CN216204228U - Air guide component and air conditioner indoor unit with same - Google Patents

Air guide component and air conditioner indoor unit with same Download PDF

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Publication number
CN216204228U
CN216204228U CN202122185487.3U CN202122185487U CN216204228U CN 216204228 U CN216204228 U CN 216204228U CN 202122185487 U CN202122185487 U CN 202122185487U CN 216204228 U CN216204228 U CN 216204228U
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China
Prior art keywords
air
flexible
wind
air outlet
flexible piece
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CN202122185487.3U
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芦静
刘汉
薛加新
李建建
陈志伟
王烨
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Gree Electric Appliances Inc of Zhuhai
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Gree Electric Appliances Inc of Zhuhai
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/70Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating

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Abstract

The utility model provides an air guide part and an air conditioner indoor unit with the same, wherein the air guide part comprises: the flexible piece is at least partially made of flexible materials, is of a strip-shaped structure and can be movably arranged at the lower edge of the air outlet of the air duct so as to move to the air guide position or the avoiding position; when the flexible piece moves to the air guide position, the flexible piece extends out of the air outlet to drive the flexible piece to swing under the action of wind power at the air outlet, and lift wind at the air outlet through the swinging of the flexible piece; when the flexible part moves to the avoiding position, the flexible part avoids the air outlet. Through the technical scheme provided by the utility model, the technical problem that the wind guide component in the prior art has a large influence on the wind quantity of the outlet wind can be solved.

Description

Air guide component and air conditioner indoor unit with same
Technical Field
The utility model relates to the technical field of air guiding of an air conditioner indoor unit, in particular to an air guiding component and an air conditioner indoor unit with the same.
Background
At present, with the continuous maturity of the air conditioning industry, users focus more and more on the comfort function of the air conditioner. When the user uses the air conditioner, the problem of cold air direct blowing exists, and long-time cold air direct blowing easily causes human body discomfort, so that the physical health of people is influenced. The air guide assembly is used as a main structure with a comfort function, and plays a great role. The wind guide assembly generally includes an air outlet duct, a wind guide plate, a wind sweeping blade and a moving mechanism thereof.
However, the existing improvement point of comfortable air supply is mainly on blocking the air flow and blowing out, so that the air output is greatly reduced to a certain extent, and the overall air supply effect of the air conditioner is influenced.
SUMMERY OF THE UTILITY MODEL
The utility model mainly aims to provide an air guide component and an air conditioner indoor unit with the same, and aims to solve the technical problem that the air guide component in the prior art has a large influence on the air volume of outlet air.
In order to achieve the above object, according to one aspect of the present invention, there is provided a wind scooping part including: the flexible piece is at least partially made of flexible materials, is of a strip-shaped structure and can be movably arranged at the lower edge of the air outlet of the air duct so as to move to the air guide position or the avoiding position; when the flexible piece moves to the air guide position, the flexible piece extends out of the air outlet to drive the flexible piece to swing under the action of wind power at the air outlet, and lift wind at the air outlet through the swinging of the flexible piece; when the flexible part moves to the avoiding position, the flexible part avoids the air outlet.
Further, the flexible piece has link and the expansion end of relative setting, and the link is connected with the lower limb of air outlet, and the expansion end movably sets up for the link.
Further, the movable end is arranged in a rolling manner relative to the connecting end; when the flexible piece moves from the air guide position to the avoiding position, the movable end is rolled up relative to the connecting end.
Further, the wind-guiding part still includes: the winding box is arranged at the bottom of the air duct and provided with a winding opening and a winding cavity communicated with the winding opening, the connecting end is fixed in the winding cavity, and the flexible part is wound into the winding cavity through the winding opening or extends out of the air outlet through the winding opening.
Further, the flexible piece is a plurality of, and a plurality of flexible pieces are arranged along the extending direction interval of air outlet.
Further, the winding box extends along the extending direction of the air outlet; the flexible piece is a plurality of, and the link of a plurality of flexible pieces sets up at the rolling intracavity along the extending direction interval of rolling up the box.
Further, the flexible member includes a support portion and a flexible portion connected to each other, the flexible portion being made of a flexible material, the support portion being configured to be connected to a lower edge of the air outlet, the support portion having a rigidity greater than that of the flexible portion to support the flexible portion by the support portion and guide the wind at the air outlet by a swing of the flexible portion.
Furthermore, an air deflector is rotatably arranged at the air outlet, and when the air deflector is closed, the air deflector covers the air outlet; the width of the air deflector is L1The length of the flexible member is L2,0<L2<1.2L1
According to another aspect of the utility model, an air-conditioning indoor unit is provided, and the air-conditioning indoor unit comprises the air guide component.
Further, the air conditioning indoor unit includes: the indoor unit comprises an indoor unit shell, wherein an air outlet is formed in the indoor unit shell; the air guide plate is rotatably arranged at the lower edge of the air outlet, and when the air guide plate is opened, the air guide part is positioned above the air guide plate.
By applying the technical scheme of the utility model, when the flexible part moves to the air guide position, the flexible part can be lifted to support the air flow to a certain height under the action of the wind power pressure difference at the air outlet, so that the direct blowing to a human body is avoided, and the higher the wind speed is, the higher the air support height is. The flexible piece can automatically soften and disperse wind along with the enhancement of the wind speed, so that the direct blowing of cold wind is avoided, and the air outlet quantity of the air outlet cannot be influenced due to the fact that the flexible piece lifts the wind at the air outlet instead of blocking the wind, and the comfort level of the air outlet is guaranteed. Therefore, the technical problem that the wind guide component in the prior art has a large influence on the wind volume of the outlet wind can be solved through the technical scheme provided by the utility model.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model. In the drawings:
fig. 1 illustrates a front view of an air conditioning indoor unit according to an embodiment of the present invention;
figure 2 shows a left side view of a wind-directing component provided in accordance with an embodiment of the present invention;
figure 3 illustrates a cross-sectional view of a deflector provided in accordance with an embodiment of the present invention rotated to a first predetermined angle;
fig. 4 illustrates a cross-sectional view of a deflector provided in accordance with an embodiment of the present invention rotated to a second predetermined angle.
Wherein the figures include the following reference numerals:
10. a flexible member; 11. a connecting end; 12. a movable end; 20. an air duct; 21. an air outlet; 30. a coiling box; 40. an air deflector; 50. an indoor unit casing; 60. a fan.
Detailed Description
It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.
As shown in fig. 1 to 4, according to an embodiment of the present invention, there is provided a wind guide component, which includes a flexible member 10, at least a portion of the flexible member 10 is made of a flexible material, the flexible member 10 is a belt-shaped structure, and the flexible member 10 is movably disposed at a lower edge of the wind outlet 21, so that the flexible member 10 moves to a wind guide position or an escape position. When the flexible piece 10 moves to the air guiding position, the flexible piece 10 extends out of the air outlet 21 to drive the flexible piece 10 to swing under the action of wind power at the air outlet 21, and lift wind at the air outlet 21 through the swing of the flexible piece 10; when the flexible member 10 moves to the escape position, the flexible member 10 escapes from the air outlet 21.
It should be noted that, the strip-shaped structure here means that the length of the flexible element 10 is much greater than the width of the flexible element 10, and the extending direction of the strip-shaped structure in this embodiment is the same as the air outlet direction of the air outlet 21. The flexible material is a common flexible material, and particularly, the material has certain flexibility, is light in density and is easy to lift under the action of air pressure. The flexible material in the present embodiment includes, but is not limited to, a polyvinyl alcohol material (PVA), a polyester material (PET), a polyimide material (PI), a polydimethylsiloxane material (PDMS), a carbon nanotube material, a graphene material, and the like, wherein the polyimide material (PI) is preferable. The flexible body has a certain flexibility, and can be automatically rolled and extended through the rolling box 30.
By adopting the structure, when the flexible part 10 moves to the wind guiding position, the flexible part 10 can be lifted to a certain height under the action of the wind power pressure difference at the wind outlet 21, so that the direct blowing of a human body is avoided, and the faster the wind speed is, the higher the height of the wind support is. The flexible piece 10 can automatically soften and disperse wind along with the enhancement of the wind speed, so that cold wind direct blowing is avoided, and the air outlet quantity of the air outlet 21 cannot be influenced because the flexible piece 10 lifts the wind at the air outlet 21 instead of blocking the wind. Therefore, the technical problem that the wind guide component in the prior art has a large influence on the wind volume of the outlet wind can be solved through the wind guide component provided by the embodiment.
In this embodiment, the flexible member 10 has a connecting end 11 and a movable end 12 disposed opposite to each other, the connecting end 11 can be connected to the lower edge of the air outlet 21, and the movable end 12 is movably disposed relative to the connecting end 11. By adopting the structure, the structural layout of the flexible part 10 is optimized, the flexible part 10 is convenient to lift the wind at the air outlet 21 under the action of the pressure difference of the air outlet, and the soft wind effect is further improved.
Specifically, the movable end 12 is rollably disposed with respect to the connection end 11 in the present embodiment; when the flexible member 10 moves from the air guiding position to the avoiding position, the movable end 12 is rolled up relative to the connecting end 11. By adopting the structure, when the flexible part 10 is in the avoiding position, the flexible part 10 can be conveniently rolled up, and the interference of the flexible part 10 to the air outlet is avoided.
In order to facilitate the accommodation of the flexible member 10, the wind guiding component in this embodiment further includes a winding box 30, the winding box 30 is installed at the bottom of the air duct 20, the winding box 30 has a winding port and a winding cavity communicated with the winding port, the connection end 11 is fixed in the winding cavity, and the flexible member 10 is wound into the winding cavity through the winding port or extends out of the air outlet 21 through the winding port. Specifically, the "winding box 30 is installed at the bottom of the air duct 20" means that the winding box 30 is installed at the bottom of the whole air duct 20, that is, the winding box 30 is located at the outer side of the air duct 20, and thus the air outlet of the air duct 20 is not affected. When the air duct 20 is installed, an avoiding opening can be formed in the air duct 20, so that the flexible part 10 can stretch out of the air outlet 21 through the avoiding opening, and the structure can improve the movement smoothness of the flexible part 10 conveniently.
In this embodiment, the number of the flexible members 10 is plural, and the plural flexible members 10 are arranged at intervals along the extending direction of the air outlet 21. By adopting the structure, the soft wind and the wind dispersing effect of the air outlet 21 can be improved conveniently, the direct blowing of a human body is avoided, and the comfort of the air outlet is improved. The number of the flexible members 10 in this embodiment is N, preferably N ≧ 5, so as to enable the flexible members 10 to be better distributed at the air outlet 21, so as to better improve the effect of soft wind and wind dispersion at the air outlet 21.
Specifically, the air guiding component in this embodiment is installed at the air outlet 21 of the indoor unit of the air conditioner, and when the cross-flow fan 60 is provided in the indoor unit of the air conditioner, the air speed at the air outlet 21 is not uniform, and the trend that the air speed at the middle of the air outlet 21 is high and the air speed at the two sides is low is presented, so that the height of the air flow supported by the flexible parts 10 located in the middle of the air outlet 21 is slightly high, and the height of the air flow supported by the flexible parts 10 located at the two sides is slightly low, so that the flexible parts 10 scattered at the whole air outlet 21 can effectively play a role in flow dispersion.
In the present embodiment, the wind-up box 30 extends along the extending direction of the wind outlet 21; the flexible members 10 are multiple, and the connecting ends 11 of the flexible members 10 are arranged in the winding cavity at intervals along the extending direction of the winding box 30. By adopting the structure, the rolling box 30 is of a strip-shaped structure extending along the extending direction of the air outlet 21, the plurality of flexible parts 10 can be conveniently stored through one rolling box 30, the structure layout is optimized, the compactness of the structure arrangement is improved, and the installation difficulty is also reduced. Specifically, one or more winding ports are provided on the winding box 30; when the winding box 30 is provided with a winding opening, the winding opening extends along the length direction of the air outlet 21, and the movable ends 12 of the plurality of flexible pieces 10 extend out of the air outlet 21 through the winding opening; when being provided with a plurality of receipts roll up mouthful on the receipts roll up mouthful, a plurality of receipts roll up mouthful and a plurality of flexible piece 10 one-to-one set up, and each flexible piece 10 stretches out to outside the air outlet 21 through the rolling mouth that corresponds.
Specifically, the flexible piece 10 in the present embodiment includes a support portion and a flexible portion that are connected to each other, the flexible portion being made of a flexible material, the support portion being configured to be connected to a lower edge of the outlet port 21, the support portion having a rigidity greater than that of the flexible portion to support the flexible portion by the support portion and guide the wind at the outlet port 21 by the swing of the flexible portion. Specifically, the connecting end 11 is located at one end of the support portion away from the flexible portion, and the movable end 12 is located at one end of the flexible portion away from the support portion. Adopt such structure setting, can enough guarantee the intensity of the root of flexible portion in order to improve stable support to flexible portion, can make flexible portion carry out stable lift to the wind of air outlet 21 department under the pressure differential effect again to play the effect of gentle wind and scattered wind.
In the present embodiment, the air outlet 21 is rotatably disposed with the air deflector 40, and when the air deflector 40 is closed, the air deflector 40 covers the air outlet 21; the width of the air deflector 40 is L1The length of the flexible member 10 is L2,0<L2<1.2L1. With such a structural arrangement, when the length of the flexible member 10 is too long, specifically greater than 1.2 times L1When the flexible member 10 is too long, interference can be caused to other components, and the operation safety and stability are not facilitated; when the length of the flexible member 10 is too small, the flexible member 10 cannot effectively swing under the action of the pressure difference, and cannot effectively play roles of softening wind and dispersing wind.
In this embodiment, the flexible member 10 can be automatically rolled and extended, and on one hand, according to the characteristic that the middle of the wind speed of the cross flow fan 60 corresponding to the air outlet 21 is high and the two sides are low, the air dispersion of the airflow is realized; on the other hand, the change of the air dispersing mode of the flexible body can be realized through the automatic change of the rotating speed of the fan 60, and the effect of up-and-down fluctuation air supply of airflow is achieved.
The air guide part in the embodiment solves the technical problems that the traditional air conditioner blows cold air directly to a human body and is poor in comfort experience; the technical problems that the air supply direction of the traditional air conditioner is single, the air supply direction can be adjusted only by manually adjusting the air deflector 40 by a user along with the increase of the air speed, and direct blowing cannot be prevented are solved; the technical problems that the traditional air conditioner cannot realize a dynamic air supply mode and the air blowing mode is single are solved.
In this embodiment, the flexible members 10 are transversely disposed at the lower end of the air outlet 21 and are discretely distributed in the air outlet 21. The number of flexible members 10 is N and the individual length is L2Wherein N is more than or equal to 5, L2Less than 1.2 times the width of the air deflection plates 40. The flexible portion of flexible piece 10 has certain pliability, but the supporting part of root has certain rigidity, can play the supporting role, and usable coiling box 30 is automatic to carry out the rolling to flexible piece 10, and under the state of blowing, the flexible piece10, a small range of oscillation occurs, the higher the wind speed, the faster the oscillation frequency. The wind speed is high in the middle of the traditional cross-flow fan 60, the wind speeds are low on two sides, the wind speed is high, the cold wind feeling is strong, and by utilizing the characteristic, the flexible body can achieve the effects of softening and dispersing wind.
The second embodiment of the utility model provides an air conditioner indoor unit, which comprises the air guide component.
In the present embodiment, the air conditioning indoor unit includes an indoor unit casing 50 and a louver 40, and the indoor unit casing 50 is provided with the outlet 21. The air deflector 40 is rotatably disposed at a lower edge of the outlet 21, and when the air deflector 40 is opened, the air deflector is located above the air deflector 40. By adopting the structure, the air deflector 40 is positioned below the air guide component when being opened, so that the influence of the air deflector 40 on the upper limit height of the air lifting position of the flexible part 10 can be avoided, the flexible parts 10 at different positions swing under the action of corresponding pressure difference, and air flow at the air outlet 21 is lifted upwards, so that the situation that the air is blown out to the human body directly is avoided.
Specifically, the indoor unit of the air conditioner is in a refrigeration state, the air deflector 40 is opened downwards, and due to the fact that the middle of the cross flow fan 60 is high in air speed and the two sides are low in air speed, the cold feeling is stronger along with the increase of the air speed, and discomfort of a human body is caused. For solving this kind of uncomfortable, reinforcing user comfort experience, the flexible body stretches out to a section distance and stretches out outside air outlet 21 from rolling box 30 automatically this moment, because the reason of pressure differential, air current to take up is automatically held up to a take the altitude to flexible 10, and the wind speed is faster, and the shake frequency is faster. Because the middle wind speed is higher than the wind speeds from two sides to the edge, the height of the airflow supported by the flexible part 10 at the middle wind outlet 21 is slightly higher, and the two sides are slightly lower, so that the flexible part 10 scattered at the whole wind outlet 21 can play a role in flow scattering, partial cold wind is not directly blown to a human body, discomfort is reduced, turbulence and soft wind effects can be achieved along with shaking of the flexible part 10, and user experience is further enhanced.
The control method of the air conditioner indoor unit comprises the following steps: controlling an air deflector 40 of the indoor unit of the air conditioner to be opened; and acquiring a preset refrigeration mode of the indoor unit of the air conditioner, and controlling the rotation condition of the air deflector 40 and the working condition of an air guiding component of the indoor unit of the air conditioner according to the preset refrigeration mode of the indoor unit of the air conditioner. By adopting the method, the rotation of the air deflector 40 is combined with the movement of the flexible part 10 of the air guiding component, so that the soft wind or the wind dispersing treatment of the outlet wind at the air outlet 21 can be realized, and the air outlet effect and the air outlet comfort are improved.
Specifically, in the embodiment, the method for controlling the rotation of the air deflector 40 and the working condition of the air guiding component according to the preset cooling mode of the indoor unit of the air conditioner includes: when the preset refrigeration mode of the indoor unit of the air conditioner is default refrigeration, controlling the air deflector 40 to rotate to a first preset angle, and controlling the flexible part 10 of the air guiding component to be in an avoiding position; when the preset refrigeration mode of the indoor unit of the air conditioner is soft air refrigeration, the air deflector 40 is controlled to rotate to a second preset angle, and the flexible part 10 of the air guiding component is controlled to be in an air guiding position; and the angle value of the second preset angle is greater than that of the first preset angle. By adopting the structure, the preset refrigeration mode of the indoor machine of the working strip can be conveniently started according to the requirement and operated according to the default preset refrigeration mode or the soft wind mode, and the angle value of the second preset angle is larger than that of the first preset angle, so that the flexible part 10 can move conveniently in the soft wind mode, and the air deflector 40 and the flexible part 10 are prevented from interfering with each other.
In this embodiment, when the preset cooling mode of the air conditioning indoor unit is soft air cooling, the method for controlling the flexible member 10 to be in the air guiding position further includes: when the soft air refrigeration is in a static mode, acquiring a preset windshield, and controlling a fan 60 of the indoor unit of the air conditioner to operate on the preset windshield; when the soft air cooling is in the dynamic mode, the fan 60 of the indoor unit of the air conditioner is controlled to change between different rotating speeds. By adopting the method, different air outlet modes can be provided conveniently, so that the comfort requirement of a user can be better met.
Specifically, the method for controlling the fan 60 of the indoor unit of the air conditioner to change between different rotating speeds when the soft air cooling is in the dynamic mode comprises the following steps: acquiring the running time T; when T < T0, controlling the fan 60 to rotate at the rotating speed V1Running; when T is more than or equal to T0, controlFan 60 is at speed V1Rotational speed V2And a rotational speed V3Change the rotation speed of the fan 60 and control the running time of the fan 60 at different rotation speeds to be less than the preset time T1(ii) a Wherein, V1>V2>V3. By adopting the method, the fan 60 can be conveniently ensured to operate at a high rotating speed so as to ensure enough air output; after the operation reaches the preset time T0, the rotating speed of the fan 60 is switched, so that enough air output can be ensured, the fan 60 can be prevented from operating at a high rotating speed for a long time, the energy consumption of the fan 60 is reduced, and the air outlet comfort is also ensured. Under the condition of different rotating speeds, the flexible structure can realize different soft wind effects, and the flexible body is guided to realize different air supply heights through the intelligent automatic change of the rotating speed of the fan 60, so that the soft wind effect of high and low fluctuation is achieved, and dynamic soft wind is realized.
In the present embodiment, when the rotation speed of the fan 60 is V1When the air guiding component is used, the included angle between the flexible part 10 of the air guiding component and the air guiding plate 40 is alpha; when the rotational speed of the fan 60 is V2When the air guiding plate is used, the included angle between the flexible part 10 and the air guiding plate 40 is beta; when the rotational speed of the fan 60 is V3When the air guiding plate is used, the included angle between the flexible part 10 and the air guiding plate 40 is gamma, and alpha is more than beta and more than gamma. Controlling the fan 60 at a rotational speed V1Rotational speed V2And a rotational speed V3The method for transforming between further comprises: controlling the rotational speed V of the fan 601So that 60 DEG > alpha > 30 DEG; controlling the rotational speed V of the fan 602So that 60 DEG > beta > 30 DEG; controlling the rotational speed V of the fan 603Such that 60 > gamma > 30. By adopting the structure, through controlling alpha, beta and gamma within the range, the flexible part 10 can be ensured to have effective air supply height when the rotating speeds are three different, thereby being convenient for better avoiding cold air from directly blowing people and realizing soft air and air dispersion under the swing action of the flexible part 10.
Specifically, the control method in this embodiment is as follows: a user starts a preset refrigeration mode, and can select three modes of default refrigeration, static soft wind refrigeration (a static mode in soft wind refrigeration) and dynamic soft wind refrigeration (a dynamic mode in soft wind refrigeration). When the default refrigeration is started, the air deflector 40 is opened to a first preset angle (corresponding to the air deflector 40 being at a general default position), and the flexible part 10 is rolled and does not extend out; when the static soft wind preset refrigeration mode is started, the air deflector 40 is opened to a second preset angle (corresponding to the lowest position of the air deflector 40), the flexible part 10 extends out of the winding box 30, airflow flows through the flexible part 10 to generate different pressure differences, and the flexible part 10 automatically supports the airflow to present an airflow flowing state with a high middle part and low two sides, so that the soft wind effect is realized; when the dynamic soft wind refrigeration is started, the air deflector 40 is opened to a second preset angle (corresponding to the lowest position of the air deflector 40), the rotating speed of the fan 60 is set to be V, and the flexible body is guided to realize different air supply heights through the automatic change of the rotating speed of the fan 60, so that the soft wind effect with fluctuating height is realized.
Specifically, the method for converting the rotation speed of the fan 60 in the embodiment is as follows: three rotating speeds are provided, the mode 1 is that the rotating speed of the fan 60 is V1At this time, the wind deflector is an ultra-strong wind deflector, the included angle between the flexible body and the wind deflector 40 is alpha, and the air supply height is the highest; mode 2, fan 60 rotates at speed V2At this time, the wind shield is high, the included angle between the flexible body and the wind deflector 40 is beta, and the air supply height is centered; mode 3, the rotational speed of the fan 60 is reduced to V3At this time, the wind damper is adopted, the included angle between the flexible body and the wind deflector 40 is gamma, and the air supply height is lower; wherein, 60 degree is more than alpha, more than beta, more than gamma, more than 30 degree, 1500rpm is more than V1>V2>V3>800rpm。
Specifically, the operation time of the air conditioner is set to T, and after the dynamic soft wind preset refrigeration mode is turned on, the fan 60 drives the flexible body to shake according to the mode 1. T is more than or equal to T0The fan 60 then rotates back and forth between modes 1, 2, and 3 (either randomly or according to a function curve). And each mode has a running time of T1. Wherein T is less than or equal to 5min010min or less, preferably T0Is 5 min; t is less than or equal to 5min1Less than or equal to 20min, preferably 10 min.
From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects: cold air of the indoor unit of the air conditioner does not directly blow human bodies during refrigeration; the air conditioner indoor unit has the advantages that the wind sense is not strong when the air conditioner indoor unit runs at a strong wind gear, and the soft wind effect is achieved; different blowing modes can be provided according to the requirements of users.
It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.
The relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present application unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.
In the description of the present application, it is to be understood that the orientation or positional relationship indicated by the directional terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc., are generally based on the orientation or positional relationship shown in the drawings, and are used for convenience of description and simplicity of description only, and in the case of not making a reverse description, these directional terms do not indicate and imply that the device or element being referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore, should not be considered as limiting the scope of the present application; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.
Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.
It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and the terms have no special meanings unless otherwise stated, and therefore, the scope of protection of the present application is not to be construed as being limited.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A wind-directing component, comprising:
the flexible piece (10), at least part of the flexible piece (10) is made of flexible materials, the flexible piece (10) is of a belt-shaped structure, and the flexible piece (10) is movably arranged at the lower edge of an air outlet (21) of the air duct (20) so as to enable the flexible piece (10) to move to an air guiding position or an avoiding position;
when the flexible piece (10) moves to the air guide position, the flexible piece (10) extends out of the air outlet (21) to drive the flexible piece (10) to swing under the action of wind power at the air outlet (21), and wind at the air outlet (21) is lifted through the swing of the flexible piece (10); when the flexible piece (10) moves to the avoiding position, the flexible piece (10) avoids the air outlet (21).
2. The air guide component according to claim 1, wherein the flexible element (10) has a connecting end (11) and a movable end (12) which are arranged opposite to each other, the connecting end (11) is connected to a lower edge of the air outlet (21), and the movable end (12) is movably arranged relative to the connecting end (11).
3. Wind scooper according to claim 2, characterized in that the mobile end (12) is windably arranged with respect to the connecting end (11); when the flexible piece (10) moves from the air guiding position to the avoiding position, the movable end (12) is rolled up relative to the connecting end (11).
4. The wind scooper of claim 3, further comprising:
the winding box (30) is installed at the bottom of the air duct (20), the winding box (30) is provided with a winding port and a winding cavity communicated with the winding port, the connecting end (11) is fixed in the winding cavity, and the flexible piece (10) is wound on the winding port to the winding cavity or stretched out of the winding port to the outside of the air outlet (21).
5. The air guide component according to claim 1, wherein the flexible member (10) is provided in plurality, and the plurality of flexible members (10) are arranged at intervals along the extending direction of the air outlet (21).
6. The air guide component according to claim 4, wherein the wind-up box (30) extends in the extending direction of the wind outlet (21); the flexible piece (10) are multiple, and the connecting ends (11) of the flexible piece (10) are arranged in the winding cavity at intervals along the extending direction of the winding box (30).
7. The air guide component according to claim 1, wherein the flexible part (10) comprises a support part and a flexible part which are connected with each other, the flexible part is made of flexible material, the support part is used for being connected with the lower edge of the air outlet (21), the rigidity of the support part is higher than that of the flexible part, so that the flexible part is supported by the support part, and the wind at the air outlet (21) is guided by the swing of the flexible part.
8. The wind deflector of claim 1, wherein the wind outlet (21) is rotatably provided with a wind deflector (40), and when the wind deflector (40) is closed, the wind deflector (40) covers the wind outlet (21); the width of the air deflector (40) is L1The length of the flexible part (10) is L2,0<L2<1.2L1
9. An air conditioning indoor unit, characterized in that the air conditioning indoor unit comprises the air guiding component of any one of claims 1 to 8.
10. An indoor unit of an air conditioner according to claim 9, comprising:
the indoor unit comprises an indoor unit shell (50), wherein an air outlet (21) is formed in the indoor unit shell (50);
the air deflector (40) is rotatably arranged at the lower edge of the air outlet (21), and when the air deflector (40) is opened, the air guiding component is positioned above the air deflector (40).
CN202122185487.3U 2021-09-09 2021-09-09 Air guide component and air conditioner indoor unit with same Active CN216204228U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113720000A (en) * 2021-09-09 2021-11-30 珠海格力电器股份有限公司 Air guide component, air conditioner indoor unit and control method of air conditioner indoor unit

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113720000A (en) * 2021-09-09 2021-11-30 珠海格力电器股份有限公司 Air guide component, air conditioner indoor unit and control method of air conditioner indoor unit

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