CN211451151U - Air conditioner air guide door and air conditioner - Google Patents

Abstract

The utility model discloses an air conditioner air guide door and air conditioner relates to air conditioner technical field. The air guide door of the air conditioner comprises an air guide door lining plate and an outer air guide door. Outer wind-guiding door includes casing and flange, flange fixed connection in the edge of casing, wind-guiding door welt joint in the inboard of casing, and with form the gap between the flange, wind-guiding door welt towards keeping away from the protruding water conservancy diversion muscle that is equipped with of direction of casing, the water conservancy diversion muscle can lead the air current to prevent that the air current from blowing in the gap and producing the condensation. Compared with the prior art, the utility model provides an air conditioner wind-guiding door is owing to adopted the water conservancy diversion muscle of connecting on the inboard wind-guiding door welt of casing and protruding wind-guiding door welt of locating, so can lead to the air current, avoids the air current to insufflate the gap between wind-guiding door welt and the flange to produce the condensation in preventing the gap, user experience feels good.

Description

Air conditioner air guide door and air conditioner

Technical Field

The utility model relates to an air conditioner technical field, in particular to air conditioner wind-guiding door and air conditioner.

Background

At present, the wind-guiding door that sets up in the air conditioner on-hook is mostly bilayer structure, and air conditioner air-guiding door comprises shell and welt concatenation, and the welt overlaps to be set up in the shell, because the cooperation relation of shell and welt, can form a gap at air conditioner air-guiding door's forward position. In the refrigeration process of the air conditioner, cold air blown out can enter the gap, so that condensation is generated at the front edge of an air guide door of the air conditioner, and the user experience is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem how avoid the cold wind to blow to the gap of air conditioner air guide door forward position in to prevent that the forward position of air conditioner air guide door from producing the condensation, user experience feels good.

In order to solve the above problem, the technical scheme of the utility model is realized like this:

in a first aspect, the utility model provides an air conditioner air guide door, including air guide door welt and outer air guide door, outer air guide door includes casing and flange, flange fixed connection in the edge of casing, air guide door welt joint in the inboard of casing, and the flange between form the gap, air guide door welt towards keeping away from the protruding water conservancy diversion muscle that is equipped with of direction of casing, the water conservancy diversion muscle can lead the air current to prevent that the air current from blowing in the gap and producing the condensation. Compared with the prior art, the utility model provides an air conditioner wind-guiding door is owing to adopted the water conservancy diversion muscle of connecting on the inboard wind-guiding door welt of casing and protruding wind-guiding door welt of locating, so can lead to the air current, avoids the air current to insufflate the gap between wind-guiding door welt and the flange to produce the condensation in preventing the gap, user experience feels good.

Further, the air guide door lining plate comprises a supporting portion and an installation portion, the installation portion is fixedly connected with the supporting portion through a guide rib, the guide rib is arranged between the supporting portion and the installation portion, the supporting portion is supported with the shell, a gap is formed between the supporting portion and the flange, and the installation portion is clamped with the shell. The casing can support the abutting part to fix the relative position of the air guide door lining plate and the casing.

Further, the water conservancy diversion muscle includes water conservancy diversion portion and fixed part, and water conservancy diversion portion and fixed part are preset angle setting, one side and fixed part fixed connection of water conservancy diversion portion, opposite side and installation department fixed connection, fixed part and support and hold a fixed connection. The guide part is used for guiding the airflow blown through the mounting part to enable the airflow to flow in the direction away from the shell, so that the airflow is prevented from blowing into the gap.

Further, the water conservancy diversion portion is the arc, and sets up towards the direction sunken of being close to the casing. The interval that the one end that the water conservancy diversion portion is close to the installation department and casing is less than the one end that the installation department was kept away from to the water conservancy diversion portion and the interval of casing, and the water conservancy diversion portion can lead the air current of blowing the installation department, and the surface that the one side of casing was kept away from to the air current can be followed the water conservancy diversion portion outwards flows to improve wind-guiding efficiency, make the air current through the water conservancy diversion portion can avoid the gap to blow off.

Furthermore, the fixed part is arc-shaped and is arranged in a concave manner towards the direction close to the shell. The distance between one end of the fixing part close to the abutting part and the shell is smaller than the distance between one end of the fixing part far away from the abutting part and the shell, so that the fixing part can be fixedly connected with the abutting part abutted on the shell, the relative position of the abutting part and the flow guide part is fixed, the processing and the manufacturing are convenient, and the attractiveness is high.

Furthermore, the thickness of water conservancy diversion portion equals with the thickness of fixed part, and equals the thickness of installation department, forms the cavity between water conservancy diversion muscle and the casing. The wall thickness everywhere of water conservancy diversion muscle equals, and equals the wall thickness of installation department to in manufacturing, the cavity can be convenient for wind-guiding door welt and casing assemble.

Furthermore, one end of the flow guiding rib, which is far away from the shell, is provided with a top edge, and the distance between the top edge and the shell ranges from 5 mm to 6 mm.

Furthermore, one end of the flow guiding rib, which is far away from the shell, is provided with a top edge, and the distance between the top edge and one side of the abutting part, which forms a gap, ranges from 6 mm to 8 mm.

Further, the projection of the abutting portion in the extending direction along the flange is arranged in the flange. The height of the abutting part on the shell is smaller than that of the flange, so that the installation is convenient, and the attractiveness is improved.

A second aspect, the utility model provides an air conditioner, including foretell air conditioner air guide door, this air conditioner air guide door includes air guide door welt and outer air guide door, and outer air guide door includes casing and flange, flange fixed connection in the edge of casing, air guide door welt joint in the inboard of casing, and with the flange between form the gap, air guide door welt towards keeping away from the protruding water conservancy diversion muscle that is equipped with of direction of casing, the water conservancy diversion muscle can lead the air current to prevent that the air current from blowing in the gap and producing the condensation. Air conditioner air guide door in the air conditioner can lead the air current, avoids the air current to insufflate the gap between air guide door welt and the flange to produce the condensation in preventing the gap, user experience feels good.

Drawings

Fig. 1 is a schematic structural view of a viewing angle of an air guide door of an air conditioner according to a first embodiment of the present invention;

fig. 2 is a schematic structural view of another view angle of the air guide door of the air conditioner according to the first embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of III of FIG. 2;

fig. 4 is a mathematical model diagram of an air conditioner air guide door according to a first embodiment of the present invention;

fig. 5 is a schematic view of an air conditioner according to a second embodiment of the present invention;

FIG. 6 is an enlarged view of a portion VI of FIG. 5;

fig. 7 is a schematic structural view of another perspective of an air conditioner according to a second embodiment of the present invention.

Description of reference numerals:

10-an air conditioner; 100-air conditioner air guide door; 110-wind guide door lining board; 111-flow guiding ribs; 1111-a flow guide part; 1112-a fixed part; 1113-flow guide surface; 1114-a cavity; 1115-top edge; 112-a holding portion; 113-a mounting portion; 114-a first side; 115-a second side; 116-a third side; 117-fourth side; 118-a connector; 120-outer air guide door; 121-a housing; 122-a flange; 130-a gap; 200-an air-conditioning panel; 300-a housing; 310-air outlet.

Detailed Description

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.

First embodiment

Referring to fig. 1, fig. 2 and fig. 3, an embodiment of the present invention provides an air conditioner air guide door 100 for adjusting an air outlet direction. It can avoid in the cold wind blows the gap 130 of air conditioner air guide door 100 forward position to prevent that the forward position of air conditioner air guide door 100 from producing the condensation, user experience feels good.

In this embodiment, air conditioner air guide door 100 is applied to in the air conditioner on-hook, and the air conditioner on-hook can outwards blow out the air current when refrigeration or heating, and air conditioner air guide door 100 can lead the air current to the adjustment air-out direction for cold wind upwards does not directly blow the people, and hot-blast falling to the ground downwards, thereby improves the efficiency of refrigeration or heating, and user's comfort level is high.

It should be noted that, the air conditioner air guide door 100 is a double-layer structure, the front edge of the air conditioner air guide door 100 has a gap 130, and the airflow blown out by the air conditioner hanging unit can flow towards the indoor along the inner side of the air conditioner air guide door 100, in this process, the air conditioner air guide door 100 can guide the airflow, and avoid the airflow from blowing into the gap 130 at the front edge of the air conditioner air guide door 100, so as to prevent condensation from generating in the gap 130, and can avoid the occurrence of the condition that the air volume is reduced due to blowing into the gap 130 by the airflow, and the user experience is good.

The air conditioner air guide door 100 includes an air guide door liner 110 and an outer air guide door 120. The air guide door lining plate 110 and the outer air guide door 120 are arranged in an overlapping mode, and the air guide door lining plate 110 is detachably connected to the inner side of the outer air guide door 120 to form a double-layer structure, so that the strength of the air guide door 100 of the air conditioner is improved, and the air guide door is convenient to install and maintain. Specifically, the outer damper 120 includes a case 121 and a flange 122, the flange 122 is fixedly coupled to an edge of the case 121, and the damper liner 110 is detachably coupled to an inner side of the case 121 with a gap 130 formed therebetween. The air guide door lining plate 110 is convexly provided with the air guide ribs 111 towards the direction far away from the shell 121, and the air guide ribs 111 can guide air flow so as to prevent the air flow from blowing into the gap 130 to generate condensation.

It should be noted that, when the air conditioner on-hook blows out the air current outwards, the air current can flow outwards along the air guide door lining plate 110, and in this process, because the water conservancy diversion muscle 111 sets up towards the direction protrusion of keeping away from casing 121, so the air current can flow towards the direction of keeping away from casing 121 along the water conservancy diversion muscle 111 when passing through the water conservancy diversion muscle 111, and the flow direction of air current changes under the effect of water conservancy diversion muscle 111 promptly, and the water conservancy diversion muscle 111 can drive the air current and avoid gap 130, and blow out to indoor.

The air guide door liner 110 includes a contact portion 112 and a mounting portion 113. The mounting portion 113 is fixedly connected to the abutting portion 112 through the guiding rib 111, and the guiding rib 111 is disposed between the abutting portion 112 and the mounting portion 113. In this embodiment, the mounting portion 113, the flow guiding rib 111 and the abutting portion 112 are integrally formed to improve the connection strength, and facilitate processing and manufacturing. The abutting portion 112 abuts against the casing 121, the casing 121 can support the abutting portion 112 to fix the relative position of the air guiding door lining plate 110 and the casing 121, the abutting portion 112 and the flange 122 are arranged at intervals, and a gap 130 is formed between the abutting portion 112 and the flange 122. The mounting portion 113 is detachably connected to the casing 121 to fixedly connect the air guide door liner 110 to the inside of the casing 121, and specifically, the mounting portion 113 is engaged with the casing 121 to facilitate mounting and dismounting.

In this embodiment, the supporting portion 112 is in a strip shape, and the supporting portion 112 is provided with a first side surface 114, a second side surface 115, a third side surface 116, and a fourth side surface 117, wherein the first side surface 114, the second side surface 115, the third side surface 116, and the fourth side surface 117 are connected end to end. The first side surface 114 is spaced apart from the flange 122, and forms a gap 130 with the flange 122; the second side surface 115 abuts against the shell 121, and the shell 121 can apply abutting force to the second side surface 115; the third side surface 116 is fixedly connected with the flow guiding ribs 111, and the flow guiding ribs 111 are arranged on the third side surface 116 and are arranged at intervals with the shell 121; the fourth side 117 is flush with the side of the flow guiding rib 111 away from the housing 121, so as to facilitate the manufacturing process.

In this embodiment, the mounting portion 113 is arc-shaped, the side of the mounting portion 113 away from the casing 121 is arc-shaped, the mounting portion 113 can guide the airflow blown out by the on-hook air conditioner, and the airflow can flow outwards along the surface of the side of the mounting portion 113 away from the casing 121, so as to improve the air guiding efficiency and avoid the reduction of the air volume.

In this embodiment, air guide door liner plate 110 still includes connecting piece 118, and connecting piece 118 fixed connection is on the inside wall of installation department 113, and sets up in the one end that the water conservancy diversion muscle 111 was kept away from to installation department 113, and connecting piece 118 is used for installing on the air conditioner on-hook, and can rotate for the air conditioner on-hook to drive air conditioner air guide door 100 and rotate for the air conditioner on-hook, thereby realize the function of adjustment air-out direction.

The air guide rib 111 includes an air guide portion 1111 and a fixing portion 1112. The diversion portion 1111 and the fixing portion 1112 are both in a strip shape, the diversion portion 1111 and the fixing portion 1112 are arranged at a preset angle, the cross section of the diversion rib 111 is bent, and the diversion rib protrudes towards one side away from the shell 121. One side of the guiding portion 1111 is fixedly connected to the fixing portion 1112, and the other side is fixedly connected to the mounting portion 113, and the guiding portion 1111 guides the air flow blown through the mounting portion 113 to flow in a direction away from the housing 121, thereby preventing the air flow from blowing into the gap 130. The fixing portion 1112 is fixedly connected to the abutting portion 112, and the fixing portion 1112 is connected to the third side surface 116 to fix a relative position of the flow guiding rib 111 and the housing 121.

In this embodiment, the guiding portion 1111 is arc-shaped and is recessed towards the direction close to the housing 121, the distance between the end of the guiding portion 1111 close to the mounting portion 113 and the housing 121 is smaller than the distance between the end of the guiding portion 1111 far away from the mounting portion 113 and the housing 121, the guiding portion 1111 can guide the airflow blown through the mounting portion 113, the airflow can flow outwards along the surface of the guiding portion 1111 far away from the side of the housing 121, so as to improve the air guiding efficiency, and the airflow passing through the guiding portion 1111 can be blown out by avoiding the gap 130. However, the present invention is not limited to this, and in other embodiments, the diversion portion 1111 may have a flat plate shape, and the diversion portion 1111 is disposed obliquely to the housing 121 to guide the airflow away from the housing 121, so that the airflow passing through the diversion portion 1111 can be blown out away from the slit 130.

Further, one side that casing 121 was kept away from to water conservancy diversion portion 1111 is provided with water conservancy diversion face 1113, and water conservancy diversion face 1113 is the arc, and sets up towards the direction recess that is close to casing 121, and water conservancy diversion face 1113 can lead the air current of blowing through installation department 113, and the air current can flow towards the direction of keeping away from casing 121 along the tangential direction of water conservancy diversion face 1113. Specifically, the tangential direction of the guiding surface 1113 is inclined to the housing 121 and extends to a side of the flange 122 away from the housing 121, that is, the tangential direction of the guiding surface 1113 extends to a side of the gap 130 away from the housing 121, that is, the airflow blown out through the guiding surface 1113 directly passes through the side of the flange 122 away from the housing 121 and enters the room, so as to avoid the flange 122 and the gap 130, and further prevent the condensation from being generated in the gap 130.

In this embodiment, the fixing portion 1112 is arc-shaped and is recessed toward the direction close to the housing 121, the fixing portion 1112 and the guiding portion 1111 are symmetrically disposed, and a distance between one end of the fixing portion 1112 close to the abutting portion 112 and the housing 121 is smaller than a distance between one end of the fixing portion 1112 far from the abutting portion 112 and the housing 121, so that the fixing portion 1112 can be fixedly connected with the abutting portion 112 abutting on the housing 121, thereby fixing the relative position of the abutting portion 112 and the guiding portion 1111, facilitating processing and manufacturing, and having a high aesthetic value. However, the invention is not limited to this, and in other embodiments, the fixing portion 1112 may also be in a flat plate shape, and the fixing portion 1112 is disposed obliquely to the housing 121, and can also fix the relative position of the abutting portion 112 and the guiding portion 1111.

Specifically, the diversion portion 1111 and the fixing portion 1112 are arranged at a preset angle, and the diversion portion 1111 and the fixing portion 1112 are both arc-shaped, so that the cross section of the diversion rib 111 is shaped like a Chinese character 'ren', one end of the diversion rib 111 is fixedly connected with the abutting portion 112, the other end of the diversion rib is fixedly connected with the mounting portion 113, and the distance between the middle of the diversion rib 111 and the housing 121 is the largest, that is, the distance between the intersection of the diversion portion 1111 and the fixing portion 1112 and the housing 121 is the largest. In this embodiment, the preset angle is 150 degrees, but not limited thereto, and in other embodiments, the preset angle may be 120 degrees or 170 degrees, and the size of the preset angle is not particularly limited.

The thickness of the guiding portion 1111 is equal to the thickness of the fixing portion 1112 and equal to the thickness of the mounting portion 113, that is, the thickness of the guiding rib 111 is equal to the thickness of the mounting portion 113, so as to facilitate the processing and manufacturing. In addition, because the air guide rib 111 protrudes towards the side far away from the shell 121, and the mounting portion 113 is attached to the inner side of the shell 121, a cavity 1114 is formed between the air guide rib 111 and the shell 121, and the cavity 1114 can facilitate the assembly of the air guide door liner 110 and the shell 121.

In this embodiment, the projection of the supporting portion 112 in the extending direction of the flange 122 is disposed in the flange 122, that is, the height of the supporting portion 112 on the housing 121 is smaller than the height of the flange 122, and the flange 122 protrudes from the fourth side 117 of the supporting portion 112, so as to facilitate installation and improve the appearance.

Referring to fig. 4, it is noted that one end of the flow guiding rib 111 away from the housing 121 has a top edge 1115, the top edge 1115 is a top edge of the intersection of the flow guiding portion 1111 and the fixing portion 1112, and the distance between the top edge 1115 and the housing 121 is greater than the distance between other positions on the flow guiding rib 111 and the housing 121. Specifically, the top edge 1115 is spaced from the housing 121 by a distance in a range of 5 mm to 6 mm, i.e., the shortest distance between the top edge 1115 and the inner sidewall of the housing 121 is in a range of 5 mm to 6 mm. In this embodiment, top edge 1115 is spaced 5.5 mm from housing 121, and for ease of understanding, top edge 1115 is spaced X from housing 121. But not limited to this, the distance between the top edge 1115 and the housing 121 may be 5 mm or 6 mm, and the distance between the top edge 1115 and the housing 121 is not particularly limited and needs to be determined according to the actual product structure.

Further, the distance between the top edge 1115 and the side of the supporting portion 112 forming the gap 130 is in a range of 6 mm to 8 mm, i.e., the shortest distance between the top edge 1115 and the first side surface 114 of the supporting portion 112 is in a range of 6 mm to 8 mm. In this embodiment, top edge 1115 is spaced from first side surface 114 by 7 mm, and top edge 1115 is spaced from first side surface 114 by Y for ease of understanding. But not limited to, the distance between the top edge 1115 and the first side surface 114 may be 6 mm or 8 mm, and the distance between the top edge 1115 and the first side surface 114 is not particularly limited and needs to be determined according to the actual product structure.

Air conditioner air guide door 100, outer air guide door 120 include casing 121 and flange 122, flange 122 fixed connection in the edge of casing 121, air guide door welt 110 joint in the inboard of casing 121, and with flange 122 between form gap 130, air guide door welt 110 towards the protruding water conservancy diversion muscle 111 that is equipped with of direction of keeping away from casing 121, water conservancy diversion muscle 111 can lead the air current to prevent that the air current from blowing in gap 130 and producing the condensation. Compared with the prior art, the utility model provides an air conditioner air guide door 100 is owing to adopted and connected in casing 121 inboard air guide door welt 110 and protruding water conservancy diversion muscle 111 of locating on the air guide door welt 110, so can lead to the air current, avoids the air current to blow in the gap 130 between air guide door welt 110 and the flange 122 to produce the condensation in preventing gap 130, user experience feels good.

Second embodiment

Referring to fig. 5, 6 and 7, the present invention provides an air conditioner 10 for regulating indoor air temperature. The air conditioner 10 includes an air conditioning panel 200, a case 300, and an air conditioning damper 100. The basic structure and principle of the air conditioner damper 100 and the technical effects thereof are the same as those of the first embodiment, and for the sake of brief description, the corresponding contents of the first embodiment can be referred to where this embodiment is not mentioned.

The air conditioner 10 is an indoor unit, the air conditioner 10 is hung on an indoor wall, and the air conditioner 10 can blow hot air or cold air into the room to realize a heating or cooling function.

In this embodiment, the housing 300 is provided with an air outlet 310, and the air conditioner panel 200 is fixedly connected to the housing 300 and disposed above the air outlet 310. The air conditioner damper 100 is mounted on the housing 300 and can rotate with respect to the housing 300 to open or close the outlet 310. When the air conditioner damper 100 closes the air outlet 310, the flange 122 abuts against the air conditioner panel 200, the air guide rib 111 extends into the air outlet 310, and the air guide rib 111 and the air conditioner panel 200 are arranged in a staggered manner to prevent the air guide rib 111 from abutting against the air conditioner panel 200, so that the condition that a gap is formed between the air conditioner damper 100 and the air conditioner panel 200 due to the fact that the whole air conditioner damper 100 is jacked up by the air guide rib 111 is avoided. When the air conditioner damper 100 opens the air outlet 310, the air flow blown out from the air outlet 310 by the air conditioner 10 flows indoors along the mounting portion 113 and flows in a direction away from the casing 121 under the action of the air guide rib 111, so as to avoid the gap 130, prevent condensation from being generated in the gap 130, and avoid the situation that the air flow blows into the gap 130 and the air volume is reduced.

The embodiment of the present invention provides the same beneficial effects as the first embodiment, which are not repeated herein.

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 an air conditioner air guide door, its characterized in that, includes air guide door welt (110) and outer air guide door (120), outer air guide door (120) include casing (121) and flange (122), flange (122) fixed connection in the edge of casing (121), air guide door welt (110) joint in the inboard of casing (121), and with form gap (130) between flange (122), air guide door welt (110) are towards keeping away from the direction of casing (121) is protruding to be equipped with water conservancy diversion muscle (111), water conservancy diversion muscle (111) can lead the air current, insufflate in order to prevent the air current gap (130) and produce the condensation.

2. The air conditioner air guide door as claimed in claim 1, wherein the air guide door liner plate (110) comprises a supporting portion (112) and an installation portion (113), the installation portion (113) is fixedly connected with the supporting portion (112) through the air guide rib (111), the air guide rib (111) is arranged between the supporting portion (112) and the installation portion (113), the supporting portion (112) is supported by the shell (121), the gap (130) is formed between the flange (122), and the installation portion (113) is clamped with the shell (121).

3. The air conditioner air guide door of claim 2, wherein the air guide rib (111) comprises a guide part (1111) and a fixing part (1112), the guide part (1111) and the fixing part (1112) are arranged at a preset angle, one side of the guide part (1111) is fixedly connected with the fixing part (1112), the other side of the guide part (1111) is fixedly connected with the mounting part (113), and the fixing part (1112) is fixedly connected with the supporting part (112).

4. The air conditioner air guide door of claim 3, wherein the guide portion (1111) is formed in an arc shape and is concavely provided in a direction close to the case (121).

5. The air conditioner air guide door as claimed in claim 3, wherein the fixing portion (1112) is formed in an arc shape and is concavely provided toward a direction close to the housing (121).

6. The air conditioner air guide door of claim 3, wherein the thickness of the guide portion (1111) is equal to the thickness of the fixing portion (1112) and equal to the thickness of the mounting portion (113), and a cavity (1114) is formed between the guide rib (111) and the housing (121).

7. The air conditioner air guide door as claimed in claim 2, wherein the end of the air guide rib (111) far away from the housing (121) is provided with a top edge (1115), and the distance between the top edge (1115) and the housing (121) is in the range of 5 mm to 6 mm.

8. The air conditioner air guide door as claimed in claim 2, wherein one end of the air guide rib (111) far away from the housing (121) is provided with a top edge (1115), and the distance between the top edge (1115) and the side of the abutting part (112) forming the gap (130) is in the range of 6 mm to 8 mm.

9. The air conditioner air guide door according to claim 2, wherein a projection of the abutting portion (112) in an extending direction along the flange (122) is provided in the flange (122).

10. An air conditioner characterized by comprising the air conditioning damper as recited in any one of claims 1 to 9.

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