CN106123271A - 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 easy to assemble, and the assembling efficiency can be improved.

Description

Wind deflector fit structure and air-conditioner

Technical field

The present invention relates to air conditioner technical field, particularly relate to a kind of wind deflector fit structure and air-conditioner.

Background technology

Current air conditioner wall-mounted machine wind deflector is generally made up of internal air baffle and outer wind deflector.Modal a kind of form is for adopting With the inside and outside wind deflector of plastic material, the assembling mode of this kind of wind deflector uses buckle fixed form mostly, difficult drop-off, and Production cost is relatively low.But owing to wind deflector is longer, after injection mo(u)lding, the deformation comparison of wind deflector is serious, size is difficult to control, Impact assembling and outward appearance, when operation of air conditioner, wind deflector also can deform with the change of temperature at air outlet.

All use the shortcoming existing for the scheme of plastic material in view of inside and outside wind deflector, prior art occurs in that employing The mode that plastics internal air baffle material and the outer wind deflector of aluminum coordinate, it is possible to the problem preferably solving wind deflector deformation, profile Also better appearance.

But can be realized by injection in the version technique of buckle owing to generating on working of plastics, and the adding of aluminium section bar Work is machine tooling, can only be simple machining, it is difficult to make the buckle structure of complexity.Thus the most typically use two-sided Internal air baffle and wind deflector are adhesively fixed by glue.Once double faced adhesive tape lost efficacy, and outer wind deflector easily comes off, easily to user Bring potential safety hazard.

Summary of the invention

The purpose of the present invention is to propose to a kind of wind deflector fit structure and air-conditioner, it is possible to increase internal air baffle and metal material Fastness after the outer wind deflector assembling that material is made.

For achieving the above object, first aspect present invention provides a kind of wind deflector fit structure, including internal air baffle and The outer wind deflector being made up of metal material, the inwall of described outer wind deflector is provided with convex tendon, on described internal air baffle with described The wall that outer wind deflector is relative is provided with snap-in structure, and described convex tendon can be embedded in described snap-in structure, described interior to realize Wind deflector and described outer wind deflector fixing.

Further, described convex tendon is arranged along the length direction of described outer wind deflector, and described snap-in structure is provided with multiple, many Individual described snap-in structure is spaced layout along the length direction of described convex tendon position.

Further, the width of described outer wind deflector is interval with a plurality of described convex tendon.

Further, described snap-in structure has elasticity, and the free end of described convex tendon is provided with stop part, described stop part energy Enough it is embedded in described snap-in structure.

Further, described snap-in structure include the limit rib that is oppositely arranged along the width of described internal air baffle and Elastic buckle, described stop part can be embedded in the space of described limit rib and the formation of described Elastic buckle.

Further, described snap-in structure includes two elasticity being oppositely arranged along the width of described internal air baffle Buckle, described stop part can be embedded in the space that two described Elastic buckles are formed.

Further, described Elastic buckle includes that supporting part and pothook, described supporting part are arranged at described internal air baffle The upper wall relative with described outer wind deflector, described pothook is located at the one end on described supporting part away from described internal air baffle, For stopping that the described convex tendon of embedding is deviate from.

Further, described Elastic buckle also includes kink, and described pothook is located at described by described kink Support part is away from one end of described internal air baffle.

Further, after described internal air baffle and the cooperation of described outer wind deflector put in place, described pothook and described stop part Between there is gap.

Further, described snap-in structure is provided with multiple, limit rib described in adjacent two described snap-in structures and described Elastic buckle is crisscross arranged.

Further, the wall relative with described outer wind deflector on described internal air baffle is provided with positioning bar, outside described Being interval with convex tendon described in multistage on the length direction of wind deflector, described positioning bar is located between adjacent described convex tendon, it is possible to The end of described convex tendon is carried out spacing, to realize described internal air baffle relative to described outer wind deflector determining along its length Position.

Further, at least one end of described positioning bar is provided with the buckle of partly open, it is possible to the end to described convex tendon Clamp.

Further, also including the limited block being located on described internal air baffle, it is close that described limited block is positioned at described convex tendon The end at described internal air baffle edge, it is possible to realize described internal air baffle relative to described outer wind deflector determining in the width direction Position.

For achieving the above object, second aspect present invention provides a kind of air-conditioner, including leading described in above-described embodiment Aerofoil fit structure.

Based on technique scheme, the wind deflector fit structure of the present invention, at the outer wind deflector being made up of metal material Convex tendon is set on inwall, and the wall relative with outer wind deflector on internal air baffle is provided with snap-in structure, when assembling, by convex Muscle is embedded in snap-in structure and can be achieved with the fixing of internal air baffle and outer wind deflector, it is possible to increase fixing reliable of wind deflector Property, prevent outer wind deflector from coming off to people and damage, thus improve wind deflector safety in use；And And, this kind of wind deflector fit structure assembling is simple, it is possible to increase efficiency of assembling.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes the part of the application, this Bright schematic description and description is used for explaining the present invention, is not intended that inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the structural representation that in air-conditioner of the present invention, internal air baffle and outer wind deflector coordinate；

Fig. 2 is internal air baffle and the decomposing schematic representation of outer wind deflector in air-conditioner of the present invention；

Fig. 3 is wind deflector fit structure of the present invention in internal air baffle side in the width direction arranges of snap-in structure The sectional view of embodiment；

Fig. 4 is wind deflector fit structure of the present invention in internal air baffle side in the width direction arranges another of snap-in structure The sectional view of individual embodiment；

Fig. 5 is wind deflector fit structure of the present invention in internal air baffle both sides in the width direction arranges the signal of snap-in structure Figure；

Fig. 6 is wind deflector fit structure sectional view at snap-in structure shown in Fig. 5；

Fig. 7 is the position relationship schematic diagram of the limit rib being arranged on internal air baffle shown in Fig. 3 and Fig. 6 and Elastic buckle；

Fig. 8 is the structural representation that ornamental strip is arranged on outer wind deflector；

Fig. 9 is to be arranged on the structural representation of the locating part of the left and right sides on internal air baffle in Fig. 1 and Fig. 5.

Description of reference numerals

1-ornamental strip；2-limited block；The outer wind deflector of 3-；4-internal air baffle；5-limit rib；6-Elastic buckle；7- Positioning bar；8-convex tendon；9-rotating shaft；10-breach；11-locating slot；61-supporting part；62-pothook；63-kink； 81-stop part.

Detailed description of the invention

The present invention described further below.In the following paragraphs, the different aspect of embodiment is defined in more detail.So The each side limited can combine with any other a aspect or many aspects, not can be combined.Especially, Be considered as preferred or favourable any feature can one or more with other be considered as preferred or favourable feature group Close.

The term descriptions merely for convenience such as " first ", " second " occurred in the present invention, have same names to distinguish Different building blocks, be not offered as successively or primary-slave relation.

In describing the invention, have employed " on ", D score, the orientation of the instruction such as " left " and " right " or position relationship be base In orientation shown in the drawings or position relationship, it is for only for ease of and describes the present invention rather than instruction or the device of hint indication Must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that limit to scope System.

Owing to wind deflector inside and outside in prior art is only fixed by splicing, after or inefficacy aging at glue, outer wind deflector It is easy to come off and causes potential safety hazard.And on the outer wind deflector of aluminum, it is difficult to make the buckle structure of complexity, become restriction and improve The outer wind deflector of aluminum and the key factor of plastics firmly installing property of internal air baffle.The present invention then goes out from the angle overcoming this restriction Send out, propose the wind deflector fit structure of a kind of improvement.

In a schematic embodiment, referring to figs. 1 to Fig. 9, the wind deflector fit structure of the present invention includes interior wind-guiding Plate 4 and the outer wind deflector 3 being made up of metal material, the inwall of outer wind deflector 3 is provided with convex tendon 8, on internal air baffle 4 with lead outward The wall that aerofoil 3 is relative is provided with snap-in structure, and convex tendon 8 can be embedded in snap-in structure, to realize internal air baffle 4 and outer wind-guiding Fixing of plate 3.

For the ease of arranging snap-in structure on internal air baffle 4, the internal air baffle 4 of plastics can be used, by being molded into The mode of type is prone to process the snap-in structure of complicated structure.Outer wind deflector 3 uses metal material to make, metal material bag Include simple metal material or alloy material, simple metal material such as aluminum, copper or ferrum etc., alloy material such as aluminium alloy or steel alloy Deng, convex tendon 8 is structure protruding on the inwall of wind deflector 3 outside, and processing is also relatively easy to.Outer wind deflector 3 chi that metal is made Very little it is easily controlled, is less likely to occur deformation when the variations in temperature of air-conditioner air outlet.Internal air baffle 4 and outer wind deflector 3 can design For arc, in order to for arranging snap-in structure and convex tendon 8 slot milling.

When internal air baffle 4 and outer wind deflector 3 are assembled, can first be coated with between internal air baffle 4 and outer wind deflector 3 Glue (such as 3M glue), then be embedded into convex tendon 8 in snap-in structure to realize the fixing of internal air baffle 4 and outer wind deflector 3, this side The advantage of formula is to arrange less snap-in structure, only plays the purpose preventing from coming off.Or can also save and to remove photoresist Use, only realize fixing with coordinating of snap-in structure by convex tendon 8, at this moment in order to improve the fastness of installation, can arrange Multiple snap-in structures, the advantage of this mode can be dispensed with one assembly process, simplifies assembling process, and eliminates applicable Expensive sizing material.

The wind deflector fit structure of this embodiment of the invention, when assembling, being embedded in snap-in structure by convex tendon 8 just can be real Existing internal air baffle 4 and outer wind deflector 3 fixing, it is possible to increase the reliability that wind deflector is fixing, prevents in use outer leading Aerofoil comes off and damages people, thus improves wind deflector safety in use；And, this kind of wind deflector fit structure dress Join simple, it is possible to increase efficiency of assembling.

In a kind of concrete version, as shown in Figure 1, Figure 2 with shown in Fig. 5, convex tendon 8 is along the length direction of outer wind deflector 3 Arranging, snap-in structure is provided with multiple, and multiple snap-in structures are spaced layout along the length direction of convex tendon 8 position.This knot The convex tendon 8 of structure is prone to processing, and same section of convex tendon 8 can match with multiple snap-in structures.Multiple snap-in structures are along convex tendon 8 place The length direction interval of position is arranged and can be provided reliable adhesion on the length direction of wind deflector, reduces wind deflector as far as possible Deform in the longitudinal direction, and easily realize being directed at of convex tendon 8 and snap-in structure when assembling.

In one embodiment, as shown in Figures 1 to 4, the width of outer wind deflector 3 is provided only with a convex tendon 8.Should Example structure is simple, and convex tendon 8 is relatively easy to when embedding snap-in structure, and can reduce the gross weight of wind deflector, favorably as far as possible In improving the life-span sweeping wind turbine.

Preferably, snap-in structure has elasticity, and the free end of convex tendon 8 is provided with stop part 81, and stop part 81 can be embedded into In snap-in structure, and convex tendon 8 is stoped to be deviate from from snap-in structure.When assembling, due to the elasticity of snap-in structure, convex tendon 8 is being subject to Time in external force press-in snap-in structure, snap-in structure deforms and makes convex tendon 8 easily embed, after convex tendon 8 embeds and puts in place, and engaging Structure returns back to original state, and convex tendon 8 can be stoped to deviate from from snap-in structure.

In order to whole piece convex tendon 8 is embedded in the snap-in structure of same row, need by each snap-in structure along its length Both sides be designed as through form.Two kind adoptable versions are given below.

In a kind of version, as shown in Figure 3 and Figure 7, snap-in structure includes the width phase along internal air baffle 4 To the limit rib 5 arranged and Elastic buckle 6, stop part 81 can be embedded in the space of limit rib 5 and Elastic buckle 6 formation. Only be provided with Elastic buckle 6 in side due to this embodiment, convex tendon 8 power required when embedding is less, and assembling is relatively easy to.

In another kind of version, as shown in Figure 4, snap-in structure includes that the width along internal air baffle 4 is relative Two Elastic buckles 6 arranged, stop part 81 can be embedded in the space that two Elastic buckles 6 are formed.This embodiment is two Side arranges Elastic buckle 6 simultaneously, and convex tendon 8 can provide bigger clamping force after mounting, to improve fixing firm of wind deflector Property.

Specifically, as it is shown on figure 3, Elastic buckle 6 includes supporting part 61 and pothook 62, supporting part 61 is arranged at interior wind-guiding Wall relative with outer wind deflector 3 on plate 4, pothook 62 is located at the one end on supporting part 61 away from internal air baffle 4, is used for stopping The convex tendon 8 embedded is deviate from.The Elastic buckle 6 of this version has higher intensity, to improve the use longevity of Elastic buckle 6 Life.Such as, the face that pothook 62 embeds passage near convex tendon 8 is designed as inclined-plane, and is also set the end of the stop part 81 of convex tendon 8 Being calculated as the form on inclined-plane, such convex tendon 8 can rely on the guide effect on inclined-plane to load.

On this basis, as shown in Figure 4, Elastic buckle 6 also includes that kink 63, pothook 62 are located at by kink 63 Supporting part 61 is away from one end of internal air baffle 4.Owing to kink 63 self has elasticity, convex tendon 8 can be made to be subject to when embedding Resistance is less.Embodiment shown in Fig. 4 is respectively provided with kink 63 on two Elastic buckles 6 being oppositely arranged.

As shown in Figure 3 and Figure 4, after internal air baffle 4 and outer wind deflector 3 cooperation put in place, between pothook 62 and stop part 81 There is gap.After so the surrounding at internal air baffle 4 with outer wind deflector 3 contacts, extra answering will not be applied on Elastic buckle 6 Power, improves the service life of Elastic buckle 6.

For arranging the embodiment of multiple snap-in structure along convex tendon 8 length direction, as it is shown in fig. 7, adjacent two engagings In structure, limit rib 5 and Elastic buckle 6 are crisscross arranged.On the basis of orientation shown in Fig. 7, in the snap-in structure in left side, spacing Muscle 5 is above, and Elastic buckle 6 is positioned at lower section, and in the snap-in structure on right side, limit rib 5 is positioned at lower section, Elastic buckle 6 In top.This embodiment can optimize the snap-in structure clamping effect to convex tendon 8.It addition, Elastic buckle 6 and limit rib 5 are along interior The width of the length direction of wind deflector 4 can be equal, it is also possible to, as shown in Figure 7.

In another embodiment, the wall relative with outer wind deflector 3 on internal air baffle 4 is provided with positioning bar 7, leads outside Being interval with multistage convex tendon 8 on the length direction of aerofoil 3, positioning bar 7 is located between adjacent convex tendon 8, it is possible to the end to convex tendon 8 Portion carries out spacing, to realize internal air baffle 4 relative to outer wind deflector 3 location along its length.Such as, in the reality shown in Fig. 2 Executing in example, be interval with two sections of convex tendons 8 outside on the length direction of wind deflector 3, positioning bar 7 is fastened between two sections of convex tendons 8.

Preferably, at least one end of positioning bar 7 is provided with the buckle of partly open, it is possible to clamp the end of convex tendon 8. In this embodiment, positioning bar 7 is while realizing length location, additionally it is possible to positions at width, thus improves location Fastness.

Such as, in the figure 7, positioning bar 7 is two grids length arranged adjacent along internal air baffle 4, one of them grid Open-ended, the end of one section of convex tendon 8 can be made to be embedded into the open end of grid, the end of the convex tendon 8 of another section acts against envelope Close on the end face of grid.As extension, the two grid can be to be both designed as the form of open-ended, with simultaneously to two sections of convex tendons 8 carry out width location.Or two grids can also be both designed as the form closed.

On this basis, in order to reach more excellent locating effect, as shown in Fig. 1 and Fig. 9, wind deflector fit structure also includes The limited block 2 being located on internal air baffle 4, limited block 2 is positioned at the convex tendon 8 end near internal air baffle 4 edge, it is possible to lead in realization Aerofoil 4 is relative to outer wind deflector 3 location in the width direction.Owing to wind deflector is string configuration, for Fig. 1, except arranging Positioning bar 7 in the middle part of internal air baffle 4 and the snap-in structure in region, the left and right sides, the position at convex tendon 8 two ends there is no location, arranges Convex tendon 8 two ends just can be carried out spacing by limited block 2, prevent outer wind deflector 3 assembling time about two ends produce teetertotter, play Quickly the effect of location, so all can form constraint on the whole length direction of convex tendon 8.

Such as, in fig .9, limited block 2 can be designed as U-shaped structure, the side to convex tendon 8, the base of dependence U-shaped structure Carry out spacing.

On the basis of above-described embodiment, the fastness fixing in order to improve wind deflector, in another kind of embodiment, lead outward The width of aerofoil 3 is interval with a plurality of convex tendon 8.As shown in Figure 5 and Figure 6, the width of outer wind deflector 3 is interval with two Bar convex tendon 8, every convex tendon 8 is all divided into two sections from the centre position of outer wind deflector 3, correspondingly, along width side on internal air baffle 4 To the most correspondingly arranging two row's snap-in structures, the form of the various snap-in structures be above given is all suitable at this.Further, interior The centre position of wind deflector 4 also is provided with positioning bar 7, and two ends are provided with limited block 2.

As shown in Figure 6, the stop part of two convex tendons 8 outer wind deflector 3 arranged in the width direction all can be embedded into spacing In the space that muscle 5 and Elastic buckle 6 are formed.Preferably, two snap-in structures being in same width position on outer wind deflector 3 can It is oppositely arranged, thus improves fixing reliability.Additionally, be additionally provided with rotating shaft 9 on the internal air baffle 4 shown in Fig. 3, Fig. 4 and Fig. 6, As the pivotal axis of internal air baffle 4 motion, internal air baffle 4 is additionally provided with breach 10, steps down for sweeping wind turbine.

The two ends, left and right of outer wind deflector 3 are provided with ornamental strip 1, as shown in Figure 8, ornamental strip 1 offer locating slot 11, decoration Bar 1 can be positioned, so that ornamental strip 1 is fixed on outer wind-guiding exactly under the effect of 3M glue by convex tendon 8 when mounted On plate 3.The wind deflector fit structure of the present invention is when assembling, and 3M glue is coated, by left and right two in wind deflector 3 edge the most outside The ornamental strip 1 of side inserts along convex tendon 8, further according to the snap-in structure on internal air baffle 4, positioning bar 7 and these structures of limited block 2 With the matching relationship of convex tendon 8, internal air baffle 4 is vertically pressed on outer wind deflector 3.

It addition, present invention also offers a kind of air-conditioner, including the wind deflector fit structure described in above-described embodiment.This kind Convex tendon 8, when assembling, is embedded in snap-in structure and can be achieved with the fixing of internal air baffle 4 and outer wind deflector 3, assembling by air-conditioner Simply, it is possible to increase efficiency of assembling；And internal air baffle 4 and outer wind deflector 3 is fixing more reliable, prevents in use Outer wind deflector 3 comes off and damages people, it is possible to increase fixing reliability and safety in utilization.

Above a kind of wind deflector fit structure provided by the present invention and air-conditioner are described in detail.Herein should Being set forth principle and the embodiment of the present invention by specific embodiment, the explanation of above example is only intended to side Assistant solves method and the core concept thereof of the present invention.It should be pointed out that, for those skilled in the art, not On the premise of departing from the principle of the invention, it is also possible to the present invention is carried out some improvement and modification, these improve and modification also falls into In the protection domain of the claims in the present invention.

Claims (14)

1. a wind deflector fit structure, it is characterised in that include internal air baffle (4) and the outer wind deflector being made up of metal material (3), the inwall of described outer wind deflector (3) is provided with convex tendon (8), on described internal air baffle (4) with described outer wind deflector (3) phase To wall be provided with snap-in structure, described convex tendon (8) can be embedded in described snap-in structure, to realize described internal air baffle And described outer wind deflector (3) fixing (4).

Wind deflector fit structure the most according to claim 1, it is characterised in that described convex tendon (8) is along described outer wind deflector (3) length direction is arranged, and described snap-in structure is provided with multiple, and multiple described snap-in structures are in place along described convex tendon (8) institute The length direction interval put is arranged.

Wind deflector fit structure the most according to claim 1, it is characterised in that the width of described outer wind deflector (3) It is interval with a plurality of described convex tendon (8).

Wind deflector fit structure the most according to claim 1, it is characterised in that described snap-in structure has elasticity, described The free end of convex tendon (8) is provided with stop part (81), and described stop part (81) can be embedded in described snap-in structure.

Wind deflector fit structure the most according to claim 4, it is characterised in that described snap-in structure includes along described interior Limit rib (5) that the width of wind deflector (4) is oppositely arranged and Elastic buckle (6), described stop part (81) can be embedded into In the space that described limit rib (5) and described Elastic buckle (6) are formed.

Wind deflector fit structure the most according to claim 4, it is characterised in that described snap-in structure includes along described interior Two Elastic buckles (6) that the width of wind deflector (4) is oppositely arranged, described stop part (81) can be embedded into described in two In the space that Elastic buckle (6) is formed.

7. according to the wind deflector fit structure described in claim 5 or 6, it is characterised in that described Elastic buckle (6) includes supporting Portion (61) and pothook (62), it is upper relative with described outer wind deflector (3) that described supporting part (61) is arranged at described internal air baffle (4) Wall, described pothook (62) is located at the one end on described supporting part (61) away from described internal air baffle (4), is used for stopping embedding Described convex tendon (8) abjection entered.

Wind deflector fit structure the most according to claim 7, it is characterised in that described Elastic buckle (6) also includes bending Portion (63), described pothook (62) is located at described supporting part (61) away from described internal air baffle (4) by described kink (63) One end.

Wind deflector fit structure the most according to claim 7, it is characterised in that described internal air baffle (4) and described outer lead After aerofoil (3) cooperation puts in place, between described pothook (62) and described stop part (81), there is gap.

Wind deflector fit structure the most according to claim 5, it is characterised in that described snap-in structure is provided with multiple, adjacent Limit rib (5) described in two described snap-in structures and described Elastic buckle (6) are crisscross arranged.

11. wind deflector fit structures according to claim 1, it is characterised in that on described internal air baffle (4) with described The wall that outer wind deflector (3) is relative is provided with positioning bar (7), is interval with multistage on the length direction of described outer wind deflector (3) Described convex tendon (8), described positioning bar (7) is located between adjacent described convex tendon (8), it is possible to enter the end of described convex tendon (8) Row is spacing, to realize described internal air baffle (4) relative to described outer wind deflector (3) location along its length.

12. wind deflector fit structures according to claim 11, it is characterised in that at least one end of described positioning bar (7) It is provided with the buckle of partly open, it is possible to the end of described convex tendon (8) is clamped.

13. wind deflector fit structures according to claim 1, it is characterised in that also include being located at described internal air baffle (4) On limited block (2), described limited block (2) is positioned at described convex tendon (8) near the end at described internal air baffle (4) edge, it is possible to Realize described internal air baffle (4) relative to described outer wind deflector (3) location in the width direction.

14. 1 kinds of air-conditioners, it is characterised in that include the arbitrary described wind deflector fit structure of claim 1～13.