fastener.

Optionally, the fixing flange is welded to the upper panel of the casing.

In some embodiments, the air conditioner includes an indoor unit as described in any one of the above embodiments.

The indoor unit and the air conditioner provided by the embodiment of the disclosure can realize the following technical effects:

the indoor unit of the air duct machine is usually arranged on a workbench with the upper panel of the machine shell facing downwards during production and assembly, and the upper panel of the machine shell faces upwards during installation. Aiming at the production and assembly environment of the indoor unit, the motor installation sequence of the indoor unit provided by the embodiment of the disclosure is as follows: firstly, connecting a containing housing with a vibration reduction material inside to an upper panel, then installing a motor base on the containing housing, and finally installing the motor on the motor base. After the indoor unit is installed, the motor is installed on the upper panel and is installed on the lower panel of main bearing relatively, and vibration caused by the motor in operation is larger. At this time, the vibration damping assembly can play an effective vibration damping role. Therefore, the installation sequence of the motor is more in accordance with the production and assembly environment of the indoor unit, and the vibration of the indoor unit after installation can be reduced under the action of the vibration reduction assembly.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which like reference numerals refer to similar elements, and in which:

fig. 1 is a schematic structural diagram of an indoor unit according to an embodiment of the present disclosure;

fig. 2 is a schematic position diagram of a motor base provided in an embodiment of the present disclosure;

fig. 3 is an enlarged view of a portion a of fig. 2;

FIG. 4 is a schematic illustration of the location of a mounting bracket provided by an embodiment of the present disclosure;

FIG. 5 is a schematic structural view of a mounting bracket provided by an embodiment of the present disclosure;

FIG. 6 is a schematic structural view of a mounting bracket provided by an embodiment of the present disclosure;

fig. 7 is a schematic structural view of a lifting bracket provided in an embodiment of the present disclosure;

fig. 8 is a schematic structural view of another angle lifting bracket provided in an embodiment of the present disclosure.

Reference numerals:

100: a housing; 101: an upper panel; 102: a lower panel; 103: a rear panel; 104: a front panel; 110: a first compartment; 111: an air outlet; 120: a second compartment; 121: a first air inlet; 122: a second air inlet; 123: a third air inlet; 130: a middle partition plate; 131: a vent; 132: an access opening;

200: a motor base; 210: a motor; 220: a housing shell; 221: a mounting plate; 222: a fence hem; 223: fixing the folded edges;

300: a mounting bracket; 310: a first side plate; 311: a first hem; 312: a second flanging; 320: a second side plate; 321: a third flanging; 322: fourth flanging;

400: hoisting the bracket; 410: a first hanging plate; 411: a U-shaped groove; 420: a second hanging plate; 421: a hoisting groove; 422: a first protective hem; 423: and the second protection folds.

Detailed Description

So that the manner in which the features and techniques of the disclosed embodiments can be understood in more detail, a more particular description of the embodiments of the disclosure, briefly summarized below, may be had by reference to the appended drawings, which are not intended to be limiting of the embodiments of the disclosure. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may still be practiced without these details. In other instances, well-known structures and devices may be shown simplified in order to simplify the drawing.

The terms first, second and the like in the description and in the claims of the embodiments of the disclosure and in the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe embodiments of the present disclosure. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

In the embodiments of the present disclosure, the terms "upper", "lower", "inner", "middle", "outer", "front", "rear", and the like indicate an azimuth or a positional relationship based on that shown in the drawings. These terms are used primarily to better describe embodiments of the present disclosure and embodiments thereof and are not intended to limit the apparatus, elements or components indicated to have a particular orientation or to be constructed and operated in a particular orientation. Also, some of the terms described above may be used to indicate other meanings besides orientation or positional relationship, for example, the term "upper" may also be used to indicate some kind of attachment relationship or connection relationship in some cases. The specific meaning of these terms in the embodiments of the present disclosure will be understood by those of ordinary skill in the art in view of the specific circumstances.

In addition, the terms "disposed," "connected," "secured" and "affixed" are to be construed broadly. For example, "connected" may be in a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the embodiments of the present disclosure may be understood by those of ordinary skill in the art according to specific circumstances.

The term "plurality" means two or more, unless otherwise indicated.

In the embodiment of the present disclosure, the character "/" indicates that the front and rear objects are an or relationship. For example, A/B represents: a or B.

The term "and/or" is an associative relationship that describes an object, meaning that there may be three relationships. For example, a and/or B, represent: a or B, or, A and B.

It should be noted that, without conflict, the embodiments of the present disclosure and features of the embodiments may be combined with each other.

Referring to fig. 1-8, an embodiment of the present disclosure provides an indoor unit including a cabinet 100, a vibration damping assembly, and a fan assembly. Wherein the interior of the cabinet 100 is partitioned into a first compartment 110 and a second compartment 120 by a partition 130, the first compartment 110 being adjacent to the front panel 104 of the cabinet 100, and the second compartment 120 being adjacent to the rear panel 103 of the cabinet 100; the vibration damping assembly is disposed in the second chamber 120 and includes a vibration damping material and a housing casing 220; the vibration damping material is disposed in the accommodating housing 220, and the accommodating housing 220 is fastened to the upper panel 101 of the casing 100, as shown in fig. 2; the fan assembly is arranged in the second compartment 120 and comprises a motor base 200 and a motor 210; one side of the motor mount 200 is connected to the housing case 220, and the other side faces the lower panel 102 of the casing 100 for mounting the motor 210.

The indoor unit of the ducted air conditioner is usually installed by placing the upper panel 101 of the cabinet 100 on a table with the upper panel 101 facing downward, and by installing the upper panel 101 of the cabinet 100 facing upward. For the production and assembly environment of the indoor unit, the motor 210 of the indoor unit provided in the embodiment of the disclosure is installed in the following order: first, a housing case 220 having a vibration damping material built therein is connected to the upper panel 101, then, a motor base 200 is mounted to the housing case 220, and finally, a motor 210 is mounted to the motor base 200. After the indoor unit is installed, the motor 210 is installed on the upper panel 101, and vibration caused by the operation of the motor 210 is greater than that caused by the installation on the lower panel 102 with main bearing. At this time, the vibration damping assembly can play an effective vibration damping role. Thus, the installation sequence of the motor 210 is more in line with the production and assembly environment of the indoor unit, and the vibration of the indoor unit after installation can be reduced under the action of the vibration reduction assembly.

Optionally, as shown in fig. 1, an air outlet 111 is provided on the front panel 104 of the casing 100, a first air inlet 121 is provided on the upper panel 101, a second air inlet 122 is provided on the lower panel 102, and a third air inlet 123 is provided on the rear panel 103 of the casing 100; the first air inlet 121 is opposite to the second air inlet 122, and the third air inlet 123 is opposite to the air outlet 111; the middle partition 130 is disposed in the casing 100 to divide the casing 100 into a first compartment 110 and a second compartment 120; the air outlet 111 is located in and connected to the first chamber 110, the first air inlet 121, the second air inlet 122 and the third air inlet 123 are all located in and connected to the second chamber 120, and the middle partition 130 is provided with a vent 131.

In the present embodiment, the front panel 104 of the casing 100 is located in the first compartment 110 and is provided with the air outlet 111, and the rear panel 103 of the casing 100 is located opposite to the front panel 104 and is located in the second compartment 120. The upper panel 101, the lower panel 102 and the rear panel 103 of the casing 100 are respectively provided with an air inlet to form three paths of air inlets to the second compartment 120, so that the air inlet of the second compartment 120 is effectively increased, and the influence of barriers such as walls and cabinets at various angles on the air inlet of the indoor unit is reduced. Air in the second compartment 120 enters the first compartment 110 through the ventilation opening 131, and finally is blown into the compartment from the air outlet 111.

Optionally, the indoor unit further comprises a heat exchange assembly. The heat exchange assembly is arranged in the first compartment 110 and comprises a heat exchanger; the air in the first compartment 110 exchanges heat with the heat exchanger and then is blown into the compartment from the air outlet 111.

In this embodiment, the air in the second compartment 120 enters the first compartment 110 from the ventilation opening 131 of the partition 130 and exchanges heat with the heat exchange assembly, and the air outlet 111 after heat exchange blows into the room to cool or heat.

Optionally, the middle barrier 130 and the front panel 104 are respectively provided with an access opening 132 corresponding to the motor 210, and the user sequentially extends an arm into the second compartment 120 through the access opening 132 of the front panel 104 and the access opening 132 of the middle barrier 130, thereby disassembling the motor 210.

Optionally, as shown in fig. 3, the containment enclosure 220 includes a mounting plate 221. The peripheral sides of the mounting plate 221 are bent toward the upper panel 101 of the casing 100 to form a baffle flange 222, and the baffle flange 222 and the mounting plate 221 enclose a space for accommodating the vibration-damping material. In this way, the vibration damping material is filled in the receiving space to thereby perform a vibration damping effect on the motor 210.

Alternatively, the mounting plate 221 is parallel to the upper panel 101 of the cabinet 100. The motor 210 is suspended on the mounting plate 221 of the upper panel 101 after the indoor unit is mounted, and the mounting plate 221 is parallel to the upper panel 101, so that the stability of the motor 210 during rotation is guaranteed.

Optionally, the enclosure flap 222 is perpendicular to the mounting plate 221.

Alternatively, the mounting plate 221 is configured as a rectangular plate.

Optionally, at least two enclosure flanges 222 are bent in a direction away from the accommodating space to form a fixing flange 223, and the fixing flange 223 is used for connecting the upper panel 101 of the chassis 100.

In the present embodiment, the vibration damping material is first filled in the receiving case 220, and then the fixing flange 223 is connected to the upper panel 101 of the cabinet 100 by a bolt fastener, or the fixing flange 223 is directly welded to the upper panel 101 of the cabinet 100.

Optionally, the securing flap 223 is perpendicular to the enclosure flap 222. This facilitates the attachment of the fixing flange 223 to the upper panel 101 of the cabinet 100.

Optionally, the air inlet area of the first air inlet 121 is half the air outlet area of the air outlet 111. In the case where the housing 100 is mounted by being lifted on a top plate, the upper panel 101 is closer to the roof, so that the first air inlet 121 is suitable for adopting a smaller air inlet area relative to the second air inlet 122 and the third air inlet 123.

Optionally, the first air inlet 121 is configured as a strip-shaped opening, and the plurality of first air inlets 121 are uniformly opened on the upper panel 101. Here, the air intake area of the first air intake openings 121 refers to the sum of the air intake areas of all the first air intake openings 121 opened in the upper panel 101. In the case of a smaller air intake area, the first air intake 121 is preferably a long and narrow strip-shaped opening.

Optionally, a movable wind deflector is disposed at the first air inlet 121, and the wind deflector is used for shielding or avoiding the first air inlet 121. In this way, the air inlet amount of the first air inlet 121 can be adjusted according to the user's requirement through the wind shield.

Optionally, the air inlet area of the second air inlet 122 and the air outlet area of the air outlet 111 are the same. In the case where the enclosure 100 is mounted by being lifted to the top plate, the upper panel 101 is closer to the roof, and no obstacle is present at the lower panel 102, so that the second air inlet 122 is suitable for using a larger air inlet area than the first air inlet 121. The air intake area of the second air intake 122 refers to the sum of the air intake areas of all the second air intake 122 that are formed on the upper panel 101.

Optionally, a movable wind deflector is disposed at the second air inlet 122, and the wind deflector is used for shielding or avoiding the second air inlet 122. In this way, the wind deflector can adjust the wind inlet of the second wind inlet 122 according to the requirement of the user.

Optionally, the air inlet area of the third air inlet 123 and the air outlet area of the air outlet 111 are the same. In the case where the casing 100 is mounted by being lifted to the top plate, the upper panel 101 is closer to the roof, and no obstacle is present at the rear panel 103, so that the third air inlet 123 is suitable for using a larger air inlet area relative to the first air inlet 121.

Optionally, a movable wind guard is disposed at the third air inlet 123, where the wind guard is used for shielding or avoiding the third air inlet 123. In this way, the wind deflector can adjust the wind inlet of the third wind inlet 123 according to the user's requirement.

Optionally, the indoor unit further includes a mounting bracket 300. Wherein the cabinet 100 is installed in the cabinet body; as shown in fig. 5, the mounting bracket 300 includes a first side plate 310 and a second side plate 320, the first side plate 310 being vertically connected to one end of the second side plate 320; the side edge of the first side plate 310 perpendicular to the second side plate 320 is bent in a direction away from the second side plate 320 to form a first folded edge 311, and the end of the first folded edge 311 is bent in a direction away from the first side plate 310 to form a second folded edge 312; in addition, two mounting brackets 300 are respectively disposed at two bottom corners of the rear side of the cabinet 100, as shown in fig. 4, and a first side plate 310 is used for connecting the rear panel 103 of the cabinet 100, a second side plate 320 is used for connecting the lower panel 102 of the cabinet 100, and a second flange 312 is used for connecting the back panel of the cabinet.

In this embodiment, the indoor unit is installed in a cabinet, and the installation bracket 300 is suitable for a narrow installation space in the cabinet. When mounted, the two mounting brackets 300 are respectively disposed at two bottom corners of the rear side of the cabinet 100, and the first side plate 310 of each mounting bracket 300 is connected to the rear panel 103 of the cabinet 100 by a bolt fastener, and the second side plate 320 of each mounting bracket 300 is connected to the lower panel 102 of the cabinet 100 by a bolt fastener. The cabinet 100 is then placed on the bottom panel of the cabinet, and finally the second flange 312 is connected to the back panel of the cabinet by a bolt fastener, thereby fixing the cabinet 100 in the cabinet. In the case that the casing 100 has three air inlets, the second air inlet 122 is blocked by the bottom plate of the cabinet body in the above installation manner, and can be fed through the first air inlet 121 and the third air inlet 123.

Optionally, the first fold 311 is perpendicular to the first side panel 310.

Optionally, the second flange 312 is perpendicular to the first flange 311.

Alternatively, as shown in fig. 6, a side edge of the second side plate 320 perpendicular to the first side plate 310 is bent toward a direction away from the first side plate 310 to form a third folded edge 321, and an end of the third folded edge 321 is bent toward a direction away from the second side plate 320 to form a fourth folded edge 322; the fourth folded edge 322 is used for connecting the bottom plate of the cabinet body.

In this embodiment, the fourth folded edge 322 functions to support the lower panel 102 of the enclosure 100, so that a certain space is formed between the second air inlet 122 and the bottom board of the cabinet. When in installation, the second folded edge 312 of each mounting bracket 300 is connected to the back plate of the cabinet body through a bolt fastener, and the fourth folded edge 322 of each mounting bracket 300 is connected to the bottom plate of the cabinet body through a bolt fastener. In the case that the cabinet 100 has three air inlets, the second air inlet 122 is not blocked by the bottom plate of the cabinet body in the above installation manner, and three air inlets can be formed by air inlet of the first air inlet 121, the second air inlet 122 and the third air inlet 123.

Optionally, the first folded edge 311 and the third folded edge 321 are located on the same side of the mounting bracket 300, and the first folded edge 311 and the third folded edge 321 are connected. The mounting bracket 300 has a first side and a second side, and the first sides of the two mounting brackets 300 are opposite to each other when mounted, and the first folded edge 311 and the third folded edge 321 are located on the second side of the mounting bracket 300. The connection of the first folded edge 311 and the third folded edge 321 is beneficial to improving the strength of the mounting bracket 300 and avoiding the breakage of the mounting bracket 300.

Optionally, the second flange 312 and the fourth flange 322 are located on the same side of the mounting bracket 300, and the second flange 312 and the fourth flange 322 are connected. The mounting bracket 300 has a first side and a second side, and the first sides of the two mounting brackets 300 are disposed opposite each other when mounted, and the second flange 312 and the fourth flange 322 are disposed on the second side of the mounting bracket 300. The connection of the second folded edge 312 and the fourth folded edge 322 is beneficial to improving the strength of the mounting bracket 300 and avoiding the breakage of the mounting bracket 300.

Optionally, the third fold 321 is perpendicular to the second side panel 320.

Optionally, fourth fold 322 is perpendicular to third fold 321.

Optionally, the width of the first side panel 310, the width of the second flange 312, the width of the second side panel 320, and the width of the fourth flange 322 are all the same. The adoption of the width arrangement is beneficial to improving the stability of the mounting bracket 300 and avoiding the shaking of the machine shell 100.

Optionally, the first and third folds 311, 321 have the same width. The width of the first flange 311 is the distance from the rear panel 103 of the casing 100 to the back panel of the cabinet, and the width of the second flange 312 is the distance from the lower panel 102 of the casing 100 to the bottom panel of the cabinet. The widths of the first folded edge 311 and the third folded edge 321 are properly adjusted in combination with the installation space in the cabinet body, which is beneficial to improving the air inlet quantity of the second air inlet 122 and the third air inlet 123.

Alternatively, as shown in fig. 7 and 8, the two sides of the casing 100 are respectively provided with a hanging bracket 400; the hanging bracket 400 includes a first hanging plate 410 and a second hanging plate 420, the first hanging plate 410 is perpendicular to the second hanging plate 420, and the length direction of the first hanging plate 410 is parallel to the length direction of the second hanging plate 420; the first lifting plate 410 is used for connecting the casing 100, the sides at two ends of the second lifting plate 420 are respectively recessed inwards to form lifting grooves 421, the two lifting grooves 421 are symmetrical, and one ends of the two lifting grooves 421 are configured to be arc surfaces.

In this embodiment, the indoor unit adopts an indoor hoisting installation mode, and the hoisting bracket 400 is suitable for indoor wide hoisting space. Both ends of the second hanger plate 420 are fixed to the side plates of the cabinet 100 by bolt fasteners. Each of the hanging brackets 400 uses two hanging rods, each hanging rod extends into the corresponding hanging groove 421 from both ends of the first hanging plate 410, and then positions of the hanging rods in the hanging groove 421 are adjusted. Here, the opposite ends of the two hanging grooves 421 are configured as arc surfaces, which can reduce wear when contacting the hanging grooves 421 when the hanger bar is adjusted to the end inside the hanging grooves 421. Finally, the hanger rod and the first hanger plate 410 are fixed using a stopper such as a nut, thereby completing the hanging.

Alternatively, the first and second hanger plates 410 and 420 have the same length. This facilitates the installation of the lifting bracket 400.

Alternatively, the side of the first hanger plate 410 parallel to the second hanger plate 420 is recessed inward to form a U-shaped groove.

In this embodiment, the two ends of the first hanging plate 410 are fixed to the side plates of the casing 100 by bolt fasteners, and the middle of the first hanging plate 410 is provided with a U-shaped groove, which is beneficial to saving materials and reducing production cost.

Optionally, rounded corners are arranged on two sides of the bottom of the U-shaped groove.

Alternatively, the length of the U-shaped groove is 7/10-9/10 of the length of the first hanger plate 410. In this way, the strength of the first hanging plate 410 can be ensured while saving material.

Alternatively, the length of each of the hanging grooves 421 is 1/10-2/10 of the length of the second hanging plate 420. Thus, the length of the hanging groove 421 can satisfy the adjustment distance of the hanging rod in the hanging groove 421.

Alternatively, the side edges of the two ends of the second hanging plate 420 are bent toward the first hanging plate 410 to form a first protection fold 422, and the first protection fold 422 is located at one side of the opening of the hanging groove 421. The first protective flap 422 is perpendicular to the second hanger plate 420. The first protective flap 422 can thus avoid the second lifting plate 420 from scratching the user during lifting.

Alternatively, the side of the second hanger plate 420 parallel to the first hanger plate 410 is bent toward the first hanger plate 410 to form a second protective flap 423. The second protective flap 423 is perpendicular to the second hanger plate 420. The second protective flap 423 can thus avoid the second lifting plate 420 scratching the user during lifting.

In some embodiments, the disclosed embodiments further provide an air conditioner including the indoor unit described in any one of the above embodiments.

The above description and the drawings illustrate embodiments of the disclosure sufficiently to enable those skilled in the art to practice them. Other embodiments may include structural and other modifications. The embodiments represent only possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in, or substituted for, those of others. The embodiments of the present disclosure are not limited to the structures that have been described above and shown in the drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. An indoor unit, comprising:

a housing (100) having an interior divided by a partition (130) into a first compartment (110) and a second compartment (120), the first compartment (110) being adjacent to a front panel (104) of the housing (100), the second compartment (120) being adjacent to a rear panel (103) of the housing (100);

the vibration reduction assembly is arranged in the second compartment (120) and comprises vibration reduction materials and a containing housing (220); the vibration damping material is arranged in the accommodating housing (220), and the accommodating housing (220) is buckled on the upper panel (101) of the shell (100);

the fan assembly is arranged in the second compartment (120) and comprises a motor base (200) and a motor (210); one side of the motor base (200) is connected to the accommodating housing (220), and the other side of the motor base faces the lower panel (102) of the casing (100) for installing the motor (210).

2. The indoor unit of claim 1, wherein the housing casing (220) comprises:

the side edges of the periphery of the mounting plate (221) are bent towards the upper panel (101) of the shell (100) to form a surrounding flange (222), and the surrounding flange (222) and the mounting plate (221) surround and limit the accommodating space of the vibration reduction material.

3. The indoor unit of claim 2, wherein,

the mounting plate (221) is parallel to the upper panel (101) of the housing (100).

4. An indoor unit according to claim 2 or 3, wherein,

the enclosure flap (222) is perpendicular to the mounting plate (221).

5. An indoor unit according to claim 2 or 3, wherein,

the mounting plate (221) is configured as a rectangular plate.

6. The indoor unit of claim 5, wherein,

at least two enclosure flanges (222) are bent towards a direction away from the accommodating space to form a fixed flange (223), and the fixed flange (223) is used for connecting an upper panel (101) of the machine shell (100).

7. The indoor unit of claim 6, wherein,

the fixing flange (223) is perpendicular to the enclosure flange (222).

8. The indoor unit of claim 6 or 7, wherein,

the fixing flange (223) is connected to the upper panel (101) of the casing (100) by a bolt fastener.

9. The indoor unit of claim 6 or 7, wherein,

the fixing flange (223) is welded to the upper panel (101) of the housing (100).

10. An air conditioner comprising the indoor unit according to any one of claims 1 to 9.

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