CN210569094U - Prevent air guide door, indoor set and air conditioner of condensation - Google Patents

Abstract

The utility model provides a prevent wind-guiding door of condensation, the lateral surface of wind-guiding door includes: at least one recess setting surface, the recess setting surface is used for setting up a plurality of groove structure, wherein, the recess setting surface is dull and stereotyped structure, a plurality of groove structure in structural evenly distributed of dull and stereotyped. By arranging the groove structure, condensation can be attached to the groove on the groove arrangement surface after being formed, enough dripping water drops cannot be condensed, and the condensation and dripping of the water drops along the air guide door are effectively prevented; meanwhile, the arrangement surface of the groove is a plane, so that the mold stripping of the groove structure is not influenced in the manufacturing process of the air guide door.

Description

Prevent air guide door, indoor set and air conditioner of condensation

Technical Field

The utility model relates to an air conditioning technology field particularly, relates to an air guide door, indoor set and air conditioner of preventing condensation.

Background

Most air conditioners on the market use a conventional air guide door, namely, the outer surface of the air guide door is of a smooth arc-shaped structure. Because the air guide door of the air conditioner is low in temperature and large in temperature difference between the inside and the outside of the air guide door in the operation process, water vapor in the outside air is easy to be liquefied by cooling, and therefore condensation is easily formed on the outside of the air guide door and is gathered and dripped.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem provide a can prevent that condensation from assembling air guide door structure of drippage.

In order to solve the above problem, the utility model provides a prevent air guide door of condensation, air guide door's lateral surface includes:

at least one recess setting surface, the recess setting surface is used for setting up a plurality of groove structure, wherein, the recess setting surface is dull and stereotyped structure, a plurality of groove structure in structural evenly distributed of dull and stereotyped.

By arranging the groove structure, condensation can be attached to the groove on the groove arrangement surface after being formed, enough dripping water drops cannot be condensed, and the condensation and dripping of the water drops along the air guide door are effectively prevented; meanwhile, the arrangement surface of the groove is a plane, so that the mold stripping of the groove structure is not influenced in the manufacturing process of the air guide door, and the limitation on the diameter of the groove structure is reduced.

In some embodiments, the groove arrangement surface is disposed in a middle portion of the outer side surface of the air guide door.

Because the action of gravity, the middle part of air guide door lateral surface forms the condensation more easily and drips, and set up the recess setting surface set up in the middle part of air guide door lateral surface can effectively solve the condensation problem of dripping.

In some embodiments, the outer side of the damper further comprises:

the cambered surface structure has a smooth outer surface and is arranged around the groove arrangement surface.

Cambered surface structure can guide the wind direction, and the setting of setting up the convex groove structure on the recess setting surface at cambered surface structure middle part can also disturb the wind field, makes originally to blow out along wind-guiding door tangential direction wind divergent blow on the user one's body, has increased the travelling comfort that the body was felt.

In some embodiments, the groove arrangement surface is provided with a plurality of rows of groove structures along the direction of the flowing tendency of the condensation under the action of gravity.

In some embodiments, a plurality of regions a and regions B are arranged on the groove arrangement surface at intervals in a direction perpendicular to the flow direction of the condensation, wherein the groove structures in odd rows of the groove structures are arranged in the regions a, and the groove structures in even rows of the groove structures are arranged in the regions B.

After the region division is carried out through the groove arrangement surface, condensation is only condensed in each subregion, the effect of 'water locking' is played, and the further downward flowing and gathering of the condensation are effectively prevented.

In some embodiments, the groove structure is a circular arc groove.

In some embodiments, the arc surface of the arc-shaped groove is smaller than 1/2 of the arc surface corresponding to the sphere.

Through the arrangement, the problem that the spherical hole of the arc-shaped groove is reversely buckled and cannot be demoulded in the manufacturing process of the air guide door can be prevented.

In some embodiments, the depth D of the groove structure is not more than 1/3 of the thickness D of the groove arrangement surface.

The arrangement of the depth d of the groove structure enables the outer surface of the air guide door to keep enough structural strength under the condition that the groove arrangement surface is uniformly provided with a plurality of arc-shaped groove structures.

According to another aspect of the utility model, an indoor unit is provided, include air guide door as before.

The beneficial effect of the indoor unit is the same as that of the anti-condensation air guide door, and is not repeated herein.

According to another aspect of the present invention, there is provided an air conditioner including the air guide door as described above.

The beneficial effect of the air conditioner is the same as that of the anti-condensation air guide door, and is not repeated herein.

Drawings

Fig. 1 is a schematic structural view of an anti-condensation air guide door according to an embodiment of the present invention;

fig. 2A is a front view of an outer side surface of a condensation-proof air guide door structure according to an embodiment of the present invention;

fig. 2B is a partially enlarged schematic view of an outer side surface of a condensation-proof air guide door structure according to an embodiment of the present invention;

FIG. 3 is a schematic diagram illustrating the distribution of the groove structures on the groove installation surface according to an embodiment of the present invention;

fig. 4A is a schematic view of a flow direction of an air field outside the air guide door according to an embodiment of the present invention;

fig. 4B is a cross-sectional view of a groove installation surface according to an embodiment of the present invention.

Description of reference numerals:

100-a wind guide door; 110-a groove arrangement surface; 111-groove structure; 120-cambered surface structure.

Detailed Description

The air guide door of the existing air conditioner is low in temperature and large in temperature difference between the inside and the outside of the air guide door in the operation process, and condensation is easily formed on the outside of the air guide door. The air guide door is at the swing in-process, and the condensation can be followed and flowed under the action of gravity, constantly gathers with other condensation in the stroke, finally forms the water drippage and falls. When the air-conditioning air is blown out, the air-conditioning air flows along the air guide door and then flows out along the tangential direction of the air guide door due to the fact that the flow speed is high and the pressure intensity is small relative to the external air, and the flow direction is concentrated, so that the discomfort of the air-conditioning air to people in direct blowing can be caused.

The utility model provides an air guide door, an indoor unit and an air conditioner capable of preventing condensation, which can make condensation hang on a hemispherical hole after being formed by adding the hemispherical hole on the outer surface of the air guide door, thereby effectively preventing the condensation from converging and dripping along the air guide door; simultaneously the hemisphere hole can disturb the wind field, makes originally to blow out along wind-guiding door tangential direction wind divergent blow on the user body, has increased the travelling comfort to a certain extent.

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

In an exemplary embodiment of the present invention, a condensation-preventing air guide door is provided. Fig. 1 is a schematic structural view of a condensation-proof air guide door according to an embodiment of the present invention. As shown in fig. 1, the outer side surface of the air guiding door 100 structure includes a groove arrangement surface 110, and the groove arrangement surface 110 is used for arranging a plurality of groove structures.

Through setting up groove structure, can make behind the condensation formation adhere to in recess setting surface 110 in the recess, and can not condense out enough drippage water droplet, effectively prevent it from gathering the drippage along with the air guide door, prevent that the air guide door temperature is lower and when its inside and outside air temperature difference is great, form the condensation and gather the drippage outside the air guide door. Further, the groove arrangement surface 110 is a flat plate structure, and the outer side surface of the air guide door 100 structure further includes an arc surface structure 120.

Fig. 2A is a front view of an outer side surface of a wind guiding door structure for preventing condensation according to an embodiment of the present invention. Fig. 2B is a schematic enlarged partial view of the outer side surface of the air guide door structure for preventing condensation according to the embodiment of the present invention. As shown in fig. 2A-2B, the groove installation surface 110 is disposed in the middle of the outer side surface of the air guide door 100, and the arc structures 120 are disposed around the groove installation surface 110. The arc-shaped surface structure 120 has a smooth outer surface, and a plurality of arc-shaped groove structures 111 are uniformly distributed on the groove arrangement surface 110.

Due to the action of gravity, the middle part of the outer side surface of the air guide door is easier to form condensation and drip, and the groove arrangement surface 110 is arranged in the middle part of the outer side surface of the air guide door 100, so that the problem of condensation and drip can be effectively solved. Simultaneously, the cambered surface structure 120 can guide the wind direction, and the setting of the arc-shaped groove structure on the groove setting surface in the middle of the cambered surface structure can also disturb the wind field, so that the wind blown out along the tangential direction of the wind guide door originally is diffused and blown onto the body of a user, and the comfort is increased to a certain extent.

Specifically, the outer side surface of the air guide door 100 is an integrally formed structure, and the groove arrangement surface 110 is a plane, so that the mold stripping of the arc-shaped groove structure 111 is not affected in the air guide door manufacturing process. If the groove structure is arranged on the arc surface, when the air guide door is manufactured and demoulded, the bigger the demould angle is, the smaller the diameter of the section of the arc-shaped groove structure 111 is needed to be, otherwise, back-off is generated, and the groove structure cannot be demoulded. Therefore, the groove arrangement surface 110 of the flat plate structure has less restriction on the diameter of the circular arc-shaped groove structure 111, and facilitates the manufacture of the damper door.

In a second exemplary embodiment of the present invention, a condensation resistant air guide door is provided. Fig. 3 is a schematic diagram of the distribution of the groove structure on the groove installation surface according to the embodiment of the present invention. Because the air conditioner is because the air guide door temperature is lower at the operation in-process, and its inside and outside air temperature difference is great, the air guide door outside easily forms the condensation, and the air guide door is at the swing in-process, and the condensation can follow the flow under the action of gravity, constantly assembles with other condensation in the stroke, finally forms the water droplet and falls. As shown in fig. 3, in the present embodiment, by designing the distribution of the plurality of groove structures 111 uniformly disposed on the groove disposing surface 110, the flow of the condensation is effectively prevented from converging.

Specifically, the groove arrangement surface 110 is provided with a plurality of rows of groove structures 111 along the direction of the flowing tendency of the condensation under the action of gravity, and a plurality of areas are arranged along the direction perpendicular to the flowing direction of the condensation, including an area a and an area B which are arranged at intervals. In this embodiment, the odd-numbered rows of groove structures 111 are all disposed in the region a, and the even-numbered rows of groove structures 111 are all disposed in the region B. Thus, the groove structures 111 are uniformly staggered. As shown in fig. 3, each region a may form a plurality of sub-regions in the flow direction of the condensation, including the sub-region a1, the sub-region a2, the sub-region A3 …, the sub-region B1, the sub-region B2 …, and the like, each sub-region includes a circular arc groove structure 111, and when the condensation of each sub-region flows to the position of the arrow, the condensation will hang in the circular arc hemisphere hole under the action of self-tension, so that the condensation will be condensed only in each sub-region.

Due to the adoption of the distribution mode of the groove structures 111, after the groove arrangement surface 110 is subjected to region division, condensation is only condensed in each subregion, so that the water locking effect is realized, and the further downward flowing and gathering of the condensation is effectively prevented.

In a third exemplary embodiment of the present invention, a condensation-proof air guide door is provided. Fig. 4A is a schematic view of a flow direction of an air field outside the air guide door according to the embodiment of the present invention. As shown in fig. 4A, the arc-shaped groove 111 is formed in the outer surface of the air guiding door, and the added hemispherical hole of the arc-shaped groove 111 can play a role in disturbing the wind field, so that part of the air-conditioning wind flows out along the tangential direction of the spherical hole when flowing through the spherical hole, thereby disturbing the wind field and increasing the overall divergence of the air-conditioning wind.

Fig. 4B is a cross-sectional view of a groove installation surface according to an embodiment of the present invention. As shown in fig. 4B, the arc-shaped groove 111 is specifically configured as follows:

the centre of sphere C that circular arc type recess 111 corresponds sets up in wind-guiding door surface outside, and the cambered surface of circular arc type groove structure 111 is < 1/2 spheroid promptly, through above-mentioned setting, can prevent to have the back-off in wind-guiding door manufacturing process, and the unable demolding of the bulb hole of circular arc type recess 111.

Further optionally, in order to prevent the arrangement of the hemispherical holes from affecting the strength of the air guide door, the depth D of the hemispherical hole with the arc-shaped groove structure 111 is not more than 1/3 of the thickness D of the setting surface of the groove, that is, D is not more than 1/3D. Therefore, under the condition that the groove arrangement surface 110 is uniformly provided with a plurality of arc-shaped groove structures 111, the outer surface of the air guide door keeps enough structural strength.

Through the arrangement, the influence of the arrangement of the groove structure on the manufacturing process of the air guide door is considered, and the convenience and the reliability of the manufacturing of the air guide door are improved.

In a fourth exemplary embodiment of the present invention, an indoor unit is provided, and the air conditioner includes any one of the above-mentioned air guide door structures for preventing condensation.

In a fifth exemplary embodiment of the present invention, an air conditioner is provided, which includes any one of the above-mentioned air guiding door structures for preventing condensation.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (10)

1. The utility model provides a prevent air guide door of condensation which characterized in that, air guide door's lateral surface includes:

at least one recess setting surface (110), recess setting surface (110) are used for setting up a plurality of groove structure (111), wherein, recess setting surface (110) are the slab structure, a plurality of groove structure (111) in evenly distributed is in the slab structure.

2. The air guide door as recited in claim 1, wherein the recess installation surface (110) is provided in a middle portion of an outer side surface of the air guide door.

3. The air deflection door as set forth in claim 2, wherein the outer side of the air deflection door further comprises:

the arc-shaped structure (120), the arc-shaped structure (120) has smooth surface, set up in recess setting surface (110) is all around.

4. Air deflection door according to claim 1, characterized in that the groove arrangement surface (110) is provided with a plurality of rows of groove structures (111) along the direction of the tendency of the condensation to flow under the action of gravity.

5. The air guide door according to claim 4, wherein the groove arrangement surface (110) is provided with a plurality of regions A and B arranged at intervals along a direction perpendicular to a flow direction of condensation, wherein the groove structures (111) of odd rows of the groove structures (111) are arranged in the region A, and the groove structures (111) of even rows are arranged in the region B.

6. Wind deflection door according to claim 1, characterized in that the groove structure (111) is a circular arc-shaped groove.

7. The air guide door as claimed in claim 6, wherein the arc surface of the arc-shaped groove is smaller than 1/2 of the arc surface corresponding to the sphere.

8. Wind deflection door according to claim 1, characterized in that the depth D of the groove structure (111) does not exceed 1/3 of the thickness D of the groove arrangement surface (110).

9. An indoor unit comprising the air guide door as claimed in any one of claims 1 to 8.

10. An air conditioner characterized by comprising the air guide door as recited in any one of claims 1 to 8.

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