CN108397823A - Wall-hanging air conditioner indoor unit - Google Patents

Abstract

The present invention provides a kind of wall-hanging air conditioner indoor unit, including shell, lower front has upper air outlet and lower air outlet；Air duct；Deflector, front end are pivotably mounted between two air outlets, and are configured to can be pivoted up to making its rear end be resisted against under the upper wall of air duct and are blown position, with the access of the supreme air outlet of closing air flue；Can be pivoted down into make its rear end be resisted against air duct lower wall on blow position, with closing air flue to the access of lower air outlet；Upper air outlet lower edge, which is originated to the back lower place, extends the first arc plate that axis is located at its back upper place, extend the second arc plate that axis is located at its back upper place from the starting of deflector front upper surface, air deflector in it is upper blow position when, first arc plate and the second arc plate joining distal ends and axis coincidence, to guide air flow direction.

Description

Wall-hanging air conditioner indoor unit

Technical field

The present invention relates to air-conditioning technique field, more particularly to a kind of wall-hanging air conditioner indoor unit.

Background technology

With popularizing for air-conditioning, user is higher and higher to the comfort of air-supply and the requirement of health.Existing air-conditioning Pattern is single, and cold-hot wind directly blows to human body if not by processing, and user can feel uncomfortable.Not only wind sense experience compared with Difference, but also health can be influenced.

Invention content

The invention aims to provide a kind of wall-hanging air conditioner indoor unit, to enrich air supply pattern, relaxing for user is promoted Appropriateness improves the wind sense experience of user.

Particularly, the present invention provides a kind of wall-hanging air conditioner indoor units, including：

Shell, lower front have the upper air outlet being arranged above and below and lower air outlet；

Air duct, for guiding the wind in the shell to the upper air outlet and the lower air outlet；

Deflector, front end is pivotably mounted between the upper air outlet and the lower air outlet, and is configured to：

It can be pivoted up to making its rear end be resisted against under the air duct upper wall and blow position, to close the air duct to described The access of upper air outlet makes wind be only capable of blowing out from the lower air outlet；

Can be pivoted down into make its rear end be resisted against the air duct lower wall on blow position, to close the air duct to described The access of lower air outlet makes wind be only capable of blowing out from the upper air outlet；And

The upper air outlet lower edge, which is originated to the back lower place, extends the first arc plate that axis is located at its back upper place, from institute It states the starting of deflector front upper surface and extends the second arc plate that axis is located at its back upper place, in the air deflector in described On when blowing position, first arc plate and the second arc plate joining distal ends and axis overlap, to guide air flow direction.

Optionally, the initiating terminal of second arc plate and the deflector are tangent.

Optionally, the rear upper surface of the deflector and air duct lower wall front are flexure plane, with described When air deflector blows position on described, the rear part upper surface is made smoothly to connect with the air duct lower wall.

Optionally, when blowing position on described, the rear part upper surface is connect the deflector with the air duct lower wall Place collectively constitutes a round involute-type surface.

Optionally, when the air deflector blows position under described, make the deflector and the air duct lower wall from It tilts and extends gradually downward before backward；And when the air deflector blows position on described, make the deflector and the wind Road upper wall gradually tilts upwards from back to front to be extended.

Optionally, wind deflector is provided at the lower air outlet, the wind deflector is configured to rotate around a transverse axis Ground adjusts the air-out direction up and down of the lower air outlet.

Optionally, when the air deflector blows position on described, the wind deflector is made to be located at the outer of the deflector Side.

Optionally, motor is installed at the pivotal axis of the deflector, for driving the deflector to pivot.

Optionally, be equipped at the lower wall in the air duct it is multiple lead wind pendulum leaf, it is multiple described to lead wind pendulum leaf in transverse direction Arrangement, and be configured to adjust to rotation the left and right air-out direction of the upper air outlet and the lower air outlet.

Optionally, it is provided with air outlet grate at the upper air outlet.

Two air outlets of setting and a deflector, enrich air supply pattern in the wall-hanging air conditioner indoor unit of the present invention. Deflector is switched to when blowing position, and wind can be made only to be blown out from upper air outlet, so that wind is raised up, will not blow to user, but also not Refrigerating/heating performance can be influenced, realizes the air-supply effect for not blowing people, promotes the wind sense experience of user.Deflector, which is switched to down, to be blown When position, makes wind be only capable of blowing out from lower air outlet, realize the powerful refrigerating/heating effect of normal mode.

Further, in wall-hanging air conditioner indoor unit of the invention, air deflector in it is upper blow position when, water conservancy diversion prelaminar part Connected by two arc plates with upper air outlet lower edge, keeps connection transition between the two more smooth, it can be suitable by air-flow Supreme air outlet freely is guided, avoids generating vortex here, reduces crushing, reduces windage, air quantity loss.

Further, in wall-hanging air conditioner indoor unit of the invention, deflector is when in position is above blown, the rear part upper table Face collectively constitutes a round involute-type surface with air duct lower wall junction can make gently to flow through by air-flow herein, rise It to cushioning effect, avoids generating vortex herein, reduces air quantity loss.

According to the following detailed description of specific embodiments of the present invention in conjunction with the accompanying drawings, those skilled in the art will be brighter The above and other objects, advantages and features of the present invention.

Description of the drawings

Some specific embodiments that the invention will be described in detail by way of example and not limitation with reference to the accompanying drawings hereinafter. Identical reference numeral denotes same or similar component or part in attached drawing.It should be appreciated by those skilled in the art that these What attached drawing was not necessarily drawn to scale.In attached drawing：

Fig. 1 is the schematic elevational view of the wall-hanging air conditioner indoor unit of one embodiment of the invention；

Fig. 2 is the sectional view of the wall-hanging air conditioner indoor unit of one embodiment of the invention, and wherein air deflector blows position in upper It sets；

Fig. 3 is the sectional view of the wall-hanging air conditioner indoor unit of one embodiment of the invention, and wherein air deflector blows position under It sets, wind deflector is in vertical state；

Fig. 4 is the sectional view of the wall-hanging air conditioner indoor unit of one embodiment of the invention, and wherein air deflector blows position under It sets, wind deflector is in horizontality；

Fig. 5 is enlarged drawing at the M of Fig. 2；

Fig. 6 is the close-up schematic view of two arc section junctions；

Fig. 7 is the generation type schematic diagram of round involute.

Specific implementation mode

The wall-hanging air conditioner indoor unit of the embodiment of the present invention is described referring to Fig. 1 to Fig. 7.Wherein, "front", "rear", The orientation or positional relationship of the instructions such as "upper", "lower", "top", "bottom", "inner", "outside", " transverse direction " is side based on ... shown in the drawings Position or position relationship, are merely for convenience of description of the present invention and simplification of the description, do not indicate or imply the indicated device or member Part must have a particular orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.

As shown in Figures 1 to 4, the wall-hanging air conditioner indoor unit of the embodiment of the present invention may include shell 100, steams in general manner Device 900, wind turbine 800, air duct 300 and two air outlets are sent out, two air outlets are respectively upper air outlet 120 and lower air outlet 130.The wall-hanging air conditioner indoor unit together constitutes with Vapor Compression Refrigeration Cycle system, realization pair with air-conditioner outdoor unit (not shown) The refrigerating/heating of indoor environment.

Wind turbine is preferably the axis direction cross flow fan 800 that (i.e. the left and right directions of Fig. 1 marks) extends in transverse direction, is used In promoting air to be flow to from evaporator 900 at upper air outlet 120 or lower air outlet 130, then blow to interior.

Evaporator 900 is used to carry out heat exchange with the air for entering shell 100 from air inlet 110, forms heat exchange wind (tool Body, when refrigeration are cold wind, and when heating is hot wind).Evaporator 900 preferably covers 800 front of cross flow fan and superjacent air space Three-stage evaporator fin.

The top of shell 100 has air inlet 110, has air-inlet grille at air inlet 110.The lower front of shell 100 It is provided with upper air outlet 120 above-mentioned and lower air outlet 130.Upper air outlet 120 and lower air outlet 130 arrange along the vertical direction. Upper air outlet 120 is in upside and is arranged forward, and lower air outlet 130 is in downside and opened downward facing forward.Such as Fig. 1, shell 100 can be The strip structure that laterally (i.e. left and right directions) extends.Upper air outlet 120 and lower air outlet 130 are the length extended in transverse direction Strip gab.

Air duct 300 is provided in shell 100, the arrival end in air duct 300 is located at cross flow fan 800, and outlet end is located at two At a air outlet.Air duct 300 is used to heat exchange wind being drained at air outlet from evaporator 900, and wind is made to be blown out from air outlet, To realize the refrigerating/heating of indoor environment.

The front end of deflector 500 is pivotably mounted on the shell 100 between air outlet 120 and lower air outlet 130, The position of pivotal axis 510 is as shown in Figure 2.The extending direction of pivotal axis 510 is to extend in transverse direction.

Fig. 2 to Fig. 4 illustrates wind direction using arrow line.As shown in Figure 3 and Figure 4, deflector 500 can be pivoted up to making Its rear end, which is resisted against under 300 upper wall of air duct, blows position, to close the air duct 300 to the access of the upper air outlet 120, makes Wind is only capable of blowing out from the lower air outlet 130.As shown in Fig. 2, can also be pivoted down into deflector 500 makes its rear end be resisted against Position is blown on 300 lower wall of air duct, with closing air flue 300 to the access of lower air outlet 130, wind is made to be only capable of from upper air outlet 120 Blowout.

Specifically, air duct 300 is made of upper volute 320 and lower spiral case 310, under inner wall, that is, air duct 300 of lower spiral case 310 Wall, the upper wall in inner wall, that is, air duct 300 of upper volute 320.When blowing position on deflector 500 is in above-mentioned, its rear end can be made It is resisted against at the leading edge of lower spiral case 310.Upper volute 320 has volute tongue 321, when blowing position under deflector 500 is in, thereafter End is resisted against at volute tongue 321, after deflector 500 and lower spiral case 310 together constitute with new air duct, to make the upper wall weight of fresh flue Complete spiral case inlet pressure is newly constituted, so that wind direction is met the flow direction requirement of cross flow fan 800, promotes fan efficiency.

As shown in Figures 2 to 5, the lower edge starting of upper air outlet 120 extends back the first arc plate AC, axis (the O axis that horizontal direction extends) is located at its back upper place.Extend the second arc plate from the starting of the front upper surface of deflector 500 BK, axis are located at its back upper place.When deflector 500 is in and above blows position, the end C points of the first arc plate AC and the second circle The end K points of arc plate BK connect, and the axis of the two overlaps (being O axis), so that two arc plates form a central angle more Big arc plate.

In the present embodiment, the edge of upper air outlet 120 is connected with the front end of deflector 500 using two arc plates, transition It is more smooth, supreme air outlet 120 will can be more swimmingly guided, avoids generating vortex in the two junction, reduces crushing, Reduce windage, air quantity loss.

Further, can be made such as Fig. 5 in order to keep the connection between the second arc section BK and deflector 500 gentler The initiating terminal and deflector 500 of two arc plate BK is tangent, and point of contact is B points.

Further, as shown in fig. 6, end (C-terminal) rear portion of the first arc section AC can be made to extend downwardly out rib 170. When deflector 500 is in and above blows position, the end (ends K) of the second arc section BK is resisted against the front side of rib 170.So that the two Between sealing it is even closer, and deflector 500 will not be hindered to be pivoted up.

In some embodiments, 310 front of lower wall of the rear upper surface and air duct 300 that can make deflector 500 is Flexure plane, when blowing position on deflector 500 is in described, the rear part upper surface smoothly connects with the lower wall 310 in air duct 300, It can make gently to flow through by air-flow herein, play cushioning effect, avoid generating vortex herein, reduce air quantity loss.

In this way, such as Fig. 2 and Fig. 5, when deflector 500 turns to and blows position, the GF sections of the bottom wall 310 in air duct 300 are led The ED sections of flowing plate 500, DB sections flat, the second arc section BK and the first arc section AC are sequentially connected, the top with air duct 300 Wall jointly swimmingly guides wind at supreme air outlet 120, keeps its loss smaller.Also, wind direction front upper place is made to tilt blowout.

Specifically, such as Fig. 5, in deflector 500 when in position is above blown, rear portion BK sections of deflector 500 and air duct The FG sections of the front end of 300 lower wall 310 connect, and DG sections can be made to collectively constitute a round involute-type surface.

The forming process of involute is not added with herein to be repeated, such as Fig. 7, if the radius of the basic circle of involute is r, with the basic circle center of circle Coordinate system is established for origin, then can obtain the parametric equation of involute：X=r (sin β-β cos β), y=r (cos β+β sin β), formula In, β is the angle pinpointed between E and circle center line connecting and Y-axis.Wherein, 15mm≤r≤30mm preferably takes 24,210 °≤β≤270 °, It is preferred that 230 °≤β≤265 °.

Such as Fig. 5, if the width of deflector 500 is L (BK), preferably make the initiating terminal K points of the second arc section BK to deflector The distance L (HK) of 500 front end H points meets following relationship：

0.2*L(BK)≤L(HK)≤0.4*L(BK)。

In some embodiments, as shown in Figure 3 and Figure 4, when blowing position under deflector 500 is in aforementioned, make deflector 500 and air duct 300 lower wall from back to front gradually downward tilt extend so that wind direction inclined downward facing forward.As shown in Fig. 2, When blowing position on deflector 500 is in aforementioned, make deflector 500 and the upper wall in air duct 300 from back to front gradually to updip Tiltedly extend, so that wind direction inclined upward facing forward.

In some embodiments, as shown in Figures 1 to 4, it is provided with wind deflector 200 at lower air outlet 130.Wind deflector 200 It is configured to rotationally adjust the air-out direction up and down of lower air outlet 130 around a transverse axis.In addition, being in deflector 500 When blowing position on aforementioned, wind deflector 200 is made to be located at the outside of deflector 500, so as to need not descend air outlet 130 blow when, The lower air outlet 130 of the closing of wind deflector 200 is set to keep air conditioner indoor unit bottom appearance more beautiful such as Fig. 1 and Fig. 2.

Deflector 500 be in above blow position or under blow position when, need to keep its front end and the inner wall sealing of shell 100 good It is good, to avoid leaking out, the problems such as generating noise, condensation.But as only considered sealing performance, by the front end of deflector 500 Between the inner wall of shell 100 gap design it is too small, and be easy to cause deflector 500 rotate it is laborious or even stuck.

For this purpose, in some preferred embodiments, as shown in figure 5, the inner wall of shell 100 is close to the front end of deflector 500 Part be curved surfaces 150, curved surfaces 150 and the pivotal axis 510 of deflector 500 are coaxial, deflector 500 rotate when, Its front end (being rotated around pivotal axis 510) is bonded curved surfaces 150 and slides, to make deflector 500 and shell 100 inner wall it Between good seal, and not will produce stuck.

In some embodiments, as shown in Figures 2 to 4, be equipped at the lower wall in air duct 300 it is multiple lead wind pendulum leaf 400, it is more A wind pendulum leaf 400 of leading arranges in transverse direction, and is configured to adjust to rotation a left side for air outlet 120 and lower air outlet 130 Right air-out direction guides wind to the left or to the right.Wind pendulum leaf is led to use extensively, herein not in existing wall-hanging air conditioner indoor unit Its concrete structure is repeated again.

In some embodiments, it is provided with air outlet grate at upper air outlet 120.The setting of air outlet grate makes air outlet 120 is more beautiful.Meanwhile air outlet grate can be made to be configured to after so that wind is passed through, forward upward tilts blowout, makes it have guiding wind To effect.

The wall-hanging air conditioner indoor unit of the embodiment of the present invention can realize a variety of air supply patterns：

(1) people's pattern is not blown.As shown in Fig. 2, deflector 500, which is in, above blows position.The blowout at this point, wind raises up, will not blow To user, but refrigerating/heating performance will not be influenced, realize the air-supply effect for not blowing people, user is avoided to be caused not by wind blow-through It is suitable, promote the wind sense experience of user.When air-conditioning is freezed or heated, it can be used and do not blow people's pattern.

(2) powerful heating mode.As shown in figure 3, deflector 500, which is in down, blows position, and wind deflector 200 will draw under wind direction It leads, makes blow-through under wind direction.There is ascendant trend because hot-air density is smaller, as possible blow hot wind downwards, heating effect can be enhanced Fruit.

(3) powerful refrigeration mode.As shown in figure 4, deflector 500, which is in down, blows position, and wind deflector 200 is by wind direction leading It leads, makes wind direction fore blow, there is sinking tendency because cold air density is larger, cold wind is blown upwards as possible, refrigeration effect can be enhanced.

So far, although those skilled in the art will appreciate that present invention has been shown and described in detail herein multiple shows Example property embodiment still without departing from the spirit and scope of the present invention, still can according to the present disclosure directly Determine or derive many other variations or modifications consistent with the principles of the invention.Therefore, the scope of the present invention is understood that and recognizes It is set to and covers other all these variations or modifications.

Claims (10)

1. a kind of wall-hanging air conditioner indoor unit, it is characterised in that including：

Shell, lower front have the upper air outlet being arranged above and below and lower air outlet；

Air duct, for guiding the wind in the shell to the upper air outlet and the lower air outlet；

Deflector, front end is pivotably mounted between the upper air outlet and the lower air outlet, and is configured to：

It can be pivoted up to making its rear end be resisted against under the air duct upper wall and blow position, to close the air duct to going out on described The access in air port makes wind be only capable of blowing out from the lower air outlet；

Can be pivoted down into make its rear end be resisted against the air duct lower wall on blow position, to close the air duct to going out under described The access in air port makes wind be only capable of blowing out from the upper air outlet；And

The upper air outlet lower edge, which is originated to the back lower place, extends the first arc plate that axis is located at its back upper place, is led from described The second arc plate that axis is located at its back upper place is extended in the starting of flowing plate front upper surface, is blown on described in the air deflector When position, first arc plate and the second arc plate joining distal ends and axis overlap, to guide air flow direction.

2. wall-hanging air conditioner indoor unit according to claim 1, which is characterized in that

The initiating terminal and the deflector of second arc plate are tangent.

3. wall-hanging air conditioner indoor unit according to claim 1, which is characterized in that

First arc section end rear portion extends downwardly out rib, the air deflector in it is described blow position when, described Two arc section ends are resisted against on front side of the rib.

4. wall-hanging air conditioner indoor unit according to claim 1, which is characterized in that

The rear upper surface of the deflector and air duct lower wall front are flexure plane, in the air deflector in institute It states when blowing position, the rear part upper surface is made smoothly to connect with the air duct lower wall.

5. wall-hanging air conditioner indoor unit according to claim 4, which is characterized in that

For the deflector when blowing position on described, the rear part upper surface collectively constitutes one with air duct lower wall junction The involute-type surface of a circle.

6. wall-hanging air conditioner indoor unit according to claim 1, which is characterized in that

When the air deflector blows position under described, make the deflector and the air duct lower wall from back to front gradually to Lower inclination extends；And

When the air deflector blows position on described, make the deflector and the air duct upper wall from back to front gradually to Upper inclination extends.

7. wall-hanging air conditioner indoor unit according to claim 1, which is characterized in that

Be provided with wind deflector at the lower air outlet, the wind deflector be configured to can rotationally to adjust around a transverse axis it is described under The air-out direction up and down of air outlet.

8. wall-hanging air conditioner indoor unit according to claim 7, which is characterized in that

When the air deflector blows position on described, the wind deflector is made to be located at the outside of the deflector.

9. wall-hanging air conditioner indoor unit according to claim 1, which is characterized in that

Motor is installed at the pivotal axis of the deflector, for driving the deflector to pivot.

10. wall-hanging air conditioner indoor unit according to claim 1, which is characterized in that

The inner walls are the curved surfaces coaxial with the pivotal axis of the deflector close to the part of the water conservancy diversion front edge of board, For the deflector in rotation, front end is bonded the curved surfaces sliding, to realize in the deflector and the shell The sealing of wall.