CN217715391U - Air deflector assembly and air conditioner - Google Patents

Abstract

The present disclosure relates to an air deflector assembly and an air conditioner, the air deflector assembly includes: the first surface of the outer air deflector is provided with a rotating shaft part; an inner lining plate mounted on the first surface of the outer air deflector; the cover plate is arranged on the first surface of the outer air deflector, and the cover plate and the inner lining plate are positioned on different sides of the rotating shaft part; the shielding part is arranged on the first side wall of the cover plate close to the rotating shaft part, extends towards the outer air deflector and is used for at least partially shielding an assembly gap between the cover plate and the outer air deflector.

Description

Air deflector assembly and air conditioner

Technical Field

The disclosure relates to the field of household appliances, in particular to an air deflector assembly and an air conditioner.

Background

With the development of science and technology and the progress of technology, people not only expect that the air conditioner has faster refrigerating and heating speeds, but also pay more attention to the comfort of the air conditioner; in order to realize a longer air supply distance and a larger air volume, a large air deflector is generally adopted for guiding air. However, the large air deflector is easy to deform or generate condensation, so that the use experience of a user is poor.

Disclosure of Invention

To overcome the problems in the related art, the present disclosure provides an air deflector assembly and an air conditioner.

According to a first aspect of an embodiment of the present disclosure, there is provided an air deflection assembly comprising:

the first surface of the outer air deflector is provided with a rotating shaft part;

the inner lining plate is arranged on the first surface of the outer air deflector;

the cover plate is arranged on the first surface of the outer air deflector, and the cover plate and the inner lining plate are positioned on different sides of the rotating shaft part;

the shielding part is arranged on the first side wall of the cover plate close to the rotating shaft part, extends towards the outer air deflector and is used for at least partially shielding an assembly gap between the cover plate and the outer air deflector.

Optionally, the first side wall of the cover plate is formed with an abdicating notch; the abdicating notch is used for accommodating the rotating shaft part;

the inner wall of the abdicating notch extends towards the first surface of the outer air deflector to form the shielding part.

Optionally, the cover plate includes:

the apron board is arranged on the first side wall of the cover board, and a height difference exists between the apron board and the second surface of the cover board; the second surface of the cover plate is a surface far away from the outer air deflector;

the apron board is inserted into an assembly gap between the inner lining board and the outer air deflector and is abutted against a third surface, close to the outer air deflector, of the inner lining board.

Optionally, a third surface of the inner lining plate is provided with a reinforcing rib;

the strengthening rib includes:

a reinforcement section;

and one end of the connecting section is connected with the third surface of the inner lining plate, the other end of the connecting section is connected with the reinforcing section, and a preset included angle is formed between the connecting section and the reinforcing section.

Optionally, at least one limiting rib is formed on the first surface of the outer air deflector;

the inner lining plate is arranged on the first surface of the outer air deflector, and the limiting rib is abutted to the reinforcing section of the reinforcing rib.

Optionally, the reinforcing ribs extend along the length direction of the lining plate.

Optionally, the outer wind deflector comprises:

the mounting groove is arranged on the first surface of the outer air guide plate and is close to the first frame of the outer air guide plate;

the first buckle is arranged on the first surface of the outer air deflector and is close to the second frame of the outer air deflector, wherein the first frame and the second frame are two frames of the outer air deflector along the width direction;

the inner liner plate includes:

the limiting edge is matched with the mounting groove and is arranged on the third surface of the inner lining plate;

and the first clamping hook is matched with the first buckle and arranged on one side of the inner lining plate, which is far away from the limiting edge.

Optionally, the outer wind deflector comprises:

the second clamping hooks are arranged at two ends of the outer air deflector at intervals along the length direction;

the cover plate includes:

the second buckles are arranged on the cover plate at intervals, close to the third frame of the cover plate and used for being matched with the plurality of second clamping hooks of the outer air deflector to install the cover plate on the outer air deflector; and the third frame of the cover plate is a frame close to two ends of the outer air deflector.

Optionally, the second surface of the cover plate is recessed towards a direction close to the outer air deflector to form an abdicating groove;

the air deflector comprises a cover plate, a cover plate and a abdicating groove, wherein the abdicating groove is close to the first side wall of the cover plate and is used for partially accommodating a driving motor of the air deflector assembly.

According to a second aspect of the embodiments of the present disclosure, there is provided an air conditioner including:

an air-conditioning indoor unit;

the air conditioner outdoor unit is matched with the air conditioner indoor unit;

wherein, machine in the air conditioning includes:

an air outlet;

in the air deflector assembly shown in the first aspect of the embodiment of the present disclosure, the air deflector assembly is rotatably mounted at the air outlet of the air conditioner body.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:

the shielding part is arranged on the cover plate of the air guide plate assembly; the shielding part is positioned on the first side wall of the rotating shaft part of the cover plate close to the outer air deflector and extends towards the outer air deflector; the shielding part is used for at least partially shielding the assembly gap between the cover plate and the outer air guide plate, and the condition that cold air output by the air outlet circulates to the assembly gap between the cover plate and the outer air guide plate is reduced, so that the temperature difference between the inner surface and the outer surface of the outer air guide plate is reduced, the condition that the outer air guide plate generates condensation is reduced, and the use experience of a user is improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a first schematic structural view of an air deflection assembly according to an exemplary embodiment.

Figure 2 is an exploded view of a wind deflector assembly according to an exemplary embodiment.

Fig. 3 is a first schematic structural diagram of a cover plate according to an exemplary embodiment.

FIG. 4 is a cross-sectional structural view of a (portion of) air deflection assembly shown in accordance with an exemplary embodiment.

FIG. 5 is a schematic view of a liner panel according to an exemplary embodiment.

FIG. 6 is a schematic illustration of a disassembled configuration of an outer wind deflector and an inner liner according to an exemplary embodiment.

FIG. 7 is a cross-sectional structural view of an air deflection assembly according to an exemplary embodiment.

Fig. 8 is a partial schematic view of an external air deflection system according to an exemplary embodiment.

Fig. 9 is a schematic structural diagram of a cover plate according to an exemplary embodiment.

Fig. 10 is a second schematic structural view of an air deflection assembly according to an exemplary embodiment.

In the above figures: 10, an air deflector assembly; 11, an outer air deflector; 12, an inner lining plate; 13, a cover plate; 111, a rotating shaft part; 112, limiting ribs; 113, mounting grooves; 114, a first buckle; 115, a second hook; 121, reinforcing ribs; 122, a limit edge; 123, a first hook; 131, a shielding portion; 132, abdicating gaps; 133, skirt panels; 134, a second snap; 135, a third frame; 136, a abdication groove; 121a, a reinforcement section; 121b, connecting segments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the following exemplary examples do not represent all implementations consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

In the related art, the large-scale air deflector assembly can be divided into a single-layer air deflector assembly and a double-layer air deflector assembly; the single-layer air guide plate assembly only comprises the outer air guide plate and is not provided with the supporting plate, so that the air guide plate assembly is weak in strength and easy to deform.

The double-layer air deflector component comprises an outer air deflector, an inner lining component and a cover plate component, and the inner lining component is utilized to strengthen the strength of the outer air deflector and reduce the deformation of the outer air deflector; however, in the double-layer air deflector assembly, a gap exists at the joint of the cover plate and the inner lining plate, and the refrigerating airflow output by the air conditioner circulates to the gap between the outer air deflector and the cover plate through the gap, so that the outer air deflector generates condensation;

an embodiment of the present disclosure provides an air deflection assembly, as shown in fig. 1 to 3, and fig. 1 is a schematic structural diagram of an air deflection assembly according to an exemplary embodiment. Figure 2 is an exploded view of a wind deflector assembly according to an exemplary embodiment. Fig. 3 is a first schematic structural diagram of a cover plate according to an exemplary embodiment.

The air deflection assembly 10 includes:

the wind power generation device comprises an outer wind deflector 11, wherein a rotating shaft part 111 is formed on a first surface of the outer wind deflector 11;

an inner lining plate 12 attached to a first surface of the outer air guide plate 11;

a cover plate 13 mounted on a first surface of the outer air guide plate 11, the cover plate 13 and the inner lining plate 12 being located on different sides of the rotating shaft portion 111;

the shielding portion 131 is disposed on a first side wall of the cover plate 13 close to the rotating shaft portion 111, and the shielding portion 131 extends toward the outer wind deflector 11 and is used for at least partially shielding an assembly gap between the cover plate 13 and the outer wind deflector 11.

The air deflector assembly shown in the embodiment of the disclosure can be applied to a wall-mounted air conditioner indoor unit, and specifically, the air deflector assembly is installed at an air outlet of the air conditioner indoor unit and can rotate relative to the air outlet of the air conditioner indoor unit so as to open or close the air outlet of the air conditioner indoor unit.

The air deflection assembly comprises: an outer wind deflector and an inner liner;

wherein, outer aviation baffle includes:

the first end of the rotating shaft part is arranged on the first surface of the outer air deflector, and the second end of the rotating shaft part extends towards the direction far away from the outer air deflector;

a rotating shaft hole is formed at the second end of the rotating shaft;

here, the rotating shaft portion and the outer air deflector may be connected by clamping or integrally formed.

The rotating shaft part is connected with a driving motor through the rotating shaft hole; the driving motor drives the rotating shaft part to rotate, so that the outer air deflector is driven to rotate.

It should be noted that the outer wind deflector may include at least two rotating shaft portions, and the at least two rotating shaft portions are arranged at intervals along the length direction of the outer wind deflector, so that the connection strength between the outer wind deflector and the driving motor is improved, and the stability of the outer wind deflector when being rotated can be effectively improved.

A first mounting position is arranged on the first surface of the outer air deflector and can be arranged between at least two rotating shaft parts of the outer air deflector; the first mounting position is used for mounting the inner lining plate on the outer air deflector.

Here, the outer air guide plate may be injection molded by plastic; the inner lining plate can be made of metal materials.

It should be noted that, since the outer wind deflector generally has a relatively thin thickness, but the outer wind deflector has a relatively long length, the strength of the outer wind deflector can be compensated by the inner liner plate by mounting the inner liner plate on the first surface of the outer wind deflector, thereby reducing the deformation of the outer wind deflector and enabling the outer wind deflector to maintain a good straightness.

The air deflection assembly comprises: a cover plate;

the cover plate is arranged on the first surface of the outer wind deflector, and the cover plate and the inner lining plate are respectively positioned on different sides of the rotating shaft part.

The first surface of the outer air deflector is provided with a second mounting position, and the second mounting positions can be arranged at two ends of the outer air deflector along the length direction; the second mounting position is used for mounting the cover plate on the outer air deflector.

It should be noted that the air guiding plate assembly includes two cover plates, which are respectively installed at two ends of the outer air guiding plate.

The air deflection assembly comprises: a shielding portion;

one side of the shielding part is connected with the first side wall of the cover plate close to the rotating shaft part, and the other side of the shielding part extends towards the outer air deflector;

it should be noted that there may be a mounting gap between the shielding portion and the first surface of the external air guiding plate. Here, the width of the mounting gap may be set according to actual requirements. It can be understood that the situation that the shielding portion is in excessive contact with the outer air deflector and is difficult to mount due to the fact that sizes of parts in the air deflector assembly are deviated is reduced by reserving the mounting gap between the shielding portion and the first surface of the outer air deflector.

It is understood that, in the air deflector assembly, the rotating shaft portion is located between the inner lining and the cover plate, so that an assembly gap exists between the inner lining and the cover plate, the width of the assembly gap is greater than or equal to the thickness of the rotating shaft portion, and the assembly gap is used for accommodating the rotating shaft portion.

When the air deflector assembly is installed at an air outlet of an indoor unit of an air conditioner, cold air output by the air outlet circulates to the assembly gap between the cover plate and the outer air deflector through the assembly gap between the inner lining plate and the cover plate, so that the temperature difference between the inner surface (namely the first surface) and the outer surface of the outer air deflector is large, condensation is easy to generate, water drops are accumulated or dripped, and the use experience of a user is reduced.

This disclosed embodiment is through set up the shielding part in the aviation baffle subassembly, the shielding part extends towards outside aviation baffle to make the shielding part at least partially shield the apron with assembly gap between the outer aviation baffle, reduce the cold wind circulation of air outlet output to the apron with the condition in the assembly gap between the outer aviation baffle, thereby reduce the difference in temperature of the internal surface and the surface of outer aviation baffle, reduce the condition that outer aviation baffle produced the condensation, promote user's use and experience.

In some embodiments, the shielding portion extends toward the outer air deflector and abuts against the first surface of the outer air deflector.

In the embodiment of the disclosure, one side of the shielding part is connected with the first side wall of the cover plate close to the rotating shaft part, and the other side of the shielding part is abutted against the first surface of the outer wind deflector; therefore, the shielding part seals the assembly gap between the cover plate and the outer air guide plate, cold air output by the air outlet cannot circulate to the assembly gap between the cover plate and the outer air guide plate, the temperature difference between the inner surface and the outer surface of the outer air guide plate is reduced, the condensation condition of the outer air guide plate is reduced, and the use experience of a user is improved.

Optionally, as shown in fig. 3, the first side wall of the cover plate 13 is formed with an abdicating notch 132; the yielding notch 132 is used for accommodating the rotating shaft part 111;

the inner wall of the receding gap 132 extends toward the first surface of the outer wind deflector 11 to form the shielding portion 131.

In the embodiment of the present disclosure, an abdicating notch is formed on the first side wall of the cover plate, the abdicating notch is aligned with the rotating shaft portion of the outer wind deflector, and the width of the abdicating notch is greater than or equal to the width of the rotating shaft portion.

The cover plate is arranged on the outer air deflector, and the rotating shaft part of the outer air deflector is positioned in the abdicating notch.

It can be understood that, because the rotating shaft part is positioned between the inner lining plate and the cover plate, a larger assembly gap exists between the inner lining plate and the cover plate; according to the embodiment of the disclosure, the first side wall of the cover plate is provided with the abdicating notch, and the abdicating notch accommodates the rotating shaft part, so that the assembly gap between the lining plate and the cover plate is reduced.

The inner wall of the abdicating notch extends towards the first surface of the outer air deflector and is abutted against the first surface of the outer air deflector to form the shielding part. The assembly gap between the cover plate and the outer air guide plate is sealed through the shielding part at the abdicating notch, so that the temperature difference between the inner surface and the outer surface of the outer air guide plate is reduced, the condensation condition of the outer air guide plate is reduced, and the use experience of a user is improved.

Alternatively, as shown in FIGS. 3-4, FIG. 4 is a cross-sectional structural view of a (portion of) air deflection assembly shown in accordance with an exemplary embodiment. The cover plate 13 includes:

an apron plate 133 disposed on a first sidewall of the cap plate 13, wherein a height difference exists between the apron plate 133 and a second surface of the cap plate 13; the second surface of the cover plate 133 is a surface away from the outer air deflector 11;

the cover 13 is attached to a first surface of the outer air guide plate 11, and the apron 133 is inserted into the fitting gap between the inner lining plate 12 and the outer air guide plate 11 and abuts against a third surface of the inner lining plate 12 close to the outer air guide plate 11.

In an embodiment of the present disclosure, the cover plate further includes: a skirt board;

the apron board is arranged on the first side wall of the cover board and extends towards the direction of the inner lining board; there is a height difference between the apron and the second surface of the cover plate, and it is understood that the apron and the second surface of the cover plate form a step-like structure.

Here, the skirt boards may be respectively disposed at both sides of the abdicating notch of the cover plate, and a length of the skirt board along a length direction of the outer wind guide plate is greater than a width of an assembly gap between the cover plate and the inner lining plate.

The cover plate is arranged on the first surface of the outer air deflector, the apron plate is inserted into an assembly gap between the inner lining plate and the outer air deflector, and the apron plate is abutted against the third surface, close to the outer air deflector, of the inner lining plate.

It is understood that, when the cover plate is mounted to the first surface of the external air guide plate, the skirt plate closes the fitting gap between the cover plate and the internal lining plate.

It should be noted that, an assembly gap exists between the cover plate and the inner lining plate, and an assembly gap also exists between the inner lining plate and the outer air deflector, when the air deflector assembly is installed at the air outlet of the indoor unit of the air conditioner, the cold air output by the air outlet flows to the assembly gap between the inner lining plate and the outer air deflector through the assembly gap between the inner lining plate and the cover plate, so that the temperature difference between the inner surface (i.e. the first surface) and the outer surface of the outer air deflector is large, condensation is easily generated, water drops are accumulated or drip, and the use experience of users is reduced.

According to the embodiment of the disclosure, the apron board extending towards the inner lining board is arranged on the cover board, the apron board is used for sealing the assembly gap between the cover board and the inner lining board, and the apron board is abutted against the third surface of the inner lining board, so that cold air output by the air outlet cannot circulate to the assembly gap between the inner lining board and the outer air guide board, the temperature difference between the inner surface and the outer surface of the outer air guide board is reduced, the condensation condition of the outer air guide board is reduced, and the use experience of a user is improved.

Alternatively, as shown in fig. 5, fig. 5 is a schematic structural view of an interior lining shown according to an exemplary embodiment. A reinforcing rib 121 is arranged on the third surface of the inner lining plate 12;

the reinforcing rib 121 includes:

a reinforcement segment 121a;

and a connecting section 121b having one end connected to the third surface of the inner lining 12 and the other end connected to the reinforcing section 121a, wherein a predetermined included angle is formed between the connecting section 121b and the reinforcing section 121 a.

In the embodiment of the present disclosure, a reinforcing rib is convexly disposed on the third surface of the inner lining plate, and the reinforcing rib extends toward a direction close to the outer air guiding plate.

In consideration of the fact that the output torque of the driving motor is relatively small, in order to enable the air deflector assembly to rotate under the driving of the driving motor, the thickness of an inner lining plate of the air deflector assembly is generally reduced, or the inner lining plate is made of light metal such as magnesium and aluminum; although the weight of the inner liner plate can be effectively reduced, the strength of the inner liner plate is also reduced, and the air deflector assembly is likely to be deformed.

According to the embodiment of the disclosure, the reinforcing ribs are arranged on the third surface of the inner lining plate, so that the structural strength of the inner lining plate can be increased, and the reinforcing ribs enable a heat insulation space to be formed between the inner lining plate and the first installation position of the outer air deflector, thereby being beneficial to reducing the heat transfer of the inner lining plate to the outer air deflector and further being beneficial to reducing the deformation of the outer air deflector caused by expansion with heat and contraction with cold.

Here, the third surface of the inner liner plate may be provided with a plurality of beads arranged at intervals on the third surface of the inner liner plate.

The strengthening rib includes: a connecting section and a reinforcing section;

one end of the connecting section is connected with the third surface of the inner lining plate, and the other end of the connecting section extends towards the direction close to the outer air deflector;

the reinforcing section is connected with the other end of the connecting section, and a preset included angle is formed between the reinforcing section and the connecting section.

In some embodiments, the predetermined included angle may be 90 degrees.

It will be appreciated that the ribs are T-shaped in cross-section in a direction perpendicular to the inner liner.

It should be noted that, in the case where the cross-sectional areas are the same, the bending section coefficient of the T-shaped reinforcing bead is larger than that of the bar-shaped reinforcing bead, and the bending resistance of the T-shaped reinforcing bead is also larger than that of the bar-shaped reinforcing bead. That is to say, under the condition that the weight of strengthening rib is the same, the bending resistance ability of T shape strengthening rib is greater than the bending resistance ability of bar strengthening rib, can more effective promotion air deflector assembly's intensity.

Alternatively, as shown in FIGS. 6-7, FIG. 6 is a disassembled schematic view of an outer wind deflector and an inner liner, according to an exemplary embodiment. Figure 7 is a cross-sectional structural view of an air deflection assembly, according to an exemplary embodiment. At least one limiting rib 112 is formed on the first surface of the outer air deflector 11;

the inner liner 12 is attached to the first surface of the outer air guide plate 11, and the stopper rib 112 abuts against the reinforcement section 121a of the rib 121.

In an embodiment of the present disclosure, at least one limiting rib is formed on the first surface of the external air deflector, a first end of the limiting rib is connected to the first surface of the external air deflector, and a second end of the limiting rib extends toward a direction close to the internal lining plate.

When the inner lining plate is arranged on the first surface of the outer air deflector, the limiting ribs of the outer air deflector are abutted against the reinforcing sections of the reinforcing ribs of the inner lining plate so as to limit the play of the inner lining plate.

It should be noted that, after the inner lining plate is installed on the outer air deflector, the inner lining plate is prone to shifting in the width direction, and particularly, in the process that the outer air deflector is driven by the driving motor to rotate, the shifting of the inner lining plate is more obvious, and the shifting of the inner lining plate is prone to cause connection fracture between the outer air deflector and the inner lining plate.

In order to solve the problem that the inner lining plate moves in the width direction, the first surface of the outer air deflector is provided with at least one limiting rib; when the inner lining plate is arranged on the first surface of the outer air deflector, the limiting ribs are abutted to the reinforcing section of at least one reinforcing rib on the third surface of the inner lining plate, so that the reinforcing ribs can limit the movement of the inner lining plate along the width direction of the inner lining plate, the inner lining plate is limited, and the connection fracture between the outer air deflector and the inner lining plate caused by the play of the inner lining plate is reduced.

In some embodiments, the second end of the limiting rib forms a hook part; the clamping hook part is clamped with the reinforcing section of the reinforcing rib.

It can be understood that a clamping hook portion is formed at a second end (i.e., one end abutted to the reinforcing rib) of the limiting rib, when the inner lining plate is mounted on the first surface of the outer air deflector, the limiting rib of the outer air deflector is abutted to the reinforcing rib of the inner lining plate, and the clamping hook portion of the limiting rib is clamped with the reinforcing section of the reinforcing rib, so that the limiting strength of the limiting rib is effectively improved, and the play of the inner lining plate is limited.

Alternatively, as shown in fig. 5, the ribs 121 may be provided to extend in the longitudinal direction of the inner liner 12.

In the embodiment of the present disclosure, the reinforcing ribs may extend along the length direction of the inner lining plate. It can be understood that the reinforcing ribs extending along the length direction of the inner lining plate can maintain the volume of the heat insulation space between the inner lining plate and the first installation position of the external air deflector, and the heat insulation effect of the heat insulation space is enhanced.

In some embodiments, the inner liner is provided with a plurality of ribs spaced apart along a width of the inner liner, and each rib extends along a length of the inner liner.

It can be understood that the structural strength of the inner lining plate can be further improved by using a plurality of reinforcing ribs arranged at intervals, and the heat insulation space between the inner lining plate and the first installation position of the outer air deflector is more stable because the plurality of reinforcing ribs are arranged along the length direction of the inner lining plate in an extending manner.

Optionally, as shown in fig. 5 to 7, the external wind deflector 11 includes:

the mounting groove 113 is arranged on the first surface of the outer air deflector 11 and is close to the first frame of the outer air deflector 11;

the first buckle 114 is disposed on a first surface of the outer air guiding plate 11 and is close to a second frame of the outer air guiding plate 11, wherein the first frame and the second frame are two frames of the outer air guiding plate 11 along a width direction;

the inner liner 12 includes:

a limit edge 122 matched with the mounting groove is arranged on the third surface of the inner lining plate 12;

the first hook 123, which is engaged with the first snap, is disposed on a side of the inner lining 12 away from the limiting edge 122.

In an embodiment of the present disclosure, the external wind deflector includes: the mounting groove and the first buckle;

the mounting groove and the first buckle are both arranged on the first surface of the outer air deflector and are positioned in the first mounting position;

the mounting groove and the first buckle are respectively arranged on two sides of the outer air deflector along the width direction;

the mounting groove and the first buckle can be fixed on the outer air guide plate in a screw joint or bonding mode or the mounting groove, the first buckle and the outer air guide plate are integrally formed.

In some embodiments, the mounting groove may be formed by a first frame flange of the outer wind deflector.

The outer edge (namely the first frame) of one side of the outer air deflector in the width direction is provided with an installation groove, and the installation groove can be formed by flanging the outer edge of the outer air deflector;

the other side of the width direction of the outer air deflector is provided with a first buckle, and the position of the first buckle is close to the outer edge (namely the second frame) of the other side of the outer air deflector, so that the position of the first buckle has a larger distance from the position of the mounting groove, and the connection stress of two sides of the first mounting position of the outer air deflector is more stable when the inner lining plate is mounted.

The inner liner plate includes: a limit edge and a first clamping hook;

the limiting edge and the first clamping hook are arranged on the third surface of the inner lining plate, and the limiting edge and the first clamping hook are arranged on two sides of the inner lining plate in the width direction respectively.

The limiting edge of the inner lining plate is clamped in the mounting groove of the outer air deflector, so that the inner lining plate can rotate relative to the mounting groove of the outer air deflector; when the inner lining plate rotates towards the direction close to the outer air deflector and rotates until the first clamping hook of the inner lining plate is contacted with the first buckle of the outer air deflector, the first clamping hook is clamped with the first buckle, and therefore the inner lining plate is installed on the outer air deflector.

It can be understood that, because the first installation position is connected in a matching way at one side of the width direction by adopting the installation groove convenient for installation and disassembly and the limit edge, and the other side of the width direction of the first installation position is connected in a matching way by adopting the first buckle with higher connection strength and the first hook, the inner lining plate and the outer air deflector of the air deflector assembly have higher connection strength, meanwhile, the installation and the disassembly of the inner lining plate are also more convenient, and the manufacturability of the product is greatly improved.

Here, the limiting edge and the first hook may be fixed to the inner lining plate by screwing or bonding, or the limiting edge, the first hook and the inner lining plate may be integrally formed.

In some embodiments, the retaining edge may be formed by a flange at one end of the inner liner panel.

The outer edge of one end of the inner lining plate is arranged on the limit edge matched with the mounting groove, and the limit edge can be formed by flanging one end of the inner lining plate, so that the limit edge can be well clamped into the mounting groove, meanwhile, the concealment performance of the limit edge can be improved, and the appearance of the air deflector assembly is more attractive;

the other end of the inner lining plate is provided with a first clamping hook matched with the first buckle, and the first clamping hook and the first buckle are provided with hook bodies with opposite directions, so that the first clamping hook and the first buckle can be connected in a matched mode well.

In some embodiments, in order to improve the connection strength of the inner lining plate and the outer wind deflector, the outer wind deflector may be provided with a plurality of first buckles; the first buckles are arranged at intervals along the length direction of the outer air deflector.

The inner lining plate can be provided with a plurality of first hooks which are arranged at intervals along the length direction of the inner lining plate.

It can be understood that, through the matching connection of the first hooks of the inner lining plate and the first buckles of the outer air deflector, on one hand, the connection strength between the inner lining plate and the outer air deflector can be improved, on the other hand, the connection points between the inner lining plate and the outer air deflector are more, and the stress balance between the inner lining plate and the outer air deflector is improved; the connection between the inner lining plate and the outer air deflector is more stable.

In other embodiments, the first hook extends along the length direction of the inner lining plate.

It is understood that the inner lining plate can be provided with a first hook, but the first hook extends along the length direction of the inner lining plate; the first clamping hooks are connected with the first buckles of the outer air deflector in a matched mode, so that the connection strength between the inner lining plate and the outer air deflector can be improved.

Alternatively, as shown in fig. 8-10, fig. 8 is a partial schematic view of an external air deflection plate according to an exemplary embodiment. Fig. 9 is a schematic structural diagram of a cover plate according to an exemplary embodiment. Fig. 10 is a second schematic structural view of an air deflection assembly according to an exemplary embodiment.

The outer wind deflector 11 includes:

second hooks 115 spaced apart from each other at two ends of the outer air guide plate 11 along the length direction;

the cover plate 13 includes:

the second fasteners 134 are disposed on the cover plate 13 at intervals, are close to the third rim 135 of the cover plate 13, and are configured to cooperate with the second hooks 115 of the outer air guiding plate 11 to mount the cover plate 13 on the outer air guiding plate 11; the third frame 135 of the cover plate 13 is a frame close to two ends of the external air guiding plate 11.

In the embodiment of the present disclosure, a plurality of second hooks are disposed on two sides of the outer air guiding plate along the length direction, and the plurality of second hooks are disposed on the outer air guiding plate at intervals.

A plurality of second buckles are arranged on the cover plate at intervals, and the second buckles are close to a third frame of the cover plate.

The cover plate is fixedly arranged on the outer air deflector through the clamping connection between the second buckle of the cover plate and the second clamping hook of the outer air deflector, so that the cover plate of the air deflector assembly and the outer air deflector have higher connection strength, and in addition, through the matching of the plurality of second buckles and the plurality of second clamping hooks, the connection points between the cover plate and the outer air deflector are more, and the stress balance of the cover plate and the outer air deflector is improved; the connection between the cover plate and the outer air guide plate is more stable.

Optionally, as shown in fig. 3, the second surface of the cover plate 13 is recessed toward the direction close to the outer air guiding plate 11 to form an abdicating groove 136;

the relief groove 136 is adjacent to the first side wall of the cover plate 13 for partially accommodating the driving motor of the air guide plate assembly.

In the embodiment of the present disclosure, the second surface of the cover plate is concavely provided with a receding groove, and the receding groove is recessed toward a direction close to the outer air deflector.

The groove of stepping down is close to the first lateral wall of apron, that is to say, the position of the groove of stepping down with air deflector assembly's driving motor's position corresponds, holds driving motor through the groove of stepping down at least part.

It can be understood that the rotating shaft portion of the outer wind deflector is located on the first side wall of the cover plate, and is connected with the driving motor of the wind deflector assembly through the rotating shaft portion, and the wind deflector assembly is driven to rotate by the driving motor. In consideration of the weight of the air deflector assembly, the requirement on the output torque of the driving motor is high in order to drive the air deflector assembly, which results in a large size of the driving motor.

The embodiment of the disclosure utilizes the abdicating groove on the cover plate to at least partially accommodate the driving motor, thereby shortening the length of the cantilever when the air deflector assembly rotates, obtaining the effect of reducing the moment of the air deflector assembly, reducing the requirement on the output moment of the driving motor, reducing the size of the driving motor, and reducing the gap between the air deflector assembly and the panel of the indoor air conditioner when the air deflector assembly closes the air outlet of the indoor air conditioner.

An embodiment of the present disclosure provides an air conditioner, including:

an air-conditioning indoor unit;

the air conditioner outdoor unit is matched with the air conditioner indoor unit;

wherein, machine in the air conditioning includes:

an air outlet;

according to the air deflector assembly in one or more technical schemes, the air deflector assembly is rotatably arranged at the air outlet of the air conditioner body.

In the embodiment of the disclosure, the air deflector assembly is installed at the air outlet of the indoor unit of the air conditioner, and the cover plate of the air deflector assembly is provided with the shielding part; the shielding part is positioned on the first side wall of the rotating shaft part of the cover plate close to the outer air deflector and is abutted against the first surface of the outer air deflector; the assembly gap between the cover plate and the outer air guide plate is sealed by the shielding part, so that cold air output by the air outlet cannot flow to the assembly gap between the cover plate and the outer air guide plate, the temperature difference between the inner surface and the outer surface of the outer air guide plate is reduced, the condensation condition of the outer air guide plate is reduced, and the use experience of a user is improved.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

It will be understood that the invention is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims (10)

1. An air deflection assembly, comprising:

the first surface of the outer air deflector is provided with a rotating shaft part;

the inner lining plate is arranged on the first surface of the outer air deflector;

the cover plate is arranged on the first surface of the outer air deflector, and the cover plate and the inner lining plate are positioned on different sides of the rotating shaft part;

the shielding part is arranged on the first side wall of the cover plate close to the rotating shaft part, extends towards the outer air deflector and is used for at least partially shielding an assembly gap between the cover plate and the outer air deflector.

2. The air deflection assembly of claim 1, wherein the first sidewall of the cover plate is formed with a relief notch; the abdicating notch is used for accommodating the rotating shaft part;

the inner wall of the abdicating notch extends towards the first surface of the outer air deflector to form the shielding part.

3. The air deflection assembly of claim 2, wherein the cover plate comprises:

the apron board is arranged on the first side wall of the cover board, and a height difference exists between the apron board and the second surface of the cover board; the second surface of the cover plate is a surface far away from the external air deflector;

the apron board is inserted into an assembly gap between the inner lining board and the outer air deflector and is abutted against a third surface, close to the outer air deflector, of the inner lining board.

4. The air deflection assembly of claim 3, wherein the third surface of the inner liner is provided with stiffening ribs;

the strengthening rib includes:

a reinforcement section;

and one end of the connecting section is connected with the third surface of the inner lining plate, the other end of the connecting section is connected with the reinforcing section, and a preset included angle is formed between the connecting section and the reinforcing section.

5. The air deflection assembly of claim 4, wherein the first surface of the outer air deflection plate is formed with at least one limiting rib;

the inner lining plate is arranged on the first surface of the outer air deflector, and the limiting rib is abutted to the reinforcing section of the reinforcing rib.

6. The air deflection assembly of claim 4, wherein the ribs extend along the length of the inner liner.

7. The air deflection assembly of claim 1, wherein the outer air deflection panel comprises:

the mounting groove is arranged on the first surface of the outer air guide plate and is close to the first frame of the outer air guide plate;

the first buckle is arranged on the first surface of the outer air deflector and is close to the second frame of the outer air deflector, wherein the first frame and the second frame are two frames of the outer air deflector along the width direction;

the inner liner panel includes:

the limiting edge is matched with the mounting groove and is arranged on the third surface of the inner lining plate;

and the first clamping hook is matched with the first buckle and arranged on one side of the inner lining plate, which is far away from the limiting edge.

8. The air deflection assembly of claim 1, wherein the outer air deflection panel comprises:

the second clamping hooks are arranged at two ends of the outer air deflector at intervals along the length direction;

the cover plate includes:

the second buckles are arranged on the cover plate at intervals, close to the third frame of the cover plate and used for being matched with the plurality of second clamping hooks of the outer air deflector to install the cover plate on the outer air deflector; and the third frames of the cover plate are frames close to two ends of the outer air guide plate.

9. The air deflection assembly of claim 1, wherein the second surface of the cover plate is recessed toward the outer air deflection plate to form an offset groove;

the air deflector comprises a cover plate, a cover plate and a abdicating groove, wherein the abdicating groove is close to the first side wall of the cover plate and is used for partially accommodating a driving motor of the air deflector assembly.

10. An air conditioner, comprising:

an air-conditioning indoor unit;

the air conditioner outdoor unit is matched with the air conditioner indoor unit;

wherein, machine in the air conditioning includes:

an air outlet;

the air deflection assembly as claimed in any one of claims 1 to 9, which is rotatably mounted to the outlet of the air conditioner body.

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