阅读说明：本技术 分离式齿条结构和空调器 (Separated rack structure and air conditioner ) 是由 黄小伟 尚彬 黄家柏 武晨 王杰杰 关健鹏 于 2020-05-25 设计创作，主要内容包括：本发明提供了一种分离式齿条结构和空调器,涉及空调技术领域。空调器包括分离式齿条结构。分离式齿条结构包括连接部和齿条部,连接部用于连接在所述滑动门上,齿条部用于可滑动地安装在空调主体上、并带动所述连接部滑动,并与所述连接部可拆卸地铰接,以使所述滑动门可相对所述空调主体打开或关闭。这样,能够避免连接部与滑动门之间采用过多的螺钉进行连接,操作简单,组装效率高；在需要从空调主体上拆卸滑动门时,只需要将滑动门的连接部从空调主体上的齿条部分离,即可整体拆下滑动门,拆卸简单、拆卸效率高。(The invention provides a separated rack structure and an air conditioner, and relates to the technical field of air conditioners. The air conditioner includes a separate rack structure. The separated rack structure comprises a connecting portion and a rack portion, the connecting portion is used for being connected to the sliding door, the rack portion is used for being slidably mounted on the air conditioner main body and driving the connecting portion to slide, and the connecting portion is detachably hinged to enable the sliding door to be opposite to the air conditioner main body to be opened or closed. Therefore, the connecting part and the sliding door can be prevented from being connected by excessive screws, the operation is simple, and the assembly efficiency is high; when the sliding door needs to be detached from the air conditioner main body, the sliding door can be detached integrally only by separating the connecting part of the sliding door from the rack part on the air conditioner main body, and the detachment is simple and the detachment efficiency is high.)

1. A separate rack structure applied to an air conditioner having a sliding door, the separate rack structure comprising:

a connecting portion (113) for connecting to the sliding door (110);

and the rack part (114) is used for being slidably arranged on the air conditioner main body (120), driving the connecting part (113) to slide and detachably hinged with the connecting part (113) so that the sliding door (110) can be opened or closed relative to the air conditioner main body (120).

2. The split rack structure according to claim 1, wherein said connecting portion (113) is provided with a connecting hole (1135);

the rack portion (114) includes:

a rack main body (1141);

and the rotating shaft (1142) is connected to the rack main body (1141), and the rotating shaft (1142) is matched with the connecting hole (1135).

3. The split rack structure according to claim 2, wherein said rotation shaft (1142) is coupled to a top surface of said rack main body (1141), and said rack portion (114) supports said coupling portion (113) after said rotation shaft (1142) is engaged with said coupling hole (1135).

4. A split rack construction, as claimed in claim 1, wherein said connecting portion (113) comprises:

a connecting body (1131);

a first clip (1132) connected to the connecting body (1131);

the rack portion (114) includes:

a rack main body (1141);

a second catch (1143) connected to the rack body (1141), the second catch (1143) cooperating with the first catch (1132).

5. The split rack structure of claim 4, wherein said first catch (1132) comprises:

a link plate (1133) that is connected to the link body (1131) on a side close to the rack portion (114);

and the clamping hook (1134) is connected to the connecting plate (1133) and is used for being matched with the second clamping buckle (1143).

6. The split rack construction of claim 4, wherein said second catch (1143) comprises:

a curved portion (1144) connected to the rack body (1141);

a snap-in portion (1145) coupled to the curved portion (1144) for engaging the first snap (1132).

7. The split rack structure according to claim 6, wherein an inclination angle of the catching portion (1145) with respect to a length direction of the rack main body (1141) is: 30 to 60 degrees.

8. The split rack construction of claim 6, wherein said snap-in portion (1145) comprises:

a constrictor (1146) connected to the flexure (1144);

a position-limiting section (1147) connected to the contracting section (1146), wherein the first clip (1132) passes over the position-limiting section (1147) and is matched with the contracting section (1146).

9. A split rack construction, as claimed in claim 4, wherein said first catch (1132) is connected to an end of said connecting body (1131) remote from the hinge joint.

10. The split rack structure of claim 4, wherein said connecting body (1131) is located vertically above said rack body (1141) after said first catch (1132) is mated with said second catch (1143).

11. A split rack structure as claimed in claim 1, wherein said connecting portion (113) and said rack portion (114) are of arcuate configuration of equal curvature.

12. An air conditioner, characterized in that the air conditioner comprises:

a sliding door (110);

a split rack structure as claimed in any one of claims 1 to 11, wherein said connecting portion (113) is connected to said sliding door (110), and said rack portion (114) is slidably mounted on an air conditioner main body (120).

13. The air conditioner as claimed in claim 12, wherein the sliding door (110) comprises a lining plate (112), the connecting portion (113) and the lining plate (112) are integrally formed by injection molding, or the connecting portion (113) and the lining plate (112) are respectively formed and then clamped into an integral structure.

14. The air conditioner according to claim 12, wherein the air conditioner comprises two of the connecting portions (113) and two of the rack portions (114), the two connecting portions (113) are distributed at both ends of the sliding door (110) in a length direction, and the two of the rack portions (114) are respectively hinged to the two connecting portions (113).

Technical Field

The invention relates to the technical field of air conditioners, in particular to a separated rack structure and an air conditioner.

Background

The sliding door of the prior cabinet air conditioner is driven by the transmission between a gear and a rack. The traditional rack is integral, during installation, a rack clamping groove is hung on the sliding door, a fixing plate is installed to fasten the rack clamping groove on the sliding door, and finally a screw is screwed to fix the rack clamping groove on the sliding door. The whole process not only uses a lot of screws, but also has complex operation and difficult disassembly and assembly, thus leading to lower working efficiency.

Therefore, the air conditioner is designed, few screws can be used, the air conditioner is convenient to disassemble and assemble, and the air conditioner is easy to operate, which is a technical problem which is urgently needed to be solved at present.

Disclosure of Invention

The invention solves the problems that the sliding door of the prior air conditioner uses more screws, has complex operation and difficult disassembly and assembly, and causes lower working efficiency.

In order to solve the above problem, in a first aspect, an embodiment of the present invention provides a split rack structure applied to an air conditioner having a sliding door, the split rack structure including:

a connecting part for connecting to the sliding door;

and the rack part is used for being slidably installed on the air conditioner main body, driving the connecting part to slide and detachably hinged with the connecting part, so that the sliding door can be opened or closed relative to the air conditioner main body.

Therefore, the rack of the existing sliding door is designed into the detachable separated rack structure in the embodiment, so that the sliding door can be opened or closed relative to the air conditioner main body, when the sliding door is installed on the air conditioner main body, the installation of the sliding door can be completed only by connecting the connecting part of the sliding door to the rack part on the air conditioner main body, excessive screws are not needed, the operation is simple, and the assembly efficiency is high; when the sliding door needs to be detached from the air conditioner main body, the sliding door can be detached integrally only by separating the connecting part of the sliding door from the rack part on the air conditioner main body, and the detachment is simple and the detachment efficiency is high.

And the connecting part is connected on the sliding door, so that the connecting part and the sliding door are prevented from being connected by adopting excessive screws, and the connecting part is used for being connected with the rack part, so that the connecting form of the lining plate and the rack part is further simplified.

Adopt disconnect-type rack structure, easy dismounting that this embodiment provided, greatly made things convenient for dismantle the sliding door and washd or take out interior machine fan blade and wash air conditioner inside.

In an optional embodiment, the connecting part is provided with a connecting hole;

the rack portion includes:

a rack main body;

the rotating shaft is connected to the rack main body and matched with the connecting hole.

Thus, the connecting part and the rack part are hinged simply and conveniently.

In an alternative embodiment, the rotation shaft is coupled to a top surface of the rack body, and the rack portion supports the coupling portion after the rotation shaft is fitted into the coupling hole.

Like this, the rack portion can be right connecting portion play the supporting role, strengthen holistic structural strength, and, connecting portion just can connect steadily under the effect of self gravity in the rack portion, can further reduce other reinforcement parts, simplify the structure, improve dismouting efficiency.

In an alternative embodiment, the connection portion comprises:

a connecting body;

the first buckle is connected to the connecting main body;

the rack portion includes:

a rack main body;

and the second buckle is connected to the rack main body and matched with the first buckle.

Like this, increase the form of joint between connecting portion and the rack portion, can avoid connecting portion to break away from the rack portion by accident to avoid sliding door to open from the air conditioner main part by accident.

In an alternative embodiment, the first catch comprises:

a connecting plate connected to the connecting body at a side close to the rack portion;

and the clamping hook is connected on the connecting plate and is used for being matched with the second buckle.

In an alternative embodiment, the second catch comprises:

a bent portion connected to the rack main body;

and the buckling part is connected to the bending part and is used for being matched with the first buckle.

Therefore, the clamping connection between the connecting part and the rack part is simple and reliable.

In an alternative embodiment, an inclination angle of the engaging portion with respect to the longitudinal direction of the rack main body is: 30 to 60 degrees.

Like this, not only connecting portion and rack portion joint, separation are convenient, moreover buckle portion can play the guide effect to connecting portion.

In an alternative embodiment, the latch portion comprises:

a contraction section connected to the bending section;

the limiting section is connected to the contraction section, and the first buckle crosses the limiting section and is matched with the contraction section.

Therefore, the structure of the buckling part is simple, and the buckling is stable.

In an alternative embodiment, the first snap is connected to the connecting body at an end remote from the hinge.

Like this, after first buckle and second buckle joint, stable in structure, difficult unexpected separation, in actual operation, the user all can exert the force in the one end of keeping away from articulated department when generally opening sliding door, also is the position of application of force in first buckle and second buckle, and the user of being convenient for easily opens sliding door. Furthermore, the first snap is connected to one end of the connecting body far away from the hinge, so that the opening degree of the connecting part relative to the rack part can be maximized.

In an alternative embodiment, the connecting body is located vertically above the rack body after the first catch is mated with the second catch.

Like this, rack portion can play the supporting role to connecting portion, strengthens holistic structural strength to, connecting portion just can connect steadily in rack portion under the effect of self gravity, can further reduce other reinforcement parts, simplify the structure, improve dismouting efficiency, moreover, can make the space that the two occupy minimum, also make the volume of air conditioner less.

In an alternative embodiment, the connecting portion and the rack portion have an arc-shaped structure with the same curvature.

Therefore, after the connecting part and the rack part are mutually clamped, the connecting part and the rack part can be positioned in the same arc surface, so that the occupied space of the connecting part and the rack part is the minimum, and the volume of the air conditioner is small.

In order to solve the above problem, in a second aspect, an embodiment of the present invention provides an air conditioner, including:

a sliding door;

the split rack structure according to the first aspect, wherein a connecting portion is connected to the slide door, and the rack portion is slidably mounted on the air conditioner main body.

Therefore, when the sliding door is installed on the air conditioner main body, the installation of the sliding door can be completed only by connecting the connecting part of the sliding door to the rack part on the air conditioner main body, excessive screws are not needed, the operation is simple, and the assembly efficiency is high; when the sliding door needs to be detached from the air conditioner main body, the sliding door can be detached integrally only by separating the connecting part of the sliding door from the rack part on the air conditioner main body, and the detachment is simple and the detachment efficiency is high.

And the connecting part is connected on the sliding door, so that the connecting part and the sliding door are prevented from being connected by adopting excessive screws, and the connecting part is used for being connected with the rack part, so that the connecting form of the lining plate and the rack part is further simplified.

Adopt air conditioner, easy dismounting that this embodiment provided, greatly made things convenient for dismantle the sliding door and washd or take out the interior machine fan blade and wash the air conditioner inside.

In an optional embodiment, the sliding door comprises a lining plate, the connecting portion and the lining plate are integrally formed by adopting an injection molding process, or the connecting portion and the lining plate are respectively formed and then clamped into the integrated structure.

Therefore, the connecting part and the lining plates are simple in connecting form, excessive screws are avoided being used for connection, the dismounting and mounting process of the sliding door is simplified, and the dismounting and mounting efficiency is improved.

In an alternative embodiment, the air conditioner includes two of the connecting portions and two of the rack portions, the two connecting portions are distributed at both ends of the sliding door in a length direction, and the two of the rack portions are respectively hinged to the two connecting portions.

Therefore, the connecting parts are arranged at the two ends of the sliding door in the length direction, so that the connecting strength between the sliding door and the air conditioner main body can be enhanced, and the sliding door can stably and reliably move relative to the air conditioner main body.

Drawings

Fig. 1 is a schematic structural diagram of an air conditioner according to an embodiment of the present invention;

FIG. 2 is an exploded view of the sliding door of FIG. 1;

FIG. 3 is a schematic view of an integrated structure formed by the lining board and the connecting part in FIG. 1;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is an assembly view of the connecting portion and the rack portion of FIG. 1;

FIG. 6 is an exploded view of the attachment portion and the rack portion of FIG. 5;

FIG. 7 is a full sectional view of the attachment portion and the rack portion assembled;

FIG. 8 is an enlarged view of detail B of FIG. 7;

fig. 9 is a schematic view of another form of the click between the connecting portion and the rack portion.

Description of reference numerals: 100-an air conditioner; 110-a sliding door; 111-a sliding panel; 112-a liner plate; 113-a connecting portion; 1131 — a connecting body; 1132 — first clasp; 1133, connecting plates; 1134, hook; 1135-connecting hole; 114-rack portion; 1141-a rack body; 1142-a rotating shaft; 1143-a second buckle; 1144-a curved portion; 1145-a fastening part; 1146-a contraction section; 1147-a limiting section; 120-air conditioner main body; 121-a front panel; 122-back panel; 130-split rack configuration.

Detailed Description

The sliding door of the prior cabinet air conditioner is driven by the transmission between a gear and a rack. The traditional rack is integral, during installation, a rack clamping groove is hung on the sliding door, a fixing plate is installed to fasten the rack clamping groove on the sliding door, and finally a screw is screwed to fix the rack clamping groove on the sliding door. The whole process not only uses a lot of screws, but also has complex operation and difficult disassembly and assembly, thus leading to lower working efficiency. Therefore, the present embodiment provides a sliding door and an air conditioner, which can solve the above technical problems.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Referring to fig. 1 and 2, an air conditioner 100 according to the present embodiment includes a sliding door 110, an air conditioner main body 120, and a separate rack structure 130. The air conditioner 100 herein may be a cabinet air conditioner, a floor air conditioner, etc.

Specifically, the sliding door 110 includes a sliding panel 111 and a lining panel 112, the split rack structure 130 includes a connecting portion 113 and a rack portion 114, the lining panel 112 is installed inside the sliding panel 111, the connecting portion 113 and the lining panel 112 constitute an integrated structure, and the rack portion 114 is slidably installed on the air conditioner main body 120 and detachably hinged to the connecting portion 113.

Thus, when the sliding door is installed on the air conditioner main body 120, the installation of the sliding door can be completed only by connecting the connecting part 113 of the sliding door to the rack part 114 of the air conditioner main body 120, and the use of excessive screws is not needed, so that the operation is simple and the assembly efficiency is high; when the sliding door needs to be detached from the air conditioner main body 120, the sliding door can be detached as a whole only by separating the connecting portion 113 of the sliding door from the rack portion 114 of the air conditioner main body 120, and the detachment is simple and efficient.

Moreover, the connecting portion 113 and the lining plate 112 form an integrated structure, so that excessive screws are prevented from being used for connecting the two, and the connecting portion 113 is used for connecting the rack portion 114, so that the connecting form of the lining plate 112 and the rack portion 114 is further simplified.

By adopting the sliding door 110 provided by the embodiment, the dismounting and mounting are convenient, and the dismounting of the sliding door to clean the inside of the air conditioner 100 or take out the inner fan blade for cleaning is greatly facilitated.

There are various choices of the number of the connecting portions 113 and the rack portions 114, and in the present embodiment, the sliding door 110 includes two connecting portions 113 and two rack portions 114, the two connecting portions 113 are distributed at both ends of the liner 112 in the length direction, and the two rack portions 114 are respectively hinged to the two connecting portions 113. In this way, by providing the connection portions 113 at both ends of the lining 112 in the longitudinal direction, the strength of connection between the slide door and the main body of the air conditioner 100 can be enhanced, and the movement of the slide door with respect to the air conditioner main body 120 can be stabilized and secured.

In other embodiments, the split rack structure 130 may include a connecting portion 113 and a rack portion 114, and the connecting portion 113 and the rack portion 114 are located at a middle position in the length direction of the liner plate 112, so that not only the liner plate 112 can be supported, but also the overall structure is simpler, the number of parts is smaller, and the assembly and disassembly efficiency is higher.

The air conditioner main body 120 includes a front panel 121 and a back panel 122, the front panel 121 and the back panel 122 are connected to each other, and the sliding door 110 is slidably mounted on the front panel 121.

Referring to fig. 3 and 4, there are various options for the connection manner of the connection portion 113 and the liner plate 112 to form an integrated structure, for example, the connection portion 113 and the liner plate 112 are integrally formed by an injection molding process, or the connection portion 113 and the liner plate 112 are respectively formed and then clamped by a clamping member to form an integrated structure. In this embodiment, the connecting portion 113 and the lining plate 112 are integrally formed by an injection molding process, so that the connecting form between the connecting portion 113 and the lining plate 112 is simple, the dismounting process of the sliding door is simplified, and the dismounting efficiency is improved.

Referring to fig. 5 and 6, the connecting portion 113 includes a connecting body 1131 and a first buckle 1132, the first buckle 1132 is connected to the connecting body 1131, and the connecting body 1131 is provided with a connecting hole 1135, wherein the first buckle 1132 and the connecting hole 1135 are respectively located at two ends of the connecting body 1131 in the length direction.

The first clip 1132 includes a connecting plate 1133 and a hook 1134, the connecting plate 1133 is connected to the connecting body 1131 near one side of the rack portion 114, the hook 1134 is connected to the connecting plate 1133, and the hook 1134 is used for cooperating with the second clip 1143.

The rack portion 114 includes a rack body 1141, a rotating shaft 1142, and a second catch 1143, the second catch 1143 being connected to the rack body 1141, and the second catch 1143 being engaged with the first catch 1132. Thus, the engagement between the connecting portion 113 and the rack portion 114 is increased, and the connecting portion 113 is prevented from being unintentionally separated from the rack portion 114, thereby preventing the sliding door from being unintentionally opened from the air conditioner main body 120.

Wherein, second buckle 1143 and pivot 1142 are located rack main part 1141 length direction's both ends respectively, like this, the both ends of rack portion 114 are used for being connected with the both ends of connecting portion 113 respectively, can be behind the two joint, stable in structure, difficult unexpected separation, moreover, the user can all apply the power in the one end of keeping away from pivot 1142 when generally opening sliding door, also be exactly the application of force in first buckle 1132 and second buckle 1143's position, the user of being convenient for easily opens sliding door. The rotating shaft 1142 is positioned at an end of the rack body 1141, and may maximize the opening degree of the connecting portion 113 with respect to the rack portion 114.

Referring to fig. 7 and 8, the second clip 1143 is an elastic clip, the second clip 1143 includes a bending portion 1144 and a clipping portion 1145, wherein the clipping portion 1145 includes a contracting portion 1146 and a spacing portion 1147, the bending portion 1144 is connected to the rack body 1141, the contracting portion 1146 is connected to the bending portion 1144, the spacing portion 1147 is connected to the contracting portion 1146, and the first clip 1132 crosses the spacing portion 1147 and fits to the contracting portion 1146. Thus, the structure of the locking portion 1145 is simple and the locking is stable.

The angle of inclination of the latching portion 1145 with respect to the longitudinal direction of the rack body 1141 is: 30-60 degrees, and preferably, the inclination angle is 45 degrees. Thus, the connecting portion 113 and the rack portion 114 can be easily engaged and disengaged, and the engaging portion 1145 can guide the connecting portion 113.

In other embodiments, the first clip 1132 and the second clip 1143 may also adopt other structural forms, for example, referring to fig. 9, the first clip 1132 may be a hook 1134, the second clip 1143 may include a slot, and the hook 1134 is matched with the slot. Specifically, the hook 1134 is configured to pass through the slot and hook on a side of the rack portion 114 close to the air conditioner main body 120. Thus, the engagement between the connecting portion 113 and the rack portion 114 is simple and reliable.

In other embodiments, the first buckle 1132 may include a card slot, and the second buckle 1143 may be the hook 1134, or both the first buckle 1132 and the second buckle 1143 are the hook 1134, as long as the first buckle 1132 and the second buckle 1143 can form a detachable joint.

In other embodiments, the connecting portion 113 may not include the first clip 1132, the rack portion 114 may not include the second clip 1143, and the rotating shaft 1142 has a certain damping in the connecting hole 1135 of the connecting body 1131, so that the connecting portion 113 does not rotate freely relative to the rotating shaft 1142, and the relative position between the connecting portion 113 and the rack portion 114 may be stabilized, or the connecting hole 1135 and the rotating shaft 1142 are designed to be in interference fit, and meanwhile, the user may also rotate the connecting portion 113 relative to the rotating shaft 1142, so that other clipping components between the connecting portion 113 and the rack portion 114 may be omitted, the structural form may be further simplified, and the dismounting efficiency may be improved.

In the actual installation of the sliding door 110, the connecting portion 113 is located vertically above the rack portion 114, the rack portion 114 can also support the connecting portion 113, the connecting portion 113 can be stably connected with the rack portion 114 under the action of self gravity, and other connecting pieces for connecting the two can be reduced.

That is, the rotating shaft 1142 of the rack portion 114 is designed to be vertical in practical use, and after the connecting hole 1135 of the connecting portion 113 is engaged with the rotating shaft 1142, the connecting portion 113 and the rack portion 114 can play a role of mutually stabilizing positions.

Preferably, the connecting portion 113 and the rack portion 114 are both arc-shaped and have the same curvature, and after they are engaged with each other, they can be located in the same arc surface, so that the space occupied by them can be minimized, and the volume of the air conditioner 100 can be reduced. Further, the curvature of the connecting portion 113 and the rack portion 114 is equal to the curvature of the liner plate 112, so that the liner plate 112 is attached to the connecting portion 113, and the volume of the air conditioner 100 can be further reduced.

In the actual installation of the split rack structure 130, the connecting portion 113 is located vertically above the rack portion 114, the rack portion 114 can also support the connecting portion 113, the connecting portion 113 can be stably connected with the rack portion 114 under the action of self gravity, and other connecting members for connecting the two can be reduced.

The rotating shaft 1142 and the second snap 1143 are respectively located at two ends of the rack body 1141. Like this, the both ends of rack main part 1141 are used for being connected with the both ends of connecting body 1131 respectively, can be after the two joint, stable in structure, difficult unexpected separation. Moreover, in practical operation, a user generally applies a force to an end away from the rotating shaft 1142 when opening the sliding door, that is, the user applies a force to the positions of the first clip 1132 and the second clip 1143, so as to facilitate the user to easily open the sliding door, and in addition, the first clip 1132 is connected to an end of the connecting body 1131 away from the rotating shaft 1142, so that the opening degree of the connecting portion 113 relative to the rack portion 114 can be maximized.

The working process of the split rack structure 130 and the air conditioner 100 provided in this embodiment:

the connecting portion 113 and the rack portion 114 are engaged with each other in a state where the sliding door 110 is closed with respect to the air conditioner main body 120;

when the interior of the air conditioner needs to be cleaned or the indoor unit fan blade needs to be taken out for cleaning, the sliding door 110 is opened, the connecting part 113 is separated from the rack part 114, and the connecting part 113 rotates around the rotating shaft 1142, so that the interior of the air conditioner can be conveniently cleaned or the indoor unit fan blade can be taken out for cleaning;

further, if it is necessary to completely remove the sliding door 110 from the air conditioner main body 120, the sliding door 110 can be completely removed from the air conditioner main body 120 by pulling the rotating shaft 1142 out of the connecting hole 1135 after the sliding door 110 is opened, which is convenient to operate and efficient in removal.

After the cleaning operation is completed, the shaft 1142 is inserted into the coupling hole 1135, and the sliding door 110 is closed, the connecting portion 113 rotates around the shaft 1142, and the connecting portion 113 and the rack portion 114 are engaged again.

The present embodiment provides the separated rack structure 130 and the air conditioner 100 with the following advantages:

1. the design cost of the rack of the existing sliding door is the detachable separated structure in the embodiment, so that the sliding door 110 can be opened or closed relative to the air conditioner main body 120, when the inside of an air conditioner needs to be cleaned or an internal machine fan blade needs to be taken out for cleaning, the sliding door 110 is opened, the inside of the air conditioner can be conveniently cleaned or the internal machine fan blade can be taken out for cleaning, after the cleaning work is completed, the sliding door 110 is closed, the sliding door is prevented from being completely detached from the air conditioner main body 120, the purposes that the internal machine fan blade can be detached and cleaned without detaching the sliding door are achieved, the detaching time can be saved, the working efficiency is improved, the air outlet quality of the air conditioner can be optimized, a green healthy living environment is created, and the user experience and comfort are improved;

2. more importantly, the connecting part 113 and the lining plate 112 form an integrated structure, so that the two are prevented from being connected by excessive screws, the connecting part 113 is used for being connected with the rack part 114, the connecting form of the lining plate 112 and the rack part 114 is further simplified, the sliding door 110 is convenient to disassemble and assemble, and the sliding door is greatly convenient to disassemble and clean the inside of the air conditioner 100 or take out an internal machine fan blade for cleaning;

3. if the sliding door 110 needs to be completely detached from the air conditioner main body 120, the sliding door 110 is firstly opened, and then the rotating shaft 1142 is pulled out from the connecting hole 1135, so that the sliding door 110 can be completely detached from the air conditioner main body 120, the operation is convenient, and the detaching efficiency is high;

4. the rack portion 114 can support the connecting portion 113, so as to enhance the overall structural strength, and the connecting portion 113 can be stably connected to the rack portion 114 under the action of its own gravity, so that other reinforcing parts can be further reduced, the structure is simplified, the assembly and disassembly efficiency is improved, the occupied space of the rack portion and the connecting portion can be minimized, and the volume of the air conditioner 100 is small;

5. the second clip 1143 is an elastic clip, which not only facilitates the clipping and separation of the connecting portion 113 and the rack portion 114, but also guides the connecting portion 113 by the clip portion 1145.

It is understood that the sliding door 110 provided in this embodiment can be applied to various types of air conditioners, and the sliding door 110 provided in this embodiment can be applied to any device that needs to use the sliding door, and such devices that use the sliding door 110 provided in this embodiment should fall within the scope of the present application.

In the separated rack structure 130 and the air conditioner 100 provided in this embodiment, based on the basic concept that the connecting portion 113 and the lining plate 112 form an integral structure, various modified structures can be expanded, and the following two basic concepts should be adopted and should be included in the scope of the present application.

The first basic concept is as follows: the connecting portion 113 and the rack portion 114 form a separable rack, the rack is used for driving the sliding door to slide, and most of the conventional racks are integral;

the second basic concept is as follows: the connecting part 113 and the lining plate 112 form an integrated structure, so that the two are prevented from being connected by excessive screws, and a split structure is also arranged between the traditional rack and the sliding door.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.