CN208186548U - Air conditioner indoor unit - Google Patents

Abstract

The utility model provides a kind of air conditioner indoor unit, including shell, air duct, can magnetic material bodies, electromagnetism part and wind direction change-over panel, shell has upper air outlet and lower air outlet, can magnetic material bodies be set to air duct upper air duct wall lower surface, electromagnetism part is set to the upper surface of wind direction change-over panel；Wind direction change-over panel is set in air duct, is configured to be rotated up when electromagnetism part is powered to turned position, and is repositioned to initial position when the power-off of electromagnetism part；Wind direction change-over panel in initial position blocks lower air outlet, so that heat exchange air-flow is blown out from upper air outlet, blowing mould formula in realization；Wind direction change-over panel in turned position blocks upper air outlet, so that heat exchange air-flow is blown out from lower air outlet, realizes lower blowing mould formula.From there through electromagnetism part with can magnetic material adjustment wind direction change-over panel position, avoid cloth centrally-mounted driving and bring increased costs, and save indoor unit space, and improve air-supply comfort and improve the wind sense experience of user.

Description

Air conditioner indoor unit

Technical field

The utility model relates to family's electro-technical fields, more particularly to a kind of air conditioner indoor unit.

Background technique

With popularizing for air-conditioning, user is higher and higher to the comfort of air-supply and the requirement of health.Existing air-conditioning Mode is single, and under air conditioner refrigerating mode, cold wind is relatively heavy, and the cold wind normally blown out, which declines rapidly, leads to cold wind blow-through user, user It can feel uncomfortable, but also will affect health.Under air-conditioning heating mode, hot wind is lighter, is gathered in above room, causes room Upper and lower temperature difference is excessive, the cold bad Temperature Distribution of head heat foot, poor user experience.

Summary of the invention

In view of the above problems, a purpose of the utility model is to provide for one kind and overcomes the above problem or at least partly The air conditioner indoor unit that ground solves the above problems.

The utility model one promotes air-supply comfort and improves the wind of user further objective is that abundant air supply pattern Sense experience.

The utility model provides a kind of air conditioner indoor unit, comprising:

Shell, the lower front of shell are formed with air outlet, and the lower front side of shell is formed with to be penetrated through with upper air outlet Lower air outlet；

Air duct is set to enclosure interior, for the intracorporal wind of shell to be guided at supreme air outlet and lower air outlet, air duct tool There are upper air duct wall and lower air duct wall；

Can magnetic material bodies, be set to the lower surface of upper air duct wall；And

Electromagnetism part and wind direction change-over panel, electromagnetism part are set to the upper surface of wind direction change-over panel, and wind direction change-over panel is set to wind In road；

Wind direction change-over panel be configured to when electromagnetism part is powered electromagnetism part with can be under the magneticaction of magnetic material bodies around the One transverse axis is rotated up to turned position, downward around the first transverse axis under self gravitation effect when the power-off of electromagnetism part Turn to initial position；And

Wind direction change-over panel in initial position blocks lower air outlet, and the wind direction change-over panel in turned position blocks Air port.

Optionally, locating for one end in the wind direction change-over panel width direction of initial position far from the first transverse axis Position is lower than the location of other end.

Optionally, upper air duct wall is in that gradually inclination extends upwards from the front to the back；

Lower air duct wall is in that inclination gradually downward extends from the front to the back；And

The position that lower part is closed on front side of lower air duct wall is formed with recessing groove, and the wind direction in initial position converts board width One end that side is upwardly away from the first transverse axis is located in recessing groove.

Optionally, air conditioner indoor unit further include:

Upper wind deflector, is rotatablely arranged at air outlet, is configured to rotate about the rotation of the second transverse axis, to play on or off Close air outlet.

Optionally, the first transverse axis is conllinear with the second transverse axis.

Optionally, when upper wind deflector turns to the position for closing upper air outlet, before the outer surface of upper wind deflector and shell Surface co-planar.

Optionally, air conditioner indoor unit further include:

Lower wind deflector, is rotatablely arranged at lower air outlet, is configured to rotate about the rotation of third transverse axis, to play on or off Close lower air outlet.

Optionally, air conditioner indoor unit further include:

Internal air baffle is located at lower air outlet, and is located at the inside of lower wind deflector, and being configured to rotate about the 4th transverse axis can turn The air-out direction at lower air outlet is adjusted dynamicly.

Optionally, the width dimensions of internal air baffle are less than the width dimensions of lower wind deflector, and

It is located at turned position in wind direction change-over panel, and lower wind deflector turns to when opening lower air outlet, internal air baffle can turn It moves to the lower surface of wind direction change-over panel and abuts.

Optionally, air conditioner indoor unit further include:

It is multiple to lead wind pendulum leaf, multiple insides led wind pendulum leaf and be arranged at intervals at lower air duct wall in transverse direction, and be configured to It can adjust to rotation the lateral air-out direction of air outlet or lower air outlet.

The air conditioner indoor unit of the utility model, shell are formed with air outlet and lower air outlet, are provided with wind direction in air duct Change-over panel, the upper surface of wind direction change-over panel are provided with electromagnetism part, and the lower surface of the upper air duct wall in air duct is provided with can magnetic material Body, electromagnetism part be powered when, wind direction change-over panel electromagnetism part with can be rotated up under the magneticaction of magnetic material bodies, can block Air outlet realizes lower blowing mould formula so that heat exchange air-flow is blown out from lower air outlet；When electromagnetism part powers off, wind direction change-over panel is due to certainly Body gravity rotates down, and blocks lower air outlet, so that heat exchange air-flow is blown out from upper air outlet, blowing mould formula in realization.From there through Electromagnetism part with can magnetic material bodies magnetic force adjustment wind direction change-over panel position, avoid cloth centrally-mounted driving and bring cost Increase, and save indoor unit space, and can realize blowing mould formula and lower blowing mould formula, enriches air supply pattern, improve and send Wind comfort and the wind sense experience for improving user.

Further, in the air conditioner indoor unit of the utility model, by the way that wind-guiding in rotatable is arranged at lower air outlet Plate, can adjust the air-out direction at lower air outlet, and guidance air-flow is blown out downwards.

According to the accompanying drawings to the detailed description of the utility model specific embodiment, those skilled in the art will be more Add the above-mentioned and other purposes, advantages and features of clear the utility model.

Detailed description of the invention

Some specific realities of the utility model are described in detail by way of example and not limitation with reference to the accompanying drawings hereinafter Apply example.Identical appended drawing reference denotes same or similar part or part in attached drawing.It should be appreciated by those skilled in the art that The drawings are not necessarily drawn to scale.In attached drawing:

Fig. 1 is according to the schematic diagram of the air conditioner indoor unit of the utility model one embodiment, wherein upper wind deflector It opens, lower wind deflector is closed；

Fig. 2 is according to the schematic diagram of the air conditioner indoor unit of the utility model one embodiment, wherein upper wind deflector It closes, lower wind deflector is opened；

Fig. 3 be according to the diagrammatic cross-section of the air conditioner indoor unit of the utility model one embodiment, wherein upper wind deflector and Lower wind deflector is turned off；

Fig. 4 is according to the diagrammatic cross-section of the air conditioner indoor unit of the utility model one embodiment, wherein upper wind deflector is beaten It opens, lower wind deflector is closed；And

Fig. 5 is according to the diagrammatic cross-section of the air conditioner indoor unit of the utility model one embodiment, wherein upper wind deflector closes It closes, lower wind deflector is opened.

Specific embodiment

The air conditioner indoor unit 100 of the utility model embodiment is described referring to Fig. 1 to Fig. 5.Wherein, "upper", "lower", The orientation or positional relationship of the instructions such as "inner", "outside", " transverse direction " be based on the orientation or positional relationship shown in the drawings, merely to Convenient for describing the utility model and simplifying description, rather than the device or element of indication or suggestion meaning must have specific side Position is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

As shown in Figures 1 to 5, the air conditioner indoor unit 100 of the present embodiment is wall-hanging air conditioner indoor unit, generally may be used Including shell 110, evaporator 180 and blower 190.The air conditioner indoor unit 100 and air-conditioner outdoor unit (not shown) together constitute with steaming Air pressure contracting cooling cycle system realizes the refrigerating/heating to indoor environment.

The top of shell 110 is formed with air inlet 111a, and air-inlet grille 111, shell 110 can be disposed at air inlet 111a Lower front be formed with air outlet 110a, the lower front side of shell 110 be formed with upper air outlet 110a perforation it is lower go out Air port 110b.Lower air outlet 110b and upper air outlet 110a perforation refers to do not have between lower air outlet 110b and upper air outlet 110a Isolation, the two are two parts of an air outlet, superposed to be denoted as air outlet 110a, the outlet air under being denoted as of lower part Mouth 110b.Upper air outlet 110a and lower air outlet 110b are extended transversely.Shell 110 can be laterally (cross as fig. 1 indicates To direction) extend strip structure.

Evaporator 180 is used to carry out heat exchange with the air entered from air inlet 111a in shell 110, forms heat exchange wind (specifically, being cold wind when refrigeration, be hot wind when heating).Evaporator 180 is preferably front and the upper space for covering blower 190 Three-stage evaporator fin.

Blower 190 is preferably the cross flow fan that axis direction extends in transverse direction, for promoting air from air inlet 111a is flow at evaporator 180, and the supreme air outlet 110a of heat exchange air stream or lower formed after exchanging heat with evaporator 180 goes out At the 110b of air port, then blow to interior.

Shell 110 is internally provided with air duct 170, and air duct 170 is for heat exchange wind to be drained to from evaporator 180 At air outlet 110a and lower air outlet 110b, so that heat exchange wind is blown out from upper air outlet 110a or lower air outlet 110b, with reality The refrigerating/heating of existing indoor environment.Air duct 170 has upper air duct wall and lower air duct wall.

Particularly, air conditioner indoor unit 100 further include can magnetic material bodies 160, electromagnetism part 151 and the wind direction being rotatably arranged Change-over panel 150, can magnetic material bodies 160 be set to the lower surface of upper air duct wall, can magnetic material bodies 160 may generally be iron, cobalt Or nickel material body.Electromagnetism part 151 is set to the upper surface of wind direction change-over panel 150.

As shown in figure 5, electromagnetism part 151 and magnetic force can be generated between magnetic material bodies 160 when electromagnetism part 151 is powered, so that Wind direction change-over panel 150 around the first transverse axis be rotated up to make electromagnetism part 151 with can magnetic material bodies 160 be in contact, this When, the location of wind direction change-over panel 150 is denoted as turned position, and the wind direction change-over panel 150 in turned position can block Air port 110a, exchanging air stream blow to interior by lower air outlet 110b.

As shown in Figure 3 and Figure 4, when electromagnetism part 151 powers off, electromagnetism part 151 and can the magnetic force between magnetic material bodies 160 disappear It loses, wind direction change-over panel 150 is since self gravity around the first transverse axis is swung down to initial position, the wind in initial position Lower air outlet 110b can be blocked to change-over panel 150.

By electromagnetism part 151 with can magnetic material bodies 160 magneticaction realize wind direction change-over panel 150 rotation, save The inner space of the indoor unit of arrangement stepper motor driven cost and occupancy, reduce indoor unit overall volume and at This.

Electromagnetism part 151 on wind direction change-over panel 150 is connected by the conducting wire of sufficient length and the power supply of indoor unit, is led The length of line meets rotation of the wind direction change-over panel 150 between initial position and turned position.

The rotation axis of wind direction change-over panel 150 is closed at the position that air outlet 110a and lower air outlet 110b has a common boundary, wind direction First end in 150 width direction of change-over panel is connected in the rotation axis of wind direction change-over panel 150, the second end in width direction to Extend on the inside of air duct 170.Optionally, electromagnetism part 151 may be disposed at the upper surface of the second end of wind direction change-over panel 150.

Far from the location of one end of the first transverse axis in 150 width direction of wind direction change-over panel of initial position Lower than the location of other end, in other words, the second end institute in 150 width direction of wind direction change-over panel of initial position The position at place is lower than the location of first end, so that the wind direction change-over panel 150 for being located at initial position is in acclivitous state, Convenient for wind-guiding upwards.

The upper air duct wall in air duct 170 is in that gradually inclination extends upwards from the front to the back, and heat exchange air-flow is along in initial position Wind direction change-over panel 150 and upper air duct wall blow out air outlet 110a upwards, blow wind in realization.The lower air duct wall in air duct 170 Extend from the front to the back in inclination gradually downward, is convenient for when lower air outlet 110b is opened, downward wind-guiding.

As shown in Figure 3, Figure 4, the position for lower part being closed on front side of lower air duct wall is formed with recessing groove 170a, is in initial bit One end in 150 width direction of wind direction change-over panel set far from the first transverse axis is located in recessing groove 170a, so that in just The wind direction change-over panel 150 of beginning position is abutted with lower air duct wall, completely obscured lower air outlet 110b.

In some embodiments, air conditioner indoor unit 100 further includes upper wind deflector 120, and upper wind deflector 120 can be rotatably set At upper air outlet 110a, the rotation of the second transverse axis is configured to rotate about to open or close upper air outlet 110a.For example, indoor unit 100 do not work or when lower blowing mould formula, upper wind deflector 120 can be rotated up to air outlet is closed, prevent introduced contaminants by it is upper go out Air port 110a is entered the room in machine, and makes the shape of indoor unit 100 more beautiful.It is blown on indoor unit 100 or when flat blowing mould formula, Upper wind deflector 120 is rotated down by closed state, air outlet 110a in opening, and exchanging air stream blows to room by upper air outlet 110a It is interior.

The second transverse axis that upper wind deflector 120 rotates can be conllinear with the first transverse axis that wind direction change-over panel 150 rotates, In other words, the rotation axis of upper wind deflector 120 and the rotation axis of wind direction change-over panel 150 are located on the straight line being laterally extended, so that Overall structure is more compact, reduces the space of occupied indoor unit 100.Upper wind deflector 120 turns to the upper air outlet of closing When the position of 110a, the outer surface of upper wind deflector 120 is substantially coplanar with the front surface of shell 110, so that the shape of indoor unit 100 It is more beautiful.

In some embodiments, indoor unit further includes lower wind deflector 130, and lower wind deflector 130 is rotatablely arranged at down At the 110b of air port, it is configured to rotate about the rotation of third transverse axis, to open or close lower air outlet 110b.For example, indoor unit 100 is not It works or puts down and blow, under upper blowing mould formula, lower wind deflector 130 is rotated up by open position, is closed lower air outlet 110b, is prevented the external world Impurity is entered the room in machine by lower air outlet 110b, and makes the shape of indoor unit 100 more beautiful.It is blown under indoor unit 100 When mode, lower wind deflector 130 is rotated down by closed position, opens lower air outlet 110b, and exchanging air stream passes through lower air outlet 110b blows to interior.

In some embodiments, indoor unit 100 further includes internal air baffle 140, and internal air baffle 140 is arranged in lower air outlet At 110b, and it is located at the inside of lower wind deflector 130, is configured to rotate about the 4th transverse axis and rotationally adjusts lower air outlet 110b's Air-out direction.As shown in Figures 2 to 5, the width dimensions of internal air baffle 140 are less than the width dimensions of lower wind deflector 130, interior wind-guiding The length dimension of plate 140 is less than the length dimension of lower wind deflector 130.As shown in figure 5, electromagnetism part 151 is powered, wind direction change-over panel 150 are located at turned position, and lower wind deflector 130 turns to when opening lower air outlet 110b, and internal air baffle 140 is can turn to and wind The position substantially abutted to the lower surface of change-over panel 150, so that the lower blowout of exchanging air flow direction, realizes the lower blowing mould of air-conditioning Formula.

Air conditioner indoor unit 100 further includes that first motor (not shown), the second motor (not shown) and third motor (do not show Out), first motor can be one or two, be set to the end of 110 transverse direction of shell, connect with upper wind deflector 120, drive Upper wind deflector 120 rotates；Second motor can be one or two, the end of 110 transverse direction of shell is set to, with lower wind deflector 130 connections drive lower wind deflector 130 to rotate；Third motor can be one or two, be set to the end of 110 transverse direction of shell Portion is connect with internal air baffle 140, and internal air baffle 140 is driven to rotate.

In some embodiments, as shown in Figures 2 to 5, it is equipped in air duct 170 and multiple leads wind pendulum leaf 101, multiple wind-guidings Pendulum leaf 101 arranges in transverse direction, and is configured to adjust to rotation air outlet 110a or the transverse direction of lower air outlet 110b goes out Wind direction is guided by the left of wind direction transverse direction or to the right.Wind pendulum leaf 101 is led in existing wall-hanging air conditioner indoor unit 100 Using extensive, details are not described herein its specific structure.

The air conditioner indoor unit 100 of the utility model embodiment passes through wind direction change-over panel 150, upper wind deflector 120, lower wind deflector 130 and internal air baffle 140 common adjusting, can be realized a variety of air supply patterns:

(1) blowing mould formula on.As shown in figure 4, electromagnetism part 151 powers off, wind direction change-over panel 150 is repositioned to downwards initial position, Lower air outlet 110b is blocked, internal air baffle 140 and lower wind deflector 130 are turned off lower air outlet 110b, and upper wind deflector 120 is opened. At this point, wind raises up, blowout (arrow instruction as shown in Figure 4), will not blow to user, but will not influence refrigerating/heating performance, It realizes the air-supply effect for not blowing people, user is avoided to cause discomfort by wind blow-through, promote the wind sense experience of user.Air-conditioning freezes Or when heating, it can be used and do not blow people's mode.

(2) blowing mould formula under.As shown in figure 5, electromagnetism part 151 is powered, wind direction change-over panel 150 is rotated up to turned position, Air outlet 110a is blocked, upper wind deflector 120 is closed, and lower wind deflector 130 is opened, and internal air baffle 140 is turned to be converted with wind direction The position that the lower surface of plate 150 substantially abuts, internal air baffle 140 and wind direction change-over panel 150 will guide under wind direction, make straight under wind direction Blow (arrow instruction as shown in Figure 5).Lower blowing mould formula can be used in heating in air-conditioning, has because hot-air density is smaller and rises Trend as far as possible blows downwards hot wind, can enhance heating effect.

The air conditioner indoor unit 100 of the present embodiment, shell 110 are formed with air outlet 110a and lower air outlet 110b, air duct Wind direction change-over panel 150 is provided in 170, the upper surface of wind direction change-over panel 150 is provided with electromagnetism part 151, the upper air duct in air duct 170 The lower surface of wall be provided with can magnetic material bodies 160, electromagnetism part 151 be powered when, wind direction change-over panel 150 electromagnetism part 151 with can It is rotated up under the magneticaction of magnetic material bodies 160, air outlet 110a can be blocked, so that heat exchange air-flow is from lower air outlet Lower blowing mould formula is realized in 110b blowout；When electromagnetism part 151 powers off, wind direction change-over panel 150 is blocked since self gravity rotates down Lower air outlet 110b, so that heat exchange air-flow is blown out from upper air outlet 110a, blowing mould formula in realization.From there through electromagnetism part 151 with Can magnetic material bodies 160 magnetic force adjustment wind direction change-over panel 150 position, avoid cloth centrally-mounted driving and bring cost increases Add, and save 100 space of indoor unit, and can realize blowing mould formula and lower blowing mould formula, enriches air supply pattern, improve and send Wind comfort and the wind sense experience for improving user.

Further, in the air conditioner indoor unit 100 of the present embodiment, by being arranged in rotatable at lower air outlet 110b Wind deflector 140, can adjust the air-out direction at lower air outlet 110b, and guidance air-flow is blown out downwards.

So far, although those skilled in the art will appreciate that the more of the utility model have been shown and described in detail herein A exemplary embodiment still, still can be according to the utility model public affairs in the case where not departing from the spirit and scope of the utility model The content opened directly determines or derives many other variations or modifications for meeting the utility model principle.Therefore, this is practical new The range of type is understood that and regards as to cover all such other variations or modifications.

Claims (10)

1. a kind of air conditioner indoor unit characterized by comprising

Shell, the lower front of the shell are formed with air outlet, and the lower front side of the shell is formed with above to be gone out with described The lower air outlet of air port perforation；

Air duct is set to the enclosure interior, for guiding to the upper air outlet and described time the intracorporal wind of the shell At air port, the air duct has upper air duct wall and lower air duct wall；

Can magnetic material bodies, be set to the lower surface of the upper air duct wall；And

Electromagnetism part and wind direction change-over panel, the electromagnetism part are set to the upper surface of the wind direction change-over panel, the wind direction change-over panel It is set in the air duct；

The wind direction change-over panel be configured to when the electromagnetism part be powered when the electromagnetism part and it is described can magnetic material bodies magnetic Power effect under be rotated up around the first transverse axis to turned position, when the electromagnetism part power-off when under self gravitation effect around First transverse axis is swung down to initial position；And

The wind direction change-over panel in the initial position blocks the lower air outlet, the wind in the turned position The upper air outlet is blocked to change-over panel.

2. air conditioner indoor unit according to claim 1, it is characterised in that

Locating for one end in the wind direction change-over panel width direction of the initial position far from first transverse axis Position the location of lower than other end.

3. air conditioner indoor unit according to claim 1, it is characterised in that

The upper air duct wall is in that gradually inclination extends upwards from the front to the back；

The lower air duct wall is in that inclination gradually downward extends from the front to the back；And

The position that lower part is closed on front side of the lower air duct wall is formed with recessing groove, and the wind direction in the initial position turns It changes board width side and is upwardly away from one end of first transverse axis and be located in the recessing groove.

4. air conditioner indoor unit according to claim 1, it is characterised in that further include:

Upper wind deflector is rotatablely arranged at the upper air outlet, is configured to rotate about the rotation of the second transverse axis, to play on or off Close the upper air outlet.

5. air conditioner indoor unit according to claim 4, it is characterised in that

First transverse axis is conllinear with second transverse axis.

6. air conditioner indoor unit according to claim 4, it is characterised in that

When the upper wind deflector turns to the position for closing the upper air outlet, the outer surface of the upper wind deflector and the shell Front surface it is coplanar.

7. air conditioner indoor unit according to claim 1, it is characterised in that further include:

Lower wind deflector is rotatablely arranged at the lower air outlet, is configured to rotate about the rotation of third transverse axis, to play on or off Close the lower air outlet.

8. air conditioner indoor unit according to claim 7, it is characterised in that further include:

Internal air baffle is located at the lower air outlet, and is located at the inside of the lower wind deflector, is configured to rotate about the 4th transverse axis Rotationally adjust the air-out direction at the lower air outlet.

9. air conditioner indoor unit according to claim 8, it is characterised in that

The width dimensions of the internal air baffle are less than the width dimensions of the lower wind deflector, and

It is located at the turned position in the wind direction change-over panel, and the lower wind deflector turns to when opening the lower air outlet, The internal air baffle is can turn to abut with the lower surface of the wind direction change-over panel.

10. air conditioner indoor unit according to claim 1, it is characterised in that further include:

It is multiple to lead wind pendulum leaf, the multiple inside led wind pendulum leaf and be arranged at intervals at the lower air duct wall in transverse direction, and match It is set to the lateral air-out direction that can adjust to rotation the upper air outlet or the lower air outlet.