CN212566236U

CN212566236U - Indoor unit shell structure, air conditioner indoor unit and air conditioner

Info

Publication number: CN212566236U
Application number: CN202021557801.5U
Authority: CN
Inventors: 梁伟波; 尹海玉; 熊硕; 崔天伟; 张志龙; 唐碧海
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2020-07-30
Filing date: 2020-07-30
Publication date: 2021-02-19
Anticipated expiration: 2030-07-30

Abstract

The utility model provides an indoor unit shell structure, an air-conditioning indoor unit and an air conditioner, wherein the indoor unit shell structure comprises a panel and a frame, the frame is provided with an air outlet and comprises a first matching side surface which are connected in sequence, second cooperation side and third cooperation side, the panel is including the first side board that connects gradually, the main panel body and second side board, first side board slidable lid closes on first cooperation side, main panel body slidable lid closes on second cooperation side, second side board slidable lid closes on third cooperation side, first cooperation side is provided with first guide rail towards first side board protrusion, first guide rail sets up for the slope of dismouting direction, first side board is provided with first buckle towards first cooperation side protrusion, first buckle can lean on the side slip of first guide rail and can lock the one end of keeping away from second cooperation side at first guide rail. The dismouting of panel is simple and easy swift, and easy access or cleanness, production efficiency is high, low in production cost.

Description

Indoor unit shell structure, air conditioner indoor unit and air conditioner

Technical Field

The utility model belongs to the technical field of air conditioner technique and specifically relates to a machine and air conditioner that has this air conditioning in indoor set of indoor set shell structure, the air conditioning that has this indoor set shell structure.

Background

With the improvement of the requirements of people on the living quality and the abuse of various epidemic situations in recent years, people have higher and higher requirements on the cleanliness of air conditioner products, particularly indoor air conditioners installed indoors. The air conditioner is at the working process, because continuous convulsions air supply, the inside foul that can pile up of air conditioner, can go mildy and smelly along with piling up for a long time of foul, and these peculiar smell and mould spread indoor along with the air supply of air conditioning indoor set again, seriously influence user's healthy and environment at home.

All parts of the existing air conditioner indoor unit are basically detachably and fixedly connected through screws, and a user can only detach the air conditioner indoor unit by means of tools, so that the air conditioner indoor unit can be overhauled or cleaned. Moreover, the existing air conditioner indoor unit has more parts, small parts such as a panel, a face frame and screws, too long time for dismounting, large workload and poor user experience. Meanwhile, the small size of the small parts such as the screws leads the indoor unit of the air conditioner to be easily lost in the dismounting and washing process, and the screws with various specifications are easily mistakenly mounted in the mounting process, so that the working efficiency is low.

Along with the continuous improvement of the production automation degree, the iteration cycle of the air conditioner product is continuously shortened, the lean design requirement on the air conditioner product is higher and higher, but at present, the lean degree of the structural design of the air conditioner product is not high, so that the material of the product is more detailed and more in variety, the automation degree of the product is directly influenced, particularly the number and the variety of screws, and the improvement of the lean design is greatly restricted.

Disclosure of Invention

In order to realize the utility model discloses a first purpose, the utility model provides an indoor set shell structure that the dismouting is simple and easy swift, production efficiency is high and low in production cost.

In order to realize the utility model discloses a second purpose, the utility model provides an air conditioning indoor unit with above-mentioned indoor set shell structure.

In order to realize the third objective of the present invention, the present invention provides an air conditioner with the above air conditioner indoor unit.

In order to realize the first purpose of the utility model, the utility model provides an indoor machine shell structure, which comprises a panel and a frame, wherein the frame is provided with an air outlet, the frame comprises a first matching side, a second matching side and a third matching side which are connected in sequence, the first matching side and the third matching side are respectively arranged at two sides of the air outlet in the extending direction of the air outlet, a mounting surface is formed between two end surfaces of the first matching side and the third matching side which are far away from the second matching side, the panel comprises a first side panel, a main panel body and a second side panel which are connected in sequence, the first side panel can be covered on the first matching side in a sliding way, the main panel body can be covered on the second matching side in a sliding way, the second side panel can be covered on the third matching side in a sliding way, the first matching side is provided with a first guide rail towards the first side panel in a protruding, the first guide rail is arranged obliquely relative to the dismounting direction, the dismounting direction is perpendicular to the mounting surface, the first side panel is provided with a first buckle towards the first matching side in a protruding mode, and the first buckle can abut against the side face of the first guide rail to slide and can be buckled at one end, far away from the second matching side face, of the first guide rail.

The first guide rail is provided with a first guide bar, the end, far away from the second matching side, of the first guide rail is connected with the first guide bar, an included angle is formed between the first guide bar and the first guide rail, the first matching side is provided with a first baffle towards the first side panel in a protruding mode, a first limiting groove is formed between the first baffle and the first guide bar, and a first buckle can be inserted into the first limiting groove and is buckled at the end, far away from the first guide rail, of the first guide bar.

The further scheme is that one end of the first guide rail and the end of the first guide strip, which are far away from the first matching side, are provided with second baffles, a first guide groove is formed between the second baffles and the first matching side, and the first buckle can be inserted into the first guide groove to slide.

The further scheme is that the first baffle and the first guide bar are arranged in parallel.

Further, the included angle between the first guide bar and the first guide rail is an obtuse angle.

The further scheme is that an included angle between the first guide rail and the dismounting direction is an acute angle.

The further scheme is that one end protrusion that second cooperation side borders on the air outlet is provided with the third baffle, and the third baffle extends on the extending direction of air outlet, and the contained angle between third baffle and the second cooperation side is the acute angle and forms the second spacing groove, and the side protrusion that the main panel body is close to second cooperation side is provided with a plurality of locking plates, and a plurality of locking plates set up side by side on the extending direction of air outlet, and the locking end of each locking plate can insert the second spacing inslot.

Further, the locking end of each locking plate is provided with an inclined surface which can abut against the side surface of the third baffle plate close to the second matching side surface.

The further scheme is that a first inserting buckle is arranged on the side face, close to the second matching side face, of the main panel body in a protruding mode, an inserting groove is arranged on the side face, close to the second matching side face, of the main panel body in a protruding mode, an opening is formed in one side, far away from the air outlet, of the inserting groove, and the first inserting buckle can penetrate through the opening and is inserted into the inserting groove.

The further scheme is that the first inserting buckle is positioned in the middle of the main panel body in the extending direction of the air outlet.

The indoor unit shell structure further comprises a sliding buckle, the sliding buckle is provided with a first sliding groove and a second sliding groove which are arranged in a penetrating mode, the first sliding groove is slidably clamped at the other end, far away from the air outlet, of the second matching side face, the main panel body is convexly provided with a second inserting buckle close to the side face of the second matching side face, and the second sliding groove is slidably clamped on the second inserting buckle.

The air outlet structure comprises a first side panel, a second side panel, a first sliding chute, a second sliding chute and a second inserting buckle, wherein the first sliding chute and the second inserting buckle are respectively arranged on the first side panel and the second side panel in a sliding mode, the first sliding chute and the second sliding chute are respectively arranged on the first side panel and the second side panel, and the second sliding chute of each sliding buckle is respectively arranged on the second inserting buckle in a sliding mode.

The further scheme is that a first gap is formed at the position, adjacent to the air outlet, of the first side panel.

The second side panel is provided with a second gap at the position adjacent to the air outlet.

The third matching side face is provided with a second guide rail in a protruding mode towards the second side face plate, the inclination direction and the inclination angle of the second guide rail relative to the dismounting direction are the same as those of the first guide rail, the second side face plate is provided with a second buckle in a protruding mode towards the third matching side face, and the second buckle can abut against the side face of the second guide rail to slide and can be buckled at one end, far away from the second matching side face, of the second guide rail.

The third guide rail is provided with a first baffle plate, a second baffle plate is arranged on the first guide rail, a third limiting groove is formed between the second baffle plate and the second guide rail, and a second buckle can be inserted into the third limiting groove and buckled at one end of the second guide rail far away from the second guide rail.

The third guide rail and the second guide strip are arranged on the first guide rail, the second guide rail and the second guide strip are arranged on the second guide rail, the second guide groove is formed between the second guide rail and the second guide strip, and the second buckle can be inserted into the second guide groove to slide.

The fourth baffle and the second guide bar are arranged in parallel.

Further, the included angle between the second guide bar and the second guide rail is an obtuse angle.

Further, the second guide rail is arranged opposite to the first guide rail in the extending direction of the air outlet.

In order to realize the utility model discloses a second purpose, the utility model provides an indoor unit of air conditioner, including shell structure, shell structure is foretell indoor unit shell structure.

In order to realize the utility model discloses a third purpose, the utility model provides an air conditioner, including the indoor set, the indoor set is foretell air conditioning indoor set.

The beneficial effects of the utility model are that, when needs assemble the panel to the frame, only need let the first buckle of panel support to lean on the side slip along first guide rail, because first guide rail sets up for the slope of dismouting direction, then the panel is in the installation face male of orientation frame, and the panel moves towards the air outlet of frame synchronously. When the first buckle slides to one end, far away from the second matching side face of the frame, of the first guide rail, the first buckle can be buckled at one end, far away from the second matching side face, of the first guide rail by slightly pressing, and therefore the panel is locked on the frame. When the panel is detached from the frame as required, the panel is pulled manually, so that the first buckle is separated from one end, away from the second matching side, of the first guide rail, moves outwards along the mounting surface, away from the frame, of the first guide rail, and meanwhile, the panel synchronously moves outwards away from the air outlet of the frame, so that the panel and the frame are separated quickly, and the requirement on the dismounting space of the panel is low. The panel passes through the buckle cooperation guide rail with the frame and slides and the lock fastening, realize that the panel can smoothly slide dismantlement and assembly, the dismouting process need not be with the help of the instrument, only need slide into along the guide rail, it is just as to clap, the operation degree of difficulty of dismouting has been reduced greatly, shorten the time consumption of dismouting, the work load of dismouting has been reduced, make the dismouting simple and easy swift, be convenient for overhaul or clean the inner structure of machine in the air conditioning, the complicated problem of machine in the air conditioning panel dismouting among the prior art has been solved, user experience has been improved. Meanwhile, the panel and the frame do not need to be assembled by screws, so that the automatic assembly degree of the product is greatly improved, and the production efficiency is high. And the quantity and the type of the materials are reduced, so that the cost of the die is greatly reduced, the material management and control and allocation cost is greatly reduced, the production cost is greatly reduced, and the lean design requirements of products are met.

Drawings

Fig. 1 is an exploded view of an indoor unit of an air conditioner according to an embodiment of the present invention.

Fig. 2 is an exploded view of the casing structure in the embodiment of the indoor unit of the air conditioner of the present invention.

Fig. 3 is a structural view of a frame in an embodiment of an indoor unit of an air conditioner of the present invention.

Fig. 4 is a side view of a frame in an embodiment of an indoor unit of an air conditioner according to the present invention.

Fig. 5 is a first perspective sectional view of the casing structure in the embodiment of the indoor unit of the air conditioner of the present invention.

Fig. 6 is a second perspective sectional view of the casing structure in the embodiment of the indoor unit of the air conditioner of the present invention.

Fig. 7 is a third perspective sectional view of the casing structure in the embodiment of the indoor unit of the air conditioner of the present invention.

The present invention will be further explained with reference to the drawings and examples.

Detailed Description

Following embodiment is mainly to the utility model discloses an indoor set of air conditioning, because the utility model discloses an indoor set of air conditioning has adopted the utility model discloses an indoor set shell structure has explained indoor set shell structure embodiment in the explanation of the indoor set of air conditioning embodiment.

Referring to fig. 1 to 4, an air conditioning indoor unit 1 includes a chassis 2, a heat exchanger 3, an air deflector 4, and a casing structure 5, where the casing structure 5 is located on the chassis 2, and the heat exchanger 3 is located inside between the chassis 2 and the casing structure 5. Specifically, the indoor unit casing structure 5 comprises a panel 52 and a frame 51, the frame 51 is mounted on the chassis 2, the heat exchanger 3 is located inside between the chassis 2 and the frame 51, and the panel 52 is detachably covered on the outer side surface of the frame 51 far away from the chassis 2. The frame 51 is provided with an air outlet 511, the extending direction of the air outlet 511 is the same as the extending direction of the air deflector 4, and the air deflector 4 can rotatably close or open the air outlet 511.

The frame 51 includes a first mating side surface 514, a second mating side surface 513 and a third mating side surface 512 connected in sequence, the first mating side surface 514 and the third mating side surface 512 are respectively located at two sides of the air outlet 511 in the extending direction of the air outlet 511, and a mounting surface 6 is formed between two end surfaces of the first mating side surface 514 and the third mating side surface 512 far away from the second mating side surface 513. The panel 52 includes a first side panel 523, a main panel body 522 and a second side panel 521, which are connected in sequence, wherein the first side panel 523 slidably covers the first mating side 514, the main panel body 522 slidably covers the second mating side 513, and the second side panel 521 slidably covers the third mating side 512.

The first mating side 514 is provided with a first guide rail 5115 protruding toward the first side panel 523, the first guide rail 5115 is inclined with respect to the mounting and dismounting direction 7, and the mounting and dismounting direction 7 is perpendicular to the mounting surface 6. The first side panel 523 is provided with a first catch 526 protruding toward the first mating side 514, and the first catch 526 can slide against the side of the first rail 5115 and can be buckled on an end of the first rail 5115 away from the second mating side 513. Specifically, one end of the first guide rail 5115, which is away from the second mating side 513, is connected with a first guide bar 5116, an included angle is formed between the first guide bar 5116 and the first guide rail 5115, the first mating side 514 is provided with a first baffle 5118 protruding towards the first side panel 523, a first limit groove is formed between the first baffle 5118 and the first guide bar 5116, and the first buckle 526 can be inserted into the first limit groove and buckled at one end of the first guide bar 5116, which is away from the first guide rail 5115. The ends of the first guide rail 5115 and the first guide bar 5116 away from the first mating side 514 are provided with a second baffle 5117, a first guide groove is formed between the second baffle 5117 and the first mating side 514, and the first buckle 526 can be inserted into the first guide groove to slide. In this embodiment, the first blocking plate 5118 and the first guiding rail 5116 are parallel to each other, an included angle between the first guiding rail 5116 and the first guiding rail 5115 is an obtuse angle, an included angle θ between the first guiding rail 5115 and the dismounting direction 7 is an acute angle, and preferably, the included angle θ between the first guiding rail 5115 and the dismounting direction 7 is 10 ° to 30 °.

The third mating side 512 is provided with a second guide rail 515 protruding toward the second side panel 521, and the inclination direction and the inclination angle of the second guide rail 515 with respect to the attaching and detaching direction 7 are the same as those of the first guide rail 5115. The second side panel 521 is provided with a second buckle (not labeled) protruding toward the third mating side 512, and the second buckle can slide against the side of the second guide rail 515 and can be buckled on an end of the second guide rail 515 far away from the second mating side 513. Specifically, one end of the second guide rail 515, which is far from the second mating side 513, is connected with a second guide bar 516, an included angle is formed between the second guide bar 516 and the second guide rail 515, the third mating side 512 is provided with a fourth baffle 518 protruding toward the second side panel 521, a third limiting groove is formed between the fourth baffle 518 and the second guide bar 516, and the second buckle can be inserted into the third limiting groove and buckled at one end of the second guide bar 516, which is far from the second guide rail 515. A fifth baffle 517 is disposed at one end of the second guide rail 515 and the second guide strip 516 away from the third mating side 512, a second guide groove is formed between the fifth baffle 517 and the third mating side 512, and the second buckle can be inserted into the second guide groove to slide. In this embodiment, the fourth blocking plate 518 and the second guiding bar 516 are parallel to each other, an included angle between the second guiding bar 516 and the second guiding rail 515 is an obtuse angle, preferably, the second guiding rail 515 is disposed opposite to the first guiding rail 5115 in the extending direction of the air outlet 511 and has the same structure, the second guiding bar 516 is disposed opposite to the first guiding bar 5116 in the extending direction of the air outlet 511 and has the same structure, the third limiting groove is disposed opposite to the first limiting groove in the extending direction of the air outlet 511 and has the same structure, and meanwhile, the second buckle is disposed opposite to the first buckle 526 in the extending direction of the air outlet 511 and has the same structure.

In this embodiment, the first mating side 514 further protrudes toward the first side panel 523 to form a third guide rail 5119, the third mating side 512 further protrudes toward the second side panel 521 to form a fourth guide rail 519 which is opposite to the third guide rail 5119 and has the same structure, the third guide rail 5119 has the same inclination direction and inclination angle with respect to the dismounting direction 7 as the first guide rail 5115, and the third guide rail 5119 and the first guide rail 5115 are arranged side by side on the first mating side 514 in a direction parallel to the mounting surface 6. The first side panel 523 further has a third latch 527 protruding toward the first mating side 514, and the third latch 527 can slide against the side of the third rail 5119 and can be latched to an end of the third rail 5119 away from the second mating side 513. Meanwhile, the second side panel 521 is further provided with a fourth buckle (not labeled) protruding toward the third mating side 512, the fourth buckle being opposite to the third buckle 527 and having the same structure, and the fourth buckle can slide against the side of the fourth guide rail 519 and can be buckled at an end of the fourth guide rail 519 far from the second mating side 513.

Specifically, one end of the third guide rail 5119, which is far from the second mating side 513, is connected with a third guide bar 5120, the first mating side 514 is further provided with a sixth baffle 5122 in a protruding manner towards the first side panel 523, a fourth limiting groove is formed between the sixth baffle 5122 and the third guide bar 5120, the fourth limiting groove is parallel to the first limiting groove, and the third buckle 527 can be inserted into the fourth limiting groove and buckled at one end of the third guide rail 5120, which is far from the third guide rail 5119. A seventh baffle 5121 is disposed at an end of the third guide rail 5119 and the third guide bar 5120 away from the first mating side 514, a third guide groove is formed between the seventh baffle 5121 and the first mating side 514, and the third latch 527 can be inserted into the third guide groove to slide. In this embodiment, one end of the fourth guide rail 519, which is far away from the second mating side 513, is connected with a fourth guide bar 5110, which is opposite to the third guide bar 5120 and has the same structure, the third mating side 512 is further provided with an eighth baffle 5111, which is opposite to the sixth baffle 5122 and has the same structure, in a protruding manner toward the second side panel 521, a fifth limiting groove, which is opposite to the fourth limiting groove and has the same structure, is formed between the eighth baffle 5111 and the fourth guide bar 5110, and the fourth buckle can be inserted into the fifth limiting groove and be buckled at one end of the fourth guide bar 5110, which is far away from the fourth guide rail 519. A ninth baffle 5112 is disposed at an end of the fourth guide rail 519 and the fourth guide bar 5110 away from the third mating side 512, a fourth guide groove is formed between the ninth baffle 5112 and the third mating side 512, and a fourth buckle can be inserted into the fourth guide groove to slide.

A third baffle 5114 is convexly disposed at an end of the second mating side 513 adjacent to the air outlet 511, the third baffle 5114 extends in the extending direction of the air outlet 511, and an included angle between the third baffle 5114 and the second mating side 513 is an acute angle and forms a second limiting groove. A plurality of locking plates 528 are convexly arranged on the side surface of the main panel body 522 close to the second matching side surface 513, the plurality of locking plates 528 are arranged side by side in the extending direction of the air outlet 511, and the locking end 5281 of each locking plate 528 can be inserted into the second limiting groove. Specifically, the locking end 5281 of each locking plate 528 has an inclined surface 5282, the inclined surface 5282 can abut against the side of the third baffle 5114 near the second mating side 513, and the end of the main panel body 522 near the air outlet 511 can cover the top end of the third baffle 5114 far from the air outlet 511.

The indoor unit casing structure 5 of this embodiment further includes two sliding buckles 53, each sliding buckle 53 is provided with a first sliding chute 532 and a second sliding chute 531, which are arranged in a penetrating manner, and the first sliding chute 532 of each sliding buckle 53 is slidably engaged with the other end of the second matching side 513, which is far away from the air outlet 511. Two second inserting buckles 5210 are convexly arranged on the side surface of the main panel body 522 close to the second matching side surface 513, the two second inserting buckles 5210 are arranged side by side in the extending direction of the air outlet 511 and are respectively arranged close to the first side surface plate 523 and the second side surface plate 521, and the second sliding groove 531 of one sliding buckle 53 is slidably clamped on one second inserting buckle 5210.

A first inserting buckle 529 is convexly arranged on the side surface of the main panel body 522 close to the second matching side surface 513, an inserting groove 5113 is convexly arranged on the second matching side surface 513, an opening (not shown) is formed in one side of the inserting groove 5113 far away from the air outlet 511, and the first inserting buckle 529 can pass through the opening and be inserted into the inserting groove 5113. Specifically, the first insert buckle 529 is located at the middle of the main panel body 522 in the extending direction of the air outlet 511, and the first insert buckle 529 is located between the second insert buckle 5210 and the lock plate 528 in the direction parallel to the mounting surface 6. In this embodiment, the first side panel 523 has a first gap 525 adjacent to the air outlet 511, and the second side panel 521 has a second gap 524 adjacent to the air outlet 511.

Referring to fig. 5 to 7, when it is necessary to assemble the panel 52 to the frame 51, it is only necessary to insert the first catch 526 of the panel 52 into the first guide groove of the frame 51 and slide against the side along the first guide rail 5115, while the second catch of the panel 52 is inserted into the second guide groove of the frame 51 and slide against the side along the second guide rail 515, the third catch 527 of the panel 52 is inserted into the third guide groove of the frame 51 and slide against the side along the third guide rail 5119, and the fourth catch of the panel 52 is inserted into the fourth guide groove of the frame 51 and slide against the side along the fourth guide rail 519. Since the first guide rail 5115, the second guide rail 515, the third guide rail 5119, and the fourth guide rail 519 are each provided obliquely with respect to the attaching and detaching direction 7, the panel 52 is inserted toward the attachment surface 6 of the frame 51 and simultaneously the panel 52 moves toward the air outlet 511 of the frame 51.

When the first buckle 526 of the panel 52 slides into the first limit groove of the frame 51, the second buckle of the panel 52 slides into the third limit groove of the frame 51, the third buckle 527 of the panel 52 slides into the fourth limit groove of the frame 51, the fourth buckle of the panel 52 slides into the fifth limit groove of the frame 51, and then, by pressing with a little force, the elastic buckle on the first buckle 526 is buckled on one end of the first guide bar 5116 away from the first guide rail 5115, the elastic buckle on the second buckle is buckled on one end of the second guide bar 516 away from the second guide rail 515, the elastic buckle on the third buckle 527 is buckled on one end of the third guide bar 5120 away from the third guide rail 5119, and the elastic buckle on the fourth buckle is buckled on one end of the fourth guide bar 5110 away from the fourth guide rail 519, so that the panel 52 is locked on the frame 51. At this time, the locking end 5281 of the locking plate 528 of the panel 52 is inserted into the second limiting groove of the frame 51, the inclined surface 5282 of the locking end 5281 abuts against the side surface of the third baffle 5114 of the frame 51 close to the second matching side 513, and the end of the main panel body 522 of the panel 52 close to the air outlet 511 is covered on the top end of the third baffle 5114 far away from the air outlet 511, so that the end of the panel 52 close to the air outlet 511 is fastened on the frame 51. Meanwhile, the first insert buckle 529 of the panel 52 passes through the opening and is inserted into the insertion groove 5113 of the frame 51, achieving the middle positioning of the panel 52.

Then, the two sliding buckles 53 are controlled to slide on the second matching side 513 of the frame 51, so that the second sliding groove 531 of one sliding buckle 53 is slidably engaged with one second inserting buckle 5210 of the panel 52, the sliding buckle 53 is tightly matched with the second inserting buckle 5210 on the panel 52, the panel 52 is further fastened with the frame 51, and the panel 52 is stably fastened with the frame 51 in all directions.

When it is necessary to detach the panel 52 from the frame 51, the two sliding buckles 53 are controlled to slide on the second mating side 513 of the frame 51, so that the second sliding grooves 531 of the sliding buckles 53 slide and disengage from the second inserting buckles 5210 of the panel 52. Subsequently, by manually pulling the panel 52 through the first and

second notches

525 and 524 of the panel 52, the first catch 526 is disengaged from the first guide rail 5116, the second catch is disengaged from the second guide rail 516, the third catch 527 is disengaged from the third guide rail 5120, and the fourth catch is disengaged from the fourth guide rail 5110, and then moves outwardly away from the mounting surface 6 of the frame 51 along the first, second, third, and

fourth guide rails

5115, 515, 5119, and 519, respectively, while the panel 52 simultaneously moves outwardly away from the outlet opening 511 of the frame 51. Thereafter, the first insert buckle 529 of the panel 52 is disengaged from the insert groove 5113, and the locking end 5281 of the locking plate 528 of the panel 52 is disengaged from the second limiting groove of the frame 51, thereby achieving the quick separation of the panel 52 from the frame 51.

First buckle 526, second buckle, third buckle 527 and fourth buckle can be unilateral cartridge buckles, also can be bilateral cartridge buckles, or buckle types such as rotatory buckle. The panel 52 is integrally formed, the integrated panel 52 is a smooth super-large curved surface, various patterns can be printed by gold stamping and silk screen printing through a secondary process, even pictures can be directly pasted, posters can be pasted, and personalized customization can be achieved, so that the personalized requirements of users are greatly met.

This embodiment panel 52 and frame 51 pass through the slip of buckle cooperation guide rail and the lock fastening, realize that panel 52 can smoothly slide dismantlement and assembly, the dismouting process need not be with the help of the instrument, only need slide in along the guide rail, it is just as to clap, the operation degree of difficulty of dismouting has been reduced greatly, shorten the time consumption of dismouting, the work load of dismouting has been reduced, make the dismouting simple and easy swift, be convenient for overhaul or clean the inner structure of air conditioning indoor set 1, the complicated problem of air conditioning indoor set panel dismouting among the prior art has been solved, user experience has been improved. Meanwhile, the panel 52 and the frame 51 are assembled without screws, so that the automatic assembly degree of the product is greatly improved, and the production efficiency is high. And the quantity and the type of the materials are reduced, so that the cost of the die is greatly reduced, the material management and control and allocation cost is greatly reduced, the production cost is greatly reduced, and the lean design requirements of products are met.

Above embodiment is the preferred example of the utility model, and not the restriction the utility model discloses the range of implementing, the event all according to the utility model discloses the equivalent change or the decoration that structure, characteristic and principle were done of application for patent scope all should be included in the utility model discloses the patent application scope.

Claims

1. Indoor set shell structure, including panel and frame, its characterized in that:

the air outlet is formed in the frame, the frame comprises a first matching side face, a second matching side face and a third matching side face which are sequentially connected, the first matching side face and the third matching side face are respectively positioned on two sides of the air outlet in the extending direction of the air outlet, and a mounting face is formed between two end faces, far away from the second matching side face, of the first matching side face and the third matching side face;

the panel comprises a first side panel, a main panel body and a second side panel which are connected in sequence, the first side panel can be covered on the first matching side in a sliding mode, the main panel body can be covered on the second matching side in a sliding mode, and the second side panel can be covered on the third matching side in a sliding mode;

the first matching side is provided with a first guide rail in a protruding mode towards the first side panel, the first guide rail is arranged in an inclined mode relative to the dismounting direction, and the dismounting direction is perpendicular to the mounting surface;

the first side panel is provided with a first buckle towards the first matching side in a protruding mode, and the first buckle can abut against the side face of the first guide rail to slide and can be buckled at one end, far away from the second matching side, of the first guide rail.

2. The indoor unit casing structure according to claim 1, wherein:

one end of the first guide rail, which is far away from the second matching side surface, is connected with a first guide bar, and an included angle is formed between the first guide bar and the first guide rail;

first cooperation side orientation first side panel protrusion is provided with first baffle, first baffle with form first spacing groove between the first conducting bar, first buckle can insert first spacing inslot and lock are in first conducting bar is kept away from the one end of first guide rail.

3. The indoor unit casing structure according to claim 2, wherein:

the first guide rail and the end, far away from the first matching side, of the first guide strip are provided with a second baffle, a first guide groove is formed between the second baffle and the first matching side, and the first buckle can be inserted into the first guide groove to slide.

4. The indoor unit casing structure according to claim 2, wherein:

the first baffle and the first guide strip are arranged in parallel.

5. The indoor unit casing structure according to claim 4, wherein:

the included angle between the first guide strip and the first guide rail is an obtuse angle.

6. The indoor unit casing structure according to claim 1, wherein:

the included angle between the first guide rail and the dismounting direction is an acute angle.

7. The indoor unit casing structure according to claim 1, wherein:

a third baffle plate is convexly arranged at one end, adjacent to the air outlet, of the second matching side surface, the third baffle plate extends in the extending direction of the air outlet, and an included angle between the third baffle plate and the second matching side surface is an acute angle and forms a second limiting groove;

the main panel body is close to the side protrusion of second cooperation side is provided with a plurality of locking plates, and is a plurality of the locking plate is in set up side by side in the extending direction of air outlet, each the locking end of locking plate can insert the second spacing inslot.

8. The indoor unit casing structure according to claim 7, wherein:

the locking end of each locking plate is provided with an inclined surface which can abut against the side surface of the third baffle plate close to the second matching side surface.

9. The indoor unit casing structure according to claim 1, wherein:

the main panel body is close to the side protrusion of second cooperation side is provided with first eye-splice, second cooperation side protrusion is provided with the insertion groove, the insertion groove is kept away from the one side of air outlet has seted up the opening, first eye-splice can pass the opening and insert in the insertion groove.

10. The indoor unit casing structure according to claim 9, wherein:

the first insert buckle is positioned in the middle of the main panel body in the extending direction of the air outlet.

11. The indoor unit casing structure according to claim 1, wherein:

the indoor unit shell structure further comprises a sliding buckle, the sliding buckle is provided with a first sliding chute and a second sliding chute which are arranged in a penetrating mode, and the first sliding chute is clamped at the other end, far away from the air outlet, of the second matching side face in a sliding mode;

and a second inserting buckle is convexly arranged on the side surface, close to the second matching side surface, of the main panel body, and the second sliding groove is slidably clamped on the second inserting buckle.

12. The indoor unit casing structure according to claim 11, wherein:

the number of the sliding buckles and the number of the second inserting buckles are two, the first sliding groove of each sliding buckle is slidably clamped at the other end, far away from the air outlet, of the second matching side face, the two second inserting buckles are arranged side by side in the extending direction of the air outlet and are respectively close to the first side face plate and the second side face plate, and the second sliding groove of one sliding buckle is slidably clamped on one second inserting buckle.

13. The indoor unit casing structure according to claim 1, wherein:

the first side panel is provided with a first notch at the position adjacent to the air outlet.

14. The indoor unit casing structure according to claim 13, wherein:

the second side panel is provided with a second notch at the position adjacent to the air outlet.

15. The indoor unit casing structure according to any one of claims 1 to 14, wherein:

the third matching side face is provided with a second guide rail in a protruding mode towards the second side face plate, and the inclination direction and the inclination angle of the second guide rail relative to the dismounting direction are the same as those of the first guide rail;

the second side panel is provided with a second buckle towards the third matching side in a protruding mode, and the second buckle can abut against the side face of the second guide rail to slide and can be buckled at one end, far away from the second matching side, of the second guide rail.

16. The indoor unit casing structure according to claim 15, wherein:

one end, far away from the second matching side, of the second guide rail is connected with a second guide bar, and an included angle is formed between the second guide bar and the second guide rail;

the third cooperation side towards the second panel protrusion is provided with the fourth baffle, the fourth baffle with form the third spacing groove between the second conducting bar, the second buckle can insert third spacing inslot and lock are in the second conducting bar is kept away from the one end of second guide rail.

17. The indoor unit casing structure according to claim 16, wherein:

the second guide rail with the second conducting bar is kept away from the one end of third cooperation side is provided with the fifth baffle, the fifth baffle with form the second guide slot between the third cooperation side, the second buckle can insert slide in the second guide slot.

18. The indoor unit casing structure according to claim 16, wherein:

the fourth baffle and the second guide strip are arranged in parallel.

19. The indoor unit casing structure according to claim 18, wherein:

and an included angle between the second guide strip and the second guide rail is an obtuse angle.

20. The indoor unit casing structure according to claim 15, wherein:

the second guide rail is arranged opposite to the first guide rail in the extending direction of the air outlet.

21. Machine in air conditioning, including shell structure, its characterized in that:

the casing structure is the indoor unit casing structure of any one of the preceding claims 1 to 20.

22. Air conditioner, including indoor set, its characterized in that:

the indoor unit of an air conditioner according to claim 21.