CN218096533U - Air conditioner - Google Patents

Abstract

The utility model provides an air conditioner relates to air conditioner technical field. The air conditioner comprises a middle frame main body, an air deflector, a front panel and a partition. The center main part is equipped with first air-out passageway and second air-out passageway. The first air outlet channel is correspondingly provided with a first air outlet; the air deflector is arranged at the first air outlet. The front panel and the middle frame main body jointly form a second air outlet channel; the front panel is provided with an air outlet unit for air outlet, the air outlet unit forms a second air outlet of the second air outlet channel, and the air outlet unit is used for discharging airflow of the second air outlet channel. The isolating piece is not provided with an air outlet unit for air outlet. The isolating piece and the middle frame main body jointly form a communication channel; the first air outlet channel is communicated with the second air outlet channel through a communicating channel. The utility model provides an air conditioner can improve the technical problem who produces the condensation easily among the prior art in the inside passage of air conditioner.

Description

Air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to an air conditioner.

Background

The air conditioner is used for adjusting the quality of the air of the environment where the user is located, so that the comfort of the environment where the user is located is improved. In present technique, more and more air conditioners begin to configure the function of zero wind sense mode, and partial air conditioner that also can go on the air-out from the front panel to guarantee the air output when realizing zero wind sense, and then guarantee the air conditioning effect that the air conditioner can provide.

However, on the technical basis of air outlet through the front panel, a channel for supplying air outlet needs to be arranged at a position of the middle frame corresponding to the front panel, the channel needs to be connected into an air outlet channel below the air conditioner to guide air flow to be led out from the front panel, under the condition of a conventional air outlet mode, namely, under the condition of opening the air deflector, high-speed air flow blows through the lower part of the front panel, so that local negative pressure is formed, the air outlet channel corresponding to the front panel is easily subjected to air inlet through an air outlet structure under the influence of the negative pressure, and then, when external air flow enters the inner part of the air outlet channel of the front panel, condensation is easily generated by mixing with the internal air flow. On the other hand, when the air deflector is closed, the air flow flows out from the air deflector and the panel, if the air deflector air outlet flow velocity is low, the air flow enters the front panel through the air outlet structure of the front panel after the air deflector exhausts the air flow, and the air outlet effect is influenced.

In addition, the demand of front panel air-out leads to the center to need set up the cavity in the position that corresponds the front panel, and sets up intercommunication air-out passageway and cavity between this cavity and air-out passageway, just leads to the structure of center complicated from this, can appear the problem of demolding difficulty in the in-process of making the center.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem be how to improve the technical problem who produces the condensation in the inside passage of air conditioner easily.

In order to solve the above problems, the present invention provides an air conditioner, comprising:

the middle frame main body is provided with a first air outlet channel and a second air outlet channel for air outlet;

the first air outlet channel is correspondingly provided with a first air outlet; the air deflector is connected to the middle frame main body and arranged at the first air outlet;

the front panel is connected to the middle frame main body, and the front panel and the middle frame main body jointly form the second air outlet channel; the front panel is provided with an air outlet unit for supplying air out, the air outlet unit forms a second air outlet of the second air outlet channel, and the air outlet unit is used for discharging airflow of the second air outlet channel;

the partition is arranged between the air deflector and the front panel, and an air outlet unit for supplying air is not arranged on the partition; the partition and the middle frame main body jointly form a communication channel; the first air outlet channel is communicated with the second air outlet channel through the communicating channel.

The utility model provides an air conditioner includes for prior art's beneficial effect:

the front panel and the air deflector are isolated by the isolating piece, and the inner side and the outer side of the isolating piece are also isolated, so that the generation of condensation caused by local negative pressure is prevented. Specifically, on the one hand, under the condition of conventional air-out mode, open the aviation baffle promptly under, the front panel below has high-speed air current to blow, leads to forming local negative pressure, and the second air-out passageway that the front panel corresponds receives the easy air inlet of negative pressure influence, nevertheless because of the setting of separator, has prevented that the air current from passing the separator and getting into the separator inboard, in other words, under the condition of conventional air-out mode, can be less at separator department negative pressure, be difficult to appear the inspiratory problem of external air current, thereby improve the problem that produces the condensation easily. On the other hand, when the air deflector is closed, the air flow flows out from the air deflector and the front panel, and even if the air outlet flow velocity of the air deflector is low, due to the arrangement of the partition piece, the air flow discharged from the air deflector cannot pass through the front panel through the air outlet unit on the front panel to enter the second air outlet channel.

Optionally, a first wind shielding part is arranged at the lower part of the isolating piece, and the first wind shielding part is arranged at one side of the isolating piece close to the wind deflector; the spacer upper portion is equipped with second wind-blocking portion, second wind-blocking portion is located the spacer is close to one side of front panel, first wind-blocking portion and/or second wind-blocking portion are used for blockking that first air outlet combustion gas flows and gets back to the second air-out passageway from the second air outlet.

When the aviation baffle was closed, the air current flowed out from aviation baffle and front panel, even the aviation baffle air-out air current velocity of flow is lower, because of the setting of first portion of keeping out the wind and second portion of keeping out the wind, the air current of aviation baffle combustion gas can not get into the front panel through the air-out structure of front panel, has strengthened the effect of keeping out the wind.

Optionally, a plurality of matching structures are arranged between the first air outlet channel and the second air outlet channel, and the plurality of matching structures are arranged at intervals; the isolating piece is connected with a plurality of matching structures, and each matching structure comprises a supporting rib and a matching part; the supporting ribs and the matching parts are arranged on the middle frame main body, and the supporting ribs are connected with the matching parts;

in the air conditioner, a second air outlet channel for air outlet of the air outlet unit on the front panel is arranged on the middle frame main body, and the second air outlet channel is connected into the first air outlet channel through a communication channel formed by the isolating piece and the middle frame main body; the isolating piece can be connected with the matching structure to be disassembled and assembled with the middle frame main body. If the isolating piece adopts integrated into one piece's mode to set up on the center main part, when the whole demolding of center main part, the isolating piece then can influence the demolding of center main part, leads to center main part demolding difficulty. And in the utility model provides an in the air conditioner, make the spacer repacking alone to the center main part on, can avoid the aforesaid because the problem of the influence center main part demolding that spacer integrated into one piece caused in the center main part, and then reach the technical problem who improves the center demolding difficulty of air conditioner among the prior art.

The isolating piece comprises an isolating main body and an assembling structure, and the assembling structure is clamped with the matching part; the supporting ribs are abutted against the isolating main body, and the isolating main body is arranged between the front panel and the air deflector; the isolation body and the middle frame body form the communication channel therebetween.

Wherein, the support rib is supported on the isolation main body to provide a support function for the isolation main body; and the joint of assembly structure and cooperation portion realizes keeping apart the main part and being connected of center main part, just so can make the isolator assemble on center main part steadily to can prevent to keep apart collapsing of main part through the supporting role of brace rod.

Optionally, the mounting structure comprises a positioning rib and a first buckle; the positioning ribs and the first buckles are arranged at intervals; the matching part is abutted against the positioning rib and is in clamping fit with the first buckle.

In the assembling process, the positioning rib can provide a supporting effect for the matching part, and the assembling structure is clamped with the matching part through the clamping of the first buckle and the matching part. Due to the arrangement of the positioning ribs, the matching stability of the first buckle and the matching part can be ensured.

Optionally, a first buckling part is convexly arranged on one side of the first buckle close to the positioning rib; the end part of the matching part is provided with a second buckling part matched with the first buckling part; the second buckling part extends into the positioning rib and the first buckle, one side of the second buckling part is supported and held by the positioning rib, and the other side of the second buckling part is clamped with the first buckling part.

Optionally, the support rib is provided with a support surface, and the support surface is arc-shaped; at least part of the isolation body is attached to the supporting surface.

Set up the holding surface into the arc of adaptation in isolation main part, can improve the area of contact of brace rod and isolation main part to improve the support stability that the brace rod provided to isolation main part.

Optionally, the isolation member further includes a plurality of positioning members, an assembly area is formed between any two adjacent positioning members, and the isolation main body has at least two assembly areas;

at least one assembling structure is arranged in any assembling interval, and the number of the assembling structures in the assembling intervals is different.

The number of the assembling structures arranged in the assembling intervals is different, so that the assembling cannot be finished under the condition that the position of the isolating main body is not correct, the isolating main body is assembled according to the specified position to finish the assembling of the isolating piece and the middle frame main body, the limiting effect can be provided for the assembling of the isolating piece through the positioning pieces, and the assembling of the isolating piece can be finished according to the specified posture.

Optionally, the isolation body includes a first strip section and a second strip section disposed at two ends of the first strip section;

the assembling structures are arranged on the first strip section at intervals, and are arranged in an extending direction of the first strip section;

the air conditioner further comprises an end cover, and the second strip section is connected with the end cover.

The second section is connected with the end cover, so that the connection effect can be provided for the isolating piece from two ends of the isolating piece, and the integral stability of the isolating piece is further ensured.

Optionally, the second strip section is provided with a stop groove, and the stop groove is formed along the extending direction of the second strip section; a seam allowance rib is arranged on the end cover; the spigot rib is assembled in the spigot groove; the seam allowance rib abuts against the inner wall, close to the first strip section, of the seam allowance groove, and the seam allowance rib is spaced from the inner wall, far away from the first strip section, of the seam allowance groove.

Through the cooperation of tang groove and tang muscle, can provide the positioning action to the isolator, and then prevent that the both ends overlength of isolator from stretching out, can improve the holistic aesthetic measure of air conditioner from this.

Optionally, the spacer further comprises a second snap; the second buckle is arranged on the second strip section and clamped with the end cover.

Optionally, the second buckle is arranged at the end of the second strip section, and the second buckle is arranged at both ends of the second strip section.

Optionally, the spacer further comprises a third buckle, the third buckle is arranged in the middle of the second strip section, and the third buckle is clamped with the end cover.

The second buckle and the third buckle are arranged on the second section, so that the second section can be stably assembled on the end cover through the matching of the second buckle and the third buckle with the end cover; and then can improve the holistic assembly stability of separator and center main part.

Optionally, the end of the first strip section is connected to the middle of the second strip section, and the first strip section is perpendicular to the second strip section.

The first strip section is connected to the middle of the second strip section, and the first strip section is perpendicular to the second strip section, so that the whole partition is matched with the middle frame main body, and the attractiveness of the partition assembled on the middle frame main body is ensured.

Drawings

Fig. 1 is a schematic cross-sectional view of an air conditioner provided in an embodiment of the present application;

FIG. 2 is an enlarged schematic view of E in FIG. 1;

fig. 3 is an exploded view of an air conditioner provided in an embodiment of the present application;

FIG. 4 is another schematic cross-sectional view of an air conditioner provided in an embodiment of the present application;

FIG. 5 is a schematic view of a spacer structure provided in an embodiment of the present application;

FIG. 6 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 7 is an enlarged view of the structure at B in FIG. 4;

FIG. 8 is an enlarged view of the structure at C in FIG. 5;

FIG. 9 is an enlarged view of the structure of FIG. 5 at D;

fig. 10 is a partial structural schematic diagram of an air conditioner provided in an embodiment of the present application.

Description of reference numerals:

10-an air conditioner; 11-a middle frame main body; 101-a first air outlet channel; 102-a second air outlet channel; 12-an end cap; 103-seam allowance rib; 13-a spacer; 104-a communication channel; 14-a front panel; 15-a wind deflector; 100-a mating structure; 110-support ribs; 111-a support surface; 120-a mating portion; 121-a second fastening part; 200-an isolation body; 201-grooves; 210-a first strip section; 220-a second strip section; 221-a second buckle; 222-a third snap; 223-a stop groove; 300-an assembly structure; 310-positioning ribs; 311-a guide ramp; 320-a first buckle; 321-a first fastening part; 400-positioning parts; 410-assembly interval; 500-a first windshield; 510-a first air guiding surface; 520-spacing grooves; 600-a second wind blocking part; 610-second wind guide surface.

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.

Referring to fig. 1, in an embodiment of the present application, an air conditioner 10 is provided, where the air conditioner 10 is configured to be installed in a designated area to provide air conditioning effect to the designated area during operation, so as to improve the air comfort of the designated area and improve the comfort level of a user. It should be noted that, in general, an air conditioner includes an air conditioner internal unit and an air conditioner external unit, where the air conditioner external unit and the air conditioner internal unit are connected to form a refrigerant circulation loop, and the air conditioner internal unit can provide an air conditioning function to a specified area under the condition that a refrigerant is in a circulation state in the refrigerant circulation loop. Based on this, the "air conditioner 10" provided in the embodiment of the present application refers to an air conditioner indoor unit, and details are not described below.

In the present embodiment, referring to fig. 1, the air conditioner 10 includes a middle frame body 11, an air guiding plate 15, a front panel 14 and a spacer 13. It should be understood that other components, such as the fan, the heat exchanger, and the driving device, may also be included in the air conditioner 10, and are not described herein again. The middle frame body 11 is provided with a first air outlet channel 101 and a second air outlet channel 102. The first air outlet channel 101 is correspondingly provided with a first air outlet (not shown) for the air outlet of the first air outlet channel 101; the air deflector 15 is connected to the middle frame body 11 and disposed at the first air outlet. The front panel 14 is connected to the middle frame body 11, and forms a second air outlet channel 102 together with the middle frame body 11; the front panel 14 is further provided with an air outlet unit (not shown) for supplying air, and the air outlet unit forms a second air outlet (not shown) of the second air outlet channel 102 to outlet air from the second air outlet; in other words, the air outlet unit on the front panel 14 is used for discharging the air flow in the second air outlet channel 102. The spacer 13 is disposed between the air guide plate 15 and the front panel 14, and is connected to the plurality of fitting structures 100. The spacer 13 forms a communication passage 104 together with the middle frame body 11; the first air outlet channel 101 is communicated with the second air outlet channel 102 through a communication channel 104. It should be noted that, when the fan in the air conditioner 10 operates, the fan sucks an airflow from the designated area, then guides the airflow into the first air outlet channel 101, and guides part of the airflow out of the first air outlet; part of the airflow may be guided into the first outlet channel 101 through the communicating channel 104 and then guided out from the second outlet. In this embodiment, the air outlet unit for supplying air is not arranged on the partition 13, in other words, the partition 13 is not provided with a through hole or a gap, which can isolate the outside and the communicating channel 104, so as to prevent the air flow from passing through the partition 13 and entering the communicating channel 104, so that under the condition of the conventional air outlet mode, the negative pressure formed at the partition 13 is small, the condition of sucking the outside air flow is not easy to occur, and the problem of easily generating condensation is improved.

As described above, the partition 13 separates the front panel 14 from the air guide plate 15, and also separates the inside and the outside of the partition 13, thereby preventing the generation of condensation due to local negative pressure. Specifically, on the one hand, in the case of the normal air outlet mode, that is, in the case of opening the air deflector 15, the air flow having high speed flows below the front panel 14 blows, which results in forming a local negative pressure, and the second air outlet channel 102 corresponding to the front panel 14 is easily subjected to the negative pressure, but due to the arrangement of the partition 13, the air flow is prevented from passing through the partition 13 and entering the inside of the partition 13, in other words, in the case of the normal air outlet mode, the negative pressure at the partition 13 is small, so that the problem of sucking the outside air flow is not easily caused, and the problem of easily generating condensation is improved. On the other hand, when the air deflector 15 is closed, the air flow flows out from the air deflector 15 and the front panel 14, and even if the flow rate of the air outlet flow of the air deflector 15 is low, due to the arrangement of the partition 13, the air flow discharged from the air deflector 15 does not pass through the air outlet unit on the front panel 14 and enters the second air outlet channel 102 through the front panel 14.

In addition, referring to fig. 1 and fig. 2, in the present embodiment, a first wind shielding portion 500 is disposed at a lower portion of the spacer 13, and the first wind shielding portion 500 is disposed at a side of the spacer 13 close to the wind deflector 15; the upper portion of the partition 13 is provided with a second wind blocking portion 600, the second wind blocking portion 600 is disposed on one side of the partition 13 close to the front panel 14, and the first wind blocking portion 500 and/or the second wind blocking portion 600 are used for blocking the airflow discharged from the first air outlet from returning to the second air outlet channel 102 from the second air outlet. The term "and/or" means that the first wind shielding part 500 can independently block the airflow discharged from the first air outlet from returning to the second air outlet channel 102 from the second air outlet; the second wind blocking portion 600 can also independently block the airflow discharged from the first wind outlet from returning to the second wind outlet channel 102 through the second wind outlet; of course, the first wind blocking portion 500 and the second wind blocking portion 600 may work together to block the airflow discharged from the first wind outlet from flowing back to the second wind outlet channel 102 from the second wind outlet.

When the air deflector 15 is closed, the airflow flows out from the air deflector 15 and the front panel, even if the flow rate of the airflow discharged from the air deflector 15 is low, due to the arrangement of the first wind shielding part 500 and the second wind shielding part 600, the airflow discharged from the air deflector 15 cannot enter the front panel 14 through the air discharging unit of the front panel 14, and the wind shielding effect is enhanced.

It should be noted that the first wind blocking portion 500 is disposed inside the partition 13, and a portion of the first wind blocking portion 500 extends to the partition 13, so that the first wind blocking portion 500 blocks a gap between the partition 13 and the air guide plate 15, and thus, the gap formed on one side of the partition 13 close to the air guide plate 15 can be eliminated by the first wind blocking portion 500, negative pressure is prevented from being formed on one side of the partition 13 close to the air guide plate 15, and further, the situation that the second wind outlet channel 102 is susceptible to negative pressure to cause easy wind inlet is prevented, and therefore, the problem that condensation is formed inside the second wind outlet channel 102 can be improved; in addition, the air can be prevented from directly entering the communicating channel 104 from the gap by shielding the gap formed between the partition 13 and the air guide plate 15, and the problem of condensation formed inside the communicating channel 104 can be prevented.

Similarly, second wind blocking portion 600 is disposed on the inner side of partition 13, and the portion of second wind blocking portion 600 extends to and stretches out partition 13, so that second wind blocking portion 600 blocks the gap between partition 13 and front panel 14, therefore, the gap formed on one side of partition 13 close to front panel 14 can be eliminated through second wind blocking portion 600, negative pressure is prevented from being formed on one side of partition 13 close to front panel 14, and then the condition that second air outlet channel 102 is affected by negative pressure to cause easy air inlet is prevented, thereby the problem of condensation formed inside second air outlet channel 102 can be improved. In addition, the gap formed between the shielding partition 13 and the front panel 14 prevents air from directly entering the communicating channel 104 or the second air outlet channel 102 from the gap, and prevents the problem of condensation formed inside the communicating channel 104 and the second air outlet channel 102.

In addition, it should be noted that, in the case where the first wind blocking portion 500 and the second wind blocking portion 600 are provided, the first wind blocking portion 500 may also provide a guiding function to the airflow flowing in the communication passage 104, for example, the first wind blocking portion 500 may guide the airflow to enable the airflow to cross the partition 13, so that the airflow in the communication passage 104 does not contact the inner wall of the partition 13, and a problem that condensation is formed on the partition 13 due to a temperature difference formed between the inner wall and the outer wall of the partition 13 may be improved. For another example, the second wind blocking portion 600 may receive the airflow guided by the first wind blocking portion 500 to ensure that the airflow guided by the first wind blocking portion 500 can be received by the second wind blocking portion 600 to guide the airflow to the second wind outlet channel 102 after passing over the partition 13, so as to ensure that the airflow in the communication channel 104 does not contact with the partition 13, and improve the problem of condensation caused by temperature difference formed on the partition 13.

It is worth mentioning that "crossing over" refers to causing the airflow in the communication channel 104 to pass through the partition 13 without contacting the inner wall of the partition 13, so that the airflow enters the second wind outlet channel 102.

In the present embodiment, the first outlet channel 101 is directed to the second outlet channel 102 as a predetermined direction, in other words, the communicating channel 104 is used for guiding the airflow to the second outlet channel 102 along the predetermined direction. In order to ensure that the first wind blocking portion 500 and the second wind blocking portion 600 can effectively guide the airflow to cross the partition 13, the first wind guiding surface 510 with the extending direction matched with the preset direction is arranged on the first wind blocking portion 500, so that the guiding effect is conveniently provided for the airflow along the flowing direction of the airflow in the communication channel through the first wind guiding surface 510, the purpose that the airflow crosses the partition 13 can be effectively achieved, and meanwhile, the influence of the first wind blocking portion 500 on the airflow in the communication channel 104 can be prevented. Similarly, the second wind-guiding surface 610 with the extending direction adapted to the preset direction is disposed on the second wind-blocking portion 600, so as to provide a guiding function for the airflow along the airflow flowing direction in the communicating channel 104 through the second wind-guiding surface 610, facilitate receiving the airflow guided by the first wind-guiding surface 510, and smoothly guide the airflow to the second wind-out channel 102.

It should be noted that the "extending direction" of the first air guiding surface 510 can also be regarded as the tangential direction of the first air guiding surface 510. For example, when the predetermined direction is a linear direction, the first air guiding surface 510 also forms a plane parallel to the predetermined direction, the tangential direction of the first air guiding surface 510 is a direction parallel to the first air guiding surface 510, the tangential direction of the first air guiding surface 510 is parallel to the predetermined direction, and the extending direction of the first air guiding surface 510 is matched with the predetermined direction. For another example, when the predetermined direction is an arc direction, the first wind guide surface 510 also forms an arc surface adapted to the predetermined direction, the tangential direction of the first wind guide surface 510 is a direction tangent to the first wind guide surface 510, and the tangential direction of the first wind guide surface 510 is also parallel to the tangential direction of the predetermined direction, that is, the extending direction of the first wind guide surface 510 is adapted to the predetermined direction.

Similarly, the "extending direction" of the second wind guiding surface 610 can also be regarded as the tangential direction of the second wind guiding surface 610. The recognition method of the second wind guide surface 610 adapting to the preset direction is the same as the recognition method of the first wind guide surface 510 adapting to the preset direction, and is not described herein again.

In the present embodiment, the first windshield portion 500 and the second windshield portion 600 are spaced apart from each other, and a spacing groove 520 is formed between the first windshield portion 500 and the second windshield portion 600, the spacing groove 520 communicating with the communication passage; the formation of the partition groove 520 may be regarded as the formation of the side walls of the partition groove 520 by the first windshield portion 500 and the second windshield portion 600, and the formation of the bottom wall of the partition groove 520 by the inner wall of the spacer. Based on this, in the process that the air current flows in the communicating channel, the air current can cross the spacing groove 520 under the guiding action of the first wind blocking part 500 and the second wind blocking part 600, the bottom wall of the spacing groove 520 is ensured not to be influenced by the air current, namely, the inner wall of the partition 13 is not influenced by the air current, and the problem of condensation formed on the partition 13 can be improved.

It should be understood that in other embodiments of the present application, in order to achieve guiding of the air flow inside the communication passage 104 without contacting the partition 13 during the flow, the provision of the second wind blocking portion 600 may also be eliminated, that is, the purpose of the air flow in the communication passage 104 without contacting the partition 13 may be achieved only by the guiding action of the first wind blocking portion 500.

In addition, in prior art, the demand of front panel air-out leads to the center to need set up the cavity in the position that corresponds the front panel, and sets up intercommunication air-out passageway and cavity between this cavity and air-out passageway, just leads to the structure of center complicated from this, can appear the problem of demolding difficulty in the in-process of preparation center.

The air conditioner 10 in the embodiment of the present application can improve the above technical problem, in other words, the air conditioner 10 in the embodiment of the present application can also improve the technical problem of the prior art that the mold stripping of the middle frame is difficult.

In the present embodiment, please refer to fig. 3 and fig. 4, the middle frame main body 11 is further provided with a plurality of matching structures 100 disposed between the first air outlet channel 101 and the second air outlet channel 102, and the plurality of matching structures 100 are disposed at intervals; the spacer 13 is connected to a plurality of mating structures 100.

As described above, in the air conditioner 10, the spacer 13 can be attached to and detached from the center frame body 11 by being connected to the fitting structure 100. If the spacers 13 are integrally formed on the middle frame body 11, when the middle frame body 11 is integrally stripped, the communicating channel 104 needs to be formed, and the spacers 13 may affect the stripping of the middle frame body 11, which may cause difficulty in stripping the middle frame body 11. In the air conditioner 10 provided in the present application, the spacer 13 is separately manufactured and then assembled to the middle frame body 11, so that the problem that the mold stripping of the middle frame body 11 is affected due to the fact that the spacer 13 is integrally formed on the middle frame body 11 can be avoided, and the technical problem of improving the mold stripping difficulty of the middle frame body 11 of the air conditioner 10 in the prior art is further achieved.

It should be noted that the partition 13 is assembled with the middle frame main body 11 by connecting with the plurality of fitting structures 100, so that the plurality of fitting structures 100 are located in the communication channel 104 formed between the partition 13 and the middle frame main body 11, and thus the partition 13, the middle frame main body 11 and any two adjacent fitting structures 100 may be regarded as enclosing the communication channel 104, of course, the plurality of fitting structures 100 may also be regarded as dividing the communication channel 104 into a plurality of sub-channels, and the first outlet channel 101 is communicated with the second outlet channel 102 through the plurality of sub-channels.

In the present embodiment, please refer to fig. 5 and fig. 6, the fitting structure 100 includes a supporting rib 110 and a fitting portion 120; the support rib 110 and the fitting portion 120 are both provided on the center frame body 11, and the support rib 110 and the fitting portion 120 are connected. In order to facilitate the partition 13 to be matched with the matching structure 100, the partition 13 comprises a partition main body 200 and an assembling structure 300, and the assembling structure 300 is clamped with the matching part 120; the support rib 110 abuts against the isolation body 200, and the isolation body 200 is disposed between the front panel 14 and the air guiding plate 15; the partition body 200 and the middle frame body 11 form a communication passage 104 therebetween.

Wherein, the support rib 110 is supported against the isolation body 200 to provide a support function for the isolation body 200; the engagement of the fitting structure 300 with the fitting portion 120 connects the spacer body 200 with the middle frame body 11, so that the spacer 13 can be stably fitted to the middle frame body 11 and the collapse of the spacer body 200 can be prevented by the support action of the support rib 110.

Optionally, the support rib 110 has a support surface 111 thereon, and the support surface 111 is arc-shaped; at least part of the isolation body 200 is attached to the support surface 111. The support surface 111 is configured to be fitted to the arc shape of the isolation body 200, so that the contact area between the support rib 110 and the isolation body 200 can be increased, and the support stability provided by the support rib 110 to the isolation body 200 can be improved.

It should be noted that, referring to fig. 6, fig. 7 and fig. 8, in the embodiment of the present application, in order to make the entire outer surface of the spacer 13 match with the arc formed by the air guiding plate 15 and the front panel 14, the outer side surface of the spacer 13 is substantially arc-shaped, and in order to facilitate the overall manufacturing of the spacer 13, the inner side of the spacer 13 is also formed with an arc-shaped surface. However, in order to reduce the volume, manufacturing material, mass, and the like of the spacer 13, a groove 201 is formed inside the spacer body 200. Based on this, the inner side surface of the isolation body 200 is made to form two spaced arc-shaped surfaces approximately; the opening of the recess 201 is then located between the two arc-shaped faces. The fact that at least part of the insulation body 200 is attached to the support surface 111 means that two arc-shaped surfaces are attached to the support surface 111. The support rib 110 can be in surface-to-surface contact with the isolation body 200, thereby ensuring that the support rib 110 provides stable support for the isolation body 200.

It should be understood that in other embodiments of the present application, the groove 201 may be eliminated, so that the inner side surface of the isolation body 200 is integrally attached to the supporting surface 111 to provide a stable supporting function to the isolation body 200 through the supporting rib 110.

In addition, the fitting structure 300 includes a positioning rib 310 and a first catch 320; the positioning rib 310 and the first buckle 320 are arranged at intervals; the engaging portion 120 abuts against the positioning rib 310 and is snap-engaged with the first buckle 320. During the assembling process, the positioning rib 310 may provide a holding effect to the mating portion 120, and the first latch 320 is engaged with the mating portion 120 to achieve the engagement between the assembling structure 300 and the mating portion 120. Due to the positioning rib 310, the fitting stability of the first catch 320 and the fitting part 120 can be ensured.

It should be noted that, when the mating portion 120 is snapped between the positioning rib 310 and the first snap 320, the positioning rib 310 provides a supporting function and a guiding function for the mating portion 120; in other words, in the process that the matching part 120 continues to slide along the positioning rib 310 to the gap between the positioning rib 310 and the first buckle 320, the matching part 120 applies an acting force to the first buckle 320 through the support of the positioning rib 310, so that the first buckle 320 is elastically deformed, and the matching part 120 and the first buckle 320 can be clamped.

Wherein, a first buckling part 321 is convexly arranged at one side of the first buckle 320 close to the positioning rib 310; the end of the fitting portion 120 is provided with a second engaging portion 121 adapted to the first engaging portion 321. The second engaging portion 121 extends between the positioning rib 310 and the first engaging portion 320, and one side of the second engaging portion 121 abuts against the positioning rib 310, and the other side thereof is engaged with the first engaging portion 321. When the second buckling part 121 is installed, the second buckling part 121 abuts against the positioning rib 310 and slides to the gap between the positioning rib 310 and the first buckle 320 through the supporting function and the guiding function of the positioning rib 310; in the sliding process, the second engaging portion 121 applies an acting force to the first engaging portion 321, so that the first buckle 320 is elastically deformed, and the second engaging portion 121 can conveniently pass over the first engaging portion 321. When the second engaging portion 121 passes over the first engaging portion 321, the first buckle 320 returns to the initial position, and at this time, the first engaging portion 321 is buckled with the second engaging portion 121, and the positioning rib 310 provides a supporting function for the second engaging portion 121, so as to realize the clamping connection between the mating portion 120 and the assembling structure 300.

Optionally, in order to facilitate the positioning rib 310 to provide a guiding function and a supporting function for the second buckling part 121, a guiding inclined surface 311 is disposed on one side of the positioning rib 310 close to the first buckling part 321, and under a condition that the second buckling part 121 and the first buckling part 321 are clamped with each other, the other side of the second buckling part 121 abuts against the guiding inclined surface 311. In the process of installing the second engaging portion 121 between the first engaging portion 321 and the positioning rib 310, the second engaging portion 121 can slide along the guiding inclined surface 311 to complete the engagement with the first engaging portion 321. Under the circumstances of second buckling part 121 with the mutual joint of first buckling part 321, through the setting of direction inclined plane 311, can make second buckling part 121 and location muscle 310 promote the supporting role that location muscle 310 provided to second buckling part 121 through the mode of face-to-face contact, and then ensure the stability of second buckling part 121 to improve assembly structure 300 and cooperation portion 120 complex stability.

In addition, in order to facilitate the assembly of the partition 13, in this embodiment, the partition 13 further includes a plurality of positioning members 400, an assembly interval 410 is formed between any two adjacent positioning members 400, and the partition main body 200 has at least two assembly intervals 410. At least one assembling structure 300 is arranged in any assembling section 410, and the number of assembling structures 300 in a plurality of assembling sections 410 is different.

The number of the assembling structures 300 arranged in the assembling sections 410 is different, so that the assembling cannot be finished under the condition that the position of the isolating main body 200 is not correct, and the assembling of the isolating part 13 and the middle frame main body 11 can be finished only when the isolating main body 200 is assembled according to the specified position, so that a limiting effect can be provided for the assembling of the isolating part 13 through the positioning parts 400, and the assembling of the isolating part 13 can be finished according to the specified posture.

For example, in the case of fig. 5 as an example, three assembly sections 410 are formed on the isolation body 200, wherein one assembly structure 300 is arranged in one assembly section 410, and two assembly mechanisms are arranged in the assembly section 410 in the middle; and three mounting structures 300 are provided in the other mounting section 410. Based on this, the assembly of the spacer 13 with the middle frame body 11 can be completed only in the case where the spacer body 200 is in the designated assembly posture; in the case where the fitting posture of the spacer 13 is not correct, the partially fitting structure 300 cannot correspond to the fitting structure 100, so that the spacer 13 cannot be fitted.

It should be noted that, in the embodiment of the present application, the positioning member 400 is not only used to divide the isolation body 200 into the assembly sections 410. In this embodiment, the positioning members 400 and the assembling structures 300 may be disposed at equal intervals along the extending direction of the isolating main body 200, and based on this, when the assembling posture of the isolating member 13 is incorrect, the positioning members 400 may correspond to the assembling structures 100, so that the isolating member 13 cannot be assembled, in other words, a foolproof effect may be provided for the assembling of the isolating member 13.

It should be understood that the positioning member 400 may be eliminated in other embodiments of the present application. For example, the fool-proof effect may be achieved in such a manner that the partial assembly structure 300 is misaligned in the width direction of the insulation main body 200.

In the present embodiment, referring to fig. 5 and fig. 9, the isolation body 200 includes a first segment 210 and a second segment 220 disposed at two ends of the first segment 210. The plurality of mounting structures 300 are disposed on the first bar section 210 at intervals, and the plurality of mounting structures 300 are arranged in a row along the extending direction of the first bar section 210. The air conditioner 10 further includes an end cap 12, and the second segment 220 is connected to the end cap 12. Connecting the second segment 220 to the end cap 12 provides a connection to the spacer 13 from both ends of the spacer 13, thereby ensuring the stability of the spacer 13 as a whole.

In order to ensure the aesthetic property of the partition 13 assembled on the middle frame body 11, please refer to fig. 9 and fig. 10, optionally, a slot 223 is formed on the second segment 220, and the slot 223 is formed along the extending direction of the second segment 220; the end cover 12 is provided with a seam allowance rib 103; the seam allowance rib 103 is assembled in the seam allowance groove 223; the seam allowance rib 103 and the seam allowance groove 223 abut against the inner wall of the first strip section 210, and the seam allowance rib 103 and the seam allowance groove 223 are spaced from the inner wall of the first strip section 210.

Through the cooperation of the spigot groove 223 and the spigot rib 103, the assembly positioning function can be provided for the partition 13, and then the two ends of the partition 13 are prevented from being excessively extended out, so that the integral aesthetic degree of the air conditioner 10 can be improved. Because the two ends of the first segment 210 are both provided with the second segment 220, and the second segment 220 is provided with the stop groove 223; therefore, the two seam allowances 103 on the end covers 12 at the two ends of the middle frame main body 11 can provide clamping function for the isolation main body 200 to ensure that the isolation main body 200 is assembled in the middle, and can prevent the two ends of the isolation main body 200 from extending too much or retracting too much to form a large gap, and based on this, the aesthetics of the isolation piece 13 after the assembly is completed can be ensured.

In order to further improve the assembly stability of the spacer 13, optionally, the spacer 13 further includes a second snap 221; the second clip 221 is disposed on the second segment 220, and the second clip 221 is clipped to the end cap 12. Correspondingly, a clamping groove (not shown) adapted to the second buckle 221 is provided on the end cover 12, and the second buckle 221 is detachably clamped into the clamping groove on the end cover 12, so as to be detachably connected to the end cover 12.

In order to improve the assembly stability of the second segment 220 and the end cap 12, the second fastener 221 is disposed at an end of the second segment 220, and the second fastener 221 is disposed at both ends of the second segment 220. The second snap 221 at the two ends of the second strip 220 provides a connecting function for the second strip 220, so that the assembling stability of the second strip 220 and the end cover 12 can be improved.

In addition, in this embodiment, the isolation member 13 further includes a third buckle 222, the third buckle 222 is disposed in the middle of the second segment 220, and the third buckle 222 is buckled with the end cover 12. By arranging the second fastener 221 and the third fastener 222 on the second segment 220, the second segment 220 can be stably assembled on the end cover 12 through the cooperation of the second fastener 221 and the third fastener 222 with the end cover 12; further, the assembling stability of the spacer 13 and the whole of the center frame body 11 can be improved.

It should be understood that in other embodiments of the present application, the provision of the third catch 222 may be eliminated.

It should be noted that, in the present embodiment, the end of the first strip section 210 is connected to the middle of the second strip section 220, and the first strip section 210 is perpendicular to the second strip section 220. Thus, the isolation body 200 is substantially in a bow shape, the second sections 220 at the two ends correspond to the end caps 12, and the first section 210 at the middle corresponds to the interval between the air deflector 15 and the front panel 14, so that the isolation piece 13 can fit in the interval between the air deflector 15 and the front panel 14. In other words, connecting the first segment 210 to the middle of the second segment 220 and making the first segment 210 perpendicular to the second segment 220 can make the whole of the partition 13 fit to the middle frame body 11, ensuring the aesthetic appearance of the partition 13 assembled on the middle frame body 11.

It should be noted that, referring to fig. 5 and 9, since the isolation body 200 is in a bow shape, and the second fasteners 221 are disposed at two ends of the second segment 220, the two ends of the second segment 220 can be prevented from tilting, and the assembly stability of the second segment 220 can be ensured. The third clip 222 is disposed in the middle of the second segment 220, so that the assembling stability of the second segment 220 and the end cap 12 can be further improved, and the two ends of the isolation body 200 can be prevented from being raised.

In addition, in the present embodiment, the end of the second buckle 221 protrudes in the extending direction of the first strip section 210 to form a protruding structure for being buckled with the end cover 12; and the end of the third catch 222 projects in the direction of extension of the second strip section 220 by a projection for engagement with the end cap 12. Therefore, the second buckle 221 needs to be applied with an acting force along the extending direction of the first strip section 210 to complete the disassembly, and the third buckle 222 needs to be applied with an acting force along the extending direction of the second strip section 220 to complete the disassembly, so that the second strip section 220 is not easy to spontaneously disconnect from the end cover 12, and the purpose of improving the assembling stability of the second strip section 220 and the end cover 12 is achieved.

Of course, in other embodiments, the second fastener 221 and the third fastener 222 may be arranged in the same manner.

In summary, in the air conditioner 10 provided in the embodiment of the present application, the partition 13 separates the front panel 14 from the air deflector 15, and also separates the inner side and the outer side of the partition 13, so as to prevent the generation of condensation caused by local negative pressure. Specifically, on the one hand, in the case of the normal air outlet mode, that is, in the case of opening the air deflector 15, the air flow having high speed flows below the front panel 14 blows, which results in forming a local negative pressure, and the second air outlet channel 102 corresponding to the front panel 14 is easily subjected to the negative pressure, but due to the arrangement of the partition 13, the air flow is prevented from passing through the partition 13 and entering the inside of the partition 13, in other words, in the case of the normal air outlet mode, the negative pressure at the partition 13 is small, so that the problem of sucking the outside air flow is not easily caused, and the problem of easily generating condensation is improved. On the other hand, when the air deflector 15 is closed, the air flow flows out from the air deflector 15 and the front panel 14, and even if the flow rate of the air outlet flow of the air deflector 15 is low, due to the arrangement of the partition 13, the air flow discharged from the air deflector 15 cannot pass through the front panel 14 to enter the second air outlet channel 102 through the air outlet unit on the front panel 14. The spacer 13 can be attached to and detached from the center frame body 11 by being connected to the fitting structure 100. If the spacers 13 are integrally formed on the middle frame body 11, the spacers 13 may affect the demolding of the middle frame body 11 when the middle frame body 11 is integrally demolded, which may cause difficulty in demolding the middle frame body 11. And in the utility model provides an in air conditioner 10, make alone spacer 13 on the reassembling to center main part 11, can avoid the aforesaid because spacer 13 integrated into one piece causes the problem of 11 demolding of influence center main part on center main part 11, and then reach the technical problem who improves the 11 demolding difficulties of center main part of air conditioner 10 among the prior art. In addition, the support rib 110 provides support to the isolation body 200, so as to prevent the isolation member 13 from collapsing, ensure the isolation body 200 to ensure the sealing performance of the communication channel 104, and prevent the condition that the air-out control is disordered due to the air leakage of the communication channel 104, so as to ensure that the air conditioner 10 effectively controls the air-out.

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 (13)

1. An air conditioner, comprising:

the middle frame main body (11) is provided with a first air outlet channel (101) and a second air outlet channel (102) for air outlet; the first air outlet channel (101) is correspondingly provided with a first air outlet; the air deflector is connected to the middle frame main body (11) and arranged at the first air outlet;

the front panel is connected to the middle frame main body (11), and the front panel and the middle frame main body (11) jointly form the second air outlet channel (102); an air outlet unit for supplying air to the front panel is arranged on the front panel, the air outlet unit forms a second air outlet of the second air outlet channel, and the air outlet unit is used for discharging airflow of the second air outlet channel (102);

the partition (13) is arranged between the air deflector and the front panel, and an air outlet unit for supplying air to the air deflector is not arranged on the partition (13); the partition (13) and the middle frame main body (11) jointly form a communication channel (104); the first air outlet channel (101) is communicated with the second air outlet channel (102) through the communication channel (104).

2. The air conditioner according to claim 1, wherein a first wind shielding part (500) is arranged at the lower part of the separator (13), and the first wind shielding part (500) is arranged at one side of the separator (13) close to the wind deflector (15); the partition (13) upper portion is equipped with second portion of keeping off wind (600), second portion of keeping off wind (600) are located partition (13) are close to one side of front panel, first portion of keeping off wind (500) and/or second portion of keeping off wind (600) are used for blockking that first air outlet combustion gas flows back to second air-out passageway (102) from the second air outlet.

3. The air conditioner according to claim 1, characterized in that a plurality of fitting structures (100) are provided between the first outlet air channel (101) and the second outlet air channel (102), the plurality of fitting structures (100) are provided at intervals, the partition (13) is connected with the plurality of fitting structures (100), and the fitting structures (100) comprise support ribs (110) and fitting portions (120); the supporting ribs (110) and the matching parts (120) are arranged on the middle frame main body (11), and the supporting ribs (110) are connected with the matching parts (120);

the isolating piece (13) comprises an isolating main body (200) and an assembling structure (300), and the assembling structure (300) is clamped with the matching part (120); the supporting ribs (110) are abutted against the isolating main body (200), and the isolating main body (200) is arranged between the front panel and the air deflector; the isolation body (200) and the middle frame body (11) form the communication channel (104) therebetween.

4. The air conditioner according to claim 3, wherein the fitting structure (300) comprises a positioning rib (310) and a first catch (320); the positioning rib (310) and the first buckle (320) are arranged at intervals; the matching part (120) is abutted against the positioning rib (310) and is in clamping matching with the first buckle (320).

5. The air conditioner as claimed in claim 4, wherein a first buckling part (321) is convexly arranged on one side of the first buckle (320) close to the positioning rib (310); a second buckling part (121) matched with the first buckling part (321) is arranged at the end part of the matching part (120); the second buckling part (121) extends into the space between the positioning rib (310) and the first buckle (320), one side of the second buckling part (121) is abutted against the positioning rib (310), and the other side of the second buckling part is clamped with the first buckling part (321).

6. The air conditioner according to claim 3, wherein the support rib (110) has a support surface (111) thereon, and the support surface (111) is arc-shaped; at least part of the isolation body (200) is attached to the support surface (111).

7. The air conditioner according to claim 3, wherein the partition member (13) further comprises a plurality of positioning members (400), a fitting section (410) is formed between any two adjacent positioning members (400), and at least two fitting sections (410) are provided on the partition main body (200);

at least one assembling structure (300) is arranged in any assembling section (410), and the number of the assembling structures (300) in the assembling sections (410) is different.

8. The air conditioner according to claim 3, wherein the insulation body (200) comprises a first bar section (210) and a second bar section (220) provided at both ends of the first bar section (210);

the assembling structures (300) are arranged on the first bar section (210) at intervals, and the assembling structures (300) are arranged in an extending direction of the first bar section (210);

the air conditioner (10) further comprises an end cover (12), and the second strip section (220) is connected with the end cover (12).

9. The air conditioner according to claim 8, characterized in that the second segment (220) is provided with a stop groove (223), and the stop groove (223) is formed along the extending direction of the second segment (220); a seam allowance rib (103) is arranged on the end cover (12); the spigot rib (103) is assembled in the spigot groove (223); the spigot rib (103) abuts against the inner wall of the spigot groove (223) close to the first strip section (210), and the spigot rib (103) is spaced from the inner wall of the spigot groove (223) far away from the first strip section (210).

10. The air conditioner according to claim 8, characterized in that the partition (13) further comprises a second catch (221); the second buckle (221) is arranged on the second strip section (220), and the second buckle (221) is clamped with the end cover (12).

11. The air conditioner according to claim 10, wherein the second catch (221) is provided at an end of the second bar section (220), and the second catch (221) is provided at both ends of the second bar section (220).

12. The air conditioner according to claim 11, wherein the spacer (13) further comprises a third clip (222), the third clip (222) is disposed in the middle of the second strip section (220), and the third clip (222) is clipped with the end cover (12).

13. The air conditioner according to claim 8, wherein an end of the first segment (210) is connected to a middle of the second segment (220), and the first segment (210) is perpendicular to the second segment (220).

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