CN112556155A - Diversion structure, air duct assembly and air conditioner - Google Patents

Abstract

The utility model provides a diversion structure, wind channel subassembly and air conditioner, diversion structure includes: the air duct outer wall is provided with a plurality of water diversion ribs, and the water diversion ribs are configured to guide condensed water on the air duct outer wall to the bottom of the air duct outer wall; and the water outlet is arranged at the bottom of the outer wall of the air duct and is configured to drain the condensed water which is drained by the water diversion ribs and converged at the bottom of the outer wall of the air duct into a water receiving tray of the air conditioner. This disclosed diversion structure sets up on the wind channel outer wall of air conditioner, and the condensation water can collect along the bottom of wind channel outer wall under the direction of gravity under the guide of diversion rib to discharge into the water collector through the outlet, further discharge outdoor, improved the drainage ability of wind channel outer wall, avoided condensation water landing to electrified parts such as motor, electrical apparatus box, lead to the electrical safety hidden danger of air conditioner complete machine.

Description

Diversion structure, air duct assembly and air conditioner

Technical Field

The disclosure belongs to the technical field of air conditioners, and particularly relates to a water channel structure, an air channel assembly and an air conditioner.

Background

When the air conditioner refrigerates, the hot air can produce the condensation water on the cold surface of the part, and when the air humidity is higher, if the condensation water is not processed in time, the electrical safety of the air conditioner can be influenced by the excessive condensation water. Especially, the air duct is used as a core component of the air conditioner, mainly realizes cold air conveying, and is easy to generate condensed water outside the air duct.

Disclosure of Invention

Therefore, the technical problem to be solved by the present disclosure is that a large amount of condensed water is easily generated on the outer surface of the air duct of the air conditioner, and the condensed water slides down to flow into the electric parts such as the motor and the electric appliance box, which can lead to the electrical safety hazard of the whole air conditioner, thereby providing a water diversion structure, an air duct assembly and the air conditioner.

In order to solve the above-mentioned problem, this disclosure provides a diversion structure, includes:

the air duct outer wall is provided with a plurality of water diversion ribs, and the water diversion ribs are configured to guide condensed water on the air duct outer wall to the bottom of the air duct outer wall;

and the water outlet is arranged at the bottom of the outer wall of the air duct and is configured to drain the condensed water which is drained by the water diversion ribs and converged at the bottom of the outer wall of the air duct into a water receiving tray of the air conditioner.

The purpose of the present disclosure and the technical problems solved thereby can be further achieved by the following technical measures.

In some embodiments, the diversion rib includes a water blocking rib, the water blocking rib is arranged along the structural outline segmentation or the vacancy of the wind channel outer wall, the water blocking rib is configured to strengthen the intensity of the wind channel outer wall and to divert the condensed water of the wind channel outer wall to the bottom of the wind channel outer wall, and/or the diversion rib includes a circumferential rib, the circumferential rib is arranged along the edge of the wind channel outer wall, the circumferential rib is configured to prevent the condensed water from flowing to the outside of the wind channel outer wall.

In some embodiments, the outer wall of the air duct includes a front side wall, a rear side wall, a left side wall and a right side wall, the front side wall and the rear side wall are arranged oppositely, the left side wall and the right side wall are arranged oppositely, and the front side wall, the rear side wall, the left side wall and the right side wall are respectively provided with a water diversion rib and a water drainage outlet.

In some embodiments, the rear side wall is provided with a first water diversion rib and a first drainage port, the first water diversion rib is configured to divert condensed water of the rear side wall to the bottom of the rear side wall, and the first drainage port is configured to drain the condensed water collected to the bottom of the rear side wall into the water receiving tray.

In some embodiments, the bottom of the rear side wall is provided with a first groove for receiving condensed water, and the first drainage port is communicated with the first groove.

In some embodiments, the front side wall is provided with a second water guiding rib and a second drain hole, the second drain hole penetrates from the front side wall to the rear side wall, the second water guiding rib is configured to guide condensed water of the front side wall to the bottom of the front side wall, and the second drain hole is configured to drain the condensed water collected to the bottom of the front side wall to the first drain hole.

In some embodiments, the rear side wall is provided with a second groove for receiving condensed water, and the second water outlet is communicated with the second groove.

In some embodiments, the left side wall is provided with a third water diversion rib configured to divert condensed water of the left side wall to the bottom of the left side wall, and a third water discharge port configured to discharge condensed water collected at the bottom of the left side wall into the water-receiving tray.

In some embodiments, a third groove for receiving condensed water is formed in the bottom of the left side wall, and the third water outlet is communicated with the third groove.

In some embodiments, the right side wall is provided with a fourth water diversion rib configured to divert condensed water of the right side wall to the bottom of the right side wall, and a fourth water discharge opening configured to discharge condensed water collected to the bottom of the right side wall into the water-receiving tray.

In some embodiments, a fourth groove for receiving condensed water is formed at the bottom of the right side wall, and the fourth water outlet is communicated with the fourth groove.

In some embodiments, the fourth water channeling ribs are arranged in a vertical direction; when including the third diversion rib, the third diversion rib sets up along vertical direction.

An air duct component adopts foretell water diversion structure.

An air conditioner adopts foretell water diversion structure.

The water diversion structure, the air duct assembly and the air conditioner provided by the disclosure at least have the following beneficial effects:

the utility model discloses a diversion structure, the setting is on the wind channel outer wall of air conditioner, under the air conditioner refrigeration mode of operation, carry cold wind in the wind channel, the wind channel outer wall is influenced the temperature by cold wind and is lower, hot-air can produce the condensation water on the wind channel outer wall, the condensation water can be under the guide of diversion rib, collect along the bottom of wind channel outer wall under the direction of gravity, and drain into the water collector through the outlet, further the discharge is outdoor, the drainage ability of wind channel outer wall has been improved, the condensation water landing is avoided to the motor, electrified parts such as electrical apparatus box, lead to the electrical safety hidden danger of air conditioner complete machine.

Drawings

Fig. 1 is a schematic structural view of a water diversion structure according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of a water diversion structure and a water pan in accordance with an embodiment of the present disclosure;

FIG. 3 is a schematic structural view of a rear sidewall of an embodiment of the present disclosure;

FIG. 4 is a cross-sectional view of a water directing structure of an embodiment of the present disclosure;

FIG. 5 is a schematic structural view of the front and left sidewalls of an embodiment of the present disclosure;

FIG. 6 is a bottom schematic view of a left sidewall of an embodiment of the present disclosure;

fig. 7 is a bottom structural schematic view of a right sidewall of an embodiment of the present disclosure.

The reference numerals are represented as:

1. water retaining ribs; 2. circumferential ribs; 3. a rear sidewall; 4. a front side wall; 5. a left side wall; 6. a right side wall; 7. a first water diversion rib; 8. a first drain port; 9. a first groove; 10. a second water diversion rib; 11. a second drain hole; 12. a second groove; 13. a third water diversion rib; 14. a third water discharge port; 15. a third groove; 16. a fourth water guide rib; 17. a fourth water discharge port; 18. a fourth groove; 19. a water pan; 20. and a fan mounting groove.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, the following embodiments of the present disclosure will be clearly and completely described in conjunction with the accompanying drawings. It is to be understood that the described embodiments are merely a subset of the disclosed embodiments and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

Referring to fig. 1 to 7, the present embodiment provides a water diversion structure, including: the air duct outer wall is provided with a plurality of water diversion ribs, and the water diversion ribs are configured to guide condensed water on the air duct outer wall to the bottom of the air duct outer wall; and the water outlet is arranged at the bottom of the outer wall of the air duct and is configured to drain the condensed water which is guided by the water guide ribs and converged at the bottom of the outer wall of the air duct into the water receiving tray 19 of the air conditioner.

The utility model discloses a diversion structure, the setting is on the wind channel outer wall of air conditioner, under the air conditioner refrigeration mode of operation, carry cold wind in the wind channel, the wind channel outer wall is influenced the temperature by cold wind and is lower, hot-air can produce the condensation water on the wind channel outer wall, the condensation water can be under the guide of diversion rib, collect along the bottom of wind channel outer wall under the direction of gravity, and drain into water collector 19 through the outlet, further the discharge is outdoor, the drainage ability of wind channel outer wall has been improved, the condensation water landing is avoided to the motor, electrified parts such as electrical apparatus box, lead to the electrical safety hidden danger of air conditioner complete machine.

In some embodiments, the diversion rib includes water blocking rib 1, and water blocking rib 1 is along the structure profile segmentation of wind channel outer wall or leave the scarce setting, and water blocking rib 1 is configured as the intensity of strengthening the wind channel outer wall, and with the condensation water drainage of wind channel outer wall to the bottom of wind channel outer wall, and/or, the diversion rib includes week circle rib 2, and week circle rib 2 sets up along the edge of wind channel outer wall, and week circle rib 2 is configured as and prevents condensate flow outside wind channel outer wall.

The diversion structure of this embodiment except being used for improving the diversion ability of wind channel outer wall, can also strengthen the intensity of wind channel outer wall.

In some embodiments, the outer wall of the air duct includes a front side wall 4, a rear side wall 3, a left side wall 5, and a right side wall 6, the front side wall 4 is disposed opposite to the rear side wall 3, the left side wall 5 is disposed opposite to the right side wall 6, and the front side wall 4, the rear side wall 3, the left side wall 5, and the right side wall 6 are respectively provided with water guide ribs and water discharge ports.

The wind channel outer wall of this embodiment has four sides, and every side homoenergetic enough sets up corresponding diversion rib and outlet, realizes every side independent drainage, has improved the drainage ability of wind channel outer wall.

In some embodiments, the rear sidewall 3 is provided with a first water guiding rib 7 and a first drainage opening 8, the first water guiding rib 7 is configured to guide the condensed water of the rear sidewall 3 to the bottom of the rear sidewall 3, and the first drainage opening 8 is configured to drain the condensed water collected to the bottom of the rear sidewall 3 into the drain pan 19.

The water pan 19 of the air conditioner is generally installed at the bottom of the air conditioner in the direction of gravity, as an important part of the air conditioner, and collects condensed water generated from the components of the air conditioner and discharges the condensed water to the outside.

In the diversion structure of this embodiment, the back lateral wall 3 in wind channel is equipped with first diversion rib 7, first drainage opening 8, first diversion rib 7 sets up along back lateral wall 3's structure, if the setting of reserving of the arc is adopted to the regional first diversion rib 7 lower part of fan mounting groove 20, first diversion rib 7 collects the dew behind the breach in the middle with the condensation water, makes it continue downward flow again, has played the regional structural strength of enhancement fan mounting groove promptly, has improved the drainage ability in this region again.

In some embodiments, the bottom of the rear side wall 3 is provided with a first groove 9 for receiving condensed water, the first drainage port 8 is communicated with the first groove 9, the first groove 9 wraps the bottom of the rear side wall 3 and can receive all the condensed water flowing down along the gravity direction on the rear side wall 3, the first groove 9 has a certain gradient, and the first drainage port 8 is arranged at the lowest position of the first groove 9.

In some embodiments, the front sidewall 4 is provided with a second water guiding rib 10 and a second water discharging hole 11, the second water discharging hole 11 penetrates from the front sidewall 4 to the rear sidewall 3, the second water guiding rib 10 is configured to guide the condensed water of the front sidewall 4 to the bottom of the front sidewall 4, the second water discharging hole 11 is configured to discharge the condensed water collected to the bottom of the front sidewall 4 to the first water discharging opening 8, the rear sidewall 3 is provided with a second groove 12 for receiving the condensed water, and the second water discharging opening is communicated with the second groove 12.

In the diversion structure of this embodiment, the preceding lateral wall 4 in wind channel is equipped with second diversion rib 10, first drainage hole, and second diversion rib 10 sets up along the structure of preceding lateral wall 4, and the setting of reserving lacks if fan mounting groove 20 regional second diversion rib 10 lower part adopts the arc, and second diversion rib 10 will condense dew and collect the breach in the middle of after, make it continue downward flow again, played the regional structural strength of enhancement fan mounting groove 20 promptly, improved this regional drainage ability again. On the other hand, since the front side wall 4 of the wind tunnel faces the panel assembly, the bottom drain pan 19 cannot protrude to the front side of the front side wall 4, so that the condensed water of the front side wall 4 cannot be directly drained downward into the drain pan 19. Therefore, the front side wall 4 adopts a drainage hole mode to convey condensed water from the front side wall 4 to the first groove 9 of the rear side wall 3, and then the condensed water is discharged through the first drainage port 8.

In some embodiments, the left side wall 5 is provided with a third water diversion rib 13 and a third water discharge opening 14, the third water diversion rib 13 is configured to divert condensed water of the left side wall 5 to the bottom of the left side wall 5, the third water discharge opening 14 is configured to discharge the condensed water collected to the bottom of the left side wall 5 into a water receiving tray 19, the bottom of the left side wall 5 is provided with a third groove 15 for receiving the condensed water, and the third water discharge opening 14 is communicated with the third groove 15.

In some embodiments, the right side wall 6 is provided with a fourth water guiding rib 16 and a fourth water outlet 17, the fourth water guiding rib 16 is configured to guide the condensed water of the right side wall 6 to the bottom of the right side wall 6, the fourth water outlet 17 is configured to discharge the condensed water collected to the bottom of the right side wall 6 into a water receiving tray 19, the bottom of the right side wall 6 is provided with a fourth groove 18 for receiving the condensed water, and the fourth water outlet 17 is communicated with the fourth groove 18.

The left side wall 5 of this embodiment is provided with a third water guide rib 13, a third groove 15 and a third water discharge opening 14, so that condensed water on the left side wall 5 is guided and controlled to flow into the water pan 19. The right side wall 6 is provided with a fourth water guiding rib 16, a fourth groove 18 and a fourth water outlet 17, and condensed water on the right side wall 6 is guided and controlled to flow into a water receiving tray 19.

In some embodiments, when the left side wall 5 or the right side wall 6 of the outer wall of the air duct of the air conditioner is not a flat surface, the condensed water cannot smoothly slide along the wall surface. Third diversion rib 13 of left side wall 5 sets up along vertical direction, and the condensation water that makes can follow in third diversion rib 13 directly landing to the third recess 15 of bottom, and/or, fourth diversion rib 16 of right side wall 6 sets up along vertical direction for condensation water can follow in fourth diversion rib 16 directly landing to the fourth recess 18 of bottom.

This water diversion structure of disclosure through increasing structures such as rib, recess at the wind channel surface, optimizes the water route of design wind channel outer wall, and the rib utilizes the structural profile design in wind channel, can also strengthen the intensity in wind channel.

An air duct component adopts foretell water diversion structure.

An air conditioner adopts foretell water diversion structure.

It is readily understood by a person skilled in the art that the advantageous ways described above can be freely combined, superimposed without conflict.

The present disclosure is to be considered as limited only by the preferred embodiments and not limited to the specific embodiments described herein, and all changes, equivalents and modifications that come within the spirit and scope of the disclosure are desired to be protected. The foregoing is only a preferred embodiment of the present disclosure, and it should be noted that, for those skilled in the art, several improvements and modifications can be made without departing from the technical principle of the present disclosure, and these improvements and modifications should also be considered as the protection scope of the present disclosure.

Claims (14)

1. A water diversion structure, comprising:

the air duct outer wall is provided with a plurality of water diversion ribs, and the water diversion ribs are configured to guide condensed water of the air duct outer wall to the bottom of the air duct outer wall;

the water outlet is arranged at the bottom of the air duct outer wall and is configured to drain the water diversion ribs and the condensed water converged at the bottom of the air duct outer wall into a water receiving tray (19) of an air conditioner.

2. The diversion structure of claim 1, characterized in that the diversion rib comprises a water blocking rib (1), the water blocking rib (1) is arranged along the structural contour of the air duct outer wall in a segmented or reserved manner, the water blocking rib (1) is configured to reinforce the strength of the air duct outer wall and guide condensed water of the air duct outer wall to the bottom of the air duct outer wall, and/or the diversion rib comprises a circumferential rib (2), the circumferential rib (2) is arranged along the edge of the air duct outer wall, and the circumferential rib (2) is configured to prevent the condensed water from flowing to the outside of the air duct outer wall.

3. The water diversion structure according to claim 1, wherein the air duct outer wall comprises a front side wall (4), a rear side wall (3), a left side wall (5) and a right side wall (6), the front side wall (4) and the rear side wall (3) are arranged oppositely, the left side wall (5) and the right side wall (6) are arranged oppositely, and the water diversion ribs and the water outlet are respectively arranged on the front side wall (4), the rear side wall (3), the left side wall (5) and the right side wall (6).

4. The water diversion structure according to claim 3, wherein a first water diversion rib (7) and a first drainage port (8) are arranged on the rear side wall (3), the first water diversion rib (7) is configured to conduct condensed water of the rear side wall (3) to the bottom of the rear side wall (3), and the first drainage port (8) is configured to drain the condensed water collected to the bottom of the rear side wall (3) into a water receiving tray (19).

5. The water diversion structure according to claim 4, wherein a first groove (9) for receiving condensed water is formed in the bottom of the rear side wall (3), and the first drainage port (8) is communicated with the first groove (9).

6. The water diversion structure according to claim 4, wherein a second water diversion rib (10) and a second water drainage hole (11) are arranged on the front side wall (4), the second water drainage hole (11) penetrates from the front side wall (4) to the rear side wall (3), the second water diversion rib (10) is configured to conduct condensed water of the front side wall (4) to the bottom of the front side wall (4), and the second water drainage hole (11) is configured to drain the condensed water collected to the bottom of the front side wall (4) to the first water drainage hole (8).

7. The water diversion structure according to claim 6, characterized in that the rear side wall (3) is provided with a second groove (12) for receiving condensed water, and the second water outlet is communicated with the second groove (12).

8. The diversion structure according to claim 3, characterized in that the left side wall (5) is provided with a third diversion rib (13), a third water discharge opening (14), the third diversion rib (13) being configured to divert condensed water of the left side wall (5) to the bottom of the left side wall (5), the third water discharge opening (14) being configured to discharge condensed water collected to the bottom of the left side wall (5) into a water pan (19).

9. The water diversion structure according to claim 8, wherein a third groove (15) for receiving condensed water is formed in the bottom of the left side wall (5), and the third water discharge opening (14) is communicated with the third groove (15).

10. The water diverting structure according to any of claims 3-9, characterized in that the right side wall (6) is provided with a fourth water diverting rib (16), a fourth water discharge opening (17), the fourth water diverting rib (16) being configured to divert the condensed water of the right side wall (6) to the bottom of the right side wall (6), the fourth water discharge opening (17) being configured to discharge the condensed water collected to the bottom of the right side wall (6) into a drip tray (19).

11. The water diversion structure according to claim 10, wherein a fourth groove (18) for receiving condensed water is formed at the bottom of the right side wall (6), and the fourth water discharge opening (17) is communicated with the fourth groove (18).

12. The catchment structure of claim 10, characterized in that the fourth catchment rib (16) is arranged in a vertical direction; when a third water-diverting rib (13) is included, said third water-diverting rib (13) is arranged in the vertical direction.

13. An air duct assembly, characterized in that the water diversion structure of any one of claims 1-11 is adopted.

14. An air conditioner, characterized in that the water diversion structure of any one of claims 1-11 is adopted.

Images