CN108861082B - Packaging buffer structure and packaging container with same - Google Patents

Abstract

The invention discloses a packaging buffer structure and a packaging container with the same. The partition board comprises a main body part, a supporting part and an overturning part. The supporting part is connected with the main body part. A first kinked line is arranged between the main body part and the supporting part. The supporting part can be folded along a first bending direction from the first bending line so as to enable the supporting part to face the main body part. The turnover part is connected with the supporting part. The main body part and the turnover part are positioned at two opposite sides of the supporting part. A second kinked line is arranged between the turning part and the supporting part. The turnover part can be turned over along the second bending direction from the second bending line so as to enable the turnover part to face the supporting part. The first kinking direction is different from the second kinking direction. The spacing body is positioned on the main body part or the supporting part. After the supporting part is folded along the first bending direction from the first bending line, the separating body is positioned between the main body part and the supporting part. The buffer body is positioned on the overturning part.

Description

Packaging buffer structure and packaging container with same

Technical Field

The present invention relates to a packaging cushioning structure and a packaging container having the same, and more particularly, to a packaging cushioning structure suitable for packaging and picking and placing a plurality of plate-shaped bodies and a packaging container having the same.

Background

Generally, products need to be boxed for transportation and storage during the manufacturing process, storage and shipment. In order to save the amount of the box body and meet the trend of environmental protection, a plurality of partition plates are usually arranged in a single box body. The partitions are arranged in parallel and spaced apart. The partition plate divides the space in the box body into a plurality of compartments. Through the addition of the partition boards, one box body can be provided with a plurality of compartments, so that a plurality of articles (such as a base plate, a panel, a tablet computer or the same or similar plate-shaped bodies) can be accommodated.

However, the articles are sometimes difficult to remove due to van der Waals or electrostatic forces between the objects (e.g., between the articles in the box or between the articles and the partition). Sometimes to facilitate removal, it is common practice to increase the distance between the objects. However, it also reduces the space utilization of the box and additionally increases the cost of storing and packaging the containers.

Disclosure of Invention

The invention provides a packaging buffer structure which is suitable for placing a plurality of plate-shaped bodies on the packaging buffer structure and is convenient to take and place.

The invention provides a packaging container which is suitable for placing a plurality of plate-shaped bodies in the packaging container and is convenient to take and place.

The invention discloses a packaging buffer structure which comprises a partition board, at least one first spacing body and at least one first buffer body. The partition board comprises a main body part, at least one first supporting part and at least one first overturning part. The first supporting part is connected with the main body part. A first kinked line is arranged between the main body part and the first supporting part. The first supporting portion can be folded from the first folding line along the first folding direction so that the first supporting portion faces the main body portion. The first turnover part is connected with the first supporting part. The main body part and the first turnover part are positioned at two opposite sides of the first supporting part. Second kinking lines are arranged between the first turning part and the first supporting part, wherein the first turning part can be turned over along the second kinking direction from the second kinking lines so as to enable the first turning part to face the first supporting part. The first kinking direction is different from the second kinking direction. The first spacer is located main part or first supporting part, and turns over first supporting part from first stubborn broken line along first stubborn folding direction back, and first spacer is located between main part and the first supporting part. The first buffer body is positioned on the first overturning part.

A packaging container of the present invention is adapted to package a plurality of plate-like bodies. The packaging container comprises a box body and at least one packaging buffer structure. The box body is provided with a plurality of side surfaces and a bottom surface, and the side surfaces and the bottom surface form an accommodating space. The accommodating space is used for accommodating the plate-shaped body. The packaging buffer structure is configured in the accommodating space in a mode of a first kinked state or a second kinked state. The first kinked state is that the main body part is perpendicular to the bottom surface, the first supporting part is turned over from the first kinked line so that the first supporting part faces the main body part, the first spacing body is located between the main body part and the first supporting part, and the main body part and/or the first supporting part abut against the bottom surface of the box body so that the main body part and the first supporting part are suitable for supporting one of the plate-shaped bodies. The second kinked state is that the main part is perpendicular to the bottom surface, the first supporting part is folded from the first kinked line so that the first supporting part faces the main part, the first spacing body is positioned between the main part and the first supporting part so that the main part and the first supporting part are suitable for supporting one of the plate-shaped bodies, the first overturning part is folded from the second kinked line so that the first overturning part faces the first supporting part, and the first overturning part and/or the first buffer body props against the bottom surface of the box body so that the first overturning part and the first buffer body are suitable for supporting the other of the plate-shaped bodies.

The packaging container comprises a box body, at least one first packaging buffer structure and at least one second packaging buffer structure. The box body is provided with a plurality of side surfaces and a bottom surface, and the side surfaces and the bottom surface form an accommodating space. The first package buffer structure comprises a first clapboard, a first spacing body and a first buffer body. The first partition board comprises a first main body part, a first supporting part and a first turnover part. First supporting part is connected with first main part, and has first stubborn broken line between first main part and the first supporting part, and wherein first supporting part can be rolled over along first stubborn folding line from first stubborn broken line to make first supporting part face the main part. First upset portion is connected with first supporting part, and the main part is located the double-phase offside of first supporting part with first upset portion, and has the second stubborn broken line between first upset portion and the first supporting part, and wherein first upset portion can be rolled over along the second stubborn direction from the second stubborn broken line to make first upset portion face first supporting part, and first stubborn direction is different from the second stubborn direction. The first spacer is located main part or first supporting part, and turns over first supporting part from first stubborn broken line along first stubborn folding direction back, and first spacer is located between main part and the first supporting part. The first buffer body is positioned on the first overturning part. The second packaging buffer structure comprises a second partition plate, a plurality of second partition bodies and a plurality of second buffer bodies. The second partition board comprises a second main body part, a plurality of second supporting parts and a plurality of second overturning parts. These second supporting parts are connected with the second main part, and have a third stubborn broken line between second main part and these second supporting parts, and wherein these second supporting parts can be rolled over along third stubborn folding line from third stubborn broken line to make these second supporting parts face the second main part, and first stubborn direction is the same as third stubborn folding direction. A plurality of second upset portions are connected with these second supporting parts, and the main part is located the double-phase offside of these second supporting parts with these second upset portions, and has fourth stubborn broken line between these second upset portions and these second supporting parts, and wherein these second upset portions can be rolled over along fourth stubborn folding direction from fourth stubborn broken line to make these second upset portions face these second supporting parts, and the third stubborn folding direction is different from fourth stubborn folding direction. The plurality of second spacing bodies are positioned on the second main body part or the second supporting parts, and after the second supporting parts are folded along the third bending direction from the third bending line, the second spacing bodies are positioned between the second main body part and the second supporting parts. The second buffer bodies are positioned on the second overturning parts. The first package buffer structure is arranged in the accommodating space in a mode that the first main body part is vertical to the bottom surface, the second package buffer structure is arranged in the accommodating space in a mode that the second main body part is vertical to the bottom surface, the first package buffer structure and the second package buffer structure are arranged in a staggered mode, and on any side surface, the first supporting part and the second supporting parts are not overlapped.

The packaging container comprises a box body and a plurality of packaging buffer structures. The box body is provided with a plurality of side surfaces and a bottom surface, and the side surfaces and the bottom surface form an accommodating space. Each packaging buffer structure comprises a partition plate, a first spacing body, a first buffer body, a plurality of second spacing bodies and a plurality of second buffer bodies. The baffle includes main part, first supporting part, first upset portion, a plurality of second supporting part and a plurality of second upset portion. First supporting part is connected with the main part, and has first stubborn broken line between main part and the first supporting part, and wherein first supporting part can be rolled over along a first stubborn direction from first stubborn broken line to make first supporting part face the main part. First upset portion is connected with first supporting part, and the main part is located the double-phase offside of first supporting part with first upset portion, and has the second stubborn broken line between first upset portion and the first supporting part, and wherein first upset portion can be rolled over along the direction of a second stubborn book from the second stubborn broken line to make first upset portion face first supporting part, and first stubborn book direction is different from the direction of second stubborn book. These second supporting parts are connected with the main part, and have a third stubborn broken line between main part and these second supporting parts, and wherein these second supporting parts can be rolled over along a third stubborn direction from third stubborn broken line to make these second supporting parts face the main part, and first stubborn direction is different from third stubborn direction. These second upset portions are connected with these second supporting parts, and the main part is located the double-phase offside of these second supporting parts with these second upset portions, and has fourth stubborn broken line between these second upset portions and these second supporting parts, and wherein these second upset portions can be rolled over along a fourth stubborn direction from fourth stubborn broken line to make these second upset portions face these second supporting parts, and the third stubborn direction is different from the fourth stubborn direction. The first spacer is located main part or first supporting part, and turns over first supporting part from first stubborn broken line along a first stubborn folding direction back, and first spacer is located between main part and the first supporting part. The first buffer body is positioned on the first overturning part. The second spacing bodies are positioned on the main body part or the second supporting parts, and after the second supporting parts are folded along a third folding direction from the third folding line, the second spacing bodies are positioned between the main body part and the second supporting parts. The second buffer bodies are positioned on the second turnover parts. Each packaging buffer structure is arranged in the accommodating space in a mode that the main body part is vertical to the bottom surface, and the directions of the packaging buffer structures are consistent.

Based on the above, the package buffer structure of the invention is suitable for placing a plurality of plate-shaped bodies thereon, and is convenient to take and place. The packaging container can be suitable for placing a plurality of plate-shaped bodies in the packaging container, and is convenient to take and place.

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

Drawings

Fig. 1A to 1C are perspective views illustrating an assembling manner of a package cushioning structure according to a first embodiment of the present invention;

fig. 2A to 2C are perspective views illustrating an application manner of a package cushioning structure according to a first embodiment of the present invention;

FIGS. 3A to 3C are schematic side views illustrating an application of a packaging cushioning structure according to a first embodiment of the present invention;

FIG. 4 is a perspective view of a packaging container of an embodiment of the present invention in use;

FIG. 5A is a perspective view of a package cushioning structure according to a second embodiment of the present invention;

fig. 5B to 5C are perspective views illustrating a combined application of a package cushioning structure of a first embodiment and a package cushioning structure of a second embodiment according to the present invention;

FIG. 6A is a side view of the assembly of a package cushioning structure of a second embodiment of the present invention;

FIGS. 6B-6C are schematic side views of the combined application of a package cushioning structure of the first embodiment and a package cushioning structure of the second embodiment of the present invention;

fig. 7A to 7C are perspective views illustrating an application manner of a package cushioning structure according to a third embodiment of the present invention;

fig. 8A to 8C are schematic side views illustrating an application manner of a package cushioning structure according to a third embodiment of the present invention.

Description of the symbols

100: package buffer structure and first package buffer structure

200: second package buffer structure

300: package buffering structure

101: package buffer structure with first kinking state and first package buffer structure with first kinking state

102: packaging buffer structure with second kinking state and first packaging buffer structure with second kinking state

110: partition plate and first partition plate

110a, 110a1, 110a4, 110a 8: first side

110b, 110b4, 110b 8: second surface

210: second partition plate

111: main body part and first main body part

112: first kinked line

112 a: first bending direction

211: second main body part

212: the third kinked line

212a, 312 a: the third kinking direction

114: a first supporting part

114W: width of the first support part

214. 314: second supporting part

214W: width of the second support part

116: second kinked line

116 a: second kinking direction

216: the fourth kinked line

216a, 316 a: the fourth kinking direction

118: first turning part

118W: width of the first turning part

218. 318: second turnover part

218W: width of the second turning part

120: first spacer

120W: width of the first spacer

130: first buffer body

130W: width of the first buffer

220. 320, and (3) respectively: second spacer

230. 330: second buffer body

10: packaging container

10 a: containing space

11: box body

11 a: side surface

11 b: bottom surface

19 a: a first plate-shaped body

19 b: second plate-shaped body

19 c: third platelike body

19 d: the fourth plate-shaped body

D1, D2, D3, D4: height difference

Detailed Description

Fig. 1A to 1C are perspective views illustrating an assembly manner of a package cushioning structure according to a first embodiment of the present invention. Fig. 2A to 2C are perspective views illustrating an application manner of a package cushioning structure according to a first embodiment of the present invention. Fig. 3A to 3C are schematic side views illustrating an application manner of a package cushioning structure according to a first embodiment of the present invention. Fig. 4 is a schematic perspective view of an application of a packaging container according to an embodiment of the invention. Specifically, fig. 3A to 3C may be schematic side views of fig. 2A to 2C, respectively, and fig. 4 may be a schematic perspective view of an application manner of the packaging cushioning structure 100 of the first embodiment to the packaging container 10.

Referring to fig. 1A to fig. 1C, the package buffer structure 100 includes a spacer 110, a first spacer 120 and a first buffer 130. The partition 110 includes a body portion 111, a first support portion 114, and a first turnover portion 118. The first supporting portion 114 is connected to the main body portion 111, and a first kinked line 112 is formed between the main body portion 111 and the first supporting portion 114. The first turning part 118 is connected with the first supporting part 114, and a second folding line 116 is arranged between the first turning part 118 and the first supporting part 114. The body portion 111 and the first flipping portion 118 are located on opposite sides of the first support portion 114.

The separator 110 has a first face 110a and a second face 110b opposite to each other. The first kinking direction 112a (shown in fig. 3A) is different from the second kinking direction 116a (shown in fig. 3A). As shown in fig. 3A, in one side view direction, the first folding direction 112a is, for example, a counterclockwise direction and the second folding direction 116a is a clockwise direction opposite to the first folding direction 112a (or, in the other side view direction, the first folding direction 112a is a clockwise direction and the second folding direction 116a is a counterclockwise direction opposite to the first folding direction 112 a). The first support portion 114 can be folded in the first folding direction 112a from the first folding line 112 so that the first surface 110a4 of the first support portion 114 faces the first surface 110a1 of the main body portion 111. The first turned portion 118 can be folded along the second folding direction 116a from the second folding line 116 such that the second face 110b8 of the first turned portion 118 faces the second face 110b4 of the first support portion 114.

The first spacer 120 is located on the first surface 110a of the body 111 or the first surface 110a of the first supporting portion 114, and the width 120W of the first spacer 120 is substantially the same as the width 114W of the first supporting portion 114. After the first supporting portion 114 is folded from the first bending line 112 along the first bending direction 112a, the first separating body 120 may be located between the main body portion 111 and the first supporting portion 114. The first buffer 130 is located on the first side 110a8 of the first flip portion 118, and the first buffer 130 is far away from the second fold line 116. In this way, after the first supporting portion 114 is folded from the first bending line 112 along the first bending direction 112A, and the first turning portion 118 is folded from the second bending line 116 along the second bending direction 116a, a plate-shaped body (for example, the first plate-shaped body 19a shown in fig. 2A or fig. 3A) can be placed on the first separating body 120. Alternatively, after a plate is disposed on the first spacer 120, another plate (e.g., the second plate 19B shown in FIG. 2B or FIG. 3B) is further disposed on the first buffer 130.

In the present embodiment, the width 114W of the first supporting portion 114 is smaller than the width 118W of the first flipping portion 118, and the width 130W of the first buffer 130 is smaller than the width 118W of the first flipping portion 118. Therefore, after the first supporting portion 114 is folded from the first folding line 112 along the first folding direction 112a, and the first turning portion 118 is folded from the second folding line 116 along the second folding direction 116a, the second folding line 116 has a height difference D1 (shown in fig. 3C) with the side edge of the first buffer 130.

In the embodiment, the number of the first supporting parts 114, the number of the first flipping parts 118, the number of the first spacers 120, and the number of the first buffer bodies 130 are the same and are all one, but the invention is not limited thereto.

In the present embodiment, the partition 110 may be made of cardboard, plastic or other materials suitable for bending and cutting, but the invention is not limited thereto.

In the present embodiment, the partition 110 is integrally formed, but the present invention is not limited thereto.

In the embodiment, the first spacer 120 is, for example, a cardboard, a plastic board, a plastic cushion, a bubble cushion, a foam, or other suitable spacers, but the invention is not limited thereto. The partition 110 and the first spacer 120 may be fixed by an adhesive, but the present invention is not limited thereto.

In the present embodiment, the first buffer 130 is, for example, a cardboard, a plastic board, a plastic cushion, a bubble cushion, a foam, or other suitable buffer, but the invention is not limited thereto. The partition 110 and the first buffer 130 may be fixed by an adhesive, but the present invention is not limited thereto.

Referring to fig. 1A to fig. 4, after the package cushioning structures 100 are assembled, one or more package cushioning structures 100 may be placed in the box 11 to form the package container 10, and the package container 10 may package a plurality of identical or similar plate-shaped bodies. If the box 11 has a plurality of package cushioning structures 100, the directions of the package cushioning structures 100 may be the same, so as to prevent the first flipping portions 118 and/or the first cushioning bodies 130 of different package cushioning structures 100 from interfering with each other.

The box 11 has a plurality of side surfaces 11a and a bottom surface 11b, the side surfaces 11a and the bottom surface 11b form an accommodating space 10a, and the accommodating space 10a is used for accommodating one or more plate-shaped bodies 19a, 19 b. For clarity, some of the side and bottom portions of the box 11 are omitted from FIG. 4, but one skilled in the art can easily understand the appearance or structure of the box 11 through a common box (e.g., a carton). The package buffering structure 100 disposed in the box body 11 can be configured in the accommodating space 10a in a first folding state or a second folding state according to application requirements.

As shown in fig. 2A, 3A and 4, in the box body 11, the package cushioning structure 101 having the first kinked state is: the main body 111 is perpendicular to the bottom 11b of the box 11, and the first support 114 is folded from the first folding line 112 (shown in fig. 1A) such that the first support 114 faces the main body 111 and the first separating body 120 is located between the main body 111 and the first support 114. The main body 111 and/or the first supporting portion 114 abut against the bottom surface 11b of the box 11, so that the main body 111, the first supporting portion 114 and the first separating body 120 are suitable for supporting the first plate-shaped body 19 a.

Next, as shown in fig. 2B, 3B and 4, after the first plate-like body 19a is placed in the accommodating space 10a of the box 11, the second plate-like body 19B may be placed in the accommodating space 10a of the box 11. The body 111 of the package cushioning structure 100 having the first plate-like body 19a is appropriately lifted up so that the first inverted portion 118 can be turned in the second inverted direction 116a from the second inverted line 116 (shown in fig. 1A) so that the first inverted portion 118 faces the first support portion 114, by a moment generated by the weight of the second plate-like body 19b, so that the package cushioning structure 100 can have a corresponding second inverted state.

As shown in fig. 2C, fig. 3C and fig. 4, in the box body 11, the package buffer structure 102 having the second folded state is: the main body 111 is perpendicular to the bottom 11b of the box 11, the first support 114 is folded from the first folding line 112 (shown in fig. 1A) such that the first support 114 faces the main body 111, and the first separating body 120 is located between the main body 111 and the first support 114, such that the main body 111, the first support 114, and the first separating body 120 are suitable for supporting the first plate-shaped body 19 a. The first turnover part 118 is folded from the second folding line 116 (shown in fig. 1A) so that the first turnover part 118 faces the first supporting part 114, and the first turnover part 118 and/or the first buffer body 130 abut against the bottom surface 11b of the box body 11, so that the first turnover part 118 and the first buffer body 130 are suitable for supporting the second plate-shaped body 19 b.

As shown in fig. 2C, 3C and 4, the package cushioning structure 100 in the second kinked state has a height difference D1 from the lateral edge of the first cushioning body 130 due to the second kinked line 116 (shown in fig. 1A). In this way, if the first plate-like body 19a and the second plate-like body 19b have the same or similar dimensions, the first plate-like body 19a and the second plate-like body 19b can have the corresponding height difference D2, and thus can be taken properly.

The packaging cushioning structure used in the box 11 may have other designs to form other types of packaging containers, and the following description will be made with reference to fig. 4 to 7C for variations of the packaging cushioning structure.

Fig. 5A is a perspective view illustrating an assembly manner of a packaging cushioning structure according to a second embodiment of the present invention. Fig. 5B to 5C are perspective views illustrating a combined application of a package cushioning structure according to a first embodiment and a package cushioning structure according to a second embodiment of the present invention. Fig. 6A is a side view schematically illustrating an assembly manner of a packaging cushioning structure according to a second embodiment of the present invention. Fig. 6B to 6C are schematic side views illustrating a combined application of a package cushioning structure according to a first embodiment and a package cushioning structure according to a second embodiment of the present invention. Specifically, fig. 6A to 6C may be side view schematic diagrams of fig. 5A to 5C, respectively. For clarity, the box 11 (as shown in FIG. 4) is omitted from FIGS. 5B to 5C, and only the bottom surface 11B of the box 11 is shown in FIGS. 6B to 6C. Also, in the present embodiment, the first package cushioning structure 100 is the same as or similar to the package cushioning structure 100 of the previous embodiment, like members thereof are denoted by the same reference numerals and have like functions, and description thereof is omitted. For example, the first separator 110 is similar to or identical to the separator 110 of the previous embodiment, and the first main body 111 is similar to or identical to the main body 111 of the previous embodiment.

Referring to fig. 4 and fig. 5A to fig. 6C, in the present embodiment, the box body 11 of the packaging container may have a first packaging buffer structure 100 and a second packaging buffer structure 200 therein. In fig. 5B to 5C and 6B to 6C, the number of the first package buffer structures 100 and the second package buffer structures 200 is illustrated as one. The plurality of first package buffer structures 100 and the plurality of second package buffer structures 200 may be disposed in the box 11 as shown in fig. 4, and the first package buffer structures 100 and the second package buffer structures 200 may be disposed in a staggered manner in the box 11. Of course, only a plurality of second package cushioning structures 200 may be disposed within the housing 11 as shown in fig. 4.

The second package cushioning structure 200 is assembled in a similar manner to the first package cushioning structure 100, with the difference that: compared to the first package buffer structure 100, the second package buffer structure 200 may have a plurality of spacers and a plurality of buffers, and the partition 210 has a plurality of supporting portions and a plurality of turning portions.

Specifically, the second package buffer structure 200 includes a second spacer 210, a plurality of second spacers 220, and a plurality of second buffer bodies 230. The second barrier 210 includes a second body portion 211, a plurality of second supporting portions 214, and a plurality of second flipping portions 218. The second supporting portions 214 are connected with the second main body portion 211, and a plurality of third folding lines 212 are arranged between the second main body portion 211 and the second supporting portions 214. The second turning part 218 is connected to the corresponding second supporting part 214, and a fourth folding line 216 is provided between the second turning part 218 and the corresponding second supporting part 214. The second body portion 211 and the second turning portions 218 are located on two opposite sides of the corresponding second supporting portion 214.

The third kinking direction 212a is different from the fourth kinking direction 216 a. In the side view direction, the third folding direction 212a is, for example, a counterclockwise direction and the fourth folding direction 216a is a clockwise direction opposite to the third folding direction 212a (or, in the other side view direction, the third folding direction 212a is clockwise direction and the fourth folding direction 216a is a counterclockwise direction of the third folding direction 212 a). These second supporting portions 214 can be folded from the third folding line 212 in the third folding direction 212a so that the second supporting portions 214 face the second main body portion 211. These second turned portions 218 can be turned in the fourth folding direction 216a from the fourth folding line 216 so that the second turned portions face the second support portion 214.

The second spacers 220 are located on the corresponding second body portions 211 or on the corresponding second supporting portions 214, and the width of the second spacers 220 is substantially the same as the width 214W of the second supporting portions 214. After the second supporting parts 214 are folded from the third folding line 212 in the third folding direction 212a, the second spacer 220 may be located between the second main body part 211 and the corresponding second supporting part 214. The second buffer 230 is located on the corresponding second flip part 218, and the second buffer 230 is far away from the corresponding fourth kinked line 216. In this way, after the second supporting portions 214 are folded from the third folding line 212 in the third folding direction 212a and the corresponding second turning portions 218 are folded from the fourth folding line 216 in the fourth folding direction 216a, the third plate-shaped body 19c can be placed on the corresponding second spacers 220. Alternatively, after the third plate-shaped body 19c is placed on the second spacer 220, the fourth plate-shaped body 19d is further placed on the corresponding second buffer 230.

In the present embodiment, the width 214W of the second supporting portion 214 is smaller than the width 218W of the second flipping portion 218, and the width of the second buffer 230 is smaller than the width 218W of the second flipping portion 218. Therefore, after the second supporting portion 214 is folded from the third folded line 212 in the third folded direction 212a and the second turned portion 218 is folded from the fourth folded line 216 in the fourth folded direction 216a, the fourth folded line 216 has a height difference D3 from the side edge of the second buffer 230. In this way, if the third plate-shaped body 19c and the fourth plate-shaped body 19D have the same or similar dimensions, the third plate-shaped body 19c and the fourth plate-shaped body 19D can have the corresponding height difference D4, and can be taken properly.

In the present embodiment, the first package buffer structure 100 is disposed in the accommodating space 10a in a manner that the first main body 111 is perpendicular to the bottom surface 11b, the second package buffer structure 200 is disposed in the accommodating space 10a in a manner that the second main body 211 is perpendicular to the bottom surface 11b, and the first package buffer structure 100 and the second package buffer structure 200 are disposed in a staggered manner. The second package cushioning structure having the first kinked state can be similar to the package cushioning structure 101 of fig. 3A, and the second package cushioning structure having the second kinked state can be similar to the package cushioning structure 102 of fig. 3C. In the projection of any side surface 11a of the box body 11, the first supporting portion 114 and the second supporting portion 214 do not overlap, and the third bending direction 212a is the same as the first bending direction 112 a. Or further, the first flipping portion 118 and the second flipping portion 218 do not overlap, the first spacer 120 and the second spacer 220 do not overlap, and/or the first buffer 130 and the second buffer 230 do not overlap. In this way, the first and second package buffer structures 100 and 200 in the folded state (without limitation to the first and second folded states) do not interfere with each other between the first and second flip portions 118 and 218 and/or between the first and second buffer bodies 130 and 230.

Fig. 7A to 7C are perspective views illustrating an application manner of a packaging cushioning structure according to a third embodiment of the present invention. Fig. 8A to 8C are schematic side views illustrating an application manner of a packaging cushioning structure according to a third embodiment of the present invention. Specifically, fig. 8A to 8C may be side view schematic diagrams of fig. 7A to 7C, respectively. In the present embodiment, the package cushioning structure 300 is the same as or similar to the package cushioning structures 100, 200 of the previous embodiments, and like components thereof are denoted by the same reference numerals and have like functions, and description thereof is omitted.

Referring to fig. 1A to 4 and fig. 7A to 8C, the package cushioning structure 300 of the present embodiment is assembled in a similar manner to the package cushioning structure 100 of the previous embodiment, with the difference: the package buffer structure 300 includes a spacer 110, a first spacer 120, a first buffer 130, a plurality of second spacers 320, and a plurality of second buffers 330, and the spacer 110 includes a body 111, a first supporting portion 114, a first turning portion 118, a plurality of second supporting portions 314, and a plurality of second turning portions 318. These second supporting portions 314 are connected with the main body portion 111, and a third kinking line is arranged between the main body portion 111 and these second supporting portions 314. The second supporting portions 314 can be folded in the third folding direction 312a from the third folding line so that the second supporting portions 314 face the main body portion 111. The first kinking direction 112a is different than the third kinking direction 312 a. The second turning portions 318 are connected to the corresponding second support portions 314, and the main body 111 and the second turning portions 318 are located on opposite sides of the corresponding second support portions 314. Fourth folding lines are arranged between the second turning parts 318 and the corresponding second supporting parts 314, wherein the second turning parts 318 can be folded along fourth folding directions 316a from the fourth folding lines, so that the second turning parts 318 face the corresponding second supporting parts 314, and the third folding directions 312a are different from the fourth folding directions 316 a. The second spacers 320 are located on the main body 111 or the corresponding second supporting portions 314, and after the second supporting portions 314 are folded along the third folding direction 312a from the third folding line, the second spacers 320 are located between the main body 111 and the corresponding second supporting portions 314. The plurality of second buffer bodies 330 are positioned on the corresponding second flipping parts 318.

In the present embodiment, the first supporting portion 114 and the second supporting portions 314 are located on the same side of the main body 111, and the first supporting portion 114 is located between the second supporting portions 314.

In the present embodiment, the width 214W of the second supporting portion 314 is smaller than the width 218W of the second flipping portion 318, and the width of the second buffer 330 is smaller than the width 218W of the second flipping portion 318. Therefore, after the second supporting portion 314 is folded from the third folding line in the third folding direction 312a and the second turning portion 318 is folded from the fourth folding line in the fourth folding direction 316a, the fourth folding line has a height difference with the side edge of the second buffer body 330. In this way, if the third plate-shaped body 19c and the fourth plate-shaped body 19d have the same or similar size, the third plate-shaped body 19c and the fourth plate-shaped body 19d can have corresponding height difference, and can be taken suitably.

In the embodiment shown in fig. 7A to 8C, the number of the first supporting portions 114, the number of the first flipping portions 118, the number of the first spacers 120, and the number of the first buffer bodies 130 are the same and are all one, and the number of the second supporting portions 314, the number of the second flipping portions 318, the number of the second spacers 320, and the number of the second buffer bodies 330 are the same and are all two, but the invention is not limited thereto.

In this embodiment, the first kinking direction 112a is opposite to the second kinking direction 116a, the first kinking direction 112a is the same as the fourth kinking direction 316a, and the second kinking direction 116a is the same as the third kinking direction 312 a. As shown in the assembly manner of fig. 7A to 8C, in the side view direction, the first folding direction 112a and the fourth folding direction 316a are counterclockwise directions, and the second folding direction 116a and the third folding direction 312a are clockwise directions opposite to the first folding direction 112 a. Alternatively, in the other side viewing direction, the first folding direction 112a and the fourth folding direction 316a are clockwise, and the second folding direction 116a and the third folding direction 312a are counterclockwise opposite to the first folding direction 112 a.

In addition, if a plurality of package cushioning structures 300 are placed in the box body 11 to form a package container, the directions of the package cushioning structures 300 may be the same so as to prevent the package cushioning structures 300, the first flip portions 118, the first cushioning bodies 130, the second flip portions 318, and/or the second cushioning bodies 330 from interfering with each other.

In summary, the package cushioning structure of the present invention is suitable for placing a plurality of plate-like bodies thereon, and is convenient for picking and placing. The packaging container can be suitable for placing a plurality of plate-shaped bodies in the packaging container, and is convenient to take and place.

Although the present invention has been described with reference to the above embodiments, it should be understood that the invention is not limited thereto, and that various changes and modifications can be made by those skilled in the art without departing from the spirit and scope of the invention.

Claims (11)

1. A package cushioning structure, comprising:

a separator, comprising:

a main body portion;

the first supporting part is connected with the main body part, and a first kinked line is arranged between the main body part and the first supporting part, wherein the first supporting part can be folded along a first kinked direction from the first kinked line so as to enable the first supporting part to face the main body part; and

the first turnover part is connected with the first supporting part, the main body part and the first turnover part are positioned on two opposite sides of the first supporting part, and a second kinking line is arranged between the first turnover part and the first supporting part, wherein the first turnover part can be turned over along a second kinking direction from the second kinking line so that the first turnover part faces the first supporting part, and the first kinking direction is different from the second kinking direction; the first spacing body is positioned between the main body part and the first supporting part after the first supporting part is turned over along a first bending direction from the first bending line; and

at least one first buffer body is positioned on the first overturning part.

2. The packaging cushioning structure of claim 1, wherein the width of the first support portion is less than the width of the first flip portion.

3. The package cushioning structure of claim 1, wherein the first kinking direction is opposite the second kinking direction.

4. The packaging cushioning structure of claim 1, wherein the number of the at least one first supporting portion, the number of the at least one first flipping portion, the number of the at least one first spacing body, and the number of the at least one first cushioning body are the same and are all plural, wherein the first flipping portions are connected to the corresponding first supporting portions, the first spacing bodies are located on the main body portion or the corresponding first supporting portions, and the first cushioning bodies are located on the corresponding first flipping portions.

5. The package cushioning structure of claim 1, wherein the divider further comprises:

the second supporting parts are connected with the main body part, and third kinking lines are arranged between the main body part and the second supporting parts, wherein the second supporting parts can be turned over along a third kinking direction from the third kinking lines so as to enable the second supporting parts to face the main body part, and the first kinking direction is different from the third kinking direction; and

the main body part and the second turning parts are positioned on two opposite sides of the second supporting parts, and a fourth kinking line is arranged between the second turning parts and the second supporting parts, wherein the second turning parts can be turned over along a fourth kinking direction from the fourth kinking line so that the second turning parts face the second supporting parts, and the third kinking direction is different from the fourth kinking direction;

and this packing buffer structure still includes:

the second partition bodies are positioned on the main body part or the second support parts, and are positioned between the main body part and the second support parts after the second support parts are turned over along the third kinking direction from the third kinking line; and

and the second buffer bodies are positioned on the second turnover parts.

6. The packaging cushioning structure of claim 5, wherein the first support portion and the second support portions are located on the same side of the main body portion, and the first support portion is located between the second support portions.

7. The packaging cushioning structure of claim 5, wherein the width of the second supporting portions is smaller than the width of the second turnover portions.

8. The package cushioning structure of claim 5, wherein the first kinking direction is opposite the second kinking direction, the first kinking direction is the same as the fourth kinking direction, and the second kinking direction is the same as the third kinking direction.

9. A packaging container adapted to package a plurality of plate-like bodies, comprising:

the box body is provided with a plurality of side surfaces and a bottom surface, and the side surfaces and the bottom surface form an accommodating space which is used for accommodating the plate-shaped bodies; and

at least one package buffer structure as claimed in claim 1, and the package buffer structure is configured in the accommodating space in a first folded state or a second folded state, wherein:

the first kinked state is that the main body part is vertical to the bottom surface, the first supporting part is turned over from the first kinked line so that the first supporting part faces the main body part, the first spacing body is positioned between the main body part and the first supporting part, and the main body part and/or the first supporting part are/is abutted against the bottom surface of the box body so that the main body part and the first supporting part are suitable for supporting one of the plate-shaped bodies; and

the second kinked state is that the main body part is perpendicular to the bottom surface, the first supporting part is folded from the first kinked line so that the first supporting part faces the main body part, the first spacing body is located between the main body part and the first supporting part, the main body part and the first supporting part are suitable for supporting one of the plate-shaped bodies, the first overturning part is folded from the second kinked line so that the first overturning part faces the first supporting part, and the first overturning part and/or the first buffering body props against the bottom surface of the box body so that the first overturning part and the first buffering body are suitable for supporting the other of the plate-shaped bodies.

10. A packaging container, comprising:

the box body is provided with a plurality of side surfaces and a bottom surface, and the side surfaces and the bottom surface form an accommodating space;

at least one first package cushioning structure comprising:

a first separator plate comprising:

a first main body portion;

the first supporting part is connected with the first main body part, and a first kinked line is arranged between the first main body part and the first supporting part, wherein the first supporting part can be turned over along a first kinked direction from the first kinked line so as to enable the first supporting part to face the main body part; and

the first overturning part is connected with the first supporting part, the main body part and the first overturning part are positioned on two opposite sides of the first supporting part, and a second kinking line is arranged between the first overturning part and the first supporting part, wherein the first overturning part can be turned over along a second kinking direction from the second kinking line so that the first overturning part faces the first supporting part, and the first kinking direction is different from the second kinking direction;

the first spacing body is positioned on the main body part or the first supporting part, and after the first supporting part is turned over along the first bending direction from the first bending line, the first spacing body is positioned between the main body part and the first supporting part; and

the first buffer body is positioned on the first overturning part; and

at least one second package cushioning structure comprising:

a second separator plate comprising:

a second main body portion;

the second supporting parts are connected with the second main body part, and third kinking lines are arranged between the second main body part and the second supporting parts, wherein the second supporting parts can be folded along a third kinking direction from the third kinking lines, so that the second supporting parts face the second main body part, and the first kinking direction is the same as the third kinking direction; and

the main body part and the second turning parts are positioned on two opposite sides of the second supporting parts, and fourth kinking lines are arranged between the second turning parts and the second supporting parts, wherein the second turning parts can be turned over along a fourth kinking direction from the fourth kinking lines so that the second turning parts face the second supporting parts, and the third kinking direction is different from the fourth kinking direction;

a plurality of second spacers located on the second main body portion or the second supporting portions, and after the second supporting portions are folded along a third folding direction from the third folding line, the second spacers are located between the second main body portion and the second supporting portions; and

a plurality of second buffer bodies positioned on the second turnover parts; the first package buffer structure is arranged in the accommodating space in a mode that the first main body part is vertical to the bottom surface, the second package buffer structure is arranged in the accommodating space in a mode that the second main body part is vertical to the bottom surface, the first package buffer structure and the second package buffer structure are arranged in a staggered mode, and on any side surfaces, the first supporting part and the second supporting parts are not overlapped.

11. A packaging container, comprising:

the box body is provided with a plurality of side surfaces and a bottom surface, and the side surfaces and the bottom surface form an accommodating space; and

a plurality of package cushioning structures, wherein each of the package cushioning structures comprises:

a separator, comprising:

a main body portion;

the first supporting part is connected with the main body part, and a first kinked line is arranged between the main body part and the first supporting part, wherein the first supporting part can be folded along a first kinked direction from the first kinked line so as to enable the first supporting part to face the main body part;

the first overturning part is connected with the first supporting part, the main body part and the first overturning part are positioned on two opposite sides of the first supporting part, and a second kinking line is arranged between the first overturning part and the first supporting part, wherein the first overturning part can be turned over along a second kinking direction from the second kinking line so that the first overturning part faces the first supporting part, and the first kinking direction is different from the second kinking direction;

the second supporting parts are connected with the main body part, and third kinking lines are arranged between the main body part and the second supporting parts, wherein the second supporting parts can be turned over along a third kinking direction from the third kinking lines so as to enable the second supporting parts to face the main body part, and the first kinking direction is different from the third kinking direction; and

the main body part and the second turning parts are positioned on two opposite sides of the second supporting parts, and fourth kinking lines are arranged between the second turning parts and the second supporting parts, wherein the second turning parts can be turned over along a fourth kinking direction from the fourth kinking lines so that the second turning parts face the second supporting parts, and the third kinking direction is different from the fourth kinking direction;

the first spacing body is positioned on the main body part or the first supporting part, and is positioned between the main body part and the first supporting part after the first supporting part is turned over along a first bending direction from the first bending line;

the first buffer body is positioned on the first overturning part;

the second partition bodies are positioned on the main body part or the second support parts, and are positioned between the main body part and the second support parts after the second support parts are turned over along a third kinking direction from the third kinking line; and

a plurality of second buffer bodies positioned on the second turnover parts; the packaging buffer structures are arranged in the accommodating space in a mode that the main body part is perpendicular to the bottom surface, and the directions of the packaging buffer structures are consistent.