CN219326069U - Packaging structure, packaging assembly and equipment suite - Google Patents

Abstract

The application discloses packaging structure, package assembly and equipment external member belongs to the technical field of packing to solve the technical problem that the top cap of current packing receives when strikeed and easily transmits energy to the top of electrical apparatus. The packaging structure comprises: at least one first package group comprising a plurality of first topology units which are sequentially arranged, wherein the first topology units are provided with first modulation holes; the second packaging group is connected with the first packaging group side by side and comprises a plurality of second topological units which are sequentially arranged, and each second topological unit is provided with a second modulation hole; the first modulation hole is pointed along a first direction, the second modulation hole is pointed along a second direction, and the first direction and the second direction are arranged at an included angle. When the top cover receives the impact force along the direction of first packing group and second packing group connection edge, the impact elastic wave does not have the reflection along two edges of first packing group and second packing group and propagates forward, reduces the quantity that the elastic wave entered into the middle part of top cover, and then effectively avoids the impact force to cause the weak position in top cover centre to take place buckling deformation.

Description

Packaging structure, packaging assembly and equipment suite

Technical Field

The application belongs to the technical field of packaging, and particularly relates to a packaging structure, a packaging assembly and an equipment suite.

Background

The internal parts of the electrical appliance are generally more precise, so that the electrical appliance just produced is often convenient to transport by adding a certain external package after leaving the factory, and the general electrical appliance is packaged by foam, thereby avoiding scratches or damage to the internal parts on the surface of the electrical appliance due to collision in the transportation process.

In the related art, when the package of electrical apparatus carries out inclined plane impact test, impact energy can pass through the top cap foam and transmit the product top, because the structural strength at top edge position of electrical apparatus is stronger, but the middle part is weaker, so when impact energy transmitted the top of electrical apparatus, the top middle part of electrical apparatus takes place buckling deformation easily and damages.

Disclosure of Invention

The application aims at solving the technical problem that the packaging top cover is easy to transfer energy to the top of an electric appliance when being impacted to a certain extent. To this end, the present application provides a packaging structure, a packaging assembly and an apparatus.

In a first aspect, an embodiment of the present application provides a packaging structure for packaging an article to be packaged, the packaging structure including:

at least one first package group comprising a plurality of first topological units which are sequentially arranged, wherein the first topological units are provided with first modulation holes;

the second packaging group is connected with the first packaging group side by side and comprises a plurality of second topological units which are sequentially arranged, and each second topological unit is provided with a second modulation hole;

the first packaging group and the second packaging group are arranged at the top of the article to be packaged, the first modulating hole is pointed along a first direction, the second modulating hole is pointed along a second direction, and the first direction and the second direction are arranged at an included angle.

The direction of the first modulation hole on the first package group is in two different directions with the direction of the second modulation hole on the second package group, namely, the directions of the first modulation holes on the first package groups on two sides are the same, so that the first package group and the second package group form different topological valley structures, the top cover forms three continuous topological structures of the first package group, the second package group and the first package group from one side to the other side, when the top cover receives impact force along the direction of the connecting edge of the first package group and the second package group, impact elastic waves are not reflected along the two edges of the first package group and the second package group to propagate forwards, impact force acting on the top cover is buffered, the amount of the elastic waves entering the middle part of the top cover is reduced, and buckling deformation of the middle weak position of the top cover caused by the impact force is effectively avoided.

The first modulation hole is directed opposite to the second modulation hole, and the first direction and the second direction are opposite.

In some embodiments, the first modulation aperture and the second modulation aperture are both triangular.

In some embodiments, the first topological unit is hexagonal, and three corners of the first modulation hole are respectively corresponding to three corners of the first topological unit;

and/or

The second topological unit is hexagonal, and three angles of the second modulation hole are respectively arranged corresponding to three angles of the second topological unit.

In some embodiments, the plurality of first package groups and the plurality of second package groups are disposed in sequence under the condition that the first package groups and the second package groups are plural.

In some embodiments, the first package group is disposed at an outermost side, the first package group disposed at an angle to the second package group connected thereto, the first package group disposed at an outermost side of the article to be packaged, and the other first package group and the second package group disposed above the article to be packaged.

In some embodiments, the packaging structure further comprises a stiffener mounted at the junction of the first packaging group and the second packaging group.

In some embodiments, the connection of the first package group and the second package group has a mounting groove, and the reinforcement is mounted in the mounting groove.

In some embodiments, the strength of the reinforcement is greater than the strength of the first and second package groups.

In some embodiments, the reinforcement is a wood strip and the first and second package groups are foam layers.

In some embodiments, the first topology unit has a first modulation hole with a triangle shape, and an included angle between a direction of the first modulation hole and an extending direction of the reinforcement part is 30 degrees;

and/or

The second topological unit is provided with a triangular second modulation hole, and an included angle between the direction of the second modulation hole and the extending direction of the reinforcing part is-30 degrees.

In some embodiments, the packaging structure further comprises a base, wherein the base is arranged below the object to be packaged and is used for supporting the object to be packaged.

In a second aspect, an embodiment of the present application provides a package assembly for packaging a to-be-packaged article, including packing carton and foretell packaging structure, packaging structure sets up to wait to package the top of article, the packing carton packing is in wait to package the surface of article.

In a third aspect, an embodiment of the present application provides a device kit, including an article to be packaged and a packaging assembly as described above.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 shows a schematic structural view of a packaging structure according to an embodiment of the present application;

FIG. 2 illustrates a side view of a packaging structure according to an embodiment of the present application;

FIG. 3 shows a schematic diagram of a single topology unit in an embodiment of the present application;

fig. 4 shows a schematic diagram of experimental principles in an embodiment of the present application.

Reference numerals: 100-packaging structure; 110-top cover; 120-a first package group; 121-a first topology unit; 122-a first modulation aperture; 123-side plates; 130-a second package group; 131-a second topology unit; 132-a second modulation aperture; 140-reinforcements; 141-mounting slots.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all the directional indicators in the embodiments of the present utility model are only used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture, and if the specific posture is changed, the directional indicators are correspondingly changed.

In the present utility model, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The present application is described below with reference to specific embodiments in conjunction with the accompanying drawings:

during handling and transport of devices such as dishwashers, the dishwashers are subjected to loads such as impacts, vibrations and the like, and the packaging must therefore be protected from damage to the appearance and function of the dishwasher. The top of dish washer is hollow structure generally, and consequently packaging structure's top cap adopts paper angle bead and batten to make up, and when the packing carried out inclined plane impact test, impact energy was passed to dish washer top through the top cap foam easily, because embedded dish washer top edge portion structural strength is stronger, but middle part hollow structure intensity is weaker, so when impact energy passed to dish washer top, buckling deformation damage was taken place easily to dish washer top middle part.

A first aspect of the present application provides a packaging structure 100 for including articles to be packaged, such as a dishwasher, see fig. 1, the packaging structure 100 comprising a top cover 110, the top cover 110 comprising at least one first packaging group 120 and at least one second packaging group 130, the first packaging group 120 comprising a plurality of first topology units 121 arranged in sequence, the first topology units 121 having first brewing apertures 122; the second packaging group 130 is connected with the first packaging group 120 side by side, and comprises a plurality of second topological units 131 which are sequentially arranged, wherein the second topological units 131 are provided with second modulation holes 132; the first package group 120 and the second package group 130 are disposed on top of the articles to be packaged, the first modulation hole 122 is directed along a first direction, the second modulation hole 132 is directed along a second direction, and the first direction and the second direction form an included angle.

The direction of the first modulation hole 122 on the first package group 120 and the direction of the second modulation hole 132 on the second package group 130 are in two different directions, namely, the directions of the first modulation holes 122 on the first package group 120 on two sides are the same, so that the first package group 120 and the second package group 130 form different topological valley structures, the top cover 110 forms a continuous three-topology structure of the first package group 120-the second package group 130-the first package group 120 from one side to the other side, when the top cover 110 receives impact force along the connecting edge direction of the first package group 120 and the second package group 130, the impact elastic wave does not spread forward along the two edges of the first package group 120 and the second package group 130 in a reflection way, and therefore impact force acting on the top cover 110 is buffered, the amount of the elastic wave entering the middle part of the top cover 110 is reduced, and buckling deformation of the middle weak position of the top cover 110 caused by the impact force is effectively avoided.

The first modulation aperture 122 is directed opposite to the second modulation aperture 132, i.e. in the first and second directions.

It should be noted that the first direction and the second direction are opposite, that is, the included angle between the first direction and the second direction is between 135 degrees and 215 degrees, and both the first direction and the second direction are regarded as two opposite directions.

Wherein, top cap 110 is the protection architecture that is arranged in package structure 100 at the top of waiting to pack the article, top cap 110 covers at the top of waiting to pack the article, the diapire of top cap 110 is laminated with the top of waiting to pack the article, top cap 110's shape and the top shape looks adaptation of waiting to pack the article, in this embodiment top cap 110 is the rectangle, the edge of top cap 110 outwards extends the edge of waiting to pack the article, thereby cover the top of waiting to pack the article completely, thereby wait to pack the article and protect, the holding tank with the top looks adaptation of waiting to pack the article has been seted up to the bottom of top cap 110, when top cap 110 wait to pack the article and protect, the top of waiting to pack the article and the holding tank gomphosis collection of top cap 110 bottom accomplish the installation of top cap 110. In this embodiment, the top cover 110 may be made of foam material, and the equivalent material parameter ρ=30kg/m of foam ³ The elastic modulus e=4 MPa and poisson ratio μ=0.07, so as to protect the article to be packaged, and in other embodiments, other materials may be selected according to practical situations.

Referring to fig. 1 and 2, the first package group 120 and the second package group 130 are sequentially arranged side by side at intervals, the lengths, widths and thicknesses of the first package group 120 and the second package group 130 are the same and the top surfaces are flush, and under the condition that the first package group 120 and the second package group 130 are multiple, the first package group 120 and the second package group 130 are sequentially arranged.

The plurality of first package groups 120 and the plurality of second package groups 130 may be sequentially connected to the plurality of first package groups 120 and then sequentially connected to the plurality of second package groups 130, or may be disposed so as to intersect the plurality of first package groups 120 and the plurality of second package groups 130. Specifically, the first package group 120 is provided with two groups, the second package group 130 is provided with one group, the second package group 130 is clamped and arranged between the two groups of first package groups 120 to form a rectangular top cover 110, referring to fig. 1 and 3, the first package group 120 is provided with a plurality of first topology units 121 for buffering impact force, the plurality of first topology units 121 are closely arranged on the first package group 120, the first topology units 121 are provided with first modulation holes 122 along the thickness direction of the first package group 120 to form a topology valley structure, the second package group 130 is provided with a plurality of second topology units 131 for buffering impact force, the plurality of second topology units 131 are closely arranged on the second package group 130, and the second topology units 131 are provided with second modulation holes 132 along the thickness direction of the second package group 130 to form a topology valley structure.

In some embodiments, the first topology unit 121 and the second topology unit 131 are hexagonal, and the first modulation hole 122 and the second modulation hole 132 are triangular. In this embodiment, the lattice constants of the hexagonal first topological unit 121 and the hexagonal second topological unit 131 may be 10cm, the thickness of the top cover 110 may be 2cm, the first modulation hole 122 and the second modulation hole 132 may be equilateral triangles with sides of 9cm, so as to form a topology structure of one unit cell, and in other embodiments, other dimensions may be selected according to different materials and different practical situations.

Referring to fig. 4, θ represents an angle between the triangular direction and the positive x-axis direction, where a is an angle θ= -30 ° of a modulation aperture in a topological unit, b is θ=0°, and c is θ=30°. The d-f part is the energy band corresponding to the a-C part, the g part is the intrinsic field and the phase distribution at the K point, wherein when the rotation angle theta corresponding to the scatterer is 0 DEG, the system has C _3v Symmetry, as shown in part b of fig. 4, according to the knowledge of group theory, the point group corresponding to the boundary corner point of the brillouin zone in the emptying space has two-dimensional irreducible representation, so that a linear crossed dirac cone is formed at the point K and the point K', as shown in part e of fig. 4, and degenerate to form dirac cones near the frequency 340 Hz.

On the other hand, when the rotation angle θ is not equal to 0 °, there are two conditions that can satisfy C ₃ Symmetry: θ= -30 ° (structure a in the figure) and θ=30° (structure B in the figure), where the d and f parts give the dispersion characteristics of the cells and the band gap inversion characteristics corresponding to the transition from one configuration to another, and since the symmetry of the structure is broken, a complete forbidden band appears between the first and second band gaps, with a frequency in the range of 309Hz to 351Hz, although both configurations of structure a and structure BThe scattering curves are identical, but their corresponding topological properties change, the transition of the topological properties of the first and second bandgaps is referred to as a bandgap inversion, and the inversion of the mode can be found by describing the amplitude and phase of the mode at the K point as shown in part g of fig. 4.

The band gap inversion phenomenon is analogous to the valley hall effect, and further, the valley Chen Shu can be calculated to quantitatively describe the topological phase transition, integrating the Berry curvature in half the brillouin zone:

wherein Ω (k) is a Berry curvature, and the expression is:

where i is an imaginary unit, c.c. represents the complex conjugate,<·|·>represents the inner product, k= [ k ] _x ,k _y ]Is Bloch wave vector and omega _u And omega _v The natural frequencies of the corresponding feature vectors u and v are represented, the valley Chen Shu corresponding to the K point of the structure A and the structure B is + -1/2, the valley Chen Shu corresponding to the two structures is 1, and the topology protection edge mode appears at the interface of the two structures.

When the structure A and the structure B are spliced in an ABA mode along the direction, energy is gathered at the splicing position, the topological edge state has good regulation and robustness, that is, the energy can be transmitted forwards along the edge of the splicing position of the different topological valleys Xiang Jiegou (the structure A and the structure B), so that the directions of the first modulation holes 122 on the first packaging group 120 and the directions of the second modulation holes 132 on the second packaging group 130 are opposite, namely, the directions of the first modulation holes 122 on the first packaging group 120 on two sides are the same, so that the first packaging group 120 and the second packaging group 130 form different topological valley structures, the top cover 110 forms three continuous topological structures of the first packaging group 120-the second packaging group 130-the first packaging group 120 from one side to the other side, and when the top cover 110 receives impact force along the connecting edges of the first packaging group 120 and the second packaging group 130, the impact elastic wave does not have the reflection edges along the two front edges of the first packaging group 120 and the second packaging group 130, thus the impact force is prevented from being transmitted forwards on the top cover 110, and the impact force is prevented from entering the middle position of the top cover 110, and the impact force is prevented from being deformed.

In some embodiments, the first topology unit 121 is hexagonal, and three corners of the first modulation hole 122 are disposed corresponding to three corners of the first topology unit 121, respectively; and/or the second topology unit 131 is hexagonal, and three corners of the second modulation hole 132 are respectively corresponding to three corners of the second topology unit 131.

The first topology unit 121 has a first modulation hole 122 with a triangle shape, and an angle between a direction of the first modulation hole 122 and an extending direction of the reinforcement part 140 is 30 degrees; and/or the second topology unit 131 has a second modulation hole 132 with a triangle shape, the angle between the direction of the second modulation hole 132 and the extending direction of the reinforcing part 140 is-30 degrees, the topology structure on the second package group 130 can adopt a topology structure with θ= -30 degrees of the a part in the figure or a topology structure with θ= 30 degrees of the c part in the figure, that is, three angles of the second modulation hole 132 are respectively corresponding to three angles of the second topology unit 131, while the structure of the first package group 120 part adopts a different topology valley phase structure, that is, a topology structure with θ= -30 degrees of the c part in the figure or a topology structure with θ= -30 degrees of the a part in the figure, so that the first package group 120 and the second package group 130 form a continuous three topology phase structure of the first package group 120-the second package group 130 from one side to the other side of the top cover 110, when the top cover 110 receives a shock force along the connecting edge direction of the first package group 120 and the second package group 130, the shock wave is not reflected by the first package group 120 and the top cover 130, and the shock wave is prevented from being transmitted to the middle position of the top cover 110, and the shock wave is prevented from being deformed forward, and the shock wave is effectively transmitted to the middle position of the top cover 110.

In some embodiments, the first topology unit 121 is hexagonal, and three corners of the first modulation hole 122 are respectively disposed corresponding to three sides of the first topology unit 121; and/or the second topology unit 131 is hexagonal, and three corners of the second modulation hole 132 are respectively corresponding to three sides of the second topology unit 131.

The topology structure on the second package group 130 adopts the topology structure of θ=0° of the part b in the figure, that is, three corners of the second modulation hole 132 are respectively corresponding to three edges of the second topology unit 131, while the structure on the upper part of the first package group 120 adopts the topology valley structure different from the topology valley structure, that is, the topology structure opposite to the topology structure, so that the first package group 120, the second package group 130 and the top cover 110 form a continuous three topology structures of the first package group 120, the second package group 130 and the first package group 120 from one side to the other side, when the top cover 110 receives the impact force along the connecting edge of the first package group 120 and the second package group 130, the impact elastic wave does not propagate forward along the edge of the first package group 120 and the second package group 130, thereby buffering the impact force acting on the top cover 110, reducing the amount of the elastic wave entering the middle part of the top cover 110, and further effectively avoiding the deformation of the middle weak impact force of the top cover 110.

In some embodiments, referring to fig. 1 and 2, the first packaging group 120 is disposed at the outermost side, the first packaging group 120 at the outermost side and the second packaging group 130 connected with the first packaging group are disposed at an included angle, the first packaging group 120 at the outermost side is disposed on a side wall of the article to be packaged, the other first packaging group 120 and the second packaging group 130 are disposed above the article to be packaged, that is, the outer edges of the first packaging group 120 are bent 90 ° towards the bottom to form side plates 123, the side plates 123 are disposed on the bottom wall of the top cover 110 opposite to the edge extending from the article to be packaged, when the top cover 110 is disposed on the article to be packaged, the side plates 123 are disposed on the side surface of the article to be packaged and are abutted to the side wall with the article to be packaged, so as to protect the side wall of the article to be packaged, the side plates 123 and the top cover 110 are integrally formed into a cuboid structure, the top wall of the top cover 110 is flush with the top wall of the side plates 123, the accommodating grooves can be formed by enclosing the side plates 123, when the top cover 110 is mounted on the article to be packaged, the side plates 123 are abutted to the side walls of the article to be packaged, the two side plates 123 are disposed opposite to each other, the side plates 123 are respectively, the side plates are formed by bending first edges and the side edges and the two side plates are formed continuously, when the two side plates are disposed opposite to the side plates 123 are opposite to each other, and no opposite to the side edges 123.

Referring to fig. 1 and 2, the topology structure on the first package group 120 adopts the topology structure of θ=0° of the portion b in the drawing, that is, three corners of the first modulation hole 122 are respectively corresponding to three edges of the first topology unit 121, and the structure of the side plate 123 adopts the different topology valley structure, that is, the same topology structure as the second package group 130 but opposite to the first package group 120, so that the first package group 120 and the side plate 123 form a continuous topology structure of the side plate 123-the first package group 120 from one side to the other, when the first package group 120 receives the impact force along the connecting edge direction of the first package group 120 and the side plate 123, the impact elastic wave does not spread forward along the two edges of the side plate 123 and the first package group 120, thereby buffering the impact force acting on the top cover 110, reducing the amount of the impact force entering the middle part of the top cover 110, and further effectively avoiding buckling deformation at the middle weak position of the top cover 110 caused by the impact force.

The topology structure on the first package group 120 may adopt a topology structure of θ= -30 ° in the portion a in the figure or a topology structure of θ= -30 ° in the portion c in the figure, that is, three corners of the first modulation hole 122 are respectively corresponding to three sides of the first topology unit 121, while the structure of the portion of the side plate 123 adopts a different topology valley structure, that is, the same topology structure as the second package group 130 but opposite to the first package group 120, that is, a topology structure of θ= -30 ° in the portion c in the figure or a topology structure of θ= -30 ° in the portion a in the figure, so that the first package group 120 and the side plate 123 form a continuous topology structure of the side plate 123-the first package group 120 from one side to the other, when the first package group 120 receives impact force along the connecting edge of the first package group 120 and the side plate 123, the impact elastic wave propagates forward along two edges of the side plate 123 without reflection, thereby buffering the impact force acting on the top cover 110, reducing the amount of the elastic wave entering the middle part of the top cover 110, and avoiding the effective deformation of the top cover 110.

In some embodiments, the packaging structure 100 further includes two connecting plates, the two connecting plates are oppositely disposed on the top cover 110 and are respectively connected with the two connecting plates to cover the side walls of the articles to be packaged, the top cover 110, the side plates 123 and the connecting plates can be integrally formed, and the two side plates 123 and the two connecting plates enclose to form a quadrilateral structure, so that a containing cavity is formed, the articles to be packaged can be covered when the packaging structure is mounted on the articles to be mounted, and the protection effect of the articles to be packaged is further improved.

In some embodiments, referring to fig. 1 and 2, the packaging structure 100 further includes a reinforcement portion 140, the reinforcement portion 140 being mounted at the junction of the first package group 120 and the second package group 130. When packaging structure 100 is applied to the top for the hollow structure's the article of waiting to pack, the top does not have the support of waiting to pack the article, structural strength is relatively poor, top cap 110 is out of shape easily, thereby set up reinforcing part 140 in the junction of first packing group 120 and second packing group 130 and improve the structural strength and the rigidity in the middle of whole top cap 110, prevent that the top cap 110 that the inclined plane is strikeed to appear from breaking, have better protective effect to holding static load such as holding simultaneously, the direction of reinforcing part 140 sets up along the direction of first packing group 120 and second packing group 130 connecting edge, thereby reduce the quantity that the elastic wave enters into top cap 110's middle part, effectively avoid the impact force to cause the weak position that the hollow position of waiting to pack the article in the middle of top cap 110 to take place buckling deformation.

The junction of first packing group 120 and second packing group 130 has mounting groove 141, and reinforcing part 140 is installed in mounting groove 141, and mounting groove 141 is seted up along the direction of first packing group 120 and second packing group 130 joint edge, and the topological unit of first packing group 120 and second packing group 130 is located the both sides of mounting groove 141 respectively, and mounting groove 141 runs through along top cap 110's width direction and sets up, and the width of mounting groove 141 and reinforcing part 140's width looks adaptation, and reinforcing part 140's width is specifically determined according to top cap 110's size and actual conditions.

The strength of the reinforcing portion 140 is greater than that of the first package group 120 and the second package group 130, that is, the structural strength attribute of the material of the reinforcing portion 140 is greater than that of the material of the first package group 120 and the second package group 130, in this embodiment, the reinforcing portion 140 is a wood strip, and the first package group 120 and the second package group 130 are foam layers, so that the cost of the top cover 110 is reduced while the structural strength of the top cover 110 is reinforced.

In some embodiments, the packaging structure 100 further includes a base, where the base is disposed below the object to be packaged and is used to support the object to be packaged, and the base and the top cover 110 clamp the object to be packaged therebetween, so as to realize omnibearing protection.

A second aspect of the present application provides a packaging assembly for packaging an article to be packaged, including a package box and the above-mentioned packaging structure 100, the packaging structure 100 is packaged on the outer surface of the article to be packaged, and the article to be packaged and the packaging structure 100 are placed in the package box.

A third aspect of the present application provides an apparatus kit comprising an article to be packaged and the above-described packaging assembly, the packaging structure 100 being packaged on an outer surface of the article to be packaged, the article to be packaged and the packaging structure 100 being placed in a package.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Further, one skilled in the art can engage and combine the different embodiments or examples described in this specification.

Claims (14)

1. A packaging structure for packaging an article to be packaged, characterized in that the packaging structure (100) comprises:

at least one first packaging group (120) comprising a plurality of first topological units (121) arranged in sequence, the first topological units (121) having first modulation holes (122);

at least one second package group (130) connected side by side with the first package group (120), comprising a plurality of second topology units (131) arranged in sequence, wherein the second topology units (131) are provided with second modulation holes (132);

the first packaging group (120) and the second packaging group (130) are arranged at the top of the article to be packaged, the first modulating hole (122) is pointed along a first direction, the second modulating hole (132) is pointed along a second direction, and the first direction and the second direction are arranged at an included angle.

2. The packaging structure of claim 1, wherein the first modulation aperture is directed opposite to the second modulation aperture; the first direction and the second direction are opposite.

3. The packaging structure of claim 1, wherein the first modulation aperture (122) and the second modulation aperture (132) are both triangular.

4. A packaging structure according to claim 3, wherein the first topology unit (121) is hexagonal, and three corners of the first modulation hole (122) are arranged corresponding to three of the corners of the first topology unit (121), respectively;

and/or

The second topological unit (131) is hexagonal, and three corners of the second modulation hole (132) are respectively arranged corresponding to three corners of the second topological unit (131).

5. The packaging structure according to claim 1, wherein a plurality of the first packaging group (120) and a plurality of the second packaging group (130) are provided in order under the condition that the first packaging group (120) and the second packaging group (130) are plural.

6. The packaging structure according to claim 5, wherein the first packaging group (120) is disposed at an outermost side, the first packaging group (120) at the outermost side and the second packaging group (130) connected thereto are disposed at an included angle, the first packaging group (120) at the outermost side is disposed on a side wall of the article to be packaged, and the other first packaging group (120) and the second packaging group (130) are disposed above the article to be packaged.

7. The packaging structure according to any one of claims 1-6, wherein the packaging structure (100) further comprises a reinforcement (140), the reinforcement (140) being mounted at the junction of the first packaging group (120) and the second packaging group (130).

8. The packaging structure according to claim 7, wherein a connection of the first package group (120) and the second package group (130) has a mounting groove (141), and the reinforcement portion (140) is mounted in the mounting groove (141).

9. The packaging structure according to claim 7, wherein the strength of the reinforcement portion (140) is greater than the strength of the first packaging group (120) and the second packaging group (130).

10. The packaging structure of claim 7, wherein the reinforcement (140) is a wood strip and the first (120) and second (130) package groups are foam layers.

11. The packaging structure according to claim 7, characterized in that the first topology unit (121) has a first modulation hole (122) of triangular shape, the angle between the orientation of the first modulation hole (122) and the extension direction of the reinforcement portion (140) being 30 degrees;

and/or

The second topological unit (131) is provided with a second modulation hole (132) with a triangle shape, and the included angle between the direction of the second modulation hole (132) and the extending direction of the reinforcing part (140) is-30 degrees.

12. The packaging structure according to any one of claims 1-6, wherein the packaging structure (100) further comprises a base arranged below the item to be packaged for supporting the item to be packaged.

13. A packaging assembly for packaging an article to be packaged, characterized by comprising a packaging box and a packaging structure (100) according to any one of claims 1-12, the packaging structure (100) being arranged on top of the article to be packaged, the packaging box being packaged on an outer surface of the article to be packaged.

14. A kit of parts comprising an item to be packaged and a packaging assembly according to claim 13.

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