CN106123271B - Air deflector matching structure and air conditioner - Google Patents

Abstract

The invention relates to an air deflector matching structure and an air conditioner, wherein the air deflector matching structure comprises an inner air deflector (4) and an outer air deflector (3) made of metal materials, a convex rib (8) is arranged on the inner wall of the outer air deflector (3), a clamping structure is arranged on the wall surface, opposite to the outer air deflector (3), of the inner air deflector (4), and the convex rib (8) can be embedded into the clamping structure to fix the inner air deflector (4) and the outer air deflector (3). When the air deflector matching structure is assembled, the convex ribs are embedded into the clamping structure to fix the inner air deflector and the outer air deflector, so that the fixing reliability of the air deflector can be improved, the outer air deflector is prevented from falling off to cause damage to people in the use process, and the safety of the air deflector in use is improved; moreover, the air deflector matching structure is simple and easy to assemble, and the assembling efficiency can be improved.

Description

Air deflector matching structure and air conditioner

Technical Field

The invention relates to the technical field of air conditioning equipment, in particular to an air deflector matching structure and an air conditioner.

Background

The air guide plate of the wall hanging machine of the air conditioner usually consists of an inner air guide plate and an outer air guide plate. The most common form is an inner air deflector and an outer air deflector which are made of plastic materials, most of the air deflectors are assembled in a buckling and fixing mode, the air deflectors are not easy to fall off, and the production cost is low. However, the air deflector is long, the deformation of the air deflector after injection molding is serious, the size is difficult to control, the assembly and the appearance are influenced, and the air deflector can also deform along with the change of the temperature at the air outlet when the air conditioner runs.

In consideration of the defects of the scheme that the inner air guide plate and the outer air guide plate are made of plastic materials, the mode that the plastic inner air guide plate material and the aluminum outer air guide plate are matched appears in the prior art, the problem of deformation of the air guide plates can be well solved, and the appearance is attractive.

However, the structural form of the buckle generated on the plastic part can be realized by injection molding, and the processing of the aluminum profile is machine processing, which only can be simple cutting processing and is difficult to make a complex buckle structure. Therefore, the inner air deflector and the air deflector are generally adhered and fixed by adopting double-sided adhesive tape at present. Once the double faced adhesive tape fails, the outer air deflector is easy to fall off, and potential safety hazards are easily brought to users.

Disclosure of Invention

The invention aims to provide an air deflector matching structure and an air conditioner, which can improve the firmness of an inner air deflector and an outer air deflector made of a metal material after assembly.

In order to achieve the above object, a first aspect of the present invention provides a wind deflector matching structure, which includes an inner wind deflector and an outer wind deflector made of a metal material, wherein a convex rib is disposed on an inner wall of the outer wind deflector, a fastening structure is disposed on a wall surface of the inner wind deflector opposite to the outer wind deflector, and the convex rib can be embedded into the fastening structure to fix the inner wind deflector and the outer wind deflector.

Furthermore, the convex ribs are arranged along the length direction of the outer air deflector, the clamping structures are arranged in a plurality of numbers, and the clamping structures are arranged at intervals along the length direction of the positions of the convex ribs.

Furthermore, a plurality of convex ribs are arranged at intervals in the width direction of the outer air deflector.

Furthermore, the clamping structure has elasticity, the free end of the convex rib is provided with a blocking part, and the blocking part can be embedded into the clamping structure.

Furthermore, the clamping structure comprises a limiting rib and an elastic buckle which are oppositely arranged along the width direction of the inner air deflector, and the blocking part can be embedded into a space formed by the limiting rib and the elastic buckle.

Furthermore, the clamping structure comprises two elastic buckles oppositely arranged along the width direction of the inner air deflector, and the blocking part can be embedded into a space formed by the two elastic buckles.

Furthermore, the elastic buckle comprises a supporting part and a hook part, the supporting part is arranged on the wall surface of the inner air deflector, which is opposite to the outer air deflector, and the hook part is arranged at one end of the supporting part, which is far away from the inner air deflector, and is used for preventing the embedded convex rib from coming off.

Furthermore, the elastic buckle further comprises a bent part, and the hook part is arranged at one end, far away from the inner air deflector, of the supporting part through the bent part.

Further, after the inner air deflector and the outer air deflector are matched in place, a gap exists between the hook part and the blocking part.

Furthermore, the clamping structure is provided with a plurality of clamping structures, and the limiting ribs and the elastic buckles are arranged in a staggered mode in the adjacent two clamping structures.

Furthermore, the wall surface of the inner air deflector, which is opposite to the outer air deflector, is provided with positioning ribs, a plurality of sections of the convex ribs are arranged in the length direction of the outer air deflector at intervals, and the positioning ribs are arranged between the adjacent convex ribs and can limit the end parts of the convex ribs so as to realize the positioning of the inner air deflector relative to the outer air deflector along the length direction.

Furthermore, at least one end of the positioning rib is provided with a buckle with a local opening, so that the end part of the convex rib can be clamped.

The limiting block is arranged on the end part, close to the edge of the inner air guide plate, of the convex rib, and can realize the positioning of the inner air guide plate relative to the outer air guide plate along the width direction.

In order to achieve the above object, a second aspect of the present invention provides an air conditioner, including the air deflector matching structure according to the above embodiment.

Based on the technical scheme, the air deflector matching structure is characterized in that the convex ribs are arranged on the inner wall of the outer air deflector made of a metal material, the clamping structure is arranged on the wall surface, opposite to the outer air deflector, of the inner air deflector, when the air deflector matching structure is assembled, the convex ribs are embedded into the clamping structure, so that the inner air deflector and the outer air deflector can be fixed, the fixing reliability of the air deflector can be improved, the outer air deflector is prevented from falling off to cause damage to people in the using process, and the safety of the air deflector in the using process is improved; moreover, the air deflector matching structure is easy to assemble, and the assembling efficiency can be improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention and do not constitute a limitation of the invention. In the drawings:

FIG. 1 is a schematic view of the structure of the air conditioner of the present invention in which the inner air guiding plate and the outer air guiding plate are engaged;

FIG. 2 is an exploded view of the inner and outer air deflectors of the air conditioner of the present invention;

FIG. 3 is a cross-sectional view of one embodiment of the air deflection assembly of the present invention with a latch structure disposed on one side of the inner air deflection member in the width direction;

FIG. 4 is a cross-sectional view of another embodiment of the air deflection assembly of the present invention with a latch structure disposed on one side of the inner air deflection member in the width direction;

FIG. 5 is a schematic view of the air deflection assembly structure of the present invention with engaging structures disposed on both sides of the inner air deflection along the width direction;

FIG. 6 is a cross-sectional view of the air deflection assembly shown in FIG. 5 at the engagement structure;

fig. 7 is a schematic view of a position relationship between the limiting rib and the elastic buckle arranged on the inner air deflector shown in fig. 3 and 6;

FIG. 8 is a schematic view of the decorative strip mounted on the outer air deflector;

fig. 9 is a schematic structural view of the stoppers disposed on the left and right sides of the inner wind deflector in fig. 1 and 5.

Description of the reference numerals

1-decorating strips; 2, a limiting block; 3-external air deflector; 4-internal air deflector; 5-limiting ribs; 6, elastic buckle; 7-positioning ribs; 8-convex ribs; 9-a rotating shaft; 10-notch; 11-a positioning groove; 61-a support portion; 62-a hook portion; 63-bending part; 81-blocking part.

Detailed Description

The present invention is described in detail below. In the following paragraphs, different aspects of the embodiments are defined in more detail. Aspects so defined may be combined with any other aspect or aspects unless clearly indicated to the contrary. In particular, any feature considered to be preferred or advantageous may be combined with one or more other features considered to be preferred or advantageous.

The terms "first", "second", and the like in the present invention are merely for convenience of description to distinguish different constituent elements having the same name, and do not denote a sequential or primary-secondary relationship.

In the description of the present invention, the directions or positional relationships indicated by "upper", "lower", "left", and "right" are used based on the directions or positional relationships shown in the drawings only for convenience of describing the present invention, and do not indicate or imply that the device referred to must have a specific direction, be constructed and operated in a specific direction, and thus, should not be construed as limiting the scope of the present invention.

Because the inner air deflector and the outer air deflector are fixed only by gluing in the prior art, the outer air deflector is easy to fall off after the glue is aged or invalid, thereby causing potential safety hazards. The aluminum outer air guiding plate is difficult to be provided with a complex buckling structure, and becomes an important factor for limiting and improving the installation firmness of the aluminum outer air guiding plate and the plastic inner air guiding plate. The present invention provides an improved air guiding plate matching structure in view of overcoming the limitation.

In an exemplary embodiment, referring to fig. 1 to 9, the air guiding plate matching structure of the present invention includes an inner air guiding plate 4 and an outer air guiding plate 3 made of a metal material, a rib 8 is disposed on an inner wall of the outer air guiding plate 3, a wall surface of the inner air guiding plate 4 opposite to the outer air guiding plate 3 is provided with a fastening structure, and the rib 8 can be embedded into the fastening structure to fix the inner air guiding plate 4 and the outer air guiding plate 3.

In order to facilitate the arrangement of the clamping structure on the inner air deflector 4, the plastic inner air deflector 4 can be adopted, and the clamping structure with a complex structure is easily processed in an injection molding mode. The outer air deflector 3 is made of metal materials, the metal materials comprise pure metal materials or alloy materials, the pure metal materials comprise aluminum, copper or iron, the alloy materials comprise aluminum alloy or steel alloy, the convex ribs 8 are structures protruding on the inner wall of the outer air deflector 3, and machining is easy. The size of the outer air deflector 3 made of metal is easy to control, and the outer air deflector is not easy to deform when the temperature of the air outlet of the air conditioner changes. The inner air guiding plate 4 and the outer air guiding plate 3 can be designed into an arc shape so as to reserve a space for arranging the clamping structure and the convex rib 8.

When the inner air deflector 4 and the outer air deflector 3 are assembled, glue (for example, 3M glue) can be applied between the inner air deflector 4 and the outer air deflector 3, and then the convex rib 8 is embedded into the clamping structure to fix the inner air deflector 4 and the outer air deflector 3. Or the use of glue can be saved, the fixation is realized only by the matching of the convex ribs 8 and the clamping structures, at this time, a plurality of clamping structures can be arranged for improving the installation firmness, the mode has the advantages that one assembling procedure can be omitted, the assembling process is simplified, and the glue material with high applicable price is omitted.

According to the air deflector matching structure provided by the embodiment of the invention, when the air deflector matching structure is assembled, the inner air deflector 4 and the outer air deflector 3 can be fixed by embedding the convex ribs 8 into the clamping structure, so that the fixing reliability of the air deflector can be improved, the outer air deflector is prevented from falling off to cause damage to people in the use process, and the safety of the air deflector in use is improved; moreover, the air deflector matching structure is simple and easy to assemble, and the assembling efficiency can be improved.

In a specific structure form, as shown in fig. 1, 2 and 5, the convex rib 8 is arranged along the length direction of the outer wind deflector 3, and the plurality of clamping structures are arranged at intervals along the length direction of the position of the convex rib 8. The convex rib 8 of the structure is easy to process, and the same section of convex rib 8 can be matched with a plurality of clamping structures. The plurality of clamping structures are arranged at intervals along the length direction of the position of the convex rib 8, so that reliable binding force can be provided in the length direction of the air deflector, deformation of the air deflector in the length direction is reduced as much as possible, and alignment of the convex rib 8 and the clamping structures is easy to realize during assembly.

In one embodiment, as shown in fig. 1 to 4, only one rib 8 is provided in the width direction of the outer wind deflector 3. This embodiment simple structure, it is comparatively easy when protruding muscle 8 imbeds the block structure, can reduce the total weight of aviation baffle moreover as far as possible, is favorable to improving the life-span of sweeping the wind motor.

Preferably, the engaging structure has elasticity, and the free end of the rib 8 is provided with a blocking portion 81, and the blocking portion 81 can be embedded into the engaging structure and prevent the rib 8 from being disengaged from the engaging structure. During assembly, due to the elasticity of the clamping structure, when the convex rib 8 is pressed into the clamping structure by external force, the clamping structure deforms to enable the convex rib 8 to be easily embedded, and after the convex rib 8 is embedded in place, the clamping structure returns to an initial state, so that the convex rib 8 can be prevented from being separated from the clamping structure.

In order to fit the entire rib 8 into the engagement structures in the same row, both sides of each engagement structure in the longitudinal direction need to be designed to be through. Two possible forms of construction are given below.

In one structure, as shown in fig. 3 and 7, the engaging structure includes a limiting rib 5 and an elastic buckle 6 oppositely arranged along the width direction of the inner air guiding plate 4, and the blocking portion 81 can be embedded into a space formed by the limiting rib 5 and the elastic buckle 6. Because this embodiment has only set up elasticity buckle 6 in one side, the power that protruding muscle 8 required when the embedding is less, and the assembly is comparatively easy.

In another structure, as shown in fig. 4, the engaging structure includes two elastic buckles 6 oppositely disposed along the width direction of the inner wind deflector 4, and the blocking portion 81 can be inserted into a space formed by the two elastic buckles 6. This embodiment sets up elasticity buckle 6 simultaneously in both sides, can provide bigger chucking power to protruding muscle 8 after the assembly to improve the fastness that the aviation baffle is fixed.

Specifically, as shown in fig. 3, the elastic buckle 6 includes a support portion 61 and a hook portion 62, the support portion 61 is disposed on the wall surface of the inner air guiding plate 4 opposite to the outer air guiding plate 3, and the hook portion 62 is disposed on one end of the support portion 61 away from the inner air guiding plate 4 and is used for blocking the embedded rib 8 from coming off. The elastic buckle 6 with the structure has higher strength so as to prolong the service life of the elastic buckle 6. For example, the surface of the hook 62 adjacent to the insertion passage of the rib 8 is designed as an inclined surface, and the end of the stopper 81 of the rib 8 is also designed as an inclined surface, so that the rib 8 can be inserted by means of the guiding action of the inclined surface.

In addition, as shown in fig. 4, the elastic buckle 6 further includes a bending portion 63, and the hook portion 62 is disposed at one end of the support portion 61 away from the inner air guiding plate 4 through the bending portion 63. Since the bent portion 63 itself has elasticity, the rib 8 receives less resistance when it is embedded. The embodiment shown in fig. 4 is provided with a bending part 63 on each of two oppositely arranged elastic buckles 6.

As shown in fig. 3 and 4, after the inner wind deflector 4 and the outer wind deflector 3 are engaged in place, a gap exists between the hook portion 62 and the blocking portion 81. Therefore, after the peripheries of the inner air guide plate 4 and the outer air guide plate 3 are contacted, no extra stress is applied to the elastic buckle 6, and the service life of the elastic buckle 6 is prolonged.

For the embodiment that a plurality of clamping structures are arranged along the length direction of the convex rib 8, as shown in fig. 7, the limiting rib 5 and the elastic buckle 6 in two adjacent clamping structures are arranged in a staggered manner. With the orientation shown in fig. 7 as a reference, in the left-side engaging structure, the stopper rib 5 is located above and the elastic catch 6 is located below, and in the right-side engaging structure, the stopper rib 5 is located below and the elastic catch 6 is located above. This embodiment enables to optimize the clamping effect of the snap-fit structure on the rib 8. In addition, the widths of the elastic buckle 6 and the limiting rib 5 along the length direction of the inner air deflector 4 can be equal or unequal, as shown in fig. 7.

In another embodiment, the wall surface of the inner air deflector 4 opposite to the outer air deflector 3 is provided with positioning ribs 7, a plurality of sections of ribs 8 are arranged at intervals in the length direction of the outer air deflector 3, and the positioning ribs 7 are arranged between adjacent ribs 8 and can limit the end parts of the ribs 8, so that the inner air deflector 4 can be positioned relative to the outer air deflector 3 along the length direction. For example, in the embodiment shown in fig. 2, two pieces of ribs 8 are provided at intervals in the longitudinal direction of the outer air guide plate 3, and the positioning rib 7 is engaged between the two pieces of ribs 8.

Preferably, at least one end of the positioning rib 7 is provided with a buckle which is partially opened and can clamp the end part of the convex rib 8. In this embodiment, the positioning rib 7 can also be positioned in the width direction while realizing the length positioning, thereby improving the positioning firmness.

For example, in fig. 7, the positioning ribs 7 are two squares arranged adjacently along the length of the internal air deflector 4, wherein the end of one square is open, so that the end of one section of the rib 8 can be embedded into the open end of the square, and the end of the other section of the rib 8 abuts against the end face of the closed square. As an extension, both panes can be designed with open ends in order to simultaneously position the two sections of the bead 8 in width. Alternatively, both panes can be designed in a closed manner.

On the basis, in order to achieve a better positioning effect, as shown in fig. 1 and fig. 9, the air guide plate matching structure further comprises a limiting block 2 arranged on the inner air guide plate 4, and the limiting block 2 is located at the end part of the convex rib 8 close to the edge of the inner air guide plate 4, so that the inner air guide plate 4 can be positioned relative to the outer air guide plate 3 in the width direction. Because the aviation baffle is rectangular shape structure, to figure 1, except setting up in the regional block structure of the location muscle 7 and the left and right sides at interior aviation baffle 4 middle part, the position at protruding muscle 8 both ends does not have the location, sets up stopper 2 and just can carry on spacingly to protruding muscle 8 both ends, prevents that outer aviation baffle 3 from rocking about both ends produce when the assembly, plays the effect of quick location, can all form the restraint on protruding muscle 8's whole length direction like this.

For example, in fig. 9, the limiting block 2 may be designed into a U-shaped structure, and the bottom edge of the U-shaped structure is used to limit the side surface of the rib 8.

In addition to the above embodiments, in order to improve the fixing firmness of the air guiding plate, in another embodiment, a plurality of ribs 8 are arranged at intervals in the width direction of the outer air guiding plate 3. As shown in fig. 5 and 6, two ribs 8 are provided at intervals in the width direction of the outer air guiding plate 3, each rib 8 is divided into two sections from the middle position of the outer air guiding plate 3, correspondingly, two rows of clamping structures are correspondingly provided on the inner air guiding plate 4 along the width direction, and the forms of the clamping structures given above are all applicable here. Furthermore, the middle position of the inner air deflector 4 is also provided with a positioning rib 7, and two ends of the inner air deflector are provided with limiting blocks 2.

As shown in fig. 6, the blocking portions of the two ribs 8 arranged along the width direction on the outer air guiding plate 3 can be embedded into the space formed by the limiting rib 5 and the elastic buckle 6. Preferably, the two engaging structures at the same width position on the outer air guiding plate 3 can be oppositely arranged, so as to improve the reliability of fixing. In addition, the inner air deflector 4 shown in fig. 3, 4 and 6 is further provided with a rotating shaft 9 as a pivotal shaft for the movement of the inner air deflector 4, and the inner air deflector 4 is further provided with a notch 10 for the abdication of the wind sweeping motor.

Decorative strips 1 are arranged at the left end and the right end of the outer air deflector 3, as shown in fig. 8, positioning grooves 11 are formed in the decorative strips 1, and the decorative strips 1 can be positioned through convex ribs 8 during installation, so that the decorative strips 1 are accurately fixed on the outer air deflector 3 under the action of 3M glue. When the air deflector matching structure is assembled, 3M glue is coated on the peripheral edges of the outer air deflector 3, the decorative strips 1 on the left side and the right side are inserted along the convex ribs 8, and then the inner air deflector 4 is vertically pressed onto the outer air deflector 3 according to the matching relation of the structures of the clamping structure, the positioning ribs 7 and the limiting blocks 2 on the inner air deflector 4 and the convex ribs 8.

In addition, the invention also provides an air conditioner which comprises the air deflector matching structure in the embodiment. When the air conditioner is assembled, the convex ribs 8 are embedded into the clamping structure, so that the inner air deflector 4 and the outer air deflector 3 can be fixed, the assembly is simple, and the assembly efficiency can be improved; and the inner air deflector 4 and the outer air deflector 3 are reliably fixed, so that the outer air deflector 3 is prevented from falling off to cause damage to people in the use process, and the fixing reliability and the use safety can be improved.

The present invention provides an air guiding plate matching structure and an air conditioner. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to aid in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (8)

1. The air guide plate matching structure is characterized by comprising an inner air guide plate (4) and an outer air guide plate (3) made of a metal material, wherein a clamping structure is arranged on the wall surface, opposite to the outer air guide plate (3), on the inner air guide plate (4), and a convex rib (8) which can be embedded into the clamping structure is arranged on the inner wall of the outer air guide plate (3) so as to fix the inner air guide plate (4) and the outer air guide plate (3);

the wall surface of the inner air deflector (4) opposite to the outer air deflector (3) is provided with positioning ribs (7), a plurality of sections of convex ribs (8) are arranged in the length direction of the outer air deflector (3) at intervals, and the positioning ribs (7) are arranged between the adjacent convex ribs (8) and can limit the end parts of the convex ribs (8) so as to realize the positioning of the inner air deflector (4) relative to the outer air deflector (3) along the length direction;

the clamping structure is elastic, a blocking part (81) is arranged at the free end of the convex rib (8), the clamping structure comprises a limiting rib (5) and an elastic buckle (6) which are oppositely arranged along the width direction of the inner air deflector (4), and the blocking part (81) can be embedded into a space formed by the limiting rib (5) and the elastic buckle (6);

the elastic buckle (6) comprises a supporting part (61), a clamping hook part (62) and a bending part (63), the supporting part (61) is arranged on the wall surface, opposite to the outer air deflector (3), of the inner air deflector (4), and the clamping hook part (62) is arranged at one end, far away from the inner air deflector (4), of the supporting part (61) through the bending part (63) and used for preventing the embedded convex rib (8) from being separated.

2. The air deflector matching structure as claimed in claim 1, wherein the rib (8) is arranged along the length direction of the outer air deflector (3), and the plurality of the clamping structures are arranged at intervals along the length direction of the position of the rib (8).

3. The air guide plate matching structure as claimed in claim 1, wherein a plurality of ribs (8) are arranged at intervals in the width direction of the outer air guide plate (3).

4. The air guide plate matching structure according to claim 1, wherein a gap exists between the hook portion (62) and the blocking portion (81) after the inner air guide plate (4) and the outer air guide plate (3) are matched in place.

5. The air deflector matching structure according to claim 1, wherein a plurality of clamping structures are provided, and the limiting ribs (5) and the elastic buckles (6) in two adjacent clamping structures are arranged in a staggered manner.

6. Air deflector fitting according to claim 1, wherein at least one end of the positioning rib (7) is provided with a partially open catch capable of clamping the end of the rib (8).

7. The air deflector matching structure according to claim 1, further comprising a limiting block (2) arranged on the inner air deflector (4), wherein the limiting block (2) is located at the end of the rib (8) close to the edge of the inner air deflector (4), so that the inner air deflector (4) can be positioned in the width direction relative to the outer air deflector (3).

8. An air conditioner, characterized in that, comprises the air deflector cooperation structure of any one of claims 1 to 7.

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