CN112239000A - Partition structure and packing carton - Google Patents

Abstract

The invention provides a packing box which comprises an outer box and a partition plate structure, wherein the partition plate structure comprises a body and a plurality of partition plates. The body comprises a first side plate, a second side plate, a third side plate and a fourth side plate, wherein the first side plate, the second side plate, the third side plate and the fourth side plate are sequentially arranged and are mutually and foldably connected. One side of the first side plate, which is far away from the second side plate, is provided with a plug-in part. The side of the fourth side plate, which is far away from the third side plate, is provided with a jack, and the insertion part of the first side plate is correspondingly buckled in the jack of the fourth side plate to form a surrounding space. The second side plate and the fourth side plate are respectively provided with a plurality of precut parts which correspond to each other in position. One side of each partition plate is provided with two slot parts, and the positions of the slot parts respectively correspond to the positions of the plurality of precutting parts of the second side plate and the fourth side plate, so that the plurality of partition plates are inserted into the second side plate and the fourth side plate to divide the surrounding space into a plurality of compartments.

Description

Partition structure and packing carton

Technical Field

The present invention relates to a partition structure and a packing box, and more particularly, to a partition structure capable of partitioning a plurality of spaces in a packing box.

Background

In the market, no matter what kind of product is used, a packing box is needed, and the packing box can pack the product therein, so that the product is convenient to transport and store. In order to be suitable for different products, such packages are usually divided into different compartments on their internal structure. The internal compartment is usually formed by gluing or clamping a plurality of different sheets of paper to separate the internal space of the package.

However, because the internal compartment is formed by gluing or snapping a plurality of different sheets of paper, the assembly step is time-consuming and labor-intensive, and is inconvenient to operate, and the operator cannot use a single hand to remove or insert all of the sheets from or into the package.

Therefore, it is an important subject to provide a partition structure with easy operation and simple assembly steps, which is used for a packing box, can separate the space inside the packing box, and can be used for placing different products or can stack the products orderly so as to properly utilize the space.

Disclosure of Invention

In view of the above-mentioned problems, it is an object of the present invention to provide a diaphragm structure which is easy to handle and simple in assembly process, and which includes a body integrally formed, and which is simple in assembly process and enables an operator to move the entire diaphragm structure with one hand, as compared with the prior art. In addition, by means of the design of the body of the partition plate structure and the partition plates, the space in the packaging box can be partitioned, so that the space in the packaging box can be adjusted corresponding to different products, and the space utilization in the packaging box is further improved.

To achieve the above object, the present invention provides a partition structure for a pack. The partition structure comprises a body and a plurality of partitions. The body comprises a first side plate, a second side plate, a third side plate and a fourth side plate. The first side plate, the second side plate, the third side plate and the fourth side plate are sequentially arranged and are connected with each other in a foldable manner. The first side plate is provided with an inserting part, and the inserting part is arranged on one side of the first side plate, which is far away from the second side plate. The fourth side plate is provided with a jack, and the jack is arranged on one side of the fourth side plate, which is far away from the third side plate. The inserting part of the first side plate is correspondingly buckled in the inserting hole of the fourth side plate to form a surrounding space. The second side plate and the fourth side plate are respectively provided with a plurality of precut parts corresponding to each other in position. One side of each partition plate is provided with two slot parts, and the positions of the slot parts of each partition plate respectively correspond to the positions of the precutting parts of the second side plate and the fourth side plate, so that the partition plates are inserted into the second side plate and the fourth side plate to divide the surrounding space into a plurality of compartments.

In an embodiment of the present invention, at the folding connection portion of the first side plate and the second side plate, at least one first buffer portion is convexly disposed on the first side plate and/or the second side plate.

In an embodiment of the invention, at least one second buffer portion is protruded from the second side plate and/or the third side plate at the folding connection position of the second side plate and the third side plate.

In an embodiment of the invention, at the folding connection position of the third side plate and the fourth side plate, at least one third buffer portion is convexly arranged on the third side plate and/or the fourth side plate.

In an embodiment of the invention, at the junction of the first side plate and the fourth side plate, the fourth side plate is convexly provided with at least one fourth buffering portion.

In an embodiment of the invention, at the folding joint of the first side plate and the second side plate, the second side plate is convexly provided with two first buffering parts, and the first side plate is convexly provided with one first buffering part and is positioned between the plurality of first buffering parts convexly arranged from the second side plate.

In an embodiment of the invention, at the folding connection between the second side plate and the third side plate, two second buffer portions are protruded from the second side plate, and a second buffer portion is protruded from the third side plate and located between the plurality of second buffer portions protruded from the second side plate.

In an embodiment of the invention, at the folding connection between the third side plate and the fourth side plate, two third buffer portions are protruded from the fourth side plate, and a third buffer portion is protruded from the third side plate and located between the plurality of third buffer portions protruded from the fourth side plate.

In one embodiment of the present invention, the body is formed by folding a single sheet.

The invention also provides a packing box, which comprises an outer box and the partition plate structure of any embodiment, wherein the partition plate structure is arranged in the outer box.

As mentioned above, the partition plate structure of the invention comprises the integrally formed body and the plurality of partition plates, so that the assembling steps are simple, and an operator can move the whole partition plate structure by one hand. In addition, by means of the design of the body of the partition plate structure and the partition plate, the space in the packaging box can be properly partitioned, so that the space in the packaging box can be adjusted corresponding to different products, and the space utilization in the packaging box is further improved.

Drawings

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

fig. 1A is a schematic plan view of a body of a spacer structure according to a first embodiment of the present invention.

Fig. 1B is a schematic folded state diagram of the body of fig. 1A.

Fig. 1C is an appearance schematic view of the body of fig. 1B after being folded.

Fig. 1D is an appearance schematic diagram of the body and the partition plate in fig. 1C.

Fig. 2A is a schematic plan view of a body of a spacer structure according to a second embodiment of the invention.

Fig. 2B is a schematic folded state diagram of the body of fig. 2A.

Fig. 2C is an appearance schematic view of the body of fig. 2B after being folded.

Fig. 2D is an appearance schematic diagram of the body and the partition plate in fig. 2C.

Fig. 3A is an external view of the packing box of the present invention.

FIG. 3B is an exploded view of the outer box and the partition structure of the packing box of FIG. 3A.

Fig. 3C is a schematic top view of the package of fig. 3A.

Detailed Description

The partition structure and the packing box according to the preferred embodiment of the present invention will be described below with reference to the accompanying drawings, in which like elements will be described with like reference numerals.

Referring to fig. 1A to 1D, fig. 1A is a schematic plan view of a body of a partition structure according to a first embodiment of the invention. Fig. 1B is a schematic folded state diagram of the body of fig. 1A. Fig. 1C is an appearance schematic view of the body of fig. 1B after being folded. Fig. 1D is an appearance schematic diagram of the body and the partition plate in fig. 1C. In the present embodiment, as shown in fig. 1D, the partition structure 1 includes a body 11 and a plurality of partitions 12.

As shown in fig. 1A, the components of the body 11 may be adhered or otherwise joined together in series or may be folded from a single sheet of material. The body 11 includes a first side plate 111, a second side plate 112, a third side plate 113 and a fourth side plate 114. The first side plate 111, the second side plate 112, the third side plate 113 and the fourth side plate 114 are sequentially arranged and foldably connected to each other. The first side plate 111 has an inserting portion 1111, and the inserting portion 1111 is disposed on a side of the first side plate 111 away from the second side plate 112. The fourth side plate 114 has a plug hole 1141, and the plug hole 1141 is disposed on a side of the fourth side plate 114 away from the third side plate 113. In detail, as shown in fig. 1A, the first side plate 111, the second side plate 112, the third side plate 113 and the fourth side plate 114 are sequentially arranged, the first side plate 111 and the second side plate 112 are foldably connected, the second side plate 112, the third side plate 113 and the first side plate 111 are foldably connected and are located between the third side plate 113 and the first side plate 111, and the third side plate 113, the fourth side plate 114 and the second side plate 112 are foldably connected and are located between the fourth side plate 114 and the second side plate 112.

When folded, the inserting portion 1111 of the first side plate 111 is correspondingly buckled in the inserting hole 1141 of the fourth side plate 114 to form a surrounding space S (as shown in fig. 1C). In detail, as shown in fig. 1A, the first side plate 111, the second side plate 112, the third side plate 113, and the fourth side plate 114 may be adhered or otherwise connected in sequence or may be formed by a single plate. The first side panel 111, the second side panel 112, the third side panel 113 and the fourth side panel 114 are structurally divided by folding lines, the folding joint of the first side panel 111 and the second side panel 112 is represented by a first folding line 115, the folding joint of the second side panel 112 and the third side panel 113 is represented by a second folding line 116, and the folding joint of the third side panel 113 and the fourth side panel 114 is represented by a third folding line 117. When the first side panel 111, the second side panel 112, the third side panel 113 and the fourth side panel 114 are folded to form the main body 11, the folding is performed along the first folding line 115, the second folding line 116 and the third folding line 117 (as shown in fig. 1B). Then, the inserting portion 1111 is inserted into the inserting hole 1141 along the arrow L1 to form a surrounding space S, and finally, the fourth side plate 114 is folded along the dotted line near the inserting hole 1141 toward the first side plate 111, thereby completing the folding of the body 11 (as shown in fig. 1C). In particular, although the plugging portion 1111 is shown protruding from the fourth side plate 114 after being inserted into the insertion hole 1141, it can be folded to be parallel to the fourth side plate 114, and not protruding from the fourth side plate 114, which is not limited herein. The protruding structure of the outer surface of the folded body 11 can be used for buffering, as will be described later. Although one of the mating parts 1111 and one of the insertion holes 1141 are used as an example for illustration, the number of the mating parts 1111 and the insertion holes 1141 may be adjusted according to the user's requirement, the design of the partition structure 1 or the strength, and is not limited thereto.

Referring to fig. 1A and fig. 1D, in the present embodiment, the second side plate 112 and the fourth side plate 114 respectively have a plurality of precuts 118 corresponding to each other in position. One side of each partition plate 12 has two slot portions 121, and the positions of the slot portions 121 of each partition plate 12 respectively correspond to the positions of the precut portions 118 of the second side plate 112 and the fourth side plate 114, so as to insert the partition plates 12 into the second side plate 112 and the fourth side plate 114 to divide the surrounding space S into a plurality of compartments P (as shown in fig. 1C and 1D). For example, as shown in fig. 1A, each of the second side plate 112 and the fourth side plate 114 has four pre-cut portions 118, and the pre-cut portions 118 are located on the same side (the side facing upward as shown in the drawing), and after being folded, as shown in fig. 1D, the positions of the pre-cut portions 118 of the second side plate 112 and the fourth side plate 114 correspond to each other. One side of each partition plate 12 has two slot portions 121, the positions of the slot portions 121 correspond to the positions of the precut portions 118 of the second side plate 112 and the fourth side plate 114, and the four partition plates 12 can be inserted into the second side plate 112 and the fourth side plate 114, so that the surrounding space S (the space inside the folded body 11) forms five compartments P. In particular, the number of precuts 118 and partitions 12 can be adjusted according to the number of compartments P to be partitioned, without limitation. In addition, since the position of the slot 121 of the partition plate 12 corresponds to the position of the precut part 118 of the second side plate 112 and the fourth side plate 114, the width of the partition plate 12 is larger than that of the first side plate 111 and the third side plate 113, and when the partition plate 12 is inserted into the second side plate 112 and the fourth side plate 114, the partition plate will protrude from the second side plate 112 and the fourth side plate 114 (as shown in fig. 1D).

Referring to fig. 2A to 2D, fig. 2A is a schematic plan view of a body of a partition structure according to a second embodiment of the invention. Fig. 2B is a schematic folded state diagram of the body of fig. 2A. Fig. 2C is an appearance schematic view of the body of fig. 2B after being folded. Fig. 2D is an appearance schematic diagram of the body and the partition plate in fig. 2C.

In the present embodiment, the partition structure 1 'includes a body 11' and a plurality of partitions 12. As shown in FIG. 1A, the components of the body 11' may be adhered or otherwise joined together in sequence or may be folded from a single sheet of material. The body 11 ' includes a first side plate 111 ', a second side plate 112 ', a third side plate 113 ' and a fourth side plate 114 '. The first side plate 111 ', the second side plate 112', the third side plate 113 'and the fourth side plate 114' are sequentially arranged and foldably connected to each other. The first side plate 111 'has an inserting portion 1111', the inserting portion 1111 'is disposed on a side of the first side plate 111' away from the second side plate 111 ', the fourth side plate 114' has a plug hole 1141 ', and the plug hole 1141' is disposed on a side of the fourth side plate 114 'away from the third side plate 113'. The inserting portion 1111 'of the first side plate 111' is correspondingly buckled in the inserting hole 1141 'of the fourth side plate 114' to form a surrounding space S. The fold connection of the first side panel 111 ' to the second side panel 112 ' is indicated by a first fold line 115 ', the fold connection of the second side panel 112 ' to the third side panel 113 ' is indicated by a second fold line 116 ', and the fold connection of the third side panel 113 ' to the fourth side panel 114 ' is indicated by a third fold line 117 '. In particular, the diaphragm structure 1 'is substantially the same in structure, assembly and function as the diaphragm structure 1 of the first embodiment, and differs only in the cushioning structure of the body 11'.

In detail, in the present embodiment, at the folding connection position (as shown by the first folding line 115 ' in fig. 2A) of the first side plate 111 ' and the second side plate 112 ', at least one first buffer portion B1 may be protruded from the first side plate 111 ' and/or the second side plate 112 '. At the folding connection position (as shown by the second folding line 116 ' in fig. 2A) of the second side panel 112 ' and the third side panel 113 ', at least one second buffer portion B2 may be protruded from the second side panel 112 ' and/or the third side panel 113 '. At the folding joint of the third side panel 113 ' and the fourth side panel 114 ' (at the position shown by the third folding line 117 ' in fig. 2A), at least one third buffer portion B3 may be protruded from the third side panel 113 ' and/or the fourth side panel 114 '. At the junction of the first side plate 111 ' and the fourth side plate 114 ', the fourth side plate 114 ' is convexly provided with at least one fourth buffering portion B4. Here, the case where three first buffer portions B1 are provided at the folding joint (at the first folding line 115 ') between the first side panel 111 ' and the second side panel 112 ', three second buffer portions B2 are provided at the folding joint (at the second folding line 116 ') between the second side panel 112 ' and the third side panel 113 ', three second buffer portions B3 are provided at the folding joint (at the third folding line 117 ') between the third side panel 113 ' and the fourth side panel 114 ', and one fourth buffer portion B4 is provided at the boundary between the first side panel 111 ' and the fourth side panel 114 ' will be described in detail later.

For example, at the folding connection (the first folding line 115 ') between the first side plate 111' and the second side plate 112 ', two first buffering portions B1 are protruded from the second side plate 112', and a first buffering portion B1 is protruded from the first side plate 111 'and is located between the first buffering portions B1 protruded from the second side plate 112'. At the folding connection position (the second folding line 116 ') of the second side panel 112 ' and the third side panel 113 ', the second side panel 112 is protruded with two second buffering portions B2, and the third side panel 113 ' is protruded with one second buffering portion B2 and located between the plurality of second buffering portions B2 protruded from the second side panel 112 '. At the folding joint (the third folding line 117 ') of the third side panel 113' and the fourth side panel 114 ', two third buffer portions B3 are protruded from the fourth side panel 114', and a third buffer portion B3 is protruded from the third side panel 113 'and is located between the third buffer portions B3 protruded from the fourth side panel 114'.

When the first side panel 111 ', the second side panel 112', the third side panel 113 'and the fourth side panel 114' are folded to form the main body 11 ', the main body is folded along the first folding line 115', the second folding line 116 'and the third folding line 117' (as shown in fig. 2B). Next, the inserting portion 1111 ' is inserted into the inserting hole 1141 ' along the arrow L2, and the folding of the body 11 ' is completed to form a surrounding space S (as shown in fig. 2C). Specifically, the insertion part 1111 ' protrudes from the fourth side plate 114 ' after being inserted into the insertion hole 1141 '; at the junction between the fourth side plate 114 ' and the first side plate 111 ', after the insertion part 1111 ' is inserted into the insertion hole 1141 ', a part of the structure (the fourth buffer part B4) of the fourth side plate 114 ' protrudes from the first side plate 111 ', and the structure near the insertion part 1111 ' of the first side plate 111 ' is folded outwards and abuts against the fourth buffer part B4, so as to reinforce the strength of the fourth buffer part B4 and avoid affecting the surrounding space S (the space in the body 11 '); the first buffer portion B1, the second buffer portion B2 and the third buffer portion B3 are also protruded from the outer surface of the body 11'. The structures protruding from the outer surface of the folded body 11 ' include the insertion portion 1111 ', the first buffer portion B1, the second buffer portion B2, the third buffer portion B3 and the fourth buffer portion B4 for providing a buffering function, so as to prevent the product installed in the body 11 ' from being damaged due to collision. In addition, the width and shape of the protruding outer surface of the folded main body 11 'of the insertion part 1111', the first buffer part B1, the second buffer part B2, the third buffer part B3 and the fourth buffer part B4 can be adjusted according to the type of the packaged product or the matched outer box, so as to provide a good buffering effect. Moreover, the structure near the insertion portion 1111 ' of the first side plate 111 ' is folded outwards to abut against the fourth buffering portion B4, so that the strength of the fourth buffering portion B4 can be enhanced, and the surrounding space S (the space in the body 11 ') can be prevented from being affected.

In the present embodiment, the second side plate 112 ' and the fourth side plate 114 ' respectively have a plurality of pre-cut portions 118 ' corresponding to each other in position. One side of each partition plate 12 has two slot portions 121, and the positions of the slot portions 121 of each partition plate 12 respectively correspond to the positions of the precut portions 118 ' of the second side plate 112 ' and the fourth side plate 114 ', so as to insert the partition plates 12 into the second side plate 112 ' and the fourth side plate 114 ' to divide the surrounding space S into a plurality of compartments P. For example, as shown in fig. 2A, each of the second side plate 112 'and the fourth side plate 114' has four pre-cut portions 118 'and are located on the same side (the side facing upward in the drawing), and after being folded, as shown in fig. 2D, the pre-cut portions 118' of the second side plate 112 'and the fourth side plate 114' are located corresponding to each other. The partition plate 12 has two slot portions 121 on one side, the slot portions 121 are disposed corresponding to the precut portions 118 ' of the second side plate 112 ' and the fourth side plate 114 ', and the four partition plates 12 can be inserted into the second side plate 112 ' and the fourth side plate 114 ', so as to divide the surrounding space S into five compartments P. In particular, the number of precuts 118' and the partition plates 12 can be adjusted according to the needs of the user, and is not limited herein. In addition, since the position of the slot 121 of the partition plate 12 corresponds to the position of the precut part 118 'of the second side plate 112' and the fourth side plate 114 ', the width of the partition plate 12 is greater than that of the first side plate 111' and the third side plate 113 ', and when the partition plate 12 is disposed between the second side plate 112' and the fourth side plate 114 ', the partition plate may protrude from the second side plate 112' and the fourth side plate 114 '(as shown in fig. 2D), and the protruding structure may also be used for buffering, so as to prevent the product mounted in the body 11' from being damaged due to collision.

Referring to fig. 3A to 3C, fig. 3A is an appearance schematic diagram of the packing box of the present invention. FIG. 3B is an exploded view of the outer box and the partition structure of the packing box of FIG. 3A. Fig. 3C is a schematic top view of the package of fig. 3A. In this embodiment, the present invention provides a packing box 100, which includes an outer box 2 and a partition structure 1 'as described in the previous embodiments, wherein the partition structure 1' is disposed in the outer box 2. In detail, as shown in fig. 3B, after the partition structure 1 'is folded and formed, the partition structure 1' is placed in the outer box 2 (as shown in fig. 3A), and at this time, referring to fig. 3A and fig. 3C, the structure protruding from the outer surface of the main body 11 'includes the insertion portion 1111', the first buffer portion B1, the second buffer portion B2, the third buffer portion B3, the fourth buffer portion B4 and the partition plate 12, which can be used to tightly fix the partition structure 1 'in the outer box 2, thereby providing not only the buffering function, but also the fixing function, so as to prevent the product installed in the partition structure 1' from being damaged due to collision. In particular, although the partition structure 1' is exemplified herein, the partition structure 1 may be disposed in the outer box 2.

Referring to fig. 2A to fig. 3B, the process of setting the packing box 100 is described.

First, as shown in fig. 2A, when the first side panel 111 ', the second side panel 112 ', the third side panel 113 ' and the fourth side panel 114 ' are folded to form the main body 11 ', the main body 11 ' is folded along the first folding line 115 ', the second folding line 116 ' and the third folding line 117 ' to form a folded state as shown in fig. 2B. Next, as shown in fig. 2B, the inserting portion 1111 'is inserted into the inserting hole 1141' along the direction of the arrow L2, and the folding of the body 11 'is completed to form a surrounding space S, at which the body 11' assumes the folded state shown in fig. 2C.

Next, as shown in fig. 2D, the partition plate 12 and the body 11 'are assembled to form the partition plate structure 1'. In detail, the positions of the plurality of slot portions 121 of the partition plate 12 are inserted corresponding to the positions of the plurality of precut portions 118 ' of the second side plate 112 ' and the fourth side plate 114 ', respectively, so as to divide the surrounding space S into a plurality of compartments P.

Finally, as shown in fig. 3B, the assembled partition structure 1' is placed in the outer box 2 to complete the assembly of the package box 100 (as shown in fig. 3A). In particular, the partition structure 1 'can be replaced by the partition structure 1, the number of the partitions 12 and the precut portions 118' can be adjusted according to the number of the required compartments P, and the number, width and shape of the buffering structures protruding from the body 11 'of the partition structure 1' can be adjusted according to the type of the packaged product or the matched outer box, so as to provide a good buffering effect.

The material of the partition board structures 1 and 1' and the packing box 100 may be, for example, but not limited to, corrugated paper, plastic sheet, metal sheet, acrylic sheet, cardboard, or a combination thereof, and the combination type means that the board may be formed by a plurality of materials (for example, the corrugated paper is combined with the acrylic sheet to make the board have the strength of the corrugated paper and the acrylic sheet), and the material may be properly selected according to the product contained in the packing box 100, the design of the product, or the cost of the product. For example, the precise electronic machine is made of firm corrugated paper, the expensive hanging ornament is made of glossy metal sheet, and the daily necessities are made of transparent plastic sheet, without limitation.

In summary, the partition structure 1, 1 ' of the present invention includes the main body 11, 11 ' and the plurality of partitions 12, so that the assembling steps are simple, and the operator can move the whole partition structure 1, 1 ' with one hand. In addition, by the design of the main bodies 11, 11 'and the partition plate 12 of the partition plate structures 1, 1', the space inside the packing box 100 can be properly partitioned to adjust the space inside the packing box 100 according to different products, thereby improving the space utilization inside the packing box 100. Furthermore, by the design of the buffer structures protruding from the main bodies 11, 11 ' of the partition structures 1, 1 ', the partition structures 1, 1 ' can be tightly fixed in the outer box 2 of the packing box 100, and provide buffering and fixing functions to prevent the products in the packing box 100 from being damaged due to collision.

Although the present invention has been described with respect to the preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A partition structure for a package, the partition structure comprising:

a body, including a first side plate, a second side plate, a third side plate and a fourth side plate, the first side plate, the second side plate, the third side plate and the fourth side plate are arranged in sequence and connected with each other in a foldable manner, the first side plate has an insertion part, the insertion part is arranged at one side of the first side plate far away from the second side plate, the fourth side plate has a jack, the jack is arranged at one side of the fourth side plate far away from the third side plate, the insertion part of the first side plate is correspondingly buckled in the jack of the fourth side plate to form a surrounding space, and the second side plate and the fourth side plate are respectively provided with a plurality of precutting parts with mutually corresponding positions; and

the partition plates are inserted into the second side plate and the fourth side plate to divide the surrounding space into a plurality of compartments.

2. The partition structure of claim 1, wherein at least one first buffer portion is protruded from the first side plate and/or the second side plate at the folding joint of the first side plate and the second side plate.

3. The partition structure of claim 2, wherein at least one second buffer portion is protruded from the second side plate and/or the third side plate at the folding connection of the second side plate and the third side plate.

4. The partition structure of claim 3, wherein at least one third buffer portion is protruded from the third side plate and/or the fourth side plate at the folding connection of the third side plate and the fourth side plate.

5. The partition structure of claim 4, wherein at least a fourth buffer portion is protruded from the fourth side plate at the junction of the first side plate and the fourth side plate.

6. The partition structure according to claim 2, wherein two first buffering portions are protruded from the second side plate at the folding joint of the first side plate and the second side plate, and the first buffering portion is protruded from the first side plate and is located between the plurality of first buffering portions protruded from the second side plate.

7. The partition structure according to claim 3, wherein two second buffer portions are protruded from the second side plate at the folding connection of the second side plate and the third side plate, and the third side plate is protruded with one second buffer portion and is located between the plurality of second buffer portions protruded from the second side plate.

8. The partition structure according to claim 4, wherein two third buffer portions are protruded from the fourth side panel at the folding connection of the third side panel and the fourth side panel, and the third side panel is protruded with one third buffer portion and located between the plurality of third buffer portions protruded from the fourth side panel.

9. The baffle structure of claim 1 wherein the body is folded from a single sheet of material.

10. A package, characterized in that it comprises:

an outer box; and

a partition structure according to any one of claims 1 to 9, disposed within the outer casing.

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