CN206037356U - Aviation baffle cooperation structure and air conditioner - Google Patents

Abstract

The utility model relates to an aviation baffle cooperation structure and air conditioner, wherein, aviation baffle cooperation structure includes internal air baffle (4) and by outer aviation baffle (3) that metal material made, is equipped with protruding muscle (8) on the inner wall of outer aviation baffle (3), is equipped with the block structure with the relative wall of outer aviation baffle (3) on internal air baffle (4), protruding muscle (8) can be embedded into in the block structure to realize the fixed of internal air baffle (4) and outer aviation baffle (3). This kind of aviation baffle cooperation structure just can realize the fixed of internal air baffle and outer aviation baffle in being embedded into the block structure with protruding muscle when the assembly, can improve the reliability that the aviation baffle was fixed, prevents to come off at the chinese and foreign aviation baffle of use and leads to the fact the injury to the people to the security of aviation baffle when using improve, and the assembly of this kind of aviation baffle cooperation structure is simple and easy, can improve assembly efficiency.

Description

Wind deflector fit structure and air-conditioner

Technical field

This utility model is related to air conditioner technical field, more particularly to a kind of wind deflector fit structure and air-conditioner.

Background technology

Air conditioner wall-mounted machine wind deflector is generally made up of internal air baffle and outer wind deflector at present.A kind of modal form is to adopt With the inside and outside wind deflector of plastic material, the assembling mode of this kind of wind deflector adopts buckle fixed form mostly, difficult for drop-off, and Production cost is relatively low.But as wind deflector is longer, after injection mo(u)lding, the deformation comparison of wind deflector is serious, and size is difficult control, Assembling and outward appearance is affected, in operation of air conditioner, wind deflector also can deform with the change of air outlet temperature.

The shortcoming existing for the scheme of plastic material is adopted in view of inside and outside wind deflector, employing in prior art, is occurred in that The mode that plastics internal air baffle material and the outer wind deflector of aluminum coordinate, can preferably solve the problems, such as that wind deflector deforms, profile Also better appearance.

But due to generate buckle on the working of plastics version technique on can be realized by being molded, and aluminium section bar plus Work is machine tooling, can only be simple machining, it is difficult to make the buckle structure of complexity.Thus at present typically using two-sided Glue is adhesively fixed to internal air baffle and wind deflector.Once double faced adhesive tape fails, outer wind deflector easily comes off, easily to user Bring potential safety hazard.

Utility model content

The purpose of this utility model is to propose a kind of wind deflector fit structure and air-conditioner, it is possible to increase internal air baffle and gold Fastness after outer wind deflector assembling made by category material.

For achieving the above object, this utility model first aspect provides a kind of wind deflector fit structure, including interior wind-guiding Plate and by made by metal material outer wind deflector, the inwall of the outer wind deflector is provided with convex tendon, on the internal air baffle with The relative wall of the outer wind deflector is provided with snap-in structure, and the convex tendon can be embedded in the snap-in structure, to realize State the fixation of internal air baffle and the outer wind deflector.

Further, the convex tendon is arranged along the length direction of the outer wind deflector, and the snap-in structure is provided with multiple, many Length direction arranged for interval of the individual snap-in structure along the convex tendon position.

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

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

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

Further, the snap-in structure include two that the width along the internal air baffle is oppositely arranged it is elastic Buckle, the stop part can be embedded in the space that two Elastic buckles are formed.

Further, the Elastic buckle includes supporting part and pothook, and the supporting part is arranged at the internal air baffle On the wall relative with the outer wind deflector, the pothook is located at the one end on the supporting part away from the internal air baffle, For stopping the embedded convex tendon abjection.

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

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

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

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

Further, at least one end of the positioning bar is provided with the buckle of partly open, can be to the end of the convex tendon Clamped.

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

For achieving the above object, this utility model second aspect provides a kind of air-conditioner, including described in above-described embodiment Wind deflector fit structure.

Based on above-mentioned technical proposal, wind deflector fit structure of the present utility model, in the outer wind-guiding by made by metal material Convex tendon is set on the inwall of plate, and the wall relative with outer wind deflector on internal air baffle is provided with snap-in structure, in assembling, Convex tendon is embedded in snap-in structure the fixation that can be achieved with internal air baffle and outer wind deflector, it is possible to increase what wind deflector was fixed can By property, prevent outer wind deflector in use from is come off and people is damaged, so as to improve wind deflector safety when in use； And, this kind of wind deflector fit structure assembling is simple, it is possible to increase efficiency of assembling.

Description of the drawings

Accompanying drawing described herein is used for providing further understanding to of the present utility model, constitutes the part of the application, Schematic description and description of the present utility model is used for explaining this utility model, does not constitute to of the present utility model improper Limit.In the accompanying drawings：

Fig. 1 is the structural representation of internal air baffle and the cooperation of outer wind deflector in this utility model air-conditioner；

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

Fig. 3 is that this utility model wind deflector fit structure side in internal air baffle in the width direction arranges snap-in structure The sectional view of one embodiment；

Fig. 4 is that this utility model wind deflector fit structure side in internal air baffle in the width direction arranges snap-in structure The sectional view of another embodiment；

Fig. 5 is that this utility model wind deflector fit structure both sides in internal air baffle in the width direction arrange snap-in structure Schematic diagram；

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

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

Fig. 8 installs the structural representation on outer wind deflector for ornamental strip；

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 strips；2- limited blocks；The outer wind deflectors of 3-；4- internal air baffles；5- limit ribs；6- Elastic buckles；7- Positioning bar；8- convex tendons；9- rotating shafts；10- breach；11- locating slots；61- supporting parts；62- pothooks；63- kinks； 81- stop parts.

Specific embodiment

This utility model described further below.In the following paragraphs, the different aspect of embodiment is defined in more detail. The each side for so limiting can be combined with any other one side or many aspects, not can be combined unless explicitly stated otherwise.Especially Which is, it is considered to be preferred or favourable any feature one or more can be considered as preferred or favourable spy with other Levy combination.

The term description merely for convenience such as " first ", " second " for occurring in this utility model, to distinguish with identical The different building blocks of title, are not offered as priority or primary-slave relation.

In description of the present utility model, employ " on ", D score, the orientation of the instruction such as " left side " and " right side " or position relationship It is, based on orientation shown in the drawings or position relationship, to be for only for ease of description this utility model, rather than indicate or imply institute The device of finger must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to this utility model The restriction of protection domain.

As in prior art, inside and outside wind deflector is only fixed by being glued, glue is aging or failure after, outer wind deflector It is easy to come off and causes potential safety hazard.And be difficult to make the buckle structure of complexity on the outer wind deflector of aluminum, become restriction and improve The key factor of the outer wind deflector of aluminum and plastics firmly installing property of internal air baffle.This utility model is then from the angle for overcoming this restriction Degree sets out, and proposes a kind of improved wind deflector fit structure.

In a schematic embodiment, referring to figs. 1 to Fig. 9, wind deflector fit structure of the present utility model includes interior Wind deflector 4 and by made by metal material outer wind deflector 3, the inwall of outer wind deflector 3 is provided with convex tendon 8, on internal air baffle 4 with The relative wall of outer wind deflector 3 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 The fixation of wind deflector 3.

For the ease of arranging snap-in structure on internal air baffle 4, can be using the internal air baffle 4 of plastics, by being molded into The mode of type it is easy to process go out the more complicated snap-in structure of structure.Outer wind deflector 3 is made using metal material, 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 It is raised structure on the inwall of outer wind deflector 3 Deng, convex tendon 8, processing is also relatively easy to.3 chi of outer wind deflector made by metal It is very little to be easily controlled, it is less likely to occur deformation in the temperature change of air-conditioner air outlet.Internal air baffle 4 and outer wind deflector 3 can be designed For arc, so as to for arranging 8 slot milling of snap-in structure and convex tendon.

When assembling to internal air baffle 4 and outer wind deflector 3, first can apply between internal air baffle 4 and outer wind deflector 3 Glue (such as 3M glue), then convex tendon 8 is embedded in snap-in structure to realize the fixation of internal air baffle 4 and outer wind deflector 3, this side The advantage of formula can be to arrange less snap-in structure, only play the purpose for preventing from coming off.Or can also save what is removed photoresist Use, only by the cooperation of convex tendon 8 and snap-in structure realizing fixing, 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, simplify assembling process, and eliminate applicable Expensive sizing material.

The wind deflector fit structure of this utility model embodiment, in assembling, convex tendon 8 is just embedded in snap-in structure The fixation of internal air baffle 4 and outer wind deflector 3 can be realized, it is possible to increase the reliability that wind deflector is fixed, be prevented in use Outer wind deflector is come off and people is damaged, so as to improve wind deflector safety when in use；And, this kind of wind deflector coordinates knot Structure assembling is simple, it is possible to increase efficiency of assembling.

In a kind of specific version, as shown in Figure 1, Figure 2 with shown in Fig. 5, length direction of the convex tendon 8 along outer wind deflector 3 Arrange, snap-in structure is provided with multiple, length direction arranged for interval of multiple snap-in structures along 8 position of convex tendon.This knot The convex tendon 8 of structure is easy to process, and same section of convex tendon 8 can be engaged with multiple snap-in structures.Multiple snap-in structures are located along convex tendon 8 The length direction arranged for interval of position can provide reliable adhesion on the length direction of wind deflector, reduce wind deflector as far as possible Deform in the longitudinal direction, and being aligned for convex tendon 8 and snap-in structure is easily realized in assembling.

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

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 prevented to deviate from from snap-in structure.In assembling, due to the elasticity of snap-in structure, convex tendon 8 is being received During in external force press-in snap-in structure, snap-in structure deforms makes convex tendon 8 easily embedded, after convex tendon 8 is embedded in place, engaging Structure returns back to original state, and convex tendon 8 can be prevented 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 each snap-in structure along its length Both sides be designed as the form of insertion.Two kinds of 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 Limit rib 5 and Elastic buckle 6 to setting, stop part 81 can be embedded in the space that limit rib 5 and Elastic buckle 6 are formed. As the embodiment is only provided with Elastic buckle 6 in side, required power when embedded of convex tendon 8 is less, and assembling is relatively easy to.

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

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

On this basis, as shown in figure 4, Elastic buckle 6 also includes kink 63, pothook 62 is located at by kink 63 The one end of supporting part 61 away from internal air baffle 4.As kink 63 itself has elasticity, can make what convex tendon 8 was subject to when embedded 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 coordinate in place, between pothook 62 and stop part 81 There is gap.So after the surrounding contact of internal air baffle 4 and outer wind deflector 3, extra answering will not be applied on Elastic buckle 6 Power, improves the service life of Elastic buckle 6.

For the embodiment for arranging multiple snap-in structures along 8 length direction of convex tendon, as shown in fig. 7, two neighboring engaging In structure, limit rib 5 and Elastic buckle 6 are crisscross arranged.It is 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 located at lower section, and in the snap-in structure on right side, limit rib 5 is located at lower section, Elastic buckle 6 In top.The embodiment can optimize clamping effect of the snap-in structure to convex tendon 8.In addition, Elastic buckle 6 with limit rib 5 along interior The width of the length direction of wind deflector 4 can be with 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 Multistage convex tendon 8 is interval with the length direction of aerofoil 3, and positioning bar 7 is located between adjacent convex tendon 8, can be to the end of convex tendon 8 Portion carry out it is spacing, to realize the positioning relative to outer wind deflector 3 along its length of internal air baffle 4.For example, in the reality shown in Fig. 2 Apply in example, be interval with two sections of convex tendons 8 on the length direction of outer 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, and the end of convex tendon 8 can be clamped. In the embodiment, positioning bar 7 is while length positioning is realized, additionally it is possible to positioned in width, so as to improve positioning Fastness.

For example, in the figure 7, positioning bar 7 be two grids along internal air baffle 4 length arranged adjacent, one of 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 another section of convex tendon 8 acts against envelope Close on the end face of grid.Used as extension, the two grids can be both designed as the form of open-ended, with simultaneously to two sections of convex tendons 8 enter line width positioning.Or two grids can also be both designed as the form of closing.

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 are located at convex tendon 8 near the end at 4 edge of internal air baffle, can realize interior leading Positioning of the aerofoil 4 relative to outer wind deflector 3 in the width direction.As wind deflector is string configuration, for Fig. 1, except arranging The snap-in structure of positioning bar 7 and left and right sides region in the middle part of the internal air baffle 4, the position at 8 two ends of convex tendon have no positioning, arrange Limited block 2 just 8 two ends of convex tendon can be carried out it is spacing, prevent outer wind deflector 3 assembling when or so two ends produce teetertotter, play The effect of quick positioning, so can all form constraint on the whole length direction of convex tendon 8.

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

On the basis of above-described embodiment, in order to improve the fastness of wind deflector fixation, 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 are all divided into two sections from the centre position of outer wind deflector 3, correspondingly, along width side on internal air baffle 4 To two row's snap-in structures are also correspondingly arranged, the form here of the various snap-in structures for being above given is all suitable for.Further, it is 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 fig. 6, the stop part of two convex tendons 8 for being arranged on outer wind deflector 3 in the width direction can be embedded into it is spacing In the space that muscle 5 and Elastic buckle 6 are formed.Preferably, two snap-in structures in same width position on outer wind deflector 3 can It is oppositely arranged, so as to improve fixed reliability.Additionally, rotating shaft 9 is additionally provided with internal air baffle 4 shown in Fig. 3, Fig. 4 and Fig. 6, As the pivotal axis of the motion of internal air baffle 4, breach 10 is additionally provided with internal air baffle 4, for sweeping wind turbine resigning.

The left and right two ends of outer wind deflector 3 are provided with ornamental strip 1, as shown in figure 8, offering locating slot 11 on ornamental strip 1, decorate Bar 1 can be positioned by convex tendon 8 when mounted, so that ornamental strip 1 is fixed in outer wind-guiding in the presence of 3M glue exactly On plate 3.Wind deflector fit structure of the present utility model first coats 3M glue in 3 edge of outer wind deflector, by a left side in assembling The ornamental strip 1 of right both sides is inserted along convex tendon 8, further according to the snap-in structure on internal air baffle 4, positioning bar 7 and limited block 2 these Structure and the matching relationship of convex tendon 8, internal air baffle 4 is vertically pressed on outer wind deflector 3.

In addition, this utility model additionally provides a kind of air-conditioner, including the wind deflector fit structure described in above-described embodiment. Convex tendon 8 is embedded in snap-in structure the fixation that can be achieved with internal air baffle 4 and outer wind deflector 3 in assembling for this kind of air-conditioner, Assembling is simple, it is possible to increase efficiency of assembling；And the fixation of internal air baffle 4 and outer wind deflector 3 is more reliable, prevent from using Journey China and foreign countries wind deflector 3 is come off and people is damaged, it is possible to increase fixed reliability and safety in utilization.

Above a kind of wind deflector fit structure provided by the utility model and air-conditioner are described in detail.Herein In apply specific embodiment principle of the present utility model and embodiment be set forth, the explanation of above example is only It is to be used to help understand method of the present utility model and its core concept.It should be pointed out that for the ordinary skill of the art For personnel, on the premise of without departing from this utility model principle, some improvement and modification can also be carried out to this utility model, These improve and modification is also fallen in this utility model scope of the claims.

Claims (14)

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

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

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

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

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

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

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

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

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

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

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

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

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

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