CN209689018U - Air conditioner indoor unit - Google Patents
Air conditioner indoor unit Download PDFInfo
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- CN209689018U CN209689018U CN201920244431.0U CN201920244431U CN209689018U CN 209689018 U CN209689018 U CN 209689018U CN 201920244431 U CN201920244431 U CN 201920244431U CN 209689018 U CN209689018 U CN 209689018U
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Abstract
The utility model discloses a kind of air conditioner indoor unit, comprising: casing, rotation air duct part, fan assembly and heat exchanger components.Casing is equipped with multiple air inlets, it rotates air duct part and is equipped with air outlet, it rotates and limits duct space in the part of air duct, air outlet and multiple air inlets are connected with duct space, rotation air duct part is rotatably arranged on casing, a portion air inlet is located at the axial position of rotation air duct part and another part air inlet is located at the radial position for rotating air duct part, fan assembly includes the first driving motor and wind wheel, first driving motor is located on casing and is connected with wind wheel, wind wheel is driven to rotate for first driving motor so that air draught is entered the wind along at least one air inlet, heat exchanger components are located in casing.Air conditioner indoor unit according to the present utility model can not only promote the air intake efficiency of air conditioner indoor unit, can also promote the Installation Flexibility of air conditioner indoor unit by the way that air inlet corresponding with the axial position of rotation air duct part and radial position is arranged.
Description
Technical field
The utility model relates to airhandling equipment fields, more particularly, to a kind of air conditioner indoor unit.
Background technique
In the related art, on air conditioner indoor unit when being installed, the air inlet on air conditioner indoor unit needs to avoid wall
Body, to affect selection of the air conditioner indoor unit to rigging position.Moreover, the incoming air area of air inlet is smaller, so as to cause sky
It adjusts the intake of indoor unit too small, greatly reduces the refrigeration and heating efficiency of air conditioner indoor unit.
Utility model content
The utility model aims to solve at least one of the technical problems existing in the prior art.For this purpose, the utility model
One purpose is to propose that a kind of air conditioner indoor unit, the air conditioner indoor unit have the advantages that intake is big, convenient for assembly.
According to the air conditioner indoor unit of the utility model embodiment, comprising: casing, the casing are equipped with multiple air inlets;
Air duct part is rotated, the rotation air duct part is equipped with air outlet, limits duct space, the air outlet in the part of the rotation air duct
Be connected with the duct space with multiple air inlets, rotation air duct part be rotatably arranged on the casing with
Adjust the air-out direction of the air outlet, air inlet described in a portion is located at the axial position of the rotation air duct part and another
A part of air inlet is located at the radial position of the rotation air duct part;Fan assembly, the fan assembly include the first drive
Dynamic motor and wind wheel, first driving motor are set on the housing, and the wind wheel is located in the duct space, and described the
One driving motor is connected with the wind wheel, and the wind wheel is driven to rotate for first driving motor so that air draught is along at least one
A air inlet air inlet;Heat exchanger components, the heat exchanger components are located in the casing to exchange heat with air draught.
According to the air conditioner indoor unit of the utility model embodiment, air duct part is rotated by setting, rotation air duct part can phase
Casing is rotated to adjust the air-out direction of air outlet, it is possible thereby to increase air conditioner indoor unit while not influencing air output
Wind direction greatly improves the air-supply effect of air conditioner indoor unit.By be arranged respectively with rotation air duct part axial position and
The corresponding air inlet of radial position, can not only promote the air intake efficiency of air conditioner indoor unit, can also promote air conditioner indoor unit
Installation Flexibility.
Some embodiments according to the present utility model, the casing include: installation chassis, and first driving motor is located at
On the installation chassis, the part relatively described installation chassis in the rotation air duct be can be rotated;First cover board, first cover board are located at
The top of the installation chassis;Second cover board, second cover board are located at the lower section of the installation chassis and cover with described first
Plate is connected, and the periphery wall of first cover board and second cover board and the rotation air duct part is slidably matched.
In some embodiments of the utility model, set at least one of first cover board and second cover board
There is the air inlet.
In some embodiments of the utility model, the heat exchanger components include the first heat exchanging part and the second heat exchanging part, institute
The first heat exchange part is stated in the top of the second heat exchanging part, it is described on from first cover board to the direction of second cover board
The direction inclination that first heat exchanging part is directed away from the rotation air duct part extends, and second heat exchanging part is towards close to the rotation
The direction of air duct part, which tilts, to be extended.
In some embodiments of the utility model, first cover board is equipped with the air inlet, in the air conditioning chamber
Machine further includes protective cover, and the protective cover is connected with first cover board and the protective cover is located at the top of the air inlet.
In some embodiments of the utility model, first cover board and second cover board are formed as one molding
Part.
In some embodiments of the utility model, multiple air inlets include being located on the postnotum of the casing
Rear portion air inlet.
In some embodiments of the utility model, at least part of the heat exchanger components is located at rotation air duct part
Rear with the rear portion air inlet face be arranged.
In some embodiments of the utility model, the casing further include: spring bearing, the spring bearing with it is described
Installation chassis is connected, and the axial ends of the rotation air duct part is connected with the installation chassis and the spring bearing respectively, institute
It states spring bearing and the rotation air duct part rotates synchronously.
In some embodiments of the utility model, the installation chassis includes motor mount, the first driving electricity
Machine is located on the motor mount, and the spring bearing is two and is located at the length direction both ends of the motor mount,
Rotation air duct part, at least one described spring bearing are equipped between the motor mount and each spring bearing
It is equipped with the air inlet.
In some embodiments of the utility model, the heat exchanger components include third heat exchanging part and the 4th heat exchanging part, institute
State the side close to the motor mount that third heat exchanging part is located at one of them spring bearing, the 4th heat exchanging part
It is located at the side close to the motor mount of another spring bearing.
In some embodiments of the utility model, the heat exchanger components include the 5th heat exchanging part and the 6th heat exchanging part, institute
It states the 5th heat exchanging part and the 6th heat exchanging part interval setting and the motor mount is located at the 5th heat exchanging part and described
Between 6th heat exchanging part, a part of the 5th heat exchanging part is prolonged along the axial direction for the rotation air duct part for being located at left side
It stretches, another part of the 5th heat exchanging part extends along the radial direction for the rotation air duct part for being located at left side, and the described 6th
A part of heat exchanging part extends along the axial direction for the rotation air duct part for being located at right side, another portion of the 6th heat exchanging part
The radial direction along the rotation air duct part for being located at right side is divided to extend.
Some embodiments according to the present utility model, the air conditioner indoor unit further include: air baffle, the air baffle
It is located at the periphery wall of the casing or the periphery wall of the rotation air duct part, the air baffle is located at the air inlet and institute
It states between air outlet.
Some embodiments according to the present utility model, at least one described air inlet is made of multiple air inlet micropores, multiple
The air inlet micropore runs through the casing, multiple air inlet micropores and the wind wheel face on the thickness direction of the casing
Multiple decoration micropores, each decoration micropore is distributed in the side plate for being equipped with multiple air inlet micropores of setting, the casing
For blind hole and with the wind wheel tiltedly to setting.
Some embodiments according to the present utility model, at least one described air inlet are equipped with filter screen, the filter screen
It pullably sets on the housing.
Some embodiments according to the present utility model, rotation air duct part include rotating cylinder and wind component, described
Wind component is located in the rotating cylinder and rotates synchronously with the rotating cylinder, the wind component and the rotating cylinder
To limit the duct space, the air outlet is located on the rotating cylinder for cooperation, and the wind component is equipped with and institute
State the ventilation opening of air outlet face setting.
In some embodiments of the utility model, the wind component is equipped with multiple intervals point in its axial direction
The periphery wall of the stiffening plate of cloth, multiple stiffening plates is connected with the internal perisporium of the rotating cylinder.
Some embodiments according to the present utility model, the air conditioner indoor unit further include: case ring, the case ring are located at
On the periphery wall of the rotation air duct part, the case ring is arranged around the air outlet.
In some embodiments of the utility model, the case ring is configured to cooperate with the casing to limit
State the rotational angle of rotation air duct part.
In some embodiments of the utility model, the case ring is formed as closed-loop shaped, the case ring be equipped with
The air outlet grate of the air outlet face setting.
Some embodiments according to the present utility model, the air conditioner indoor unit further include: driving mechanism, the driving mechanism
It is connected with the rotation air duct part to drive the rotation air duct part to rotate relative to the casing.
In some embodiments of the utility model, the driving mechanism includes: the second driving motor;Drive gear, institute
Driving gear is stated to be connected with second driving motor to be driven and be rotated by second driving motor;Gear ring, the gear ring with
The internal perisporium of the rotation air duct part is connected, and the driving gear engages cooperation with the gear ring to drive the gear ring to drive institute
State rotation air duct part rotation.
The additional aspect and advantage of the utility model will be set forth in part in the description, partially will be from following description
In become obvious, or recognized by the practice of the utility model.
Detailed description of the invention
The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will
Become obvious and be readily appreciated that, in which:
Fig. 1 is the overall structure diagram according to the air conditioner indoor unit of the utility model embodiment;
Fig. 2 is the explosive view according to the air conditioner indoor unit of the utility model embodiment;
Fig. 3 is the partial enlarged view that A circle shows part in Fig. 2;
Fig. 4 is the partial enlarged view that B circle shows part in Fig. 2;
Fig. 5 is the top view according to the air conditioner indoor unit of the utility model embodiment;
Fig. 6 is the cross-sectional view in the direction C-C in Fig. 5;
Fig. 7 is the distributed architecture schematic diagram according to the heat exchanger components of the utility model first embodiment;
Fig. 8 is the distributed architecture schematic diagram according to the heat exchanger components of the utility model second embodiment;
Fig. 9 is the distributed architecture schematic diagram according to the heat exchanger components of the utility model 3rd embodiment;
Figure 10 is the explosive view according to the rotation air duct part of the utility model embodiment;
Figure 11 is the fit structure schematic diagram of the filter screen and casing according to the utility model embodiment;
Figure 12 is the explosive view of filter screen shown in Figure 11 Yu casing fit structure;
Figure 13 is according to the explosive view of the air conditioner indoor unit of the utility model embodiment.
Appended drawing reference:
Air conditioner indoor unit 100,
Casing 1, air inlet 1a enter the wind micropore 1b, decorate micropore 1c,
Installation chassis 11, support ontology 111, motor mount 112, postnotum 113, the first cover board 12, fastener 121,
Adjutage 121a, positioning protrusion 121b, the second cover board 13, pilot hole 131, assembly parts 132, spring bearing 14,
Rotation air duct part 2, air outlet 2a,
Rotating cylinder 21, wind component 22, ventilation opening 22a, stiffening plate 221, case ring 23, body part 231, air outlet grate
232,
Fan assembly 3,
First driving motor 31, first motor axis 311, the second motor shaft 312, wind wheel 32,
Heat exchanger components 4, the first heat exchanging segment 4a, the second heat exchanging segment 4b, third heat exchanging segment 4c,
First heat exchanging part 41, the second heat exchanging part 42, third heat exchanging part 43, the 4th heat exchanging part 44, the 5th heat exchanging part 45, the 6th
Heat exchanging part 46,
Protective cover 5, bracket 51, top cover 52,
Air baffle 6;
Driving mechanism 7, gear ring 71, the second driving motor 72 drive gear 73,
Filter screen 8.
Specific embodiment
The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning
Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng
The embodiment for examining attached drawing description is exemplary, and is only used for explaining the utility model, and should not be understood as to the utility model
Limitation.
Below with reference to the accompanying drawings air conditioner indoor unit 100 according to the utility model embodiment is described, which can
To be freezed to room air and be heated.
As Figure 1-Figure 2, according to the air conditioner indoor unit of the utility model embodiment 100, comprising: casing 1, rotation air duct
Part 2, fan assembly 3 and heat exchanger components 4.
Multiple air inlet 1a can be equipped on casing 1, air outlet 2a can be equipped with by rotating on air duct part 2, rotate air duct part 2
Interior to limit duct space, air outlet 2a and multiple air inlet 1a can be connected with duct space, rotate air duct part 2
It is rotatably arranged at the air-out direction that air outlet 2a is adjusted on casing 1, a portion air inlet 1a can be located at rotary wind
The axial position and another part air inlet 1a of road part 2 can be located at the radial position of rotation air duct part 2.Specifically, when sky
When indoor unit 100 being adjusted to work, room air can be entered in casing 1 by multiple air inlet 1a, be can be set and changed in casing 1
Thermal part 4, heat exchanger components 4 can exchange heat with air draught, and the air draught for the completion that exchanges heat can enter duct space
It is interior and can be discharged by air outlet 2a, it is possible thereby to realize the purpose for adjusting room temperature.
Since the axial position of rotation air duct part 2 and radial position are equipped with corresponding air inlet 1a, air draught
It can be entered the wind simultaneously along the axial position and circumferential position of rotation air duct part 2, so as to greatly promote air conditioner indoor unit 100
Air intake efficiency, and then the refrigeration and heating efficiency of air conditioner indoor unit 100 can be promoted.Moreover, because multiple air inlet 1a's sets
Seated position is different, and when air conditioner indoor unit 100 is installed, air conditioner indoor unit 100 can be mounted on to indoor a variety of positions,
Greatly reduce influence of the installation environment to air inlet 1a.For example, air conditioner indoor unit 100 can be hung on wall, air-conditioning
The top of indoor unit 100 can be arranged with ceiling interval, and the top of air conditioner indoor unit 100 can also be bonded with ceiling.
Air conditioner indoor unit 100 can be placed on floor, the back of air conditioner indoor unit 100 can fit together with wall, air-conditioning
The back of indoor unit 100 can also be arranged with wall interval.As a result, by above-mentioned setting, air conditioner indoor unit can be greatly promoted
100 Installation Flexibility.
It is understood that since rotation air duct part 2 is rotatable with respect to casing 1, it is possible thereby to facilitate adjustment air outlet 2a
Air-out direction, to improve the using flexible of user.Moreover, air outlet 2a can follow rotation air duct part 2 with respect to machine
Shell 1 rotates synchronously, it is possible thereby to the air-out area of air outlet 2a is remained unchanged, it can be in the air output for not influencing air outlet 2a
Under the premise of adjust air outlet 2a air outlet angle, greatly improve the refrigeration and heating efficiency of air conditioner indoor unit 100.
For example, air conditioner indoor unit 100 can be on-hook, air conditioner indoor unit 100 can be hung on wall.When in air conditioning chamber
When machine 100 carries out refrigeration work, since the atmospheric density of cold wind is larger and velocity of liquid assets is very fast, cold wind is directly blowed in order to prevent
Indoor user can be rotated by control rotation air duct part 2 so that air outlet 2a is directed away from the direction outlet air (example of indoor crowd
Such as rotate the position for the surface outlet air that air duct part 2 can drive air outlet 2a to rotate to air outlet 2a towards air conditioner indoor unit 100
Set), cold wind can slowly circulate in space indoors under gravity, thus not only can make indoor Temperature Distribution more
Add the generation that can also uniformly prevent cold wind from directly blowing to user and cause air conditioner disease.When air conditioner indoor unit 100 carries out heating work
When making, since the atmospheric density of hot wind is smaller and velocity of liquid assets is slower, in order to promote indoor heating speed, control can be passed through
It rotates air duct part 2 and rotates that (such as rotation air duct part 2 can band so that air outlet 2a is towards the direction outlet air with indoor crowd's face
Dynamic air outlet 2a rotates the position of the underface outlet air to air outlet 2a towards air conditioner indoor unit 100), thus hot wind can be smooth
The lower half portion for being circulated to the interior space, can not only promote indoor heating efficiency, can also realize warm up foot effect, greatly
The usage comfort of user is improved greatly.
As shown in Fig. 2, fan assembly 3 may include the first driving motor 31 and wind wheel 32, the first driving motor 31 can be with
It is located on casing 1, wind wheel 32 can be located in duct space, and the first driving motor 31 can be connected with wind wheel 32, the first driving
Wind wheel 32 can be driven to rotate for motor 31 so that air draught is entered the wind along at least one air inlet 1a.Wherein, the first driving motor
31 motor shaft can be connect with 32 spline of wind wheel.When fan assembly 3 works, the first driving motor 31 can drive wind wheel 32
Rotation in duct space to form negative pressure.Under the action of negative pressure, room air can by one of air inlet 1a into
Enter into duct space, room air can also be entered in duct space by multiple air inlet 1a simultaneously, in duct space
Air draught can also be discharged by air outlet 2a.Optionally, wind wheel 32 can be axial-flow windwheel, wind wheel 32 or from
Heart wind wheel.
According to the air conditioner indoor unit 100 of the utility model embodiment, air duct part 2 is rotated by setting, rotation air duct part 2 can
To rotate relative to casing 1 to adjust the air-out direction of air outlet 2a, it is possible thereby to increase air-conditioning while not influencing air output
The wind direction of indoor unit 100 greatly improves the air-supply effect of air conditioner indoor unit 100.By be arranged respectively with rotation air duct
The axial position of part 2 and the corresponding air inlet 1a of radial position, can not only promote the air intake efficiency of air conditioner indoor unit 100, also
The Installation Flexibility of air conditioner indoor unit 100 can be promoted.
As shown in Fig. 2, some embodiments according to the present utility model, casing 1 may include: that installation chassis 11, first covers
Plate 12 and the second cover board 13, the first driving motor 31 can be located on installation chassis 11, and rotation air duct part 2 is with respect to installation chassis 11
It can be rotated, the first cover board 12 can be located at the top of installation chassis 11, and the second cover board 13 can be located at the lower section of installation chassis 11
And be connected with the first cover board 12, the first cover board 12 and the second cover board 13 can be slidably matched with the periphery wall of rotation air duct part 2.
Specifically, installation chassis 11 can play the role of support rotation air duct part 2, rotation air duct part 2 can be opposite
Installation chassis 11 is rotated to adjust the air-out direction of air outlet 2a.Wherein, the first cover board 12 and the second cover board 13 can be with installations
The cooperation of chassis 11 to limit the assembly spaces of heat exchanger components 4, air draught by air inlet 1a enter casing 1 it is interior after can be with
It exchanges heat with heat exchanger components 4.As a result, by above-mentioned setting, can make the overall structure of air conditioner indoor unit 100 it is simpler,
It is compact.
As shown in Fig. 2, in some embodiments of the utility model, in the first cover board 12 and the second cover board 13 at least one
Air inlet 1a can be equipped on a, that is to say, that air inlet 1a can be only set on the first cover board 12, it can also be only second
Air inlet 1a is set on cover board 13, air inlet 1a can also be set on the first cover board 12 and the second cover board 13 simultaneously, not only may be used
To promote the using flexible of air conditioner indoor unit 100, air inlet 1a is set on the first cover board 12 and/or the second cover board 13 and may be used also
To reduce the difficulty of processing of air inlet 1a.
As shown in fig. 6, heat exchanger components 4 may include 41 He of the first heat exchanging part in some embodiments of the utility model
Second heat exchanging part 42, the first heat exchanging part 41 can be located at the top of the second heat exchanging part 42, and on direction from top to bottom, first is changed
The direction inclination that hot portion 41 can be directed away from rotation air duct part 2 extends, and the second heat exchanging part 42 can be towards close to rotation air duct
The direction of part 2, which tilts, to be extended, it is possible thereby to promote the heat exchange efficiency of heat exchanger components 4.
For example, being equipped with air inlet 1a on the first cover board 12 and the second cover board 13, air conditioner indoor unit 100 can be vertically square
To being entered the wind, on direction from top to bottom, the direction inclination that the first heat exchanging part 41 can be directed away from rotation air duct part 2 is prolonged
It stretches, the second heat exchanging part 42 can be tilted towards the direction close to rotation air duct part 2 to be extended, and the first heat exchanging part 41 can be with respect to first
Air inlet 1a on cover board 12 is obliquely installed, and the second heat exchanging part 42 can be tilted with respect to the air inlet 1a on the second cover board 13 and be set
It sets, it is possible thereby to increase the contact area of the first heat exchanging part 41 and the second heat exchanging part 42 and air draught, so as to promote sky
Adjust the heat exchange efficiency of indoor unit 100.
Optionally, the first cover board 12 and the second cover board 13 can be formed as one molded part, it is possible thereby to make setting for casing 1
Meter form is simpler, can promote the assembly efficiency of air conditioner indoor unit 100.For example, the first cover board 12 and the second cover board 13 can
To be formed as one moulding.
Of course, it should be understood that the design form of the first cover board 12 and the second cover board 13 is not limited to that.For example, the
One cover board 12 can also be clasped with the second cover board 13.As Figure 3-Figure 4, the bottom of the first cover board 12 can be set multiple
The fastener 121 extended downwardly, fastener 121 include adjutage 121a, and the lower section of adjutage 121a is with outward extension fixed
Position protrusion 121b.Multiple spaced assembly parts 132, two adjacent assembly can be set on the internal perisporium of second cover board 13
Pilot hole 131 can be limited between part 132.When the first cover board 12 and the second cover board 13 are assembled, multiple fasteners 121
It being inserted into corresponding pilot hole 131, positioning protrusion 121b can be only against on the bottom wall of assembly parts 132, it is possible thereby to
First cover board 12 and the second cover board 13 are linked together.
As shown in fig. 6, air inlet 1a can be equipped on the first cover board 12 in some embodiments of the utility model, it is empty
Adjusting indoor unit 100 can also include protective cover 5, and protective cover 5 can be connected with the first cover board 12 and protective cover 5 can be located at air inlet
The top of mouth 1a, protective cover 5 can play the role of air inlet 1a blocking protection, when air conditioner indoor unit 100 is placed on floor
When upper, protective cover 5 can prevent dust or sundries from falling in casing 1 by air inlet 1a, can be to air conditioner indoor unit 100
Play the role of protection.
In specific example shown in Fig. 6, protective cover 5 includes bracket 51 and top cover 52, and bracket 51 is located under top cover 52
Side, the upper and lower ends of bracket 51 are connected with top cover 52 and the first cover board 12 respectively, and top cover 52 is located at the surface of air outlet 2a.Its
In, at least part of top cover 52 is downwardly concaved to form storage unit, and dust or water can be stored in storage unit.Bracket 51 and
Be formed as being detachably connected between one cover board 12, it, can be by protective cover 5 from first when sundries takes the storage space of storage unit
It is disassembled on cover board 12 to clean out the sundries in storage unit.As a result, by above-mentioned setting, the whole of protective cover 5 can be made
The design of body structure is simpler, reasonable, and practicability is stronger.
In some embodiments of the utility model, multiple air inlet 1a may include being located on the postnotum 113 of casing 1
Rear portion air inlet, thus air conditioner indoor unit 100 can using back enter the wind by the way of be entered the wind, can not only increase air-conditioning
Total incoming air area of indoor unit 100, air inlet 1a, which is located on the postnotum 113 of casing 1, can promote air conditioner indoor unit 100
Exterior aesthetics.Optionally, at least part of heat exchanger components 4 can be located at the rear of rotation air duct part 2 to enter the wind with rear portion
Mouth face setting, it is possible thereby to increase the heat exchange efficiency of heat exchanger components 4.
For example, as shown in figure 9, heat exchanger components 4 include connected the first heat exchanging segment 4a, the second heat exchanging segment 4b and the third of sequence
Heat exchanging segment 4c, wherein the first heat exchanging segment 4a is located at one end (left end as shown in Figure 9) of the axial direction of rotation air duct part 2, the
Two heat exchanging segment 4b be located at rotation air duct part 2 axial direction the other end (right end as shown in Figure 9), the two of third heat exchanging segment 4c
End be connected respectively with the first heat exchanging segment 4a and the second heat exchanging segment 4b and the air inlet 1a on third heat exchanging segment 4c and postnotum 113 just
To setting, can be exchanged heat with third heat exchanging segment 4c by the air draught that the air inlet 1a on postnotum 113 enters.
As shown in Fig. 2, casing 1 can also include spring bearing 14, support shaft in some embodiments of the utility model
Holding 14 can be connected with installation chassis 11, rotate air duct part 2 axial ends can respectively with installation chassis 11 and spring bearing
14 are connected, and spring bearing 14 can be rotated synchronously with rotation air duct part 2, and spring bearing 14 can play support rotation air duct part 2
Effect, be more uniformly stressed it is possible thereby to make to rotate air duct part 2, so as to so that the operation of fan assembly 3 is more steady.
In some embodiments of the utility model, installation chassis 11 may include motor mount 112, the first driving electricity
Machine 31 can be located on motor mount 112, spring bearing 14 can for two and be located at motor mount 112 length direction
Both ends can be equipped with rotation air duct part 2, at least one spring bearing between motor mount 112 and each spring bearing 14
14 are equipped with air inlet 1a, and as a result, by above-mentioned setting, air draught can be entered the wind along the axial direction of rotation air duct part 2, and two
It is a rotation air duct part 2 on air outlet 2a can simultaneously outlet air, the refrigeration and heating efficiency of air conditioner indoor unit 100 can be promoted.
For example, the first driving motor 31 can be dual-axle motor, the first driving motor 31 may include first motor axis 311
With the second motor shaft 312, first motor axis 311 can be connected with the wind wheel 32 in one of rotation air duct part 2, the second motor
Axis 312 can be connected with the wind wheel 32 in another rotation air duct part 2, be equipped with air inlet 1a on two spring bearings 14.When
When fan assembly 3 works, the first driving motor 31 can drive two wind wheels 32 to rotate synchronously simultaneously, it is possible thereby to make blower fan group
The operation of part 3 is more steady.Moreover, the first driving motor 31, which is formed as dual-axle motor, can make the first driving motor 31 and casing
1 fit structure is more compact, can not only save assembly space, can also promote the assembly efficiency of fan assembly 3.
It needs to be illustrated, the design form of fan assembly 3 is not limited to that.For example, fan assembly 3 can be with
Including two the first driving motors 31, two the first driving motors 31 can be arranged back-to-back, each first driving motor 31
Motor shaft can be connected with the wind wheel 32 in one of rotation air duct part 2.Wherein it is possible to control two first driving electricity respectively
The working condition of machine 31.Two the first driving motors 31 can rotate (the rotation speed phase of two the first driving motors 31 at the same speed
Together), two the first driving motors 31 can also rotate the rotation speed of the first driving motor 31 (two different) with differential, can be with
The rotation of one of them first driving motor 31 is only controlled, can select to be arranged according to actual use demand.
As shown in fig. 7, heat exchanger components 4 may include 43 He of third heat exchanging part in some embodiments of the utility model
4th heat exchanging part 44, third heat exchanging part 43 can be located at the side of the close motor mount 112 of one of spring bearing 14,
4th heat exchanging part 44 can be located at the side of the close motor mount 112 of another spring bearing 14, as a result, third heat exchanging part
43 and the 4th heat exchanging part 44 respectively with corresponding air inlet 1a face be arranged, can increase between heat exchanger components 4 and air draught
Contact area, so as to promote the heat exchange efficiency of heat exchanger components 4.
As shown in figure 8, heat exchanger components 4 can also include the 5th heat exchanging part 45 in some embodiments of the utility model
With the 6th heat exchanging part 46, the 5th heat exchanging part 45 and the setting of the 6th heat exchanging part 46 interval and motor mount 112 can be located at the 5th
Between heat exchanging part 45 and the 6th heat exchanging part 46, a part of of the 5th heat exchanging part 45 can be along the rotation air duct part 2 for being located at left side
Axial direction extends, and another part of the 5th heat exchanging part 45 can extend along the radial direction for the rotation air duct part 2 for being located at left side,
The a part of of 6th heat exchanging part 46 can extend along the axial direction for the rotation air duct part 2 for being located at right side, the 6th heat exchanging part 46
Another part can extend along the radial direction for the rotation air duct part 2 for being located at right side, pass through above-mentioned setting, the 5th heat exchange as a result,
Portion 45 can with enter left side rotation air duct part 2 in air draught sufficiently be exchanged heat, the 6th heat exchanging part 46 can be with
The air draught entered in the rotation air duct part 2 on right side is sufficiently exchanged heat.Moreover, the 5th heat exchanging part 45 and the 6th heat exchanging part
The 46 opposite interval of motor mount 112 settings can promote the utilization rate of heat exchanger components 4, can be before not influencing heat exchange efficiency
Put the use cost for reducing heat exchanger components 4.
In specific example shown in Fig. 2, air conditioner indoor unit 100 include two on its length direction (left and right directions) between
Every the rotation air duct part 2 of distribution.Wherein, casing 1 includes installation chassis 11, the first cover board 12 and the second cover board 13.Installation chassis
11 include support ontology 111, and the rear of support ontology 111 is equipped with postnotum 113, the front side of ontology 111 is supported to pacify equipped with motor
Seat 112 is filled, the first driving motor 31 is located on motor mount 112.First cover board 12 is located at the top of support ontology 111, the
Two cover boards 13 are located at the lower section of support ontology 111, after the first cover board 12 and the second cover board 13 are respectively positioned on motor mount 112
Air inlet 1a is equipped on side, the first cover board 12 and the second cover board 13.
The left and right sides of motor mount 112 is equipped with spring bearing 14, motor mount 112 and each spring bearing 14
Between be equipped with rotation air duct part 2.The one end for rotating the axial direction of air duct part 2 is rotatedly connected with motor mount 112, rotates
The other end of the axial direction of air duct part 2 can be connected with corresponding spring bearing 14.First driving motor 31 is dual-axle motor,
First driving motor 31 includes first motor axis 311 and the second motor shaft 312, and first motor axis 311 can be with one of rotation
The wind wheel 32 turned in air duct part 2 is connected, and the second motor shaft 312 can be connected with the wind wheel 32 in another rotation air duct part 2.
Heat exchanger components 4 include the first heat exchanging part 41 and the second heat exchanging part 42.On direction from top to bottom, the first heat exchanging part
The 41 direction inclinations for being directed away from rotation air duct part 2 extend, and the second heat exchanging part 42 can be towards the direction close to rotation air duct part 2
Inclination extends.As a result, by above-mentioned setting, the first heat exchanging part 41 can be tilted with respect to the air inlet 1a on the first cover board 12 and be set
It sets, the second heat exchanging part 42 can be obliquely installed with respect to the air inlet 1a on the second cover board 13, can increase 41 He of the first heat exchanging part
The contact area of second heat exchanging part 42 and air draught, so as to increase the heat exchange efficiency of air conditioner indoor unit 100.First driving
Motor 31, which is formed as dual-axle motor, can make the fit structure of the first driving motor 31 and casing 1 more compact, can not only save
Assembly space is saved, the assembly efficiency of fan assembly 3 can also be promoted.
As shown in Fig. 5-Fig. 6, some embodiments according to the present utility model, air conditioner indoor unit 100 can also include air-flow
Partition 6, air baffle 6 can be located at the periphery wall of casing 1 or rotate the periphery wall of air duct part 2, and air baffle 6 can be located at
Between air inlet 1a and air outlet 2a.That is, air baffle 6 can be located at rotation air duct part 2 periphery wall on, air-flow every
Plate 6 can also be on the periphery wall of casing 1, naturally it is also possible to air-flow be arranged simultaneously on the periphery wall of rotation air duct part 2 and casing 1
Partition 6.Wherein, air baffle 6 can play the role of being spaced air-flow, and the air draught being discharged from air outlet 2a can be prevented straight
It connected air inlet 1a to enter in casing 1, the phenomenon that so as to prevent air-flow local circulation, it can be ensured that air conditioning chamber
Interior machine 100 normally can be freezed and be heated.
In the specific example shown in Figure 13, air baffle 6 be located at rotation air duct part 2 periphery wall on, wherein air-flow every
Plate 6 is formed as frame structure and is located at air outlet 2a, and air baffle 6 can guide air draught to be directed away from air inlet 1a's
Direction circulation, thus can also play the effect for preventing air-flow local circulation.
As shown in figure 5, at least one air inlet 1a can be micro- by multiple air inlets in some embodiments of the utility model
Hole 1b composition, multiple air inlet micropore 1b can run through casing 1 on the thickness direction (up and down direction as shown in FIG. 6) of casing 1,
Multiple air inlet micropore 1b can be arranged with 32 face of wind wheel, and the side plate for being equipped with multiple air inlet micropore 1b of casing 1 can be distributed with
Multiple decoration micropore 1c, each decoration micropore 1c are blind hole and can be with wind wheels 32 tiltedly to setting, it is possible thereby to promote air conditioning chamber
The exterior aesthetics of interior machine 100.
For example, multiple air inlet micropore 1b and multiple decoration micropore 1c can be located at simultaneously on the first cover board 12, micropore is entered the wind
1b is identical with the decoration hole shape of micropore 1c, and air inlet micropore 1b and the aperture size for decorating micropore 1c are also identical, and adjacent two
Spacing between a air inlet micropore 1b is identical as the spacing between two adjacent decoration micropore 1c.Multiple air inlet micropores as a result,
1b and multiple decoration micropore 1c is uniformly distributed on the first cover board 12 can make the design of the first cover board 12 more beautiful.
As shown in Figure 11-Figure 12, some embodiments according to the present utility model can be equipped at least one air inlet 1a
Filter screen 8, filter screen 8 are pullably located on casing 1, and filter screen 8 can be filtered air draught, can be by air gas
Dust and impurities in stream filter out.Since filter screen 8 is pullably located on casing 1, it is possible thereby to facilitate the clear of filter screen 8
It washes, replace and installs.
As shown in Figure 10, some embodiments according to the present utility model, rotation air duct part 2 may include 21 He of rotating cylinder
Wind component 22, wind component 22 can be located in rotating cylinder 21 and rotate synchronously with rotating cylinder 21, and wind component 22 can
To cooperate with rotating cylinder 21 to limit duct space, air outlet 2a can be located on rotating cylinder 21, on wind component 22
The ventilation opening 22a being arranged with air outlet 2a face can be equipped with.
Specifically, rotating cylinder 21 and wind component 22 can be formed as hollow tubular structure, wind component 22
It is located at the inside of rotating cylinder 21 and to limit duct space, wind wheel 32 is located at wind component for cooperation jointly with rotating cylinder 21
In 22.When rotating the work of air duct part 2, rotating cylinder 21 and wind component 22 are rotated synchronously, the air draught in duct space
Ventilation opening 22a and air outlet 2a discharge can be passed sequentially through.As a result, by above-mentioned setting, rotates air duct part 2 and use rotating cylinder
21 design methods mutually nested with wind component 22 can make the overall structure of rotary wind road part 2 stronger, can be promoted
Rotate the running stability of air duct part 2.
In some embodiments of the utility model, it can be spaced in its axial direction equipped with multiple on wind component 22
The periphery wall of the stiffening plate 221 of distribution, multiple stiffening plates 221 can be connected with the internal perisporium of rotating cylinder 21, multiple stiffening plates
221 can play the role of connection and support wind component 22 and rotating cylinder 21, can prevent wind component 22 and rotation rolling
Cylinder 21 stress and deform, and then may insure rotation air duct part 2 can normally blow.Optionally, multiple stiffening plates 221 can
It links together in a manner of using being welded to connect with rotating cylinder 21.
Some embodiments according to the present utility model, air conditioner indoor unit 100 can also include driving mechanism 7, driving mechanism 7
It can be connected with rotation air duct part 2 to drive rotation air duct part 2 to rotate relative to casing 1, it is possible thereby to realize rotation air duct part 2
Automatic rotation, so as to so that the operation of rotary wind road part 2 is more convenient.
As shown in figure 13, in some embodiments of the utility model, driving mechanism 7 may include the second driving motor
72, gear 73 and gear ring 71 are driven, driving gear 73 can be connected to be driven by the second driving motor 72 with the second driving motor 72
Turn is dynamic, and gear ring 71 can be connected with the internal perisporium of rotation air duct part 2, and driving gear 73 can engage cooperation with gear ring 71 to drive
Movable tooth circle 71 drives rotation air duct part 2 to rotate.Specifically, driving gear 73 can be with the motor shaft phase of the second driving motor 72
Even, driving gear 73 can engage cooperation with gear ring 71.Since gear ring 71 is connected with rotation air duct part 2, when the second driving motor
When 72 driving driving gears 73 engage cooperation with gear ring 71, gear ring 71 can drive rotation air duct part 2 to rotate, so as to realize
Adjust the purpose of the air-out direction of air outlet 2a.Optionally, the second driving motor 72 can be stepper motor, and stepper motor can be with
Its rotating cycle is accurately controlled, so as to accurately control the angular displacement of rotation air duct part 2, and then can accurately control air outlet
The air-out direction of 2a.
As shown in Figure 1, some embodiments according to the present utility model, air conditioner indoor unit 100 can also include case ring 23,
Case ring 23 can be located on the periphery wall of rotation air duct part 2, and case ring 23 can be arranged around air outlet 2a, and case ring 23 can
To play the role of decoration to rotation air duct part 2, the appearance of air conditioner indoor unit 100 can be made more beautiful.
In some embodiments of the utility model, case ring 23 can be configured to cooperate with casing 1 to limit rotation
The rotational angle of air duct part 2, it may thereby be ensured that the normal operation of air conditioner indoor unit 100.For example, case ring 23 can opposite rotation
The periphery wall for turning air duct part 2 extends outwardly.When rotating the direction rotation that air duct part 2 drives air outlet 2a towards close casing 1,
Case ring 23 can be only against on casing 1 to prevent air outlet 2a from turning to 1 inside of casing, so as to ensure air conditioner indoor unit
100 being capable of normal outlet air.
In some embodiments of the utility model, case ring 23 can be formed as closed-loop shaped, can set on case ring 23
There is the air outlet grate 232 with the setting of air outlet 2a face, air outlet grate 232 can play protective action to air outlet 2a, can be with
Prevent the dust in air from falling into casing 1 by air outlet 2a.
In specific example shown in Fig. 7, case ring 23 may include body part 231 and air outlet grate 232, wherein ontology
Portion 231 is formed as closed-loop shaped and is arranged around air outlet 2a, and the periphery wall of 231 relative rotation air duct part 2 of body part extends outwardly.
Air outlet grate 232 is located in body part 231, and air outlet grate 232 and air outlet 2a face are arranged, and air outlet grate 232 is equipped with
Wind space, air draught can be discharged by outlet air space.When case ring 23 and rotation air duct part 2 are assembled, body part
231 can be clasped with the periphery wall of rotation air duct part 2.
Below with reference to the accompanying drawings the air conditioner indoor unit 100 of the utility model is described in detail with a specific embodiment.It is worth reason
Solution, is described below and is merely exemplary, rather than to the concrete restriction of the utility model.
As Figure 1-Figure 2, according to the air conditioner indoor unit of the utility model embodiment 100, comprising: casing 1, rotation air duct
Part 2, fan assembly 3, heat exchanger components 4, protective cover 5 and air baffle 6.
Wherein, casing 1 is equipped with air inlet 1a, and rotation air duct part 2 is equipped with air outlet 2a, rotates and be equipped in air duct part 2
Duct space, air outlet 2a and air inlet 1a can be connected with duct space, and rotation air duct part 2 is rotatably arranged at casing
The air-out direction of air outlet 2a is adjusted on 1.
Casing 1 includes installation chassis 11, the first cover board 12 and the second cover board 13.Installation chassis 11 includes support ontology 111,
The rear of ontology 111 is supported to be equipped with postnotum 113, the front side of support ontology 111 is equipped with motor mount 112, the first driving electricity
Machine 31 is located on motor mount 112.First cover board 12 is located at the top of support ontology 111, and the second cover board 13 is located at support originally
The lower section of body 111, the first cover board 12 and the second cover board 13 are respectively positioned on the rear side of motor mount 112, the first cover board 12 and second
Air inlet 1a is equipped on cover board 13.
The left and right sides of motor mount 112 is equipped with spring bearing 14, motor mount 112 and each spring bearing 14
Between be equipped with rotation air duct part 2.The one end for rotating the axial direction of air duct part 2 is rotatedly connected with motor mount 112, rotates
The other end of the axial direction of air duct part 2 can be connected with corresponding spring bearing 14.When air conditioner indoor unit 100 works, rotation
Turning air duct part 2 and spring bearing 14 can rotate synchronously.Spring bearing 14 can play the role of support rotation air duct part 2, by
This can make being more uniformly stressed for rotary wind road part 2, more steady so as to the operation that promotes fan assembly 3.
Fan assembly 3 includes the first driving motor 31 and wind wheel 32, and the first driving motor 31 is located at motor mount 112
On, the first driving motor 31 can be connected to drive wind wheel 32 to rotate with wind wheel 32.Wherein, the first driving motor 31 is twin shaft electricity
Machine, the first driving motor 31 includes first motor axis 311 and the second motor shaft 312, first motor axis 311 can be with one of them
The wind wheel 32 rotated in air duct part 2 is connected, and the second motor shaft 312 can be connected with the wind wheel 32 in another rotation air duct part 2.
Protective cover 5 includes bracket 51 and top cover 52, and bracket 51 is located at the lower section of top cover 52, the upper and lower ends difference of bracket 51
It is connected with top cover 52 and the first cover board 12, top cover 52 is located at the surface of air outlet 2a.Wherein, at least part of top cover 52 to
Under recessed formation storage unit, dust or water can be stored in storage unit.Be formed as removable between bracket 51 and the first cover board 12
Connection is unloaded, when sundries takes the storage space of storage unit, protective cover 5 can be disassembled from the first cover board 12 will store
Sundries in portion is cleaned out.
First cover board 12 is equipped with air baffle 6, and air baffle 6 is between air inlet 1a and air outlet 2a and in left and right
Side upwardly extends, and air baffle 6 can play the role of being spaced air-flow, and the air draught being discharged from air outlet 2a can be prevented straight
It connected air inlet 1a to enter in casing 1, the phenomenon that so as to prevent air-flow local circulation, it can be ensured that air conditioning chamber
Interior machine 100 normally can be freezed and be heated.
As shown in fig. 6, heat exchanger components 4 include the first heat exchanging part 41 and the second heat exchanging part 42.On direction from top to bottom,
The direction inclination that first heat exchanging part 41 is directed away from rotation air duct part 2 extends, and the second heat exchanging part 42 can be towards close to rotary wind
The direction of road part 2, which tilts, to be extended.As a result, by above-mentioned setting, the first heat exchanging part 41 can be with respect to the air inlet on the first cover board 12
Mouth 1a is obliquely installed, and the second heat exchanging part 42 can be obliquely installed with respect to the air inlet 1a on the second cover board 13, it is possible thereby to increase
The contact area of first heat exchanging part 41 and the second heat exchanging part 42 and air draught, so as to increase changing for air conditioner indoor unit 100
The thermal efficiency.
As shown in Figure 10, each rotation air duct part 2 includes rotating cylinder 21 and wind component 22, rotating cylinder 21 and outlet air
Component 22 is all formed as hollow tubular structure, and wind component 22 is located at the inside of rotating cylinder 21 and common with rotating cylinder 21
To limit duct space, wind wheel 32 is located in duct space for cooperation.Air outlet 2a is located on rotating cylinder 21, wind component 22
It is equipped with the ventilation opening 22a being arranged with air outlet 2a face.When rotating the work of air duct part 2, rotating cylinder 21 and wind component
22 rotate synchronously, and the air draught in duct space can pass sequentially through ventilation opening 22a and air outlet 2a discharge.It rotates as a result,
The design method mutually nested with wind component 22 using rotating cylinder 21 of air duct part 2 can make the whole knot of rotary wind road part 2
Structure is stronger, can promote the running stability of rotation air duct part 2.Moreover, air outlet 2a can follow rotation 2 phase of air duct part
Casing 1 is rotated synchronously, it is possible thereby to remain unchanged the air-out area of air outlet 2a, going out for air outlet 2a can not influenced
The air outlet angle that air outlet 2a is adjusted under the premise of air quantity, greatly improves the refrigeration and heating efficiency of air conditioner indoor unit 100.
As shown in figure 13, air conditioner indoor unit 100 can also include driving mechanism 7, and driving mechanism 7 includes the second driving motor
72, gear 73 and gear ring 71 are driven, driving gear 73 can be connected to be driven by the second driving motor 72 with the second driving motor 72
Turn is dynamic, and gear ring 71 can be connected with the internal perisporium of rotating cylinder 21, and driving gear 73 can engage cooperation with gear ring 71.Due to
Gear ring 71 is connected with rotation air duct part 2, when the second driving motor 72 drives driving gear 73 to engage cooperation with gear ring 71, gear ring
71 can drive rotation air duct part 2 to rotate, so as to adjust the air-out direction of air outlet 2a.
In the description of the present invention, it should be understood that term " length ", " thickness ", "upper", "lower", " preceding ",
The orientation or positional relationship of the instructions such as " rear ", "left", "right", "inner", "outside", " axial direction ", " radial direction ", " circumferential direction " is based on attached drawing
Shown in orientation or positional relationship, be merely for convenience of describing the present invention and simplifying the description, rather than indication or suggestion institute
The device or element of finger must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to this reality
With novel limitation.In addition, define " first ", the feature of " second " can explicitly or implicitly include it is one or more
A this feature.In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or more.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ",
The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot
Structure, material or feature are contained at least one embodiment or example of the utility model.In the present specification, to above-mentioned art
The schematic representation of language may not refer to the same embodiment or example.Moreover, description specific features, structure, material or
Person's feature can be combined in any suitable manner in any one or more of the embodiments or examples.
While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that:
These embodiments can be carried out with a variety of variations, modification, replacement in the case where not departing from the principles of the present invention and objective
And modification, the scope of the utility model are defined by the claims and their equivalents.
Claims (22)
1. a kind of air conditioner indoor unit characterized by comprising
Casing, the casing are equipped with multiple air inlets;
Rotate air duct part, the rotation air duct part is equipped with air outlet, restriction duct space in the part of the rotation air duct, it is described out
Air port and multiple air inlets are connected with the duct space, and rotation air duct part is rotatably arranged at the casing
On to adjust the air-out direction of the air outlet, air inlet described in a portion is located at the axial position of the rotation air duct part
And air inlet described in another part is located at the radial position of the rotation air duct part;
Fan assembly, the fan assembly include the first driving motor and wind wheel, and first driving motor is located at the casing
On, the wind wheel is located in the duct space, and first driving motor is connected with the wind wheel, first driving motor
Drive the wind wheel rotation so that air draught is entered the wind along air inlet described at least one;
Heat exchanger components, the heat exchanger components are located in the casing to exchange heat with air draught.
2. air conditioner indoor unit according to claim 1, which is characterized in that the casing includes:
Installation chassis, first driving motor are located on the installation chassis, the relatively described installation bottom of rotation air duct part
Disk can be rotated;
First cover board, first cover board are located at the top of the installation chassis;
Second cover board, second cover board are located at the lower section of the installation chassis and are connected with first cover board, and described first
The periphery wall of cover board and second cover board and the rotation air duct part is slidably matched.
3. air conditioner indoor unit according to claim 2, which is characterized in that in first cover board and second cover board
At least one is equipped with the air inlet.
4. air conditioner indoor unit according to claim 3, which is characterized in that the heat exchanger components include the first heat exchanging part and the
Two heat exchanging part, on from first cover board to the direction of second cover board, first heat exchanging part is directed away from the rotation
The direction inclination for turning air duct part extends, and second heat exchanging part is tilted towards the direction close to the rotation air duct part to be extended.
5. air conditioner indoor unit according to claim 3, which is characterized in that first cover board is equipped with the air inlet,
The air conditioner indoor unit further includes protective cover, the protective cover is connected with first cover board and the protective cover be located at it is described into
The top in air port.
6. air conditioner indoor unit according to claim 2, which is characterized in that first cover board and second cover board are formed
Be integrally formed part.
7. air conditioner indoor unit according to claim 2, which is characterized in that multiple air inlets include being located at the casing
Postnotum on rear portion air inlet.
8. air conditioner indoor unit according to claim 7, which is characterized in that at least part of the heat exchanger components is located at institute
The rear of rotation air duct part is stated to be arranged with the rear portion air inlet face.
9. air conditioner indoor unit according to claim 2, which is characterized in that the casing further include: spring bearing, the branch
Support bearing be connected with the installation chassis, it is described rotate air duct part axial ends respectively with the installation chassis and the support
Bearing is connected, and the spring bearing and the rotation air duct part rotate synchronously.
10. air conditioner indoor unit according to claim 9, which is characterized in that the installation chassis includes motor mount, institute
It states the first driving motor to be located on the motor mount, the spring bearing is two and is located at the length of the motor mount
Direction both ends are spent, rotation air duct part is equipped between the motor mount and each spring bearing, at least one
The spring bearing is equipped with the air inlet.
11. air conditioner indoor unit according to claim 10, which is characterized in that the heat exchanger components include third heat exchanging part and
4th heat exchanging part, the third heat exchanging part are located at the side close to the motor mount of one of them spring bearing,
4th heat exchanging part is located at the side close to the motor mount of another spring bearing.
12. air conditioner indoor unit according to claim 10, which is characterized in that the heat exchanger components include the 5th heat exchanging part and
6th heat exchanging part, the 5th heat exchanging part and the 6th heat exchanging part interval are arranged and the motor mount is located at the described 5th
Between heat exchanging part and the 6th heat exchanging part, a part of the 5th heat exchanging part is along the rotation air duct part for being located at left side
Axial direction extends, and another part of the 5th heat exchanging part prolongs along the radial direction for the rotation air duct part for being located at left side
It stretches, a part of the 6th heat exchanging part extends along the axial direction for the rotation air duct part for being located at right side, and the described 6th changes
The another part in hot portion extends along the radial direction for the rotation air duct part for being located at right side.
13. air conditioner indoor unit according to claim 1, which is characterized in that further include: air baffle, the air baffle
It is located at the periphery wall of the casing or the periphery wall of the rotation air duct part, the air baffle is located at the air inlet and institute
It states between air outlet.
14. air conditioner indoor unit according to claim 1, which is characterized in that at least one described air inlet is by multiple air inlets
Micropore composition, multiple air inlet micropores run through the casing, multiple air inlet micropores on the thickness direction of the casing
It is arranged with the wind wheel face, multiple decoration micropores are distributed in the side plate for being equipped with multiple air inlet micropores of the casing, often
A decoration micropore is for blind hole and with the wind wheel tiltedly to setting.
15. air conditioner indoor unit according to claim 1, which is characterized in that at least one described air inlet is equipped with filtering
Net, the filter screen are pullably set on the housing.
16. air conditioner indoor unit according to claim 1, which is characterized in that rotation air duct part include rotating cylinder and
Wind component, the wind component are located in the rotating cylinder and rotate synchronously with the rotating cylinder, the wind component
Cooperate with the rotating cylinder to limit the duct space, the air outlet is located on the rotating cylinder, the outlet air
Component is equipped with the ventilation opening being arranged with the air outlet face.
17. air conditioner indoor unit according to claim 16, which is characterized in that the wind component is equipped with multiple in its axis
The periphery wall of the stiffening plate being spaced apart on direction, multiple stiffening plates is connected with the internal perisporium of the rotating cylinder.
18. air conditioner indoor unit according to claim 1, which is characterized in that further include: case ring, the case ring are located at
On the periphery wall of the rotation air duct part, the case ring is arranged around the air outlet.
19. air conditioner indoor unit according to claim 18, which is characterized in that the case ring is configured to can be with the machine
Shell cooperation is to limit the rotational angle for rotating air duct part.
20. air conditioner indoor unit according to claim 18, which is characterized in that the case ring is formed as closed-loop shaped, described
Case ring is equipped with the air outlet grate being arranged with the air outlet face.
21. air conditioner indoor unit described in any one of -20 according to claim 1, which is characterized in that further include: driving mechanism, institute
Driving mechanism is stated to be connected with the rotation air duct part to drive the rotation air duct part to rotate relative to the casing.
22. air conditioner indoor unit according to claim 21, which is characterized in that the driving mechanism includes:
Second driving motor;
Gear is driven, the driving gear is connected to be driven and be rotated by second driving motor with second driving motor;
Gear ring, the gear ring are connected with the internal perisporium of the rotation air duct part, and the driving gear engages cooperation with the gear ring
To drive the gear ring to drive the rotation air duct part rotation.
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CN201920244431.0U CN209689018U (en) | 2019-02-26 | 2019-02-26 | Air conditioner indoor unit |
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CN201920244431.0U CN209689018U (en) | 2019-02-26 | 2019-02-26 | Air conditioner indoor unit |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109945302A (en) * | 2019-02-26 | 2019-06-28 | 广东美的制冷设备有限公司 | Air conditioner indoor unit |
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2019
- 2019-02-26 CN CN201920244431.0U patent/CN209689018U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109945302A (en) * | 2019-02-26 | 2019-06-28 | 广东美的制冷设备有限公司 | Air conditioner indoor unit |
CN109945302B (en) * | 2019-02-26 | 2024-04-19 | 广东美的制冷设备有限公司 | Indoor unit of air conditioner |
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