CN106287936B - Air conditioner and control method thereof - Google Patents

Abstract

The invention provides an air conditioner and a control method thereof, wherein the air conditioner comprises: the air duct (10), an air outlet of the air duct (10) is divided into at least two sub-air outlets, and the air supply directions of all the sub-air outlets have included angles; and the wind shielding switching mechanism is movably arranged at the air outlet of the air duct (10) to enable at least one sub-air outlet to be in a closed state and enable the rest sub-air outlets to be in an air supply state, or enable all the sub-air outlets to be in an air supply state. The technical scheme of the invention effectively solves the problems of single air supply mode and poor flexibility of the air conditioner in the prior art.

Description

The control method of air conditioner and air conditioner

Technical field

The present invention relates to air-conditioning technical fields, in particular to the control method of a kind of air conditioner and air conditioner.

Background technique

Currently, only one most air outlet of air conditioner in the market.No matter what mode air conditioner is in, wind is only It can be blown out from this air outlet.In above-mentioned air conditioner, it can be rotated by the wind deflector at driving mechanisms control air outlet edge To achieve the purpose that change air-out direction.But the air supply pattern of such air conditioner is single, flexibility is not strong, so as to cause sky The comfort of device is adjusted to receive certain limitation.

Summary of the invention

The main purpose of the present invention is to provide the control methods of a kind of air conditioner and air conditioner, to solve in the prior art Air conditioner air supply pattern is single, problem that flexibility is not strong.

To achieve the goals above, according to an aspect of the invention, there is provided a kind of air conditioner, comprising: air duct, air duct An air outlet be separated at least two sub- air outlets, and all have angle between the air supply direction of all sub- air outlets； Keep out the wind switching mechanism, and the switching mechanism that keeps out the wind is movably arranged at the air outlet in air duct to make all sub- air outlets be in air-supply shape State, alternatively, making at least one sub- air outlet be in closed state and remaining sub- air outlet being made to be in ventilation state.

Further, the switching mechanism that keeps out the wind includes baffle.

Further, the switching mechanism that keeps out the wind is pivotally disposed at air outlet.

Further, sub- air outlet is two, and two sub- air outlets include the first sub- air outlet and the second sub- air outlet, gear Wind switching mechanism is pivotally disposed at air outlet, the switching mechanism that keeps out the wind have the first operating position, the second operating position with And third operating position, wherein when the switching mechanism that keeps out the wind is in the first operating position, the switching mechanism that keeps out the wind blocks the first son and goes out Simultaneously open the second sub- air outlet in air port；When the switching mechanism that keeps out the wind is in the second operating position, the switching mechanism that keeps out the wind blocks second Sub- air outlet simultaneously opens the first sub- air outlet；When the switching mechanism that keeps out the wind is in third operating position, the switching mechanism that keeps out the wind is located at Simultaneously open the first sub- air outlet and the second sub- air outlet in the middle part in air duct.

Further, air duct includes the spiral case being oppositely arranged and volute tongue, baffle include the first wind-guiding face towards volute tongue with And the second wind-guiding face towards spiral case, when baffle is in the first operating position, the overlap joint side of baffle is overlapped on spiral case, and first Wind-guiding face and spiral case smoothly transit cooperation, form first be connected to the second sub- air outlet between the first wind-guiding face and volute tongue and lead to Road；When baffle is in the second operating position, the overlap joint side of baffle is overlapped in volute tongue, and the second wind-guiding face smoothly transits with volute tongue Cooperation forms the second channel being connected to the first sub- air outlet between the second wind-guiding face and spiral case；Baffle is in third working position When setting, the overlap joint side of baffle is located at the middle part in air duct and forms free end, is formed between volute tongue and the first wind-guiding face and the second son The third channel of air outlet connection, forms the fourth lane being connected to the first sub- air outlet between spiral case and the second wind-guiding face.

Further, the first wind-guiding face of baffle is in plane.

Further, the second wind-guiding face of baffle is in cambered surface.

Further, the second wind-guiding face has the wind-guiding recess portion positioned at middle part.

Further, the air supply direction of the first sub- air outlet is vertical direction, and the air supply direction of the second sub- air outlet is water Square to.

Further, air conditioner is wall-mounted air conditioner.

According to another aspect of the present invention, a kind of control method of air conditioner is provided, for controlling above-mentioned air conditioner, Control method includes: that the switching mechanism that keeps out the wind of air conditioner is made to move to the first operating position, the second operating position or third work Make position；Wherein, the switching mechanism that keeps out the wind moves to the first operating position, is located in the sub- air outlet of at least two of air conditioner most lower The sub- air outlet of side is in closed state, remaining sub- air outlet is in ventilation state, and air conditioner is in refrigerating state at this time；Gear Wind switching mechanism moves to the second operating position, is located at the sub- air outlet of the top in the sub- air outlet of at least two of air conditioner In closed state, remaining sub- air outlet is in ventilation state, and air conditioner is in heating state at this time；The switching mechanism that keeps out the wind movement To third operating position, all sub- air outlets of air conditioner are in ventilation state, and air conditioner is in refrigerating state or system at this time Warm status.

Further, control method further include: when the switching mechanism that keeps out the wind is in third operating position, according to sub- air outlet The requirement of air output adjusts the position for the switching mechanism that keeps out the wind.

It applies the technical scheme of the present invention, the switching mechanism that keeps out the wind is set at the air outlet in air duct.It is cut by above-mentioned keep out the wind The movement transformation of structure itself of changing planes can change the use state of sub- air outlet, can make sub- air outlet be in closed state or Ventilation state to change the air supply direction of air conditioner, and keeps the air supply pattern of air conditioner more diversified, enhances air conditioner Using flexible, can satisfy the different use demands of user, improve the comfort and user experience of air conditioner.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide further understanding of the present invention, and of the invention shows Examples and descriptions thereof are used to explain the present invention for meaning property, does not constitute improper limitations of the present invention.In the accompanying drawings:

Fig. 1 show the embodiment of air conditioner according to the present invention in the first operating position when structural schematic diagram；

Structural schematic diagram when the second operating position is in Fig. 2 shows the air conditioner of Fig. 1；And

The air conditioner that Fig. 3 shows Fig. 1 is in structural schematic diagram when third operating position.

Wherein, the above drawings include the following reference numerals:

10, air duct；11, the first sub- air outlet；12, the second sub- air outlet；13, spiral case；14, volute tongue；20, bottom case；30, it keeps off Plate；31, the first wind-guiding face；32, the second wind-guiding face；33, recess portion is overlapped；34, side is overlapped；40, panel body.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

As shown in Figure 1 to Figure 3, the air conditioner of the present embodiment includes air duct 10 and the switching mechanism that keeps out the wind.Wherein, air duct 10 With an air outlet, which is separated into two sub- air outlets, and has between the air supply direction of two sub- air outlets There is angle.The switching mechanism that keeps out the wind is movably arranged at the air outlet in air duct 10 to make two sub- air outlets be in ventilation state, Alternatively, making a sub- air outlet be in closed state and another sub- air outlet being made to be in ventilation state.

Using the air conditioner of the present embodiment, the switching mechanism that keeps out the wind is set at the air outlet in air duct 10.It is kept out the wind by above-mentioned The movement transformation of switching mechanism itself can change the use state of sub- air outlet, and sub- air outlet can be made to be in closed state Or ventilation state, to change the air supply direction of air conditioner, and keep the air supply pattern of air conditioner more diversified, enhances air-conditioning The using flexible of device can satisfy the different use demands of user, improve the comfort and user experience of air conditioner.

As shown in Figure 1 to Figure 3, in the air conditioner of the present embodiment, the switching mechanism that keeps out the wind includes baffle 30.Preferably, on Stating the switching mechanism that keeps out the wind further includes the motor for driving baffle 30.The motor can be fixed on the side of air conditioner bottom case 20 And it is connect with the shaft of baffle 30 to drive baffle 30 to rotate.The simple easily dress of the baffle 30 of above-mentioned motor control.Certainly, it keeps out the wind and cuts Structure of changing planes is without being limited thereto, and in an embodiment not shown in the figure, the switching mechanism that keeps out the wind can be that can be realized to change sub- outlet air Other specific structures of mouth use state.

As shown in Figure 1 to Figure 3, in the air conditioner of the present embodiment, the switching mechanism that keeps out the wind is pivotally disposed at air outlet Place.In the present embodiment, the above-mentioned switching mechanism that keeps out the wind is pivotably mounted at air outlet, the switching mechanism tool that keeps out the wind can be made Have the characteristics that easily adjusting, controllability are good, while guaranteeing that air conditioner has a variety of air supply patterns, and can guarantee air conditioner just Often operation.It should be noted that the set-up mode for the switching mechanism that keeps out the wind is without being limited thereto, in an embodiment not shown in the figure, The switching mechanism that keeps out the wind can be that can be realized other set-up modes for changing sub- air outlet use state.

As shown in Figure 1 to Figure 3, in the air conditioner of the present embodiment, two sub- air outlets include the first sub- 11 He of air outlet Second sub- air outlet 12.The switching mechanism that keeps out the wind is pivotally disposed at air outlet.The switching mechanism that keeps out the wind has the first working position It sets, the second operating position and third operating position.Wherein, it when the switching mechanism that keeps out the wind is in the first operating position, keeps out the wind and cuts Structure of changing planes blocks the first sub- air outlet 11 and opens the second sub- air outlet 12.When keeping out the wind, switching mechanism is in the second operating position When, the switching mechanism that keeps out the wind blocks the second sub- air outlet 12 and opens the first sub- air outlet 11.When keeping out the wind, switching mechanism is in third When operating position, the switching mechanism that keeps out the wind is located at the middle part in air duct 10 and opens the first sub- air outlet 11 and the second sub- air outlet 12. In the present embodiment, motor driven is kept out the wind switching mechanism rotation, and in above-mentioned first operating position, the second operating position and the It is moved between three operating positions.It, can be with when the above-mentioned switching mechanism that keeps out the wind turns to the first operating position and the second operating position It blocks a sub- air outlet and opens another sub- air outlet, so that two sub- air outlets is alternately blown, when the above-mentioned switching machine that keeps out the wind When structure turns to third operating position, two sub- air outlets are opened, and can be blown simultaneously, and user can also adjust and keep out the wind The comfort of air conditioner is improved with this to change the air output of two sub- air outlets in the position of switching mechanism.Above structure Making air conditioner tool, there are three types of air supply patterns, improve the air-supply diversification and using flexible of air conditioner.

As shown in Figure 1 to Figure 3, in the air conditioner of the present embodiment, air duct 10 includes the spiral case 13 being oppositely arranged and volute tongue 14.Baffle 30 includes the first wind-guiding face 31 towards volute tongue 14 and the second wind-guiding face 32 towards spiral case 13.Baffle 30 is in When the first operating position, the overlap joint side 34 of baffle 30 is overlapped on spiral case 13, and the first wind-guiding face 31 smoothly transits with spiral case 13 Cooperation forms the first passage being connected to the second sub- air outlet 12 between the first wind-guiding face 31 and volute tongue 14.Baffle 30 is in the When two operating positions, the overlap joint side 34 of baffle 30 is overlapped in volute tongue 14, and the second wind-guiding face 32 smoothly transits with volute tongue 14 and matches Close the second channel that formation is connected to the first sub- air outlet 11 between the second wind-guiding face 32 and spiral case 13.Baffle 30 is in third work When making position, the overlap joint side 34 of baffle 30 is located at the middle part in air duct 10 and forms free end, volute tongue 14 and the first wind-guiding face 31 it Between form the third channel that be connected to the second sub- air outlet 12, formation and the first sub- outlet air between spiral case 13 and the second wind-guiding face 32 The fourth lanes of 11 connection of mouth.

Meanwhile baffle 30, when being in the first operating position, the first wind-guiding face 31 can become the wind-guiding wall surface of first passage, When baffle 30 is in the second operating position, the second wind-guiding face 32 can become the wind-guiding wall surface of second channel, and baffle 30 is in the When three operating positions, the first wind-guiding face 31 can become the wind-guiding wall surface of third channel, and the second wind-guiding face 32 can become the 4th The wind-guiding wall surface in channel.Therefore, baffle 30, which has, also plays guiding wind direction to open sub- air outlet while windproof function Effect, effectively reduces noise and vibration, to ensure that the outlet air reliability of air conditioner.

As shown in Figure 1 to Figure 3, in the air conditioner of the present embodiment, air conditioner further includes bottom case 20 and is arranged in bottom case 20 The panel body 40 of front side.There is air duct 10, baffle 30 is pivotally disposed on bottom case 20 simultaneously between panel body 40 and bottom case 20 At air outlet.The side of the separate overlap joint side 34 of baffle 30 is pivotally connected with bottom case 20.At this point, air outlet is by bottom case 20 The side of bottom plate is formed along the notch between the lower edge of panel body 40, and above-mentioned air outlet is under the separation of baffle 30 Form the first sub- air outlet 11 and the second sub- air outlet 12.

As shown in Figure 1 to Figure 3, in the air conditioner of the present embodiment, the first wind-guiding face 31 of baffle 30 is in plane.In plane The first wind-guiding face 31 used as the extended segment of the air side inner wall in the second air duct, to guide outlet air.

As shown in Figure 1 to Figure 3, in the air conditioner of the present embodiment, the second wind-guiding face 32 of baffle 30 is in cambered surface.In cambered surface The second wind-guiding face 32 air-supply can be made to blow to the second wind-guiding face 32 of baffle 30 after can smoothly be directed to the first sub- air outlet 11, to ensure that the air-supply reliability of air conditioner.

Preferably, the overlap joint side 34 of baffle 30 has the overlap joint recess portion 33 with the overlap joint cooperation of the side wall of volute tongue 14.Due to setting It is equipped with overlap joint recess portion 33, so that baffle 30 can smoothly transit with volute tongue 14 and connect when being in the second operating position.

As shown in Figure 1 to Figure 3, in the air conditioner of the present embodiment, the second wind-guiding face 32 has the wind-guiding positioned at middle part recessed Portion.In view of the molded line in air duct 10 needs to meet certain design requirement, second wind-guiding face 32 of the present embodiment is with above-mentioned The cambered surface of wind-guiding recess portion, this is obtained after the molded line optimization processing according to air duct 10.Therefore, using above-mentioned baffle 30 as gear The component of wind, wind-guiding can satisfy the requirement of air conditioner, and can guarantee in air supply process air-conditioning device have low noise, Feature with small vibration.

As shown in Figure 1 to Figure 3, in the air conditioner of the present embodiment, the air supply direction of the first sub- air outlet 11 is vertical side To the air supply direction of the second sub- air outlet 12 is horizontal direction.Certainly, the first sub- air outlet 11 and the second sub- air outlet 12 are sent Wind direction is without being limited thereto, in an embodiment not shown in the figure, the air-supply of the first sub- air outlet 11 and the second sub- air outlet 12 Direction can also be configured according to specific needs.

In addition, as shown in Figure 1 to Figure 3, in the present embodiment, it is provided with the first wind deflector at the first sub- air outlet 11, the The second wind deflector is provided at two sub- air outlets 12.When the first sub- air outlet 11 is opened, the first wind deflector is in the open state, When the second sub- air outlet 12 is opened, the second wind deflector is in the open state.Above-mentioned first wind deflector and the second wind deflector are to wind Play guide functions.Meanwhile second wind deflector can also extend upward wind-guiding away from, avoid cold wind closely land.

In the air conditioner of the present embodiment, air conditioner is wall-mounted air conditioner (not shown).Due to wall-hanging air conditioner One air outlet of device is separated into multiple sub- air outlets with different air supply directions, thus wall-mounted air conditioner has air-supply The characteristics of amount is big, wind direction orientation is wide, air supply areas is big, good effect of heat exchange.Certainly, in other embodiments, air conditioner It can also be cabinet air conditioner, air-conditioner etc..

The present invention also provides a kind of control methods of air conditioner, for controlling above-mentioned air conditioner.Control method includes:

The switching mechanism that keeps out the wind of air conditioner is set to move to the first operating position, the second operating position or third working position It sets；

Wherein, the switching mechanism that keeps out the wind moves to the first operating position, and the sub- air outlet 11 of the first of air conditioner is in closed form State, the second sub- air outlet 12 are in ventilation state, and air conditioner is in refrigerating state at this time；The switching mechanism that keeps out the wind moves to the second work Make position, the sub- air outlet 12 of the second of air conditioner is in closed state, and the first sub- air outlet 11 is in ventilation state, at this time air-conditioning Device is in heating state；The switching mechanism that keeps out the wind moves to third operating position, the sub- air outlet 11 of the first of air conditioner and the second son Air outlet 12 is in ventilation state, and air conditioner is in refrigerating state or heating state at this time.

Specifically, as shown in Figure 1, when the switching mechanism that keeps out the wind is in the first operating position, baffle 30 and spiral case 13 are overlapped Together to open the second sub- air outlet 12, horizontal direction outlet air is realized.Spiral case 13, baffle 30 and volute tongue 14 form complete wind Road, the interior wind (such as wind of through-flow fan blade blowout) formed of air conditioner are blown out along spiral case 13 and baffle 30 to horizontal direction.At this point, Air conditioner is in refrigerating state.Under refrigerating state, cold wind can be blown to horizontal direction, avoid being directly blown onto human body.

As shown in Fig. 2, when the switching mechanism that keeps out the wind is in the second operating position, baffle 30 and volute tongue 14 overlap with The first sub- air outlet 11 is opened, realizes vertical direction outlet air.The wind (such as wind of through-flow fan blade blowout) formed in air conditioner passes through 13 water conservancy diversion of spiral case blows to baffle 30, using 30 water conservancy diversion of baffle, blows out along the second wind-guiding face 32 to vertical direction.At this point, empty Device is adjusted to be in heating state.Under heating situation, hot wind can be blown to vertical direction, land hot wind closely as much as possible.

As shown in figure 3, baffle 30 is located at the middle part in air duct 10 when the switching mechanism that keeps out the wind is in third operating position, this When, the first sub- air outlet 11 and the second sub- air outlet 12 are opened, and realize horizontal direction and vertical direction outlet air simultaneously.Air conditioner The wind (such as wind of through-flow fan blade blowout) of interior formation blows to baffle 30 by spiral case 13 or 14 water conservancy diversion of volute tongue, leads using baffle 30 Stream is blown out along the second wind-guiding face 32 or the first wind-guiding face 31.At this point, air conditioner is in refrigerating state or heating state.

As shown in Figure 1 to Figure 3, in the control method of the present embodiment, the air supply direction of the first sub- air outlet 11 is vertical Direction, the air supply direction of the second sub- air outlet 12 are horizontal direction.Certainly, the first sub- air outlet 11 and the second sub- air outlet 12 Air supply direction is without being limited thereto, and in an embodiment not shown in the figure, the first sub- air outlet 11 and the second sub- air outlet 12 are sent Wind direction can also be configured according to specific needs.

In the control method of the present embodiment, control method further include:

When the switching mechanism that keeps out the wind is in third operating position, switching of keeping out the wind is adjusted according to the requirement of the air output of sub- air outlet The position of mechanism, to improve the comfort of air conditioner.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (8)

1. a kind of air conditioner characterized by comprising

Air duct (10), an air outlet of the air duct (10) is separated at least two sub- air outlets, and all sons go out Angle is all had between the air supply direction in air port；

Keep out the wind switching mechanism, and the switching mechanism that keeps out the wind is movably arranged at the air outlet of the air duct (10) all described to make Sub- air outlet is in ventilation state, alternatively, making at least one described sub- air outlet be in closed state and making described in remaining Sub- air outlet is in ventilation state；

The switching mechanism that keeps out the wind includes baffle (30), and the air duct (10) includes the spiral case (13) being oppositely arranged and volute tongue (14), the baffle (30) includes the first wind-guiding face (31) towards the volute tongue (14) and towards the spiral case (13) First wind-guiding face (31) of two wind-guiding faces (32), the baffle (30) is in plane, and described the second of the baffle (30) is led Wind face (32) is in cambered surface, and second wind-guiding face (32) has the wind-guiding recess portion positioned at middle part.

2. air conditioner according to claim 1, which is characterized in that the switching mechanism that keeps out the wind is pivotally disposed at described At air outlet.

3. air conditioner according to claim 1, which is characterized in that the sub- air outlet is two, described two sub- outlet air Mouthful include the first sub- air outlet (11) and the second sub- air outlet (12), the switching mechanism that keeps out the wind be pivotally disposed at it is described out At air port, the switching mechanism that keeps out the wind is with the first operating position, the second operating position and third operating position, wherein

When the switching mechanism that keeps out the wind is in first operating position, the switching mechanism that keeps out the wind blocks first son and goes out Simultaneously open the described second sub- air outlet (12) in air port (11)；

When the switching mechanism that keeps out the wind is in second operating position, the switching mechanism that keeps out the wind blocks second son and goes out Simultaneously open the described first sub- air outlet (11) in air port (12)；

When the switching mechanism that keeps out the wind is in the third operating position, the switching mechanism that keeps out the wind is located at the air duct (10) Middle part and open the described first sub- air outlet (11) and the second sub- air outlet (12).

4. air conditioner according to claim 3, which is characterized in that

When the baffle (30) is in first operating position, the overlap joint side (34) of the baffle (30) is overlapped on the spiral case (13) on, and first wind-guiding face (31) and the spiral case (13) smoothly transit cooperation, first wind-guiding face (31) and institute State the first passage that formation is connected to the described second sub- air outlet (12) between volute tongue (14)；

When the baffle (30) is in second operating position, the overlap joint side (34) of the baffle (30) is overlapped on the volute tongue (14) on, and second wind-guiding face (32) and the volute tongue (14) smoothly transit cooperation, second wind-guiding face (32) and institute State the second channel that formation is connected to the described first sub- air outlet (11) between spiral case (13)；

When the baffle (30) is in the third operating position, the overlap joint side (34) of the baffle (30) is located at the air duct (10) middle part simultaneously forms free end, is formed to go out with second son between the volute tongue (14) and first wind-guiding face (31) The third channel of air port (12) connection, forms to go out with first son between the spiral case (13) and second wind-guiding face (32) The fourth lane of air port (11) connection.

5. air conditioner according to claim 3, which is characterized in that the air supply direction of the first sub- air outlet (11) is perpendicular Histogram is to the air supply direction of the second sub- air outlet (12) is horizontal direction.

6. air conditioner according to claim 1, which is characterized in that the air conditioner is wall-mounted air conditioner.

7. a kind of control method of air conditioner, which is characterized in that for controlling air-conditioning described in any one of any one of claims 1 to 66 Device, the control method include:

The switching mechanism that keeps out the wind of the air conditioner is set to move to the first operating position, the second operating position or third working position It sets；

Wherein, the switching mechanism that keeps out the wind moves to first operating position, the sub- air outlet of at least two of the air conditioner In be located at bottom sub- air outlet be in closed state, remaining described sub- air outlet is in ventilation state, at this time the sky Device is adjusted to be in refrigerating state；The switching mechanism that keeps out the wind moves to second operating position, and at least two of the air conditioner Sub- air outlet in sub- air outlet positioned at the top is in closed state, remaining described sub- air outlet is in ventilation state, this Shi Suoshu air conditioner is in heating state；The switching mechanism that keeps out the wind moves to the third operating position, the air conditioner All sub- air outlets are in ventilation state, and the air conditioner is in refrigerating state or heating state at this time.

8. control method according to claim 7, which is characterized in that the control method further include:

When the switching mechanism that keeps out the wind is in the third operating position, adjusted according to the requirement of the air output of the sub- air outlet The position of the switching mechanism that keeps out the wind.