CN108151272B - Condensation preventing structure and air conditioner - Google Patents

Abstract

The invention provides an anti-condensation structure and an air conditioner, and relates to the technical field of air conditioners. The anti-condensation structure comprises a sliding door, a front panel lining plate, a front panel, a reinforcing plate and a first spigot assembly, wherein the front panel is provided with an air port, the front panel is arranged on the front panel lining plate, and the sliding door is in sliding fit with the front panel lining plate; the reinforcing plate is detachably arranged on the inner side of the front panel, which is close to the tuyere, and is provided with at least one through heat insulation cavity. The first tang subassembly is located the opposite side that wind gap and reinforcing plate are relative, and first tang subassembly includes first tang spare and second tang spare, and first tang spare sets up on the front panel, and the second tang spare sets up on the front panel welt, and first tang spare cooperates with the second tang spare to shelter the clearance between front panel and the front panel welt. The condensation problem of the air conditioner can be improved through the condensation preventing structure, the front panel and the inside of the air conditioner are guaranteed to be dry, and then the service life and the user experience of the air conditioner are improved.

Description

Condensation preventing structure and air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to an anti-condensation structure and an air conditioner.

Background

In the present life with various climate changes, most people can use an air conditioner to adjust the air conditioner of the environment area in order to work, rest or residence in a comfortable environment, so that the factors such as the air temperature of the area where the people are located can be adjusted to the extent that the people can feel comfortable, and the people can feel comfortable.

In the present life, floor type air conditioners are widely put into use, and are popular with people. The panel and the reinforcing plate in the prior art often show dew on the front panel after assembly, which affects the service life and the user experience. Meanwhile, the air blown out from the air duct can enter the air conditioner through the gap between the front panel and the front panel lining board to generate condensation phenomenon, and the service life of the air conditioner is influenced.

Disclosure of Invention

In view of the above, the present invention aims to provide an anti-condensation structure to improve the condensation problem of an air conditioner, ensure the drying of the front panel and the inside of the air conditioner, and further improve the service life and user experience of the air conditioner.

In order to achieve the above purpose, the technical scheme of the invention is realized as follows:

the utility model provides a prevent condensation structure, includes sliding door, front panel welt, front panel, reinforcing plate and first tang subassembly, and the front panel is provided with the wind gap, and the front panel is installed on the front panel welt, sliding door and front panel welt sliding fit to adjust the air-out size of wind gap; the reinforcing plate is detachably arranged on the inner side of the front panel, which is close to the tuyere, and the reinforcing plate is provided with at least one through heat insulation cavity. The first tang subassembly is located the opposite side that wind gap and reinforcing plate are relative, and first tang subassembly includes first tang spare and second tang spare, and first tang spare sets up on the front panel, and the second tang spare sets up on the front panel welt, and first tang spare cooperates with the second tang spare to shelter the clearance between front panel and the front panel welt.

Further, the first spigot piece comprises a first stop part and a first connecting part, the first stop part is arranged on the front panel through the first connecting part, the second spigot piece comprises a second stop part and a second connecting part, the second stop part is arranged on the front panel lining plate through the second connecting part, and the second connecting part is propped against the first connecting part.

Further, the first stop portion has a first stop surface and a stop back surface opposite to the first stop surface, the first connection portion has a first connection surface disposed at a first angle with the stop back surface, the second stop portion has a second stop surface, the second connection portion has a second connection surface disposed at a second angle with the second stop surface, the first connection surface abuts against the second connection surface, and the stop back surface is disposed in a gap with the second stop surface.

Further, the condensation preventing structure further comprises an air duct mounting piece and a second spigot assembly, the air duct mounting piece is used for mounting an air duct, the second spigot assembly comprises a third spigot piece and a fourth spigot piece, the third spigot piece is arranged on the front panel lining plate, the fourth spigot piece is arranged on the air duct mounting piece, and the third spigot piece is matched with the fourth spigot piece so as to cover a gap between the air duct mounting piece and the front panel lining plate.

Further, the third spigot piece comprises a third stop part and a third connecting part, the third stop part is arranged on the front panel lining plate through the third connecting part, the fourth spigot piece comprises a fourth stop part and a fourth connecting part, the fourth stop part is arranged on the air duct mounting piece through the fourth connecting part, and the third stop part is propped against the fourth stop part.

Further, the fourth stopping portion is provided with a stopping groove matched with the third stopping portion, and the third stopping portion abuts against the side wall of the stopping groove.

Further, the front panel is provided with a mounting portion and a spigot portion protruding from the mounting portion, the reinforcing plate is provided with a first assembly portion, the first assembly portion abuts against the mounting portion, and the spigot portion is arranged at intervals from the first assembly portion.

Further, the mounting portion has a mounting surface, the spigot portion is provided with a wind shielding back surface, the mounting surface and the wind shielding back surface form an included angle, and the first assembly portion is abutted against the mounting surface and is arranged at an interval with the wind shielding back surface.

Further, the reinforcing plate is further provided with a second fitting portion, and the second fitting portion is arranged in a U-shape at an interval from the first fitting portion.

Compared with the prior art, the invention has the following advantages:

the front panel and the front panel lining board can generate a gap between the front panel and the front panel lining board after assembly, the first spigot piece and the second spigot piece can be mutually matched, the gap is shielded, meanwhile, fluid can be prevented from entering the air conditioner through the gap, condensation and water accumulation phenomena can not be generated in the air conditioner, and the working performance and the service life of the air conditioner are further guaranteed. The gap between the front panel and the front panel lining plate can be shielded by the first spigot piece and the second spigot piece, and the effect of blocking fluid from entering the air conditioner can be improved by adopting the mode that the first spigot piece and the second spigot piece are mutually matched. The heat insulation cavity communicated with the reinforcing plate is communicated with the outside air. When the air conditioner blows hot air, the inside heated temperature of the reinforcing plate increases, and the heat insulation cavity can slow down heat and is transmitted from the inside to the outside of the reinforcing plate. Meanwhile, the ventilation air in the heat insulation cavity can also help the heat dissipation of the reinforcing plate, so that the cooling effect is achieved, and the condensation phenomenon on the front panel is further prevented. The condensation problem of the air conditioner can be improved through the condensation preventing structure, the front panel and the inside of the air conditioner are guaranteed to be dry, and then the service life and the user experience of the air conditioner are improved.

Another object of the present invention is to provide an air conditioner, which is capable of improving the condensation problem, guaranteeing the drying of the front panel and the inside of the air conditioner, and further improving the service life and the user experience of the air conditioner.

In order to achieve the above purpose, the technical scheme of the invention is realized as follows:

an air conditioner includes an anti-condensation structure. The anti-condensation structure comprises a sliding door, a front panel lining plate, a front panel, a reinforcing plate and a first spigot assembly, wherein the front panel is provided with an air opening, the front panel is arranged on the front panel lining plate, and the sliding door is in sliding fit with the front panel lining plate so as to adjust the air outlet size of the air opening; the reinforcing plate is detachably arranged on the inner side of the front panel, which is close to the tuyere, and the reinforcing plate is provided with at least one through heat insulation cavity. The first tang subassembly is located the opposite side that wind gap and reinforcing plate are relative, and first tang subassembly includes first tang spare and second tang spare, and first tang spare sets up on the front panel, and the second tang spare sets up on the front panel welt, and first tang spare cooperates with the second tang spare to shelter the clearance between front panel and the front panel welt.

The air conditioner has the same advantages as those of the anti-condensation structure compared with the prior art, and the description is omitted herein.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention. In the drawings:

FIG. 1 is a schematic structural view of an anti-condensation structure according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure at II in FIG. 1;

FIG. 3 is a schematic view illustrating a structure between a reinforcing plate and a front panel according to an embodiment of the present invention;

FIG. 4 is a schematic view of a first spigot and a second spigot according to an embodiment of the invention;

FIG. 5 is a schematic view illustrating the structure of the first stop surface, the first connecting surface, the second stop surface and the second connecting surface according to the embodiment of the present invention;

FIG. 6 is a schematic view of a second spigot assembly according to an embodiment of the invention;

FIG. 7 is a schematic view of a third spigot and a fourth spigot according to an embodiment of the invention;

fig. 8 is a schematic structural view of a reinforcement plate and a front panel according to an embodiment of the present invention.

Icon: 1-an anti-condensation structure; 2-sliding door; 3-a front panel liner; 4-a front panel; 5-reinforcing plates; 6-a first spigot assembly; 8-a heat insulation cavity; 9-a first spigot; 10-a second spigot; 11-a first stop; 12-a first connection; 13-a second stop; 14-a second connection; 15-a first stop surface; 16-stop back; 17-a first connection face; 18-a second stop surface; 19-a second connection face; 20-an air duct mounting; 21-a second spigot assembly; 22-a third spigot; 23-fourth spigot; 24-a third stop; 25-a third connection; 26-fourth stops; 27-fourth connection; 28-a stop groove; 29-a mounting portion; 30-a stopper portion; 31-a first fitting part; 32-mounting surface; 33-a windbreak back; 34-a second fitting part.

Detailed Description

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

The invention will be described in detail below with reference to the drawings in connection with embodiments.

First embodiment

Referring to fig. 1 to 3, the present embodiment provides an anti-condensation structure 1 to improve the condensation problem of an air conditioner, ensure the drying of the front panel 4 and the inside of the air conditioner, and further improve the service life and the user experience of the air conditioner.

It should be noted that, the condensation preventing structure 1 provided in this embodiment is used in an air conditioner, such as a floor type air conditioner. The air conditioner adopting the anti-condensation structure 1 provided by the embodiment can improve or avoid the condensation phenomenon of the front panel 4 and the inside of the air conditioner, thereby prolonging the service life and improving the user experience.

The anti-condensation structure 1 provided in this embodiment includes a sliding door 2, a front panel liner 3, a front panel 4, a reinforcing plate 5 and a first spigot assembly 6, the front panel 4 is provided with a tuyere, the front panel 4 is mounted on the front panel liner 3, and the sliding door 2 is slidably matched with the front panel liner 3 to adjust the air outlet size of the tuyere. The reinforcing plate 5 is detachably mounted on the inner side of the front panel 4 near the tuyere, and the reinforcing plate 5 is provided with at least one through heat insulation cavity 8. The first spigot assembly 6 is located at the other side of the tuyere opposite to the reinforcing plate 5, and the first spigot assembly 6 is used for shielding a gap between the front panel 4 and the front panel liner 3, thereby preventing fluid from entering the interior of the air conditioner through the gap.

With continued reference to fig. 2, the first spigot assembly 6 provided in this embodiment includes a first spigot 9 and a second spigot 10, the first spigot 9 is disposed on the front panel 4, the second spigot 10 is disposed on the front panel liner 3, and the first spigot 9 cooperates with the second spigot 10 to cover a gap between the front panel 4 and the front panel liner 3.

It should be noted that, will produce the clearance between front panel 4 and front panel welt 3 at front panel 4 and front panel welt 3 after the assembly, first tang piece 9 and second tang piece 10 can cooperate each other, when shielding this clearance, also can prevent that fluid from entering into the inside of air conditioner through this gap, the inside phenomenon of condensation and ponding just can not produce of air conditioner, and then guaranteed the working property and the life of air conditioner. The heat insulation cavity 8 arranged on the reinforcing plate 5 can play a heat insulation effect on hot air blown out from the air port, so that the fact that the air cannot liquefy and condense on the front panel 4 is guaranteed. The condensation preventing structure 1 provided by the embodiment can improve the condensation problem of the air conditioner, ensure the drying of the front panel 4 and the inside of the air conditioner, and further improve the service life and the user experience of the air conditioner.

Meanwhile, it can be also understood that the first spigot 9 and the second spigot 10 can cover the gap between the front panel 4 and the front panel liner 3, and the effect of blocking the fluid from entering the air conditioner can be improved by adopting the way that the first spigot 9 and the second spigot 10 are matched with each other.

Furthermore, it is also understood that the through-going insulating chamber 8 of the reinforcing plate 5 means that the insulating chamber 8 is in communication with the outside air. When the air conditioner blows hot air, the inside heated temperature of the reinforcing plate 5 increases, and the heat insulation cavity 8 can slow down the heat transfer from the inside to the outside of the reinforcing plate 5. Meanwhile, the air circulated in the heat insulation cavity 8 can also help the heat dissipation of the reinforcing plate 5, so that the effect of cooling is achieved, and the condensation phenomenon on the front panel 4 is further prevented.

Alternatively, the direction of extension of the insulating chamber 8 is along the vertical direction of the air conditioner. The so-called "vertical direction" here is not exactly coincident with the gravitational field direction, but the upper and lower ports of the insulating chamber 8 are located at the upper and lower ends of the air conditioner, respectively.

Meanwhile, the number and size of the heat insulating chambers 8 are not particularly limited in the present embodiment.

Alternatively, the first spigot 9 is integrally formed with the front panel 4, and the second spigot 10 is integrally formed with the front panel liner 3.

Referring to fig. 4, in the present embodiment, the first spigot 9 includes a first stop portion 11 and a first connecting portion 12, the first stop portion 11 is disposed on the front panel 4 through the first connecting portion 12, the second spigot 10 includes a second stop portion 13 and a second connecting portion 14, the second stop portion 13 is disposed on the front panel liner 3 through the second connecting portion 14, and the second connecting portion 14 abuts against the first connecting portion 12.

It will be appreciated that the first and second stops 11, 13 serve to prevent cold or hot air from entering the air conditioner interior through the gap between the front panel 4 and the front panel liner 3. In addition, after the front panel 4 and the front panel liner 3 are assembled, a gap is formed between the first stop portion 11 and the second stop portion 13, so that the front panel 4 and the front panel liner 3 can be conveniently installed.

Alternatively, in the present embodiment, the first stopper 11 and the first connecting portion 12 form an L shape, the first connecting portion 12 abuts against one of the inner side walls of the L shape, and the first stopper 11 is disposed at a distance from the other inner side wall.

Referring to fig. 5, in the present embodiment, the first stopping portion 11 has a first stopping surface 15 and a stopping back surface 16 opposite to the first stopping surface 15, the first connecting portion 12 has a first connecting surface 17 disposed at a first angle with respect to the stopping back surface 16, the second stopping portion 13 has a second stopping surface 18, the second connecting portion 14 has a second connecting surface 19 disposed at a second angle with respect to the second stopping surface 18, the first connecting surface 17 abuts against the second connecting surface 19, and the stopping back surface 16 is disposed at a gap with respect to the second stopping surface 18.

It will be appreciated that the first and second stop surfaces 15, 18 are capable of avoiding the cold or hot air generated by the air conditioner and thus the gap between the front panel 4 and the front panel liner 3, and that the stop back 16 is located on the side of the first stop corresponding to the first stop surface 15, and the first and second connection surfaces 17, 19 abut against each other to further prevent the passage of fluid.

Optionally, the first stop surface 15 and the stop back surface 16 are parallel to each other, and the first stop surface 15 and the second stop surface 18 are also parallel to each other.

Optionally, the first angle formed by the first connection surface 17 and the stop back surface 16 is equal to the second angle formed by the second connection surface 19 and the second stop surface 18.

Referring to fig. 1 and 6 in combination, in the present embodiment, the anti-condensation structure 1 further includes an air duct mounting member 20 and a second spigot assembly 21, the air duct mounting member 20 is used for mounting an air duct, the second spigot assembly 21 includes a third spigot member 22 and a fourth spigot member 23, the third spigot member 22 is disposed on the front panel liner 3, the fourth spigot member 23 is disposed on the air duct mounting member 20, and the third spigot member 22 cooperates with the fourth spigot member 23 to shield a gap between the air duct mounting member 20 and the front panel liner 3, thereby preventing fluid from entering the air conditioner through the gap between the air duct mounting member 20 and the front panel liner 3, further preventing condensation phenomenon, and guaranteeing air output.

The second spigot assembly 21 and the first spigot assembly 6 are located at two sides corresponding to the air port and are used for preventing fluid from entering the air conditioner. That is, through the first spigot assembly 6 and the second spigot assembly 21, the anti-condensation structure 1 provided in this embodiment can achieve blocking of fluid on the left and right sides of the tuyere, thereby effectively improving the condensation problem.

Referring to fig. 7, in the present embodiment, the third spigot 22 includes a third stop portion 24 and a third connecting portion 25, the third stop portion 24 is disposed on the front panel liner 3 through the third connecting portion 25, the fourth spigot 23 includes a fourth stop portion 26 and a fourth connecting portion 27, the fourth stop portion 26 is disposed on the air duct mounting member 20 through the fourth connecting portion 27, and the third stop portion 24 abuts against the fourth stop portion 26.

Alternatively, the third stopper 24 and the third connecting portion 25 form an L shape, and the fourth stopper 26 and the fourth connecting portion 27 form an L shape corresponding to the upper L shape. That is, the first spigot 9 and the second spigot 10 achieve shielding of the gap between the front panel liner 3 and the duct mount 20 and blocking of fluid by the L-shape.

Still further, the third and fourth stops 24, 26 may be serrated at the mating point to further block fluid.

Optionally, in the present embodiment, the fourth stopping portion 26 is provided with a stopping groove 28 that cooperates with the third stopping portion 24, and the third stopping portion 24 abuts against a side wall of the stopping groove 28.

Referring to fig. 8, in the present embodiment, the front panel 4 is provided with a mounting portion 29 and a spigot portion 30 protruding from the mounting portion 29, the reinforcing plate 5 is provided with a first fitting portion 31, the first fitting portion 31 abuts against the mounting portion 29, and the spigot portion 30 is disposed at a distance from the first fitting portion 31. The arrangement of the stopper portion 30 and the first fitting portion 31 at a distance can facilitate the installation of the reinforcing plate 5.

Optionally, the fitting position of the mounting portion 29 at the first fitting portion 31 is set to be wedge-shaped, so as to increase the abutting length between the mounting portion 29 and the first fitting portion 31, thereby ensuring better sealing.

In the present embodiment, the mounting portion 29 has a mounting surface 32, the spigot portion 30 is provided with a wind shielding back surface 33, the mounting surface 32 is disposed at an angle to the wind shielding back surface 33, and the first fitting portion 31 abuts against the mounting surface 32 and is disposed at a distance from the wind shielding back surface 33.

It will be appreciated that the first fitting portion 31 abuts the mounting surface 32 to prevent fluid from entering the air conditioner interior, and that the first fitting portion 31 is spaced from the inner face of the windscreen to facilitate mounting of the reinforcing plate 5.

In the present embodiment, the reinforcing plate 5 is further provided with the second fitting portion 34, and the second fitting portion 34 is provided in a U-shape at a distance from the first fitting portion 31.

It should be noted that, in the present embodiment, the mounting portion 29 and the spigot portion 30 and the first spigot member 9 (or the first stop portion 11 and the first connecting portion 12) are respectively located at two ends corresponding to the tuyere, and in some embodiments, the mounting portion 29 and the spigot portion 30 are symmetrically disposed with the first spigot member 9, so as to simplify the manufacturing process.

The mounting portion 29 is provided protruding from the front panel 4 and forms a cavity opening in the protruding direction thereof, the side wall of the cavity being one side surface of the mounting portion 29, the bottom wall of the cavity being the inner side wall of the front panel 4. The reinforcing plate 5 is accommodated in the cavity, and the second fitting portion 34 may be attached to the inner wall of the front panel 4, which is the bottom wall of the cavity, or may be provided at a distance from the inner wall of the front panel 4. It will be appreciated that when the second fitting portion 34 is provided with a space from the front panel 4, the space can also exert a similar effect to the heat insulating chamber 8, and further condensation on the front panel 4 can be avoided.

The second fitting portion 34 is provided in a U-shape with the first fitting portion 31, the first fitting portion 31 is fitted to the mounting surface 32, the wedge-shaped mounting portion 29 extends from the front panel 4 to the mounting surface 32, and the second fitting portion 34 is accommodated in a cavity formed by the mounting portion 29 and the front panel 4. Meanwhile, the U-shape between the first fitting portion 31 and the second fitting portion 34 can facilitate the installation between the reinforcing plate 5 and the front panel 4.

A sponge may be interposed between the front panel 4 and an end of the reinforcing plate 5 remote from the first fitting portion 31.

The beneficial effect of anti-condensation structure 1 that this embodiment provided: the front panel 4 and the front panel lining board 3 can generate a gap between the front panel 4 and the front panel lining board 3 after assembly, the first spigot piece 9 and the second spigot piece 10 can be mutually matched, the gap is shielded, meanwhile, fluid can be prevented from entering the air conditioner through the gap, condensation and water accumulation can not be generated in the air conditioner, and the working performance and the service life of the air conditioner are further guaranteed. The gap between the front panel 4 and the front panel lining plate 3 can be shielded by the first spigot piece 9 and the second spigot piece 10, and the effect of blocking fluid from entering the air conditioner can be improved by adopting the mode that the first spigot piece 9 and the second spigot piece 10 are mutually matched. The heat insulation cavity 8 communicated with the reinforcing plate 5 means that the heat insulation cavity 8 is communicated with the outside air. When the air conditioner blows hot air, the inside heated temperature of the reinforcing plate 5 increases, and the heat insulation cavity 8 can slow down the heat transfer from the inside to the outside of the reinforcing plate 5. Meanwhile, the air circulated in the heat insulation cavity 8 can also help the heat dissipation of the reinforcing plate 5, so that the effect of cooling is achieved, and the condensation phenomenon on the front panel 4 is further prevented. The condensation preventing structure 1 provided by the embodiment can improve the condensation problem of the air conditioner, ensure the drying of the front panel 4 and the inside of the air conditioner, and further improve the service life and the user experience of the air conditioner.

Second embodiment

The embodiment provides an air conditioner, which comprises a base and an anti-condensation structure 1. The condensation preventing structure 1 comprises a sliding door 2, a front panel lining plate 3, a front panel 4, a reinforcing plate 5 and a first spigot assembly 6, wherein the front panel 4 is provided with a wind gap, the front panel 4 is installed on the front panel lining plate 3, and the sliding door 2 is in sliding fit with the front panel lining plate 3 so as to adjust the wind outlet size of the wind gap. The reinforcing plate 5 is detachably mounted on the inner side of the front panel 4 near the tuyere, and the reinforcing plate 5 is provided with at least one through heat insulation cavity 8. The first spigot assembly 6 is located at the other side of the tuyere opposite to the reinforcing plate 5, and the first spigot assembly 6 is used for shielding a gap between the front panel 4 and the front panel liner 3, thereby preventing fluid from entering the interior of the air conditioner through the gap. The first spigot assembly 6 includes a first spigot 9 and a second spigot 10, the first spigot 9 is disposed on the front panel 4, the second spigot 10 is disposed on the front panel liner 3, the first spigot 9 is matched with the second spigot 10 to shield a gap between the front panel 4 and the front panel liner 3, and the base is used for supporting the front panel 4 and the air conditioner.

The air conditioner that this embodiment provided can prevent the condensation problem of front panel 4 and air conditioner inside to guarantee that front panel 4 and air conditioner are inside dry, and then improve the life and the user experience of air conditioner.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (8)

1. The utility model provides a prevent condensation structure, its characterized in that includes sliding door (2), front panel welt (3), front panel (4), reinforcing plate (5) and first tang subassembly (6), front panel (4) are provided with the wind gap, front panel (4) install on front panel welt (3), sliding door (2) with front panel welt (3) sliding fit is in order to adjust the air-out size of wind gap;

the reinforcing plate (5) is detachably arranged on the inner side of the front panel (4) close to the tuyere, and the reinforcing plate (5) is provided with at least one through heat insulation cavity (8);

the first spigot assembly (6) is positioned on the other side of the air port opposite to the reinforcing plate (5), the first spigot assembly (6) comprises a first spigot piece (9) and a second spigot piece (10), the first spigot piece (9) is arranged on the front panel (4), the second spigot piece (10) is arranged on the front panel lining plate (3), and the first spigot piece (9) is matched with the second spigot piece (10) so as to cover a gap between the front panel (4) and the front panel lining plate (3);

the first spigot piece (9) comprises a first stop part (11) and a first connecting part (12), the first stop part (11) is arranged on the front panel (4) through the first connecting part (12), the second spigot piece (10) comprises a second stop part (13) and a second connecting part (14), the second stop part (13) is arranged on the front panel lining plate (3) through the second connecting part (14), and the second connecting part (14) is propped against the first connecting part (12);

the first stop part (11) is provided with a first stop surface (15) and a stop back surface (16) opposite to the first stop surface (15), the first connection part (12) is provided with a first connection surface (17) which is arranged at a first included angle with the stop back surface (16), the second stop part (13) is provided with a second stop surface (18), the second connection part (14) is provided with a second connection surface (19) which is arranged at a second included angle with the second stop surface (18), the first connection surface (17) is propped against the second connection surface (19), and the stop back surface (16) is arranged at a gap with the second stop surface (18).

2. The anti-condensation structure according to claim 1, wherein the anti-condensation structure (1) further comprises an air duct mounting member (20) and a second spigot assembly (21), the air duct mounting member (20) is used for mounting an air duct, the second spigot assembly (21) comprises a third spigot member (22) and a fourth spigot member (23), the third spigot member (22) is arranged on the front panel lining plate (3), the fourth spigot member (23) is arranged on the air duct mounting member (20), and the third spigot member (22) is matched with the fourth spigot member (23) so as to shield a gap between the air duct mounting member (20) and the front panel lining plate (3).

3. The anti-condensation structure according to claim 2, wherein the third spigot member (22) includes a third stopper portion (24) and a third connecting portion (25), the third stopper portion (24) is disposed on the front panel liner (3) through the third connecting portion (25), the fourth spigot member (23) includes a fourth stopper portion (26) and a fourth connecting portion (27), the fourth stopper portion (26) is disposed on the duct mounting member (20) through the fourth connecting portion (27), and the third stopper portion (24) abuts against the fourth stopper portion (26).

4. A condensation preventing structure according to claim 3, wherein the fourth stopper (26) is provided with a stopper groove (28) that cooperates with the third stopper (24), the third stopper (24) being abutted against a side wall of the stopper groove (28).

5. The condensation preventing structure according to claim 1, wherein the front panel (4) is provided with a mounting portion (29) and a spigot portion (30) protruding from the mounting portion (29), the reinforcing plate (5) is provided with a first fitting portion (31), the first fitting portion (31) abuts against the mounting portion (29), and the spigot portion (30) is provided at an interval from the first fitting portion (31).

6. The condensation preventing structure according to claim 5, wherein the mounting portion (29) has a mounting surface (32), the spigot portion (30) is provided with a wind shielding back surface (33), the mounting surface (32) is disposed at an angle to the wind shielding back surface (33), and the first fitting portion (31) abuts against the mounting surface (32) and is disposed at a distance from the wind shielding back surface (33).

7. The condensation preventing structure according to claim 5, wherein the reinforcing plate (5) is further provided with a second fitting portion (34), the second fitting portion (34) being provided in a U-shape at a distance from the first fitting portion (31).

8. An air conditioner comprising an anti-condensation structure (1) according to any one of claims 1 to 7.