CN110131787A - A kind of structure and air conditioner of air-conditioner air outlet - Google Patents

Abstract

The present invention provides a kind of structures of air-conditioner air outlet, comprising: air outlet, for the air after heat exchange to be discharged inside air-conditioning；At least two convex ribs, it is set at least side of the air outlet, it is formed between two adjacent convex ribs fluted, wherein height of the convex tendon top surface far from air outlet apart from plane where the air outlet is greater than the height of the convex tendon top surface close to air outlet.By designing convex ribs and groove structure around air outlet, fin height is stepped shape, is incremented by step by step, can be effectively improved and generate condensed water in air outlet circumferential surface；And groove structure can effectively disperse the condensation droplet around air outlet, and condensed water is further prevented to assemble.

Description

A kind of structure and air conditioner of air-conditioner air outlet

Technical field

The present invention and air-conditioning technical field, in particular to the structure and air conditioner of a kind of air-conditioner air outlet.

Background technique

Currently, the design of air outlet structure of air conditioner mainly considers the influence of its wind speed and wind field distribution to outlet air.And go out It often will form condensed water around air port, and have certain noise, easily cause customer complaint.Therefore it needs to existing outlet air Mouth structure improves, and improves leading to the problem of for condensation water around the noise and air outlet of air outlet.

Summary of the invention

Problems solved by the invention is how to be effectively improved the generation of condensation water around the noise and air outlet of air outlet.

To solve the above problems, the present invention provides a kind of structure of air-conditioner air outlet, comprising:

Air outlet, for the air after heat exchange to be discharged inside air conditioner；

At least two convex ribs are set at least side of the air outlet, are formed between two adjacent convex ribs Groove, wherein height of the convex tendon top surface far from air outlet apart from plane where the air outlet is greater than close to air outlet The convex tendon top surface height.

From there through designing convex ribs and groove structure around air outlet, fin height is stepped shape, is incremented by step by step, can It is effectively improved and generates condensed water in air outlet circumferential surface；And groove structure can effectively disperse the condensation droplet around air outlet, It is adsorbed on droplet on piece surface, prevents condensed water from further assembling and become larger.

Further, the high 0.2- of the convex ribs of the convex ribs of the separate air outlet close air outlet more adjacent than its 5mm.According to condensation test test result, when far from air outlet latter convex ribs and previous fin height difference in above range When, uniform wind field can be obtained, the condensation of condensation is effectively prevent.

Further, at least two convex ribs are arranged along air-out direction, and every convex ribs are along vertical with air-out direction Direction extends, and perpendicular to plane where the air outlet.Thus, it is possible to effectively obstruct the air of air outlet discharge directly and go out Air port plate contact generates condensation.

Further, the structure of the air-conditioner air-outlet further includes transition structure, be set to the air outlet with it is described convex Between muscle, for forming smooth connection curved surface between the air outlet and the convex ribs.The setting of transition structure makes to obtain Wind is more smooth, and can reduce noise simultaneously.

Further, the difference in height between the transition structure surface and adjacent convex ribs is less than 2mm.Minimize transition Difference in height between structure and convex ribs can effectively dredge air outlet wind field, reduce out wind resistance, and outlet air is more smooth, to have Effect improves unit outlet air abnormal sound.

Further, the top surface of the convex ribs is inclined-plane, which is to gradually increase along the direction height far from outlet air.By This, can further realize being uniformly distributed for wind field.

Further, the midpoint top surface on the inclined-plane of the convex ribs far from air outlet is apart from plane where the air outlet Height is greater than the intermediate height on the inclined-plane of the convex ribs close to air outlet, or the top inclined-plane of the convex ribs far from air outlet Height of the upper any point top surface apart from plane where the air outlet be greater than the top inclined-planes of the convex ribs close to air outlet On any point height.

Further, the groove between the transition structure and at least two convex ribs, two adjacent convex ribs It is structure as a whole.

Further, the integral structure is integrated injection molding structure.Transition structure and convex ribs and groove structure one Body injection molding, so that the structure making process is simpler.

Further, the groove depth of the groove is 0.2-5mm, groove width 0.3-5mm, separation 0.5-5mm.According to solidifying Reveal experimental test result, when groove size is in above range, can effectively prevent the condensation of condensation.

According to another aspect of the present invention, a kind of air conditioner is provided, the knot including foregoing air-conditioner air outlet Structure.

Detailed description of the invention

Fig. 1 is the schematic diagram of existing part air outlet structure of air conditioner；

Fig. 2 a is the structure of the air-out panel of air-conditioner of first embodiment of the invention；

Fig. 2 b is the sectional view of the air outlet structure of air conditioner of first embodiment of the invention；

Fig. 3 is the air outlet structure of air conditioner schematic diagram of second embodiment of the invention.

Description of symbols:

1- air outlet panel；The first convex rib structure of 2-；Second convex rib structure；10- air outlet panel；100- air outlet； 101- convex ribs；102- transition structure；103- groove.

Specific embodiment

Fig. 1 is the schematic diagram of existing part air outlet structure of air conditioner.As shown in Figure 1, the air outlet packet of existing air conditioner Include the first convex rib structure 2, the second convex rib structure 3 of air port panel 1 and its two sides.Since 1 periphery of air outlet panel is provided with First convex rib structure 2, the second convex rib structure 3, so that wind speed to outlet air and wind field distribution have an impact, still, this is first convex The setting of muscle structure 2, the second convex rib structure 3 will lead to air outlet and generate non-uniform wind field, increase wind resistance out, meanwhile, it should Connection between a little convex rib structures and wind outlet panel 1 has been further exacerbated by wind resistance out there are biggish step configuration.Due to depositing In non-uniform wind field and biggish wind resistance out, air outlet can be made to generate noise, user's use feeling is caused to be deteriorated；Another party Face, there is also condensation condensation problems for the non-uniform wind field.

The present invention provides a kind of air outlet structure of air conditioner, the structures of air-conditioner air outlet, comprising: air outlet, for being discharged Air inside air conditioner after heat exchange；At least two convex ribs are set at least side of the air outlet, and perpendicular to institute Air outlet place plane is stated, is formed between two adjacent convex ribs fluted, wherein the convex ribs top far from air outlet Height of the identity distance from plane where the air outlet is greater than the height of the convex ribs close to air outlet.It is ladder-like out by setting Air port surface convex ribs groove structure and connection transition structure, improve that condensation water around the noise and air outlet of air outlet generates asks Topic.

Specifically, stair-stepping convex ribs and groove structure are arranged by parts surface around air outlet, convex ribs and recessed Slot is successively adjacent to be alternately arranged, and the convex ribs are perpendicular to lateral air-out direction, and quantity is at least 2, is laterally divided along air outlet Cloth, groove depth 0.2-5mm, groove width 0.3-5mm, separation 0.5-5mm, fin height are gradually increased along far from direction of air outlet, are in Stairstepping.Also, it is obtained according to condensation test test result, when than previous convex ribs of latter convex ribs far from air outlet are high When 0.2-5mm, the condensation of condensation can effectively prevent.

Since the convex ribs are perpendicular to lateral air-out direction, portion is flowed out after heat exchange through air outlet in the air conditioner Air contacted with convex ribs after change direction, the heat or cooling capacity of the air conditioner of air outlet at this time discharge will not be conducted to out On the panel body in air port.But it if convex ribs are contour arrangement, will form at convex ribs and groove structure at this time non-uniform Wind field distribution, so as to cause condensation generation.And the present invention can effectively change air outlet wind field using the convex ribs for the shape that is stepped, Keep outlet air smooth, prevent condensation water from generating, and groove structure can effectively disperse the condensation droplet around air outlet, adsorb droplet On piece surface, prevents condensed water from further assembling and become larger.

Further, air outlet is to transition structure is provided between convex rib structure, and transition structure sheet is as more smooth Continuous structure, for forming smooth joint face between the air outlet and the convex ribs.The setting of transition structure makes to obtain Wind is more smooth, and can reduce noise simultaneously.Difference in height between the transition structure surface and adjacent convex ribs is less than 2mm.By minimizing the difference in height between transition structure and convex ribs, air outlet wind field can be effectively dredged, windage is reduced out Power, outlet air is more smooth, to be effectively improved unit outlet air abnormal sound.

To make the above purposes, features and advantages of the invention more obvious and understandable, with reference to the accompanying drawing to the present invention Specific embodiment be described in detail.

In an illustrative examples of the invention, a kind of structure of air-conditioner air outlet is provided.Fig. 2 a is that the present invention is real Apply the structure of the air-out panel of air-conditioner of example.As shown in Figure 2 a, the air outlet panel 10 of the present embodiment is rectangular, the four rectangular sides It is respectively arranged with a bar shaped air outlet 100 substantially parallel with four side, in each air outlet 100 far from air outlet panel 10 The one side at center and its adjacent both sides are provided with convex ribs and groove structure.

Fig. 2 b is the sectional view of the air outlet structure of air conditioner of the embodiment of the present invention.As shown in Figure 2 b, separate in air outlet 100 10 center of air outlet panel on one side on along being laterally placed with three convex ribs 101, the convex ribs 101 far from 100 direction of air outlet Length is greater than the length of bar shaped air outlet 100, and extends to the two sides of air outlet 100.Between air outlet 100 and convex ribs 101 It is provided with transition structure 102, for forming smooth connection curved surface between the air outlet 100 and the convex ribs 101.Transition Without difference in height between structure 102 and convex ribs 101, so that outlet air is more smooth.

In the present embodiment, groove groove depth 0.5-1mm, groove width 0.6mm, separation 0.5mm around air outlet 100, edge go out Air port cross direction profiles.Convex ribs and groove structure around air outlet can effectively disperse to condense droplet, and droplet is made to be adsorbed on parts list On face, prevent condensed water from further assembling the drippage that becomes larger.

Air outlet 100 far from 10 center of air outlet panel on one side on along being laterally placed with far from 100 direction of air outlet Three convex ribs 101, three convex ribs 101 along being respectively the first convex ribs, the second convex ribs and third convex ribs far from direction of air outlet, wherein The height of three convex ribs 101 is stepped shape, and the height of the first convex ribs is 0.2mm, and the height of the second convex ribs is 0.7mm, third The height of convex ribs is 1.2mm, can effectively change air outlet wind field respectively by the stair-stepping convex ribs, keep outlet air smooth, prevent Condensation water generates.

In order to further change the wind field of air outlet, the height of the third convex ribs 101 is not only above the height of the second convex ribs Degree, while the height of the other parts of air outlet panel 10 also higher than adjacent thereto, far from air outlet side, so as to Further prevent the air of portion in the air conditioner through air outlet outflow after heat exchange directly with air outlet plate contact.

Air outlet 100 is to being provided with transition structure 102 between 101 structure of convex ribs, in the present embodiment, the transition structure It is smooth transition between 102 convex ribs 101 adjacent thereto, the two forms integral structure, so that transition structure 102 and convex ribs Without difference in height between 101, air outlet wind field can be effectively dredged, wind resistance is reduced out, outlet air is more smooth, to be effectively improved machine Group outlet air abnormal sound.

The present embodiment passes through design convex ribs and groove structure, fin height directly around part air outlet and is stepped Shape is incremented by step by step, can be effectively improved and generate condensed water in air outlet circumferential surface；Transition structure and convex ribs and groove structure one Change injection molding, so that outlet air is more smooth, and noise can be reduced simultaneously.

In second illustrative examples of the invention, a kind of structure of air-conditioner air outlet is provided.Fig. 3 is the present invention the The air outlet structure of air conditioner schematic diagram of two embodiments.As shown in figure 3, in the present embodiment, in air outlet 100 far from air outlet face 10 center of plate on one side on along a plurality of convex ribs 101 are equally laterally placed with far from 100 direction of air outlet, be different from the first embodiment , the top surface of every convex ribs 101 is inclined-plane, which tilts along air-out direction, i.e., the top surface of every convex ribs is along remote The direction height for separating out wind gradually increases.Thus, it is possible to further realize being uniformly distributed for wind field.

It should be noted that the setting that the convex tendon top surface is inclined-plane can be distributed with convex ribs ladder-like in first embodiment and tie It closes, preferably prevents condensation from condensing and reducing the effect of noise to obtain.

In one embodiment, the air outlet cross-section structure of air conditioner is as shown in figure 3, wherein convex ribs 101 far from air outlet The height of the midpoint top surface apart from plane where the air outlet on top inclined-plane be greater than the tops of the convex ribs 101 close to air outlet The intermediate height on inclined-plane.

In other embodiments, the upper any point top surface on the top inclined-plane of the convex ribs 101 far from air outlet can also be set Height apart from plane where the air outlet is greater than any point on the top inclined-plane of the convex ribs 101 of air outlet.

In third illustrative examples of the present invention, a kind of air conditioner, including foregoing air conditioning exhausting are provided The structure of mouth.

Although present disclosure is as above, present invention is not limited to this.Anyone skilled in the art are not departing from this It in the spirit and scope of invention, can make various changes or modifications, therefore protection scope of the present invention should be with claim institute Subject to the range of restriction.

Claims (11)

1. a kind of structure of air-conditioner air outlet characterized by comprising

Air outlet (100), for the air after heat exchange to be discharged inside air-conditioning；

At least two convex ribs (101) are set at least side of the air outlet (100), the convex ribs (101) of adjacent two Between form fluted (102), wherein the convex ribs (101) top surface far from air outlet is where the air outlet (100) The height of plane is greater than the height close to the convex ribs (101) top surface of air outlet.

2. structure according to claim 1, which is characterized in that

The convex ribs (101) high 0.2- of the convex ribs (101) of the separate air outlet close air outlet more adjacent than its 5mm。

3. structure according to claim 1, which is characterized in that

At least two convex ribs (101) are arranged along air-out direction, and every convex ribs extend along the direction vertical with air-out direction, And perpendicular to plane where the air outlet (100).

4. structure according to claim 1, which is characterized in that further include:

Transition structure (102) is set between the air outlet (100) and the convex ribs (101), in the air outlet (100) smooth joint face is formed between the convex ribs (101).

5. structure according to claim 4, which is characterized in that transition structure (102) surface and adjacent convex ribs (101) difference in height existing for is less than 2mm.

6. structure according to claim 4, which is characterized in that the transition structure (102) and at least two convex ribs (101), the groove (102) between adjacent two convex ribs (101) is structure as a whole.

7. structure according to claim 6, which is characterized in that the integral structure is integrated injection molding structure.

8. structure according to claim 1, which is characterized in that the top surface of the convex ribs (101) is inclined-plane, which is edge Direction height far from outlet air gradually increases.

9. structure according to claim 8, which is characterized in that in the inclined-plane of the convex ribs (101) far from air outlet Height of the point top surface apart from plane where the air outlet is greater than the midpoint on the inclined-plane of the convex ribs (101) close to air outlet Highly, or the upper any point top surface on the top inclined-plane of the convex ribs (101) far from air outlet is flat where the air outlet The height in face is greater than the height of any point on the top inclined-plane of the convex ribs (101) of air outlet.

10. structure according to claim 1, which is characterized in that the groove depth of the groove (102) is 0.2-5mm, and groove width is 0.3-5mm, separation 0.5-5mm.

11. a kind of air conditioner, which is characterized in that the structure including such as described in any item air-conditioner air outlets of claim 1-10.