CN219905418U - Packaging structure and wall-penetrating type air conditioner - Google Patents

Abstract

The utility model provides a packaging structure and a wall-penetrating type air conditioner, and belongs to the field of packaging. Wherein the packaging structure includes: the bottom support is at least partially used for supporting the air conditioner body; the two packaging shells are used for clamping and wrapping the air conditioner body at least partially supported on the bottom support; the clamping surfaces of the packaging shells are provided with first abdication surfaces, and when the two packaging shells clamp and wrap the air conditioner body, the first abdication surfaces are spaced from the top of the panel assembly of the air conditioner body to abdy the top of the panel assembly. According to the utility model, the packaging structure with the abdicating surface is arranged, so that the position of the panel assembly of the air conditioner can be abducted after the air conditioner is packaged, the stress of the packaged air conditioner at the position of the panel assembly during stacking is avoided, and the damage of the panel assembly during stacking of the air conditioner is avoided.

Description

Packaging structure and wall-penetrating type air conditioner

Technical Field

The utility model relates to the technical field of packaging, in particular to a packaging structure and a wall-penetrating air conditioner.

Background

The wall-penetrating air conditioner is developed on the basis of the window air conditioner by combining the building characteristics, has the advantages of convenience in installation and maintenance, low price, low power consumption, few parts and the like, and avoids the defects that the window air conditioner is installed on a windowsill to damage the indoor decoration and the attractive appearance, influence the visual field, lighting and the like.

The traditional through-wall air conditioner adopts a mode of left and right honeycomb paperboards and front and back packaging paper holders, and the original buffer packaging scheme adopts a honeycomb paperboard four-side full-package mode because the through-wall air conditioner has no outer cover for protecting products.

Compared with window type air conditioner, the whole machine of the wall-penetrating type air conditioner is relatively longer, generally 1.5 times to 2 times of that of the common window type air conditioner, and the weight is heavier than that of the window type air conditioner, and because the panel component of the air conditioner is weaker, when the air conditioner is stacked after being packaged, the heavier weight is easy to press the panel component of the air conditioner.

Disclosure of Invention

In order to overcome the problems in the related art, the present utility model provides a packaging structure capable of avoiding damage to a panel of an air conditioner when the air conditioner is packaged.

An embodiment of the present utility model provides a packaging structure for packaging an air conditioner body, the packaging structure including:

the bottom support is at least partially used for supporting the air conditioner body;

the two packaging shells are used for clamping and wrapping the air conditioner body at least partially supported on the bottom support;

the clamping surfaces of the packaging shells are provided with first abdication surfaces, and when the two packaging shells clamp and wrap the air conditioner body, the first abdication surfaces are spaced from the top of the panel assembly of the air conditioner body to abdy the top of the panel assembly.

In the technical scheme, the clamping surface of the packaging shell is also provided with a limiting surface;

when the packaging shell clamps and wraps the air conditioner body, at least part of the limiting surface is attached to the top of the air conditioner body so as to limit the air conditioner body in the height direction of the air conditioner body.

In the technical scheme, when the two packaging shells clamp and wrap the air conditioner body, at least part of the limiting surfaces of the packaging shells are used for being attached to the top of the axial flow air duct assembly and the top of the upper cover plate of the air conditioner body;

when the limiting surface is attached to the axial flow air duct assembly, the limiting surface is attached to the edge of the upper end face of the axial flow air duct assembly.

In the above technical scheme, the limiting surface comprises a first limiting surface and a second limiting surface, when the two packaging shells clamp and wrap the air conditioner body, at least part of the first limiting surface is used for being attached to the top of the upper cover plate, and at least part of the second limiting surface is used for being attached to the top of the axial flow air duct component;

when the two packaging shells clamp and wrap the air conditioner body, the second limiting surface on one packaging shell extends to the first position of the air conditioner body, and the second limiting surface on the other packaging shell extends to the second position of the air conditioner body; the strength of the first position on the air conditioner body is greater than that of the second position, wherein;

the second limiting surface extending to the first position is configured to be attached to a first connecting plate, wherein the first connecting plate is arranged at the top of the air conditioner body and is used for connecting an axial flow air duct assembly in the air conditioner body with the partition plate;

the limit surface extending to the second position is configured to fit the top of the upper cover plate.

In the technical scheme, the packaging shell comprises a side shell arranged vertically and a top shell formed at the top of the side shell and extending horizontally, and the packaging shell is formed by surrounding the side shell and the top shell;

the first abdication surface, the first limit surface and the second limit surface are formed on the top shell, and the first abdication surface, the first limit surface and the second limit surface form a ladder-type structure.

In the above technical solution, the side shell includes a first side shell, a second side shell and a third side shell that are vertically arranged, and the second side shell and the third side shell are oppositely arranged at two ends of the side part of the first side shell and are respectively perpendicular to the first side shell;

wherein the surface area of the first shell is greater than the surface area of the second shell, and the surface area of the second shell is greater than the surface area of the third shell.

In the technical scheme, the two packaging shells are provided with the placement groove positions, and when the two packaging shells clamp and wrap the air conditioner body, the two placement groove positions are arranged and are spaced by a distance;

the packaging structure also comprises a corner protector which is arranged between the two placing groove positions when the two packaging shells clamp and wrap the air conditioner body.

In the technical scheme, the packaging shell is foam;

at least part of the packaging shell is in a hollowed-out design, wherein the hollowed-out design part corresponds to the axial flow air duct component and the panel component of the air conditioner body when the packaging shell clamps and wraps the air conditioner body, and a distance is reserved between the hollowed-out part and the panel component and between the hollowed-out part and the axial flow air duct component.

In the above technical scheme, the second abdication surface is arranged on the bottom support, and when the bottom support supports the air conditioner body, the second abdication surface is spaced from the bottom of the panel assembly of the air conditioner body to abdy the bottom of the panel assembly.

In the technical scheme, the bottom bracket comprises a bottom plate and a supporting plate convexly arranged on the bottom plate;

a second abdication surface is formed on the supporting plate so as to abdy the panel assembly when the air conditioner body is supported;

the lateral part of backup pad forms the third spacing face, and the third spacing face is used for spacing the packaging shell when the centre gripping of packaging shell parcel air conditioner body.

In the technical scheme, the support plates comprise a first support plate and a second support plate, wherein the first support plate is convexly arranged on the bottom plate, the second support plate is convexly arranged on the first support plate, two second support plates are different in specification, and the two second support plates are arranged on the first support plate at intervals;

the side part of the first supporting plate forms a third limiting surface for limiting the packaging shell, the upper end of the first supporting plate forms a second abdicating surface for abdicating the bottom of the panel assembly, and the upper end of the second supporting plate forms a supporting surface for supporting the air conditioner body;

the outer periphery of the bottom plate is provided with a folded edge which is used for wrapping the packaging shell after the packaging shell clamps and wraps the air conditioner body;

wherein the bottom plate is corrugated board, and the supporting plate is honeycomb board.

The second aspect of the embodiment of the utility model provides a wall-penetrating air conditioner, which is packaged by adopting the packaging structure, and comprises a chassis, a panel assembly, an upper cover plate, a baffle plate and an axial flow air duct assembly, wherein the chassis is provided with a plurality of air inlets;

the chassis, the partition plate and the upper cover plate form an inverted T-shaped structure, and a first connecting plate is arranged between the partition plate and the axial flow air duct component.

In the above technical scheme, be equipped with many first strengthening ribs on the axial-flow wind channel subassembly, be equipped with many second strengthening ribs on the baffle.

After the technical scheme is adopted, compared with the prior art, the utility model has the following beneficial effects:

1. according to the embodiment of the utility model, the packaging structure with the first abdicating surface is arranged, so that the position of the panel assembly of the air conditioner can be abducted after the air conditioner is packaged, the stress of the packaged position of the panel assembly of the air conditioner during stacking is avoided, and the damage of the panel assembly during stacking of the air conditioner is avoided.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the utility model and together with the description, serve to explain the principles of the utility model.

FIG. 1 is a schematic three-dimensional view of a shoe in an embodiment of a package structure according to the present utility model;

FIG. 2 is a schematic view of a three-dimensional structure of a package according to an embodiment of the present utility model when a package is mounted on a shoe;

FIG. 3 is a schematic three-dimensional view of a left side package according to an embodiment of the present utility model;

FIG. 4 is a schematic three-dimensional view of a left side package according to an embodiment of the present utility model;

FIG. 5 is a schematic three-dimensional view of the right-side package according to an embodiment of the present utility model;

FIG. 6 is a schematic three-dimensional view of a right-side package according to an embodiment of the present utility model;

FIG. 7 is a schematic three-dimensional view of a package structure for packaging an air conditioner body according to an embodiment of the present utility model;

FIG. 8 is a schematic three-dimensional view of a package structure according to an embodiment of the present utility model at a second view angle when the package structure is used for packaging an air conditioner body;

FIG. 9 is a schematic three-dimensional view of a third view angle of a package structure for packaging an air conditioner body according to an embodiment of the present utility model;

FIG. 10 is a schematic three-dimensional view of a wall-through air conditioner according to an embodiment of the present utility model;

FIG. 11 is a schematic diagram of a left-hand configuration of the air conditioner of the embodiment of FIG. 10;

FIG. 12 is a schematic three-dimensional view of the axial flow duct assembly of the embodiment of FIG. 10;

wherein: 1-a bottom bracket; 11-a bottom plate; 110-flanging; 12-supporting plates; 121-a first support plate; 1210-a second yielding surface; 1211-a third stop surface; 122-a second support plate; 2-packaging shells; 2 a-side shells; 2a 1-a first shell; 2a 2-a second side shell; 2a 3-third shell; 2 b-top shell; 21-a first yielding surface; 22-limiting surface; 221-a first limiting surface; 222-a second limiting surface; 23-placing a groove position; 3-an air conditioner body; 31-a panel assembly; 32-a first connection plate; 33-an axial flow duct assembly; 331-first reinforcing ribs; 34-separator; 341-second reinforcing ribs; 35-an upper cover plate; 36-chassis; 4-corner protection;

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples do not represent all implementations consistent with the utility model. Rather, they are merely examples of apparatus and methods consistent with aspects of the utility model as detailed in the accompanying claims.

The existing window type air conditioner is heavy in weight, the panel assembly is weak, and when the air conditioner is stacked after being packaged, the panel assembly of the air conditioner is easy to be pressed by the heavy weight. According to the embodiment of the utility model, the packaging structure with the first abdicating surface is arranged, so that the position of the panel assembly of the air conditioner can be abducted after the air conditioner is packaged, the stress of the packaged position of the panel assembly of the air conditioner during stacking is avoided, and the panel assembly is prevented from being crushed during stacking of the air conditioner.

The technical solutions of the present embodiment are described in detail below with reference to fig. 1 to 12, and the following implementation manners and embodiments may be combined with each other without conflict.

Examples

In one aspect, as shown in fig. 1 to 9, the present embodiment proposes a packaging structure for packaging an air conditioner body, the packaging structure comprising:

a shoe 1, at least part of the shoe 1 being for supporting an air conditioner body 3;

the two packaging shells 2 are arranged, and the two packaging shells 2 are used for clamping and wrapping the air conditioner body 3 at least partially supported on the base 1;

wherein, the clamping surface of the package shell 2 is provided with a first abdication surface 21, and when the two package shells 2 clamp and wrap the air conditioner body 3, the first abdication surface 21 is spaced from the top of the panel assembly 31 of the air conditioner body 3 to abdy the top of the panel assembly 31.

According to the embodiment of the utility model, the packaging structure with the first abdicating surface 21 is arranged, so that the position of the panel assembly 31 of the air conditioner can be abducted after the air conditioner is packaged, the stress on the panel assembly 31 of the packaged air conditioner in the stacking process is avoided, the panel assembly 31 is prevented from deforming or even being damaged in the stacking process of the air conditioner, and the stacking strength of product packaging is enhanced.

Further, as shown in fig. 4 and 6, a limiting surface 22 is further provided on the clamping surface of the package 2;

when the packaging shell 2 clamps and wraps the air conditioner body 3, at least part of the limiting surface 22 is attached to the top of the air conditioner body 3, so that the air conditioner body 3 is limited in the height direction of the air conditioner body 3, and the air conditioner is prevented from being damaged due to overlarge stress caused by up-and-down movement of the air conditioner in the packaging structure.

In any of the above embodiments, as shown in fig. 7 to 9, when the two packaging cases 2 clamp and wrap the air conditioner body 3, at least part of the limiting surface 22 of the packaging case 2 is used to attach to the top of the axial flow air duct assembly 33 and the top of the upper cover plate 35 of the air conditioner body 3; when the limiting surface 22 is attached to the axial flow air duct assembly 33, the limiting surface 22 is attached to the edge of the upper end face of the axial flow air duct assembly 33, the top of the air conditioner axial flow air duct assembly is avoided, the stacking strength of the air conditioner is improved by using the supporting strength of the left and right plates of the condenser, and therefore weak parts in the air conditioner can be effectively avoided when the air conditioner is packaged by the packaging structure, and the stacking strength of the air conditioner is improved.

In any of the above embodiments, as shown in fig. 3 to 9, the limiting surface 22 includes a first limiting surface 221 and a second limiting surface 222, when the two packaging cases 2 clamp and wrap the air conditioner body 3, at least part of the first limiting surface 221 is used for being attached to the top of the upper cover plate 35, and at least part of the second limiting surface 222 is used for being attached to the top of the axial flow air duct assembly 33;

when the two packaging shells 2 clamp and wrap the air conditioner body 3, the second limiting surface 222 on one packaging shell 2 extends to the first position of the air conditioner body 3, and the second limiting surface 222 on the other packaging shell 2 extends to the second position of the air conditioner body 3; the strength of the first position on the air conditioner body 3 is greater than that of the second position, wherein;

the second limiting surface 222 extending to the first position is configured to be attached to the first connecting plate 32, wherein the first connecting plate 32 is arranged on the top of the air conditioner body 3 and is used for connecting the axial flow air duct assembly 33 and the partition 34 in the air conditioner body 3;

the stop surface 22 extending to the second position is configured to engage the top of the upper cover plate 35.

When the packaging structure in the embodiment of the utility model is used for packaging the air conditioner, the first yielding surface 21 arranged on the packaging shell 2 can yield the panel assembly 31, and the first limiting surface 21 arranged on the limiting surface 22 on the packaging shell 2 can simultaneously limit the partition plate, the upper cover plate and the chassis on the air conditioner in all aspects, so that the air conditioner is prevented from being damaged due to overlarge stress caused by up-down movement of the air conditioner in the packaging. The second limiting surface 222 of the upper half structure of the right side packing case 2 shown in fig. 7, namely the second limiting surface 222 of the right side packing case 2, extends to the first connecting plate between the partition plate assembly and the axial flow air duct assembly, and improves stacking strength of the air conditioner by using strength of the partition plate assembly, the chassis and the connecting plate.

In any of the above embodiments, the package 2 includes a side case 2a disposed vertically and a top case 2b formed on top of the side case 2a and extending horizontally, and the package 2 is surrounded by the side case 2a and the top case 2 b; specifically, the side case 2a and the top case 2b are integrally formed;

the first yielding surface 21, the first limiting surface 221 and the second limiting surface 222 are formed on the top shell 2b, and the first yielding surface 21, the first limiting surface 221 and the second limiting surface 222 form a step structure.

According to the embodiment of the utility model, the inner cavity of the packaging shell is designed into the step shape, so that the top of the panel assembly of the air conditioner is abducted, a good protection effect is achieved, and deformation and even damage caused by excessive panel pressure in the stacking process are prevented. The stepped structure simultaneously plays a full-scale limit role on the partition plate, the upper cover plate and the chassis, and prevents the air conditioner from being damaged due to overlarge stress caused by the vertical movement of the air conditioner in the package.

In any of the above embodiments, as shown in fig. 3 and 5, the side case 2a includes a first side case 2a1, a second side case 2a2, and a third side case 2a3 that are vertically disposed, the second side case 2a2 and the third side case 2a3 being disposed opposite to each other at both ends of the side portion of the first side case 2a1 and being perpendicular to the first side case 2a1, respectively;

wherein the surface area of the first side case 2a1 is larger than the surface area of the second side case 2a2, and the surface area of the second side case 2a2 is larger than the surface area of the third side case 2a 3.

In any of the above embodiments, as shown in fig. 2, the two packaging cases 2 are provided with the placement slots 23, and when the two packaging cases 2 clamp and wrap the air conditioner body 3, the two placement slots 23 are oppositely arranged and a distance is reserved between the two placement slots 23;

as shown in fig. 7-9, the package structure further includes a corner protector 4, and the corner protector 4 is placed between two placement slots 23 when the two package cases 2 are clamped around the air conditioner body 3.

According to the embodiment of the utility model, the groove for placing the paper corner protector 5 is designed between the two packaging shells 2, so that the corner protector 4 can be well limited, and an adhesive tape is not required to be adhered to fix the paper corner protector. The package shell can be protected by inserting a paper corner protector, deformation of the package shell is reduced when the package shell is clamped and extruded left and right, and the package strength is improved.

In any of the embodiments, the package shell 2 is made of foam, and the package shell 2 in the embodiment of the utility model adopts foam materials under the condition that the package size does not involve modification, compared with the scheme using honeycomb plates, the weight of the package shell is reduced by 4.5Kg, the package material is reduced by 3 pieces, the product packaging is saved by 2 people, the cost is reduced by 23 RMB/table, the packaging procedure of the wall-penetrating air conditioner is effectively simplified, the packaging efficiency and the production efficiency are obviously improved, the labor cost is reduced, and the packaging mode conforms to the automatic assembly design, thereby meeting the requirement of subsequent automatic assembly. And the foam has good buffering performance, the edge pressure strength is higher than that of the honeycomb paperboard, and the stacking strength is increased in the vertical direction by utilizing the rigidity strength of the side surfaces of the baffle plate component and the axial flow air duct component and the strength of the front connecting plate and the rear connecting plate without adding adhesive paper corner protectors on the four edges of the side edges.

Meanwhile, at least part of the packaging shell 2 is hollowed out, and the hollowed-out design part corresponds to the axial flow air duct component and the panel component of the air conditioner body 3 when the packaging shell 2 clamps and wraps the air conditioner body 3, and the hollowed-out part is separated from the panel component and the axial flow air duct component by a distance. On the one hand, the cost of the packaging shell 2 can be further reduced, on the other hand, the hollowed part of the packaging shell 2 is not in direct contact with the weaker components such as the panel assembly and the axial flow air duct component when the air conditioner is packaged, so that when the foam is extruded by external force, the external force is not directly transmitted to the panel assembly and the axial flow air duct component, but is transmitted to the relatively higher-strength components such as the partition plate, the upper cover plate, the connecting plate and the like on the air conditioner, and the weaker components such as the bearing air duct component and the panel assembly are effectively protected.

In any of the above embodiments, as shown in fig. 1, the base 1 is provided with the second yielding surface 1210, and when the base 1 supports the air conditioner body 3, the second yielding surface 1210 is spaced from the bottom of the panel assembly 31 of the air conditioner body 3 to yield the bottom of the panel assembly 31.

In the embodiment of the utility model, the second yielding surface 1210 is arranged on the collet 1, so that the bottom of the upper panel assembly of the air conditioner can be yielding when the air conditioner is packaged, and under the matching packaging with the packaging shell 2, the yielding of the upper and lower ends of the panel assembly can be realized, thereby further improving the protection effect of the panel assembly when the air conditioner is packaged.

In any of the above embodiments, the shoe 1 includes a bottom plate 11 and a support plate 12 protruding above the bottom plate 11;

a second relief surface 1210 is formed on the support plate 12 to relieve the panel assembly 31 when the air conditioner body 3 is supported;

the side portion of the support plate 12 forms a third limiting surface 1211, and the third limiting surface 1211 is used for limiting the package case 2 when the package case 2 clamps and wraps the air conditioner body 1.

The shoe 1 in the embodiment of the present utility model is provided with the second yielding surface 1210 to yield the panel assembly of the air conditioner, and the third limiting surface 1211 to limit the package 2 so as to determine the package position of the package 2.

In any of the above embodiments, the support plate 12 includes a first support plate 121 protruding from the base plate 11 and a second support plate 122 protruding from the first support plate 121, where two second support plates 122 are provided and the two second support plates 122 have different specifications, and the two second support plates 122 are disposed on the first support plate 121 at a distance from each other;

the side part of the first support plate 121 forms a third limiting surface for limiting the packaging shell 2, the upper end of the first support plate 121 forms a second yielding surface 1210 for yielding the bottom of the panel assembly 31, and the upper end of the second support plate 122 forms a supporting surface for supporting the air conditioner body 3;

the outer periphery of the bottom plate 11 is provided with a folded edge 110, and the folded edge 110 is used for wrapping the packaging shell 2 after the packaging shell 2 clamps and wraps the air conditioner body 2;

wherein the bottom plate 11 is corrugated board, the backup pad 12 is honeycomb cardboard, and wherein bottom plate 11 and backup pad 12 integrated into one piece.

In the embodiment of the utility model, by arranging two second support plates 122 and designing the two second support plates 122 into different specifications, the packing placement direction of the wall-penetrating air conditioner can be determined by the two second support plates 122 with different specifications when the air conditioner is packed, so that the packing efficiency is improved. Further, the two second support plates 122 are arranged on the first support plate 121 at intervals, and the gap between the two second support plates 122 can also play a role in positioning the air conditioner, so that the stability of the packaged air conditioner is further improved, and the air conditioner is prevented from shaking in the packaging shell 2.

On the other hand, as shown in fig. 10 to 12, the embodiment of the present utility model further provides a wall-penetrating air conditioner, which is packaged by adopting the above-mentioned packaging structure, and the air conditioner includes a chassis 36, a panel assembly 31, an upper cover plate 35, a partition 34 and an axial flow air duct assembly 33, wherein;

the chassis 36, the partition 34 and the upper cover plate 35 form an inverted T-shaped structure, and a first connecting plate 32 is arranged between the partition 34 and the axial flow air duct assembly 33.

In the above technical solution, the axial flow duct assembly 33 is provided with a plurality of first reinforcing ribs 331, and the partition 34 is provided with a plurality of second reinforcing ribs 341.

When the packaging structure is used for packaging the through-wall air conditioner, as shown in fig. 1-12, the bottom support 1 is placed firstly, the through-wall air conditioner is put down according to the honeycomb paperboard on the bottom support 1, the packaging bag is sleeved, the left packaging shell 2 and the right packaging shell 2 are installed from top to bottom, the corner protector 4 is placed in the groove, the plug of the air conditioner can be fixed on the inner side of the corner protector 4 in advance by using the adhesive tape, and finally the through-wall air conditioner is sleeved with the packing belt.

Specifically, have the honeycomb cardboard through gluing fixed on the packing collet 1, for integrated design, honeycomb cardboard designs has the structure of stepping down that supplies panel and packing foam, reduces the panel and warp, confirms the packing direction of placing of wall formula air conditioner, improves packing efficiency.

Specifically, the packaging shell 2 is placed on the left side and the right side of the through-wall air conditioner, the left side and the right side of the packaging shell 2 wrap the two sides of the air conditioner and the two sides of the honeycomb paperboard on the packaging bottom support 1, and the foam is utilized to have certain supporting strength and the capability of buffering and absorbing impact load, so that the through-wall air conditioner is protected up and down. The packaging shell 2 is designed into a ladder-shaped structure, so that the air conditioner baffle assembly and the chassis can be limited in all directions, a good limiting effect is achieved, the air conditioner is used for giving way to a panel, an air deflector and the like, and the wall-penetrating air conditioner is prevented from jumping and impacting in a packaging box in a falling process, so that damage is caused due to overlarge stress.

The chassis, the partition plate and the upper cover plate of the wall-through type air conditioner are assembled in an inverted T-shaped structure, as shown in FIG. 11, at the middle part of the wall-through type air conditioner. The bottom of the inverted T-shaped structure is wider, the middle part is a partition board, the top is an upper cover plate, and the inverted T-shaped structure is high in stability and strength. The contact area of the top surface of the inner cavity of the packaging shell 2 and the upper cover plate is the largest, the side surface of the inner cavity is contacted with the side surfaces of the partition plate, the chassis and the packaging bottom support, besides limiting, the main supporting strength function is achieved, four transverse bar type reinforcing ribs are arranged in the middle of the partition plate, the strength of the partition plate is enhanced, and the stacking strength and the clamping strength of the packaging scheme can be effectively enhanced.

As shown in fig. 8. The packing shell top surface on right side extends to the first connecting plate on air conditioner right side, increases this packaging scheme's area of stress, and the upper front side structure overlap joint of two packing shells 2 about is along the edge at axial flow duct subassembly, has dodged to axial flow duct subassembly top surface, utilizes the left and right sideboard of condenser to and the triangle-shaped strengthening rib in five horizontal bar strengthening ribs on axial flow duct subassembly right side and a triangle-shaped strengthening rib figure 12 on left side are on the right side of drawing, promote the vertical direction's of wall-through air conditioner supporting strength. Meanwhile, ten vertical bar-shaped reinforcing ribs are designed on the top surface of the axial flow air duct assembly, so that the top surface strength of the axial flow air duct assembly is improved, and the problem that the top surface collapses down due to overlarge stress of the axial flow air duct assembly to cause deformation failure of a condenser is avoided.

It is worth noting that, because this packaging scheme adopts the form of controlling the packing foam, compare in traditional adoption honeycomb cardboard side full parcel's packing form, the centre exposes the part more, and the structure is also weaker, and plug drunkenness space is bigger, consequently, at left and right packing foam design paper angle bead standing groove position for overlap joint a paper angle bead, control spacing to the paper angle bead, improve this packaging scheme horizontal direction's clamping strength. The plug is adhered and bound on the paper corner protector by using the adhesive tape under the supporting action of the paper corner protector, so that the damage of the air conditioner parts caused by the play friction of the plug in the packaging box during transportation is avoided.

Other embodiments of the utility model will be apparent to those skilled in the art from consideration of the specification and practice of the embodiments disclosed herein. This application is intended to cover any variations, uses, or adaptations of the utility model following, in general, the principles of the utility model and including such departures from the present disclosure as come within known or customary practice within the art to which the utility model pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the utility model being indicated by the following claims.

It is to be understood that the utility model is not limited to the precise arrangements and instrumentalities shown in the drawings, which have been described above, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the utility model is limited only by the appended claims.

Other embodiments of the utility model will be apparent to those skilled in the art from consideration of the specification and practice of the embodiments disclosed herein. This application is intended to cover any variations, uses, or adaptations of the utility model following, in general, the principles of the utility model and including such departures from the present disclosure as come within known or customary practice within the art to which the utility model pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the utility model being indicated by the following claims.

It is to be understood that the utility model is not limited to the precise arrangements and instrumentalities shown in the drawings, which have been described above, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the utility model is limited only by the appended claims.

Claims (13)

1. A packaging structure for packaging an air conditioner body, the packaging structure comprising:

a shoe (1), at least part of the shoe (1) being used for supporting the air conditioner body (3);

the air conditioner comprises two packaging shells (2), wherein the two packaging shells (2) are used for clamping and wrapping the air conditioner body (3) at least partially supported on the bottom support (1);

the clamping surfaces of the packaging shells (2) are provided with first abdication surfaces (21), and when the air conditioner body (3) is clamped and wrapped by the two packaging shells (2), the first abdication surfaces (21) are spaced from the top of the panel assembly (31) of the air conditioner body (3) by a distance so as to abdy the top of the panel assembly (31).

2. The packaging structure according to claim 1, characterized in that the clamping surface of the packaging shell (2) is further provided with a limiting surface (22);

when the packaging shell (2) clamps and wraps the air conditioner body (3), at least part of the limiting surface (22) is attached to the top of the air conditioner body (3), so that the air conditioner body (3) is limited in the height direction of the air conditioner body (3).

3. The packaging structure according to claim 2, wherein when the two packaging shells (2) clamp and wrap the air conditioner body (3), at least part of the limiting surfaces (22) of the packaging shells (2) are used for being attached to the top of an axial flow air duct assembly (33) of the air conditioner body (3) and the top of an upper cover plate (35);

when the limiting surface (22) is attached to the axial flow air duct assembly (33), the limiting surface (22) is attached to the edge of the upper end face of the axial flow air duct assembly (33).

4. A packaging structure according to claim 3, wherein the limiting surface (22) comprises a first limiting surface (221) and a second limiting surface (222), when the two packaging shells (2) clamp and wrap the air conditioner body (3), at least part of the first limiting surface (221) is used for being attached to the top of the upper cover plate (35), and at least part of the second limiting surface (222) is used for being attached to the top of the axial flow air duct assembly (33);

when the two packaging shells (2) clamp and wrap the air conditioner body (3), the second limiting surface (222) on one packaging shell (2) extends to a first position of the air conditioner body (3), and the second limiting surface (222) on the other packaging shell (2) extends to a second position of the air conditioner body (3); the strength of the first position on the air conditioner body (3) is greater than that of the second position, wherein;

the second limiting surface (222) extending to the first position is configured to be attached to a first connecting plate (32), wherein the first connecting plate (32) is arranged at the top of the air conditioner body (3) and is used for connecting an axial flow air duct assembly (33) in the air conditioner body (3) with a partition plate (34);

the limit surface (22) extending to the second position is configured to fit the top of the upper cover plate (35).

5. The packaging structure according to claim 4, wherein the packaging shell (2) comprises a side shell (2 a) arranged vertically and a top shell (2 b) formed at the top of the side shell (2 a) and extending horizontally, and the packaging shell (2) is surrounded by the side shell (2 a) and the top shell (2 b);

the first yielding surface (21), the first limiting surface (221) and the second limiting surface (222) are formed on the top shell (2 b), and the first yielding surface (21), the first limiting surface (221) and the second limiting surface (222) form a stepped structure.

6. The packaging structure according to claim 5, wherein the side case (2 a) includes a first side case (2 a 1), a second side case (2 a 2) and a third side case (2 a 3) disposed vertically, the second side case (2 a 2) and the third side case (2 a 3) being disposed opposite to each other at both ends of a side portion of the first side case (2 a 1) and being perpendicular to the first side case (2 a 1), respectively;

wherein the surface area of the first side shell (2 a 1) is larger than the surface area of the second side shell (2 a 2), and the surface area of the second side shell (2 a 2) is larger than the surface area of the third side shell (2 a 3).

7. The packaging structure according to claim 6, wherein the two packaging shells (2) are provided with placing slots (23), and when the two packaging shells (2) clamp and wrap the air conditioner body (3), the two placing slots (23) are oppositely arranged and a distance is reserved between the two placing slots (23);

the packaging structure further comprises a corner protector (4), and the corner protector (4) is arranged between the two placing groove positions (23) when the two packaging shells (2) clamp and wrap the air conditioner body (3).

8. The packaging structure according to claim 7, characterized in that the packaging shell (2) is a foam;

at least part on the packaging shell (2) is in a hollowed-out design, wherein the hollowed-out design part corresponds to an axial flow air duct component of the air conditioner body (3) and a panel component when the packaging shell (2) clamps and wraps the air conditioner body (3), and a distance is reserved between the hollowed-out part and the panel component and the axial flow air duct component.

9. The packaging structure according to any one of claims 1 to 8, wherein a second yielding surface (1210) is provided on the bottom support (1), and when the bottom support (1) supports the air conditioner body (3), the second yielding surface (1210) is spaced from the bottom of the panel assembly (31) of the air conditioner body (3) to yield the bottom of the panel assembly (31).

10. The packaging structure according to claim 9, characterized in that the shoe (1) comprises a bottom plate (11) and a support plate (12) protruding on the bottom plate (11);

-forming the second yielding surface (1210) on the support plate (12) to yield the panel assembly (31) when supporting the air conditioner body (3);

the side part of the supporting plate (12) forms a third limiting surface (1211), and the third limiting surface (1211) is used for limiting the packaging shell (2) when the packaging shell (2) clamps and wraps the air conditioner body (3).

11. The packaging structure according to claim 10, characterized in that the support plate (12) comprises a first support plate (121) protruding on the bottom plate (11) and a second support plate (122) protruding on the first support plate (121), wherein the second support plate (122) is provided with two pieces, and the two pieces of the second support plates (122) are different in specification, and the two pieces of the second support plates (122) are arranged on the first support plate (121) at a distance;

the side part of the first supporting plate (121) forms the third limiting surface for limiting the packaging shell (2), the upper end of the first supporting plate (121) forms the second yielding surface (1210) for yielding the bottom of the panel assembly (31), and the upper end of the second supporting plate (122) forms the supporting surface for supporting the air conditioner body (3);

the outer periphery of the bottom plate (11) is provided with a folded edge (110), and the folded edge (110) is used for wrapping the packaging shell (2) after the packaging shell (2) clamps and wraps the air conditioner body (3);

wherein the bottom plate (11) is corrugated board, and the supporting plate (12) is honeycomb board.

12. A wall-through air conditioner, characterized in that the air conditioner is packaged by adopting the packaging structure as claimed in any one of claims 1 to 11, and comprises a chassis (36), a panel assembly (31), an upper cover plate (35), a partition plate (34) and an axial flow air duct assembly (33), wherein;

the chassis (36), the partition plate (34) and the upper cover plate (35) form an inverted T-shaped structure, and a first connecting plate (32) is arranged between the partition plate (34) and the axial flow air duct assembly (33).

13. The wall-through type air conditioner according to claim 12, wherein the axial flow air duct assembly (33) is provided with a plurality of first reinforcing ribs (331), and the partition plate (34) is provided with a plurality of second reinforcing ribs (341).