CN219008498U

CN219008498U - Multi-size packing box

Info

Publication number: CN219008498U
Application number: CN202222940087.3U
Authority: CN
Inventors: 朱勇强; 盛丽丽
Original assignee: Honor Device Co Ltd
Current assignee: Honor Device Co Ltd
Priority date: 2022-11-04
Filing date: 2022-11-04
Publication date: 2023-05-12
Anticipated expiration: 2032-11-04

Abstract

The application discloses multi-size packing carton sets up the inside lining at the box bottom of extranal packing box, and the inside lining includes first inside lining and at least one second inside lining, and first inside lining has first holding cavity. According to the sizes of different products, the second inner liners with different numbers and different sizes are arranged at different positions of the first accommodating cavity. The size of the placing groove of the first accommodating cavity is adjusted by utilizing the second inner liners with different numbers and different sizes, so that the size of the placing groove is matched with the size of a product, and the product with the matched size is placed by utilizing the placing groove after the size adjustment. Therefore, the multi-size packaging box can be compatible with products with different sizes and product accessories with different sizes, and is more convenient; and the size of each placing groove position is matched with the size of the placed product, so that products with different sizes can be limited to avoid shaking, and the products are prevented from being damaged.

Description

Multi-size packing box

Technical Field

The application relates to the technical field of packaging, in particular to a multi-size packaging box.

Background

Electronic devices of different models have different sizes, for example, notebook computers generally have specifications with large size differences of 14 inches, 15 inches, 16 inches and the like, and in the aspect of selecting power adapters of parts, the same product also has various different size specifications of 65W, 100W, 135W and the like.

For packaging of products of different sizes, it is often necessary to customize the package of different sizes, which is inconvenient to use.

Disclosure of Invention

The application provides a multi-size packing box to solve the problem that different sizes of packing boxes are required for different sizes of products, so that the use is inconvenient.

The application provides a multi-size packing carton, include: the outer packaging box comprises a box cover and a box bottom, and the box cover and the box bottom are buckled together to form a closed cavity; the inner lining, the inner lining set up in the closed cavity, the inner lining include first inside lining and at least one second inside lining, first inside lining set up in the box bottom, first inside lining has the first cavity that holds, at least one second inside lining set up according to different rules in the first cavity that holds, at least one second inside lining is used for the adjustment the accommodation space size of first cavity that holds. Like this, through put different quantity, the second inside lining of unidimensional in the different positions in first inside lining for many size packing carton have the standing groove position of unidimensional, and then can be compatible place the product of unidimensional, it is more convenient to use, and can reduce cost. The placement position, the size selection and the number selection of the second lining can be determined according to the size of the product, so that the placed product can be limited, shaking is avoided, and the product is prevented from being damaged.

In some embodiments of the present application, the top surface of the second liner is lower than the top surface of the first liner, or the top surface of the second liner is flush with the top surface of the first liner. Therefore, the box cover and the box bottom can be guaranteed to be buckled together to form a closed cavity, and the situation that the box cover and the box bottom cannot be buckled is avoided.

In some embodiments of the present application, the at least one second liner comprises at least one transverse division bar and/or at least one longitudinal division bar; at least one transverse parting bead is arranged in the first lining along the length direction of the first lining, and the length of the transverse parting bead is smaller than or equal to the length of an inner cavity of the first lining; at least one longitudinal parting bead is arranged in the first lining along the width direction of the first lining, and the length of the longitudinal parting bead is smaller than or equal to the width of the inner cavity of the first lining. Like this, different parting strips put in different positions, occupy the different regional spaces of first inside lining, and then can inject the standing groove position of equidimension in first inside lining to the product of adaptation response size plays spacing effect.

In some embodiments of the present application, at least one of the transverse division bars is the same size, or at least one of the transverse division bars is different in size; at least one of the longitudinal bars may be the same size or at least one of the longitudinal bars may be different in size. Like this, the parting bead adopts different sizes can be convenient for combine the collocation based on the product size, and then can inject the standing groove position of different sizes in first inside lining to the product of adaptation corresponding size plays spacing effect.

In some embodiments of the present application, the liner further comprises a third liner; the third lining covers the upper portion of the first lining to form a closed first accommodating cavity, and the third lining is located below the box cover in a buckling state. Like this, can guarantee through the third inside lining that the product of placing in first inside lining can not receive the pressure at packing carton top, guarantee that the product can not appear damaging.

In some embodiments of the present application, further comprising: a fitting box; the accessory box and the lining are arranged in the closed cavity side by side. Like this, through inside lining and accessory box, can realize that the separation of different grade type main product and accessory is put, and then avoid appearing rocking, guarantee that the damage can not appear in the product.

In some embodiments of the present application, the accessory box comprises a first accessory box and a second accessory box; the first accessory box is arranged in the box bottom and is positioned at one side of the first lining; the first accessory box is provided with a second accommodating cavity, the second accessory box is arranged in the second accommodating cavity, and the second accessory box is used for dividing the second accommodating cavity into a plurality of accommodating spaces. Like this, based on the size of product accessory, adopt different collocation schemes to make the accessory box have not unidimensional accommodation space, and then can place not unidimensional product accessory, both can separate different product accessories like this, can also play limiting displacement, avoid appearing damaging because of rocking.

In some embodiments of the present application, the first grooves are respectively formed in two opposite side walls of the first accessory box, the two opposite first grooves are in the second accommodating cavity to form a third accommodating cavity, and the third accommodating cavity is used for accommodating the second accessory box. Like this, can fix the second accessory box in first accessory box through two relative first recesses, and then can guarantee that the product accessory of placing in first accessory box and the second accessory box can stably place, avoid appearing damaging because of rocking.

In some embodiments of the present application, the kit further comprises a third kit; the third accessory box is arranged in the third accommodating cavity and is used for dividing the third accommodating cavity into a plurality of accommodating spaces. Like this, based on the size of product accessory, adopt different collocation schemes to make the accessory box have not unidimensional accommodation space, and then can place not unidimensional product accessory, both can separate different product accessories like this, can also play limiting displacement, avoid appearing damaging because of rocking.

In some embodiments of the present application, two opposite first grooves are respectively provided with a second groove, and two opposite second grooves form a fourth accommodating cavity in the third accommodating cavity, where the fourth accommodating cavity is used for accommodating the third accessory box. Like this, can fix the third accessory box in the second accessory box through two relative second recesses, and then can guarantee that the product accessory of placing in first accessory box, second accessory box and the third accessory box can stably place, avoid appearing the damage because of rocking.

Drawings

In order to more clearly illustrate the technical solutions of the present application, the drawings that are needed in the embodiments will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

Fig. 1 is an exploded view of a multi-sized packing box provided in an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a second liner 202 provided in an embodiment of the present application placed in a first liner 201.

Fig. 3 is a schematic size diagram of a first liner 201 and a second liner 202 provided in an embodiment of the present application.

Fig. 4 is a schematic view of the combined dimensions of different numbers of transverse spacer bars 2021 and longitudinal spacer bars 2022 provided by embodiments of the present application.

Fig. 5 is a top view of a multi-sized package provided in an embodiment of the present application.

Fig. 6A is a schematic structural view of the first accessory cassette 301 provided in the embodiment of the present application.

Fig. 6B is a top view of the first accessory cassette 301 provided in an embodiment of the present application.

Fig. 7 is a schematic structural view of a second accessory box 302 provided in an embodiment of the present application.

Fig. 8A is a schematic structural view of a first accessory case 300 provided in an embodiment of the present application.

Fig. 8B is a schematic longitudinal cross-sectional view of a first accessory box 300 provided in an embodiment of the present application.

Fig. 9 is a schematic structural view of a third accessory box 303 provided in the embodiment of the present application.

Fig. 10A is a schematic structural view of a second accessory case 300 provided in an embodiment of the present application.

Fig. 10B is an exploded structural view of a second accessory case 300 provided in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly described below with reference to the drawings in the embodiments of the present application. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present application. Based on the embodiments of the present application, other embodiments that may be obtained by a person of ordinary skill in the art without making any inventive effort are within the scope of the present application.

Hereinafter, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

Furthermore, in this application, directional terms "upper", "lower", "left", "right", "top", "bottom", etc. are defined with respect to the orientation in which the components in the drawings are schematically disposed, and it should be understood that these directional terms are relative concepts, which are used for relative description and clarity, and which may be varied accordingly with respect to the orientation in which the components in the drawings are disposed.

The product of the embodiment of the application comprises a product body and a product accessory, wherein the product can be electronic equipment, and the product accessory can be an accessory of the electronic equipment. Electronic devices include, but are not limited to, cell phones, notebook computers, tablet computers, laptop computers, personal digital assistants or wearable devices, walkman, radios, televisions, speakers, and the like. Wherein the wearable device includes, but is not limited to, a smart bracelet, a smart watch, a smart head mounted display, smart glasses, and the like. The accessories of the electronic device may be a power adapter, a headset, etc. The following description will be made with the electronic device as a notebook computer and the accessory as a power adapter.

Notebook computers typically come in a variety of widely varying sizes, such as 14 inches, 15 inches, and 16 inches. There are also a variety of different sizes of power adapters for the essential parts of notebook computers, such as 65W, 100W and 135W.

When packaging products, the packaging box generally comprises an outer packaging box and an inner lining, and the inner lining generally adopts a back-shaped frame structure. For example, the liner is composed of two to three nested return-to-shape frame structures, and the product is placed on the innermost return-to-shape frame, and the inner dimension of the return-to-shape frame is the same as the product dimension.

For packaging of products of different sizes, it is often necessary to customize packages of different sizes, which is inconvenient to use and costly. In addition, the existing packaging box is not provided with a limiting function, so that the product cannot be fixed in the packaging box to shake, and the product is damaged.

The embodiment of the application provides a multi-size packaging box, which can utilize the same packaging box to be compatible with the product combination of notebook computers with different sizes and power adapters with different sizes, is more convenient to use, and can reduce the cost. And moreover, the packing box can limit products with different sizes to avoid shaking, so that the products are prevented from being damaged.

As shown in fig. 1, in some embodiments, the multi-sized package may include: outer package 100, liner 200, and accessory box 300. The outer packing box 100 is a packing outer box, and the liner 200 and the accessory box 300 are both disposed in the outer packing box 100. The liner 200 is used for containing a product body, such as a notebook computer, and has a limiting function on the product. The accessory case 300 is used to house product accessories, such as a power adapter.

The outer packing box 100 includes a box cover 101 and a box bottom 102, and the box cover 101 and the box bottom 102 may be in a split structure or may be in an integral structure connected together through one side. The lid 101 and the base 102 snap together to form a closed cavity 103, and the liner 200 and the accessory box 300 are both disposed within the closed cavity 103 (the area shown by the large dashed box).

The material of the outer packing box 100 may be single B-pit corrugated board, and the box structure of the outer packing box 100 includes, but is not limited to, a flat plane box, a vertical lock bottom box, etc., and in this embodiment, the flat plane box with a cover opened and a visible product is described as an example. The inner dimension of the outer packing box 100 is the sum of the outer dimensions of the fitting inner liner 200 and the fitting box 300 when placed side by side, the inner dimension refers to the inner cavity dimension, namely the dimension of the closed cavity 103, and the outer dimension refers to the minimum circumscribed rectangular dimension of the structure surrounded by the inner liner 200 and the fitting box 300.

The liner 200 may be made of EPE pearl wool. EPE pearl cotton is a non-crosslinked closed cell structure, also called polyethylene foam cotton, and is a novel environment-friendly packaging material. It is composed of low-density polyethylene resin which is physically foamed to generate countless independent bubbles. The EPE lining 200 has the advantages of water and moisture resistance, shock resistance, sound insulation, heat preservation, good plasticity, strong toughness, cyclic reconstruction, environmental protection, strong collision resistance and the like, and also has good chemical resistance.

The liner 200 may include a first liner 201 and at least one second liner 202. The first inner liner 201 is disposed in the box bottom 102, the first inner liner 201 has a rectangular structure with an opening at one end, the rectangular structure with an opening at one end forms a first accommodating cavity 204, and a longitudinal section of the first inner liner 201 is concave. The first liner 201 is a product holder, and the first accommodating cavity 203 is a product placement groove. The product is placed in a first receiving cavity (area shown by small dashed box) 204 and a first liner 201 is used to protect and cushion impacts from five directions, front, back, left, right, and bottom of the package. The inner dimensions of the first liner 201 are adapted to the outer dimensions of the largest specification model of all different types of notebook computer products.

In some embodiments, liner 200 may include only first liner 201, and the receiving cavity formed without second liner 202 may meet the maximum product size.

For convenience in description of directions and sizes, a three-dimensional coordinate system is established based on the multi-size packaging box, the x-axis direction is the length direction of the multi-size packaging box, the y-axis direction is the width direction of the multi-size packaging box, and the z-axis direction is the height direction of the multi-size packaging box.

As shown in fig. 2, in some embodiments, at least one second liner 202 is disposed within the first receiving cavity 204 according to different rules, and the at least one second liner 202 is used to adjust the size of the receiving space of the first receiving cavity 204. The rule may include, among other things, size selection, number of placements, placement locations, etc. of the second liner.

The second liner 202 is a movable set of division bars, further, at least one second liner 202 may include at least one transverse division bar 2021 and/or at least one longitudinal division bar 2022.

At least one transverse spacer 2021 is disposed in the first liner 201 along the length direction (x-axis direction) of the first liner 201, the at least one transverse spacer 2021 being configured to reduce the containment space width dimension (i.e., the lumen dimension) of the first liner 201. The larger the number of the transverse division bars 2021 is, the smaller the remaining accommodation space in the width direction of the first accommodation cavity 204 formed by the first liner 201 is. The length of the transverse spacer 2021 is less than or equal to the length of the inner cavity of the first liner 201 so that the transverse spacer 2021 can be placed in the first liner 201 and the longitudinal spacer 2022 can be provided in the first liner 201.

At least one longitudinal spacer 2022 is provided in the first liner 201 in the width direction (y-axis direction) of the first liner 201, and the at least one longitudinal spacer 2022 serves to reduce the accommodation space length dimension of the first liner 201. The greater the number of placement of the longitudinal spacers 2022, the smaller the remaining accommodation space in the length direction of the first accommodation cavity 204 formed by the first liner 201. The length of the longitudinal spacer bars 2022 is less than or equal to the inner cavity width of the first liner 201 so that the longitudinal spacer bars 2022 can be placed in the first liner 201 and the transverse spacer bars 2021 can be provided in the first liner 201.

Illustratively, in the first accommodating cavity (dashed line frame) 204 formed by the first liner 201, when three transverse spacers 2021 are placed and 3 longitudinal spacers 2022 are placed, a remaining accommodating space (dashed line frame) 204a is generated in the first accommodating cavity 204 of the first liner 201, and the remaining accommodating space 204a isAnd the placing groove is used for placing products with matched sizes. Width W of the remaining accommodation space 204a in the width direction _204a Less than the width W of the inner cavity of the first accommodating cavity 204 ₂₀₄ The method comprises the steps of carrying out a first treatment on the surface of the Length L of the remaining accommodation space 204a in the length direction _204a Less than the length L of the inner cavity of the first receiving cavity 204 ₂₀₄ . When the transverse spacer 2021 and the longitudinal spacer 2022 are not placed in the first liner 201, the first accommodating cavity 204 is the remaining accommodating space 204a.

To facilitate the formation of a variety of long and wide sized placement slots within the first liner 201 using the transverse and

longitudinal spacer bars

2021, 2022, the transverse and

longitudinal spacer bars

2021, 2022 are sized differently. Further, the dimensions of each transverse spacer 2021 may be the same or different; the dimensions of the individual longitudinal spacer bars 2022 may or may not be the same. Wherein the dimensions include a length dimension, a width dimension, and a height dimension. Different parting strips are placed at different positions of the first lining to occupy different area spaces of the first lining, and then placing groove positions with different sizes can be defined in the first lining, so that products with different sizes are matched with the placing groove positions with corresponding sizes, and the limiting effect is achieved.

It should be noted that, for clarity of illustration and distinction, the dashed and dotted frames shown in the drawings herein do not coincide or coincide with the inner wall of the first liner 201, but it should be understood that in characterizing the accommodating cavity, the boundary of the accommodating cavity should be the inner wall of the enclosed component.

In some embodiments, as shown in fig. 3 (1), the outer dimensional length L of the first liner 201 _{201 outside} May be about 416mm, and the outer dimension width W of the first liner 201 _{201 outside} Can be about 298 mm. Inner dimension length L of first liner 201 _{201 inside} May be 376mm or so, and the inner dimension width W of the first liner 201 _{201 inside} May be about 258mm. The inner dimensions of the first liner 201 may be considered as the dimensions of the first receiving cavity 204, i.e., 376mm x 258mm. Wherein the inner dimension width is understood to be the width of the lumen, the inner dimension lengthThe degree is understood to be the lumen length.

As shown in fig. 3 (2), the number of the lateral division bars 2021 is 3. The length dimension of each transverse spacer 2021 may or may not be the same, but at least the length dimension L of each transverse spacer 2021 ₂₀₂₁ Are each less than or equal to the inner dimension length L of the first liner 201 _{201 inside} . Illustratively, the length dimension L of the transverse spacer 2021 ₂₀₂₁ May be about 320 mm. Width dimension W of each transverse spacer 2021 ₂₀₂₁ May be provided in the same size, and is exemplified by the width dimension W of the transverse spacer 2021 ₂₀₂₁ Can be 10mm or 15mm, etc.; width dimension W of each transverse spacer 2021 ₂₀₂₁ May be provided in different sizes, and, illustratively, the width dimension W of each transverse spacer 2021 ₂₀₂₁ May be a combination of different sizes of 10mm, 15mm, etc. Based on the state shown in fig. 3 (2), the width dimensions of the three lateral division bars 2021 may be 15mm, 10mm in order from top to bottom. The height dimensions of each transverse spacer 2021 may be the same or different, but at least the height dimensions of each transverse spacer 2021 are less than or equal to the height of the inner dimension of the first liner 201, i.e., the top surface of each transverse spacer 2021 is guaranteed to be lower than or flush with the top surface of the first liner 201, so that the lid 101 of the overpack 100 can be snapped onto the bottom 102 after placing the product.

As shown in fig. 3 (3), the number of the longitudinal division bars 2022 is 3. The length dimension of each longitudinal spacer 2022 may or may not be the same, but at least the length dimension L of each longitudinal spacer 2022 ₂₀₂₂ Are each smaller than or equal to the inner dimension width W of the first liner 201 _{201 inside} . Illustratively, the length dimension L of the longitudinal spacer 2022 ₂₀₂₂ May be about 258mm. Width dimension W of each longitudinal spacer 2022 ₂₀₂₂ May be provided in the same size, and is exemplified by the width dimension W of the longitudinal spacer 2022 ₂₀₂₁ Can be 10mm or 25mm, etc.; width dimension W of each longitudinal spacer 2022 ₂₀₂₂ May be provided in different sizes, and, illustratively, the width dimension W of each longitudinal spacer bar 2022 ₂₀₂₂ Can be a group with different sizes of 10mm, 25mm and the likeAnd (5) combining. Based on the state shown in fig. 3 (3), the width dimensions of the three longitudinal division bars 2022 may be 25mm, 10mm in order from left to right. The height dimensions of each longitudinal spacer 2022 may be the same or different, but at least the height dimensions of each longitudinal spacer 2022 are less than or equal to the height of the inner dimension of the first liner 201, i.e., the top surface of each longitudinal spacer 2022 is guaranteed to be lower than or flush with the top surface of the first liner 201, so that the lid 101 of the overpack 100 can be snapped onto the bottom 102 after placement of the product.

In some embodiments, as shown in fig. 4 (1), a transverse spacer 2021 having a width dimension of 15mm is placed in the first liner 201, so that the length of the remaining accommodating space 204a of the first accommodating cavity 204 formed by the first liner 201 is unchanged (376 mm), and the width is reduced to 258-15=243 mm. In this way, the resulting package can be placed on a 16 inch notebook computer having a maximum size of 376mm by 243mm.

As shown in fig. 4 (2), when a longitudinal spacer 2022 having a width of 10mm is placed in the first liner 201, the length of the remaining accommodation space 204a of the first accommodation chamber 204 formed by the first liner 201 is reduced to 376-10=366 mm, and the width does not become 258mm. In this way, the resulting package can be placed on a 16 inch notebook computer having a maximum size of 366mm x 258mm.

As shown in fig. 4 (3), when two transverse division bars 2021 each having a width of 10mm and one longitudinal division bar 2022 each having a width of 10mm are placed in the first liner 201, the length of the remaining accommodation space 204a of the first accommodation chamber 204 formed by the first liner 201 is reduced to 376-10=366 mm and the width is reduced to 258-10-10=238 mm. In this way, the resulting package can be placed on a 15.6 inch notebook computer having a maximum size of 366mm x 238mm.

As shown in fig. 4 (4), two transverse division bars 2021 having a width dimension of 10mm and one transverse division bar 2021 having a width dimension of 15mm are placed in the first liner 201, and one longitudinal division bar 2022 having a width dimension of 10mm and one longitudinal division bar 2022 having a width dimension of 25mm, the length of the remaining accommodation space 204a of the first accommodation cavity 204 formed by the first liner 201 is reduced to 376-10-25=341 mm and the width is reduced to 258-10-10-15=223 mm. Thus, the resulting package can be placed in a 15 inch notebook computer having a maximum size of 341mm by 223mm.

As shown in fig. 4 (5), by placing one transverse division bar 2021 having a width dimension of 10mm and one transverse division bar 2021 having a width dimension of 15mm, and two longitudinal division bars 2022 having a width dimension of 10mm and one longitudinal division bar 2022 having a width dimension of 25mm in the first liner 201, the length of the remaining accommodation space 204a of the first accommodation chamber 204 formed by the first liner 201 is reduced to 376-10-10-25=331 mm and the width is reduced to 258-10-15=233 mm. In this way, the resulting package can accommodate 14-inch notebook computers with maximum dimensions of 331mm x 233mm.

It should be noted that the second liner 202 may include different numbers of transverse spacer bars 2021 and/or longitudinal spacer bars 2022, and that each of the transverse spacer bars 2021 and the longitudinal spacer bars 2022 may be used alone. The division bars with different sizes can be conveniently combined and matched based on the product sizes, and through different numbers of transverse division bars 2021 and/or longitudinal division bars 2022 with different sizes, the space of the accommodating cavity with different sizes can be occupied in the first accommodating cavity 204 provided by the first liner 201, so as to define accommodating slots with different sizes (namely, residual accommodating spaces 204 a). The product corresponding to the adaptation size is placed through the placing groove positions with different sizes, so that the product can be prevented from shaking, and the product is prevented from being damaged. The above embodiments are merely illustrative of the dimensions and placement rules of the transverse spacer 2021 and/or the longitudinal spacer 2022, and illustrative of the possible dimensions of the placement slots that may be formed, and the dimensions of the placement slots that may be formed in practice are not limited to those illustrated in the above embodiments. In addition, in other embodiments, the longitudinal spacer 2022 may be disposed in the length direction of the first liner 201, and the transverse spacer 2021 may be disposed in the width direction of the first liner 201, so long as the size of the accommodating space of the first accommodating cavity 204 matched with the product size can be adjusted, which is not specifically limited in this application.

In some embodiments, referring again to fig. 1, liner 200 further comprises a third liner 203. The third liner 203 covers over the first liner 201, and as an upper cover of the first liner 201, the third liner 203 and the first liner 201 may form a closed first receiving cavity 204. The third liner 203 is located below the lid 101 in a fastened state, and the third liner 203 is used for protecting and buffering impact from the top of the packing box.

The third liner 203 may overlap the top of the first liner 201, the third liner 203 having a size greater than the inner size of the first liner 201; alternatively, a third liner may be embedded within the first liner 201, the third liner 203 having a size that is less than the inner size of the first liner 201. The top surface of the second liner 202 is lower than the top surface of the first liner 201, or the top surface of the second liner 202 is flush with the top surface of the first liner 201. In this way, the third liner 203 can be ensured to cover over the first liner 201 smoothly, so as to avoid the influence that the lid 101 cannot be buckled on the bottom 102 due to the tilting of a certain part of the third liner 203. At the same time, the second liner 202 may also be used to support the third liner 203.

In some embodiments, only outer package 100 and liner 200 may be included in a multi-sized package for different sized products, and whether the products are to be fitted to accessories, while in other embodiments, outer package 100, liner 200, and accessory box 300 may also be included in a multi-sized package. Through inside lining and packing carton, can realize the separation of different grade type product and put, and then avoid appearing rocking, guarantee that the product can not appear damaging.

As shown in fig. 5, and in combination with the content shown in fig. 1, in some embodiments, based on the structure of the multi-size package according to the foregoing embodiment, the multi-size package may further include: the accessory box 300, the accessory box 300 and the liner 200 are arranged in the closed cavity 103 formed by the box cover 101 after being buckled with the box bottom 102, and the accessory box 300 is used for containing accessories of products.

For different sized accessories, accessory box 300 may include a first accessory box 301, a second accessory box 302, and a third accessory box 303. The first cartridge 301, the second cartridge 302, and the third cartridge 303 may be configured differently to accommodate different sizes and numbers of accessories. Illustratively, the first accessory case 301, the second accessory case 302, and the third accessory case 303 may be used alone, the first accessory case 301 and the second accessory case 302 may be a collocation scheme, the first accessory case 301 and the third accessory case 303 may be a collocation scheme, and the first accessory case 301, the second accessory case 302, and the third accessory case 303 may be a collocation scheme.

The first cassette 301 corresponds to the base of the cassette 300, the first cassette 301 being adapted to carry a second cassette 302 and a third cassette 303. The first accessory box 301 is disposed in the box bottom 102, the first accessory box 301 is located on one side of the first liner 201, and the first accessory box 301 and the first liner 201 may be combined and filled in the closed cavity 103 formed by the outer package box 100.

As shown in fig. 6A, in some embodiments, the first accessory cassette 301 is a rectangular parallelepiped structure having an opening at one end, which forms a second accommodation chamber (dotted line frame corresponding area) 304. The second receiving cavity 304 is used to house a large-sized accessory, for example, a large-sized power adapter of 200W or the like.

As shown in fig. 6B, in some embodiments, when the first cassette 301 and the second cassette 302 are mated, the second cassette 302 is placed within a second receiving cavity 304 formed by the first cassette 301.

First grooves

305a and 305b are formed in two opposite side walls 3011 in the longitudinal direction of the first component box 301, respectively, in a direction from the inside to the outside of the first component box 301. Two opposing first grooves (305 a, 305 b) may form a third accommodating chamber (dot-dash frame corresponding region) 306 within the second accommodating chamber 304, the third accommodating chamber 306 being for placing the second accessory cassette 302.

As shown in fig. 7, in some embodiments, the second fitting box 302 is a cover body with three wall plates 3021, two adjacent wall plates 3021 are connected at an angle, and a longitudinal section of the second fitting box 302 is in a concave structure.

As shown in fig. 8A, in some embodiments, the first cartridge 300 is a composite structure formed by the second cartridge 302 assembled to the first cartridge 301. The second cassette 302 has a smaller size than the first cassette 301. The second accessory case 302 is disposed in a third accommodating cavity 306 formed in the second accommodating cavity 304, and the second accessory case 302 is embedded into

first grooves

305a and 305b formed on two opposite sidewalls of the first accessory case 301, so that the

first grooves

305a and 305b limit the second accessory case 302, and the second accessory case 302 is prevented from sliding in the first accessory case 301. The second set case 302 is used to partition the second accommodating chamber 304 into a plurality of accommodating spaces.

As shown in fig. 8B, in some embodiments, the first accessory box 300 may have two receiving spaces (304 a, 304B). The first accommodation space 304a into which the second accommodation chamber 304 is partitioned by the second accessory case 302 is used for placing accessory bodies such as power adapters; the second fitting cartridge 302 partitions the second receiving space 304b of the second receiving chamber 304 for receiving a mating component of a fitting, such as a power cord.

In some embodiments, the second type of accessory cassette 300 can be formed from the first type of accessory cassette 300 and the third accessory cassette 303. That is, when the first set 301, the second set 302, and the third set 303 are used as the mating solution, the third set 303 is placed in the third accommodating cavity 306 formed by the second set 302.

As shown in fig. 9, in some embodiments, the third fitting box 303 includes a plurality of stopper portions 3031 and a plurality of through holes 3032 formed by adjacent two stopper portions 3031. Illustratively, two through-holes 3032 are formed at opposite sides of the third fitting box 303, and four stopper portions 3031 are formed at four corners of the third fitting box 303. The plurality of stopper portions 3031 serve to play a stopper role for the small-sized accessory when the small-sized accessory is placed in the third accessory box 303, preventing the small-sized accessory from sliding in the third accessory box 303.

Fig. 10A is a schematic structural view of a second accessory case 300 provided in an embodiment of the present application. Fig. 10B is an exploded structural view of a second accessory case 300 provided in an embodiment of the present application.

As shown in fig. 10A and 10B, in some embodiments, a third fitting box 303 is disposed above the second fitting box 302, and two opposing through-holes 3032 of the third fitting box 303 are each in communication with the third receiving cavity 306, so that a counterpart of a small fitting contained in the third fitting box 303 extends into the third receiving cavity 306. The size of the third set box 303 is smaller than the size of the second set box 302.

Referring again to fig. 6B, a second groove (307 a, 307B) is further formed in the side wall of the first component box 301 where the first groove (305 a, 305B) is formed, the opening direction is the direction from the inside to the outside of the first component box 301, and the second groove (307 a, 307B) is located in the first groove (305 a, 305B). Two opposing second recesses (307 a, 307 b) form a fourth accommodating chamber (lower two-dot chain line frame corresponding region in fig. 10A) 308 in the third accommodating chamber 306, the fourth accommodating chamber 308 being for placing the third accessory box 303. The third fitting box 303 is used for dividing the third accommodating cavity 306 into a plurality of accommodating spaces of different sizes, and fitting of an adaptive size is placed by using the accommodating spaces of different sizes.

Illustratively, in connection with what is shown in fig. 8B, the second accessory case 300 may have four receiving spaces: the two accommodation spaces (304 a, 304 b) formed in the first set 301 by the second set 302, the accommodation space 304a divided by the third set 303 in the third accommodation chamber 306 (space corresponding to the fourth accommodation chamber 308 (lower-side dotted line frame corresponding area in fig. 10A), the remaining space after the fourth accommodation chamber 308 is removed by the third accommodation chamber 306), and the accommodation space 304c corresponding to the remaining area in the second accommodation chamber 304 formed by the first set 301.

The space corresponding to the fourth accommodating cavity 308 can be used for accommodating a medium-sized adapter, such as a 65W adapter; the remaining space of third receiving cavity 306, excluding fourth receiving cavity 308, may house a medium adapter, such as a 135W adapter; the accommodation space 304c may house an independent power cord; the receiving space 304b may house an extended power cord.

For the accessory box 300, the accessory box 300 can be provided with accommodating spaces with different sizes by adopting different matching schemes based on the sizes of the product accessories, and then the product accessories with different sizes can be placed, so that different product accessories can be separated, the limiting effect can be achieved, and damage caused by shaking is avoided.

In the multi-size package provided in the embodiment of the present application, the liner 200 is disposed at the bottom 102 of the outer package 100, where the liner 200 includes a first liner 201 and at least one second liner 202, and the first liner 201 has a first accommodating cavity 204. Depending on the size of the product, a different number of second liners 202 of different sizes are disposed at different locations of the first receiving cavity 204. The size of the placement slot of the first accommodating cavity 204 is adjusted by using the second liners 202 with different numbers and different sizes, so that the size of the placement slot is matched with the size of the product, and the product with the matched size is placed by using the placement slot after the size adjustment. Meanwhile, for a product to which the accessory is attached, the accessory box 300 may be further provided at one side of the liner 200, and the accessory box 300 may include sub-accessory boxes (301, 302, and 303) of different sizes and shapes. The kit 300 is assembled by collocation using different sub-kit boxes based on the sizes of different accessories, so that the kit 300 can place different sized product accessories. Therefore, the multi-size packaging box can be compatible with products with different sizes and product accessories with different sizes, is very convenient, and can also reduce the cost; and the size of each placing groove position is matched with the size of the placed product, so that products with different sizes can be limited to avoid shaking, and the products are prevented from being damaged.

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

It is to be understood that the present application 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 application is limited only by the appended claims.

Claims

1. A multi-sized package, comprising:

the outer packaging box (100) comprises a box cover (101) and a box bottom (102), wherein the box cover (101) and the box bottom (102) are buckled together to form a closed cavity (103);

inside lining (200), inside lining (200) set up in seal cavity (103), inside lining (200) include first inside lining (201) and at least one second inside lining (202), first inside lining (201) set up in box bottom (102), first inside lining (201) have first holding cavity (204), at least one second inside lining (202) set up according to different regulations in first holding cavity (204), at least one second inside lining (202) are used for the adjustment first accommodation space size who holds cavity (204).

2. The multi-size package of claim 1, wherein a top surface of the second liner (202) is lower than a top surface of the first liner (201) or wherein a top surface of the second liner (202) is flush with a top surface of the first liner (201).

3. The multi-size package according to claim 2, wherein the at least one second liner (202) comprises at least one transverse spacer bar (2021) and/or at least one longitudinal spacer bar (2022);

at least one transverse parting bead (2021) is arranged in the first liner (201) along the length direction of the first liner (201), and the length of the transverse parting bead (2021) is smaller than or equal to the inner cavity length of the first liner (201);

at least one longitudinal parting bead (2022) is arranged in the first liner (201) along the width direction of the first liner (201), and the length of the longitudinal parting bead (2022) is smaller than or equal to the inner cavity width of the first liner (201).

4. A multi-sized package according to claim 3, wherein at least one of the transverse bars (2021) is the same size or at least one of the transverse bars (2021) is different in size;

at least one of the longitudinal bars (2022) is the same size or at least one of the longitudinal bars (2022) is different in size.

5. The multi-size package of claim 4, wherein the liner (200) further comprises a third liner (203);

the third lining (203) covers the upper portion of the first lining (201) to form a closed first accommodating cavity (204), and the third lining (203) is located below the box cover (101) in a buckling state.

6. The multi-size package of any one of claims 1-5, further comprising: a kit (300);

the accessory box (300) and the lining (200) are arranged in the closed cavity (103) side by side.

7. The multi-size package of claim 6, wherein the kit (300) comprises a first kit (301) and a second kit (302);

the first accessory box (301) is arranged in the box bottom (102), and the first accessory box (301) is positioned on one side of the first lining (201);

the first accessory box (301) is provided with a second accommodating cavity (304), the second accessory box (302) is arranged in the second accommodating cavity (304), and the second accessory box (302) is used for dividing the second accommodating cavity (304) into a plurality of accommodating spaces.

8. The multi-size package according to claim 7, wherein two opposite side walls of the first accessory box (301) are respectively provided with a first groove (305 a, 305 b), and two opposite first grooves (305 a, 305 b) form a third accommodating cavity (306) in the second accommodating cavity (304), and the third accommodating cavity (306) is used for accommodating the second accessory box (302).

9. The multi-size package of claim 8, wherein the kit (300) further comprises a third kit (303);

the third accessory box (303) is arranged in the third accommodating cavity (306), and the third accessory box (303) is used for dividing the third accommodating cavity (306) into a plurality of accommodating spaces.

10. The multi-size package according to claim 9, wherein two opposing first grooves (305 a, 305 b) are each provided with a second groove (307 a, 307 b), the two opposing second grooves (307 a, 307 b) forming a fourth receiving cavity (308) within the third receiving cavity (306), the fourth receiving cavity (308) being for placing the third accessory box (303).