CN111619924A - Multi-directional shockproof packaging box - Google Patents

Abstract

The invention discloses a multi-directional shockproof packaging box which comprises a box body, wherein the box body comprises a flip part and a side plate part; the turnover cover part and the side plate part are integrally formed with a shockproof piece so as to buffer and shockproof packaged products in the box body in all directions; the shockproof piece and the box body are integrally folded and formed; the shockproof part comprises a turnover cover block which is arranged on the turnover cover part of the box body, and the turnover cover blocks are used for buffering and shockproof packaged products in the box body at the turnover cover position. The shockproof piece and the packing box are formed by folding the same paper board, the shockproof piece is suitable for batch production of a full-automatic box pasting machine, the cost is low, other inner supports do not need to be assembled independently, the defects of multiple materials and multiple parts of a conventional packing box are effectively overcome, and the flip cover block and the side plate are combined and overlapped for use according to actual packing requirements, so that the multi-surface buffering shockproof effect is achieved.

Description

Multi-directional shockproof packaging box

Technical Field

The invention relates to the technical field of shockproof packaging boxes, in particular to a multi-azimuth shockproof packaging box.

Background

The packing box contains products to prevent damage of the products and is used for decorative effect. As various products are produced while the industry is developing, various packing boxes are manufactured. The packing box is usually formed by folding a paper board with a folding line, the paper board is folded to form an accommodating space for accommodating a packed product, when the packing box is actually used, the packed product can shake in the accommodating space due to external force such as impact, the packed product can damage the packing box due to impact on the packing box, and the like.

Secondly, the conventional packaging box with the built-in shockproof buffer grid cannot be folded and flattened during storage and transportation, so that the storage and transportation space requirement is large, and the storage and transportation cost is high;

in addition, from the perspective of convenience in opening and closing of the packaging box, the conventional method of arranging the shockproof buffer block in the packaging box hardly performs shockproof buffer on the turnover cover part of the packaging box, so that the shockproof buffer effect of the packaging box is general, and the shockproof buffer block is particularly not suitable for packaging glass products, glass containers or other fragile products and has large use limitation.

Disclosure of Invention

The invention provides a multidirectional shockproof packaging box which comprises a box body, wherein the box body comprises a turnover part and a side plate part;

shockproof pieces are integrally formed on the turnover cover part and the side plate part so as to buffer and resist shock of packaged products in the box body in all directions;

the shockproof piece and the box body are integrally folded and formed;

the shockproof part comprises a flip grid baffle, the flip grid baffle is arranged on the flip part of the box body, and the flip grid baffles are used for buffering and shockproof packaged products in the box body at the position of the flip part.

The invention has the beneficial effects that:

1. the shockproof piece and the packaging box are formed by folding the same paper board, so that the shockproof piece is suitable for batch production of a full-automatic box pasting machine, and is low in cost;

2. the shockproof piece can replace inner holders made of high-molecular polyester plastics such as paperboard, corrugated paper, paper plastic and various EVA, PVC, PET, PE, PS, PLA, PC and the like, and other inner holders do not need to be assembled independently, so that the defects of multiple materials and multiple components of a conventional packaging box are effectively avoided;

3. the folding box can be folded and flattened during storage and transportation, so that the storage and transportation space and cost are saved, the box supporting action is completed in one step, the folding box is suitable for a full-automatic packaging production line, and the energy-saving and efficiency-increasing help can be provided for customers;

4. the invention combines and superposes the turnover cover block and the side plate subarea according to the actual packaging requirement to achieve the effect of multi-surface buffering and shock resistance.

Drawings

FIG. 1 is a schematic development view of a multi-directional shock resistant package in accordance with example 1 of the present invention.

FIG. 2 is a schematic perspective view of an assembly example of the multi-orientation shock resistant package of embodiment 1 of the present invention.

FIG. 3 is a schematic perspective view of an assembly example of the multi-orientation shock resistant package of embodiment 1 of the present invention.

FIG. 4 is a schematic development of the multi-orientation shock resistant package of embodiment 2 of the present invention.

Fig. 5 is a schematic perspective view showing only the flip cover stops in an assembly example of the multi-directional shockproof packaging box of embodiment 2 of the present invention.

Fig. 6 is a schematic perspective view showing only the flip cover stops in an assembly example of the multi-directional shockproof packaging box of embodiment 3 of the present invention.

FIG. 7 is a schematic perspective view of an assembly example of the multi-orientation crash-proof package of embodiment 4 of the present invention showing only the flip cover stops.

FIG. 8 is another schematic perspective view of an example of an assembly of the multi-orientation crash resistant package of embodiment 4 of the present invention showing only the flip stops.

FIG. 9 is a schematic perspective view of an example of the assembly of the multi-orientation crash proof package of embodiment 5 of the present invention showing only the side panel stops.

FIG. 10 is a schematic perspective view of an example of the assembly of the multi-orientation crash proof package of embodiment 6 of the present invention showing only the side panel stops.

FIG. 11 is a schematic perspective view of an example of an assembly of the multi-orientation crash resistant package of embodiment 7 of the present invention showing only the side panel stops.

FIG. 12 is a schematic perspective view of an example of an assembly of the multi-orientation crash resistant package of embodiment 8 of the present invention showing only the side panel stops.

FIG. 13 is a schematic perspective view of an example of the assembly of the multi-orientation crash resistant package of embodiment 9 of the present invention showing only the side panel stops.

The reference numbers in the figures illustrate: 1. a box body; 111. a box cover; 112. a box bottom; 121. a bottom plate portion; 122. a side plate part a; 123. an upper plate portion; 124. a side plate part b; 2. a shock-proof member; 211. an upper left grid block; 2111. a grid baffle plate a; 2112. a fold line a; 2113. a connecting surface a; 212. an upper right check block; 2121. a grid baffle b; 2122. a fold line b; 2123. a connecting surface b; 2124. an avoidance part b; 213. a lower left block; 214. a lower right check block; 221. left grid division; 222. right grid division; 223. dividing the grids and blocking; 224. three-side grid block; 2241. partitioning a single board a; 2242. a fold line c; 2243. partitioning the single board b; 2244. a fold line d; 2245. a connecting surface c; 225. a single-angle block; 226. a diagonal block; 227. a positioning part.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The terminology used in the embodiments of the present invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Further, all terms including technical terms and scientific terms have the same meaning as can be understood by one of ordinary skill in the art, without being defined differently. The above-mentioned terms, which are the same as the terms defined in a general dictionary, are interpreted to have the same meanings as those in the context of the description of the related art and the present invention, and are not ideally or overly intuitively interpreted without being explicitly defined.

Embodiments of the present invention are described with reference to schematic illustrations of idealized embodiments of the present invention. Thus, variations from the shapes of the illustrations, for example, variations in the methods of manufacture and/or tolerances, are to be fully envisioned. Thus, embodiments of the invention are not described in the context of a particular shape of region illustrated in the drawings, including deviations in shapes that are purely schematic, which are not intended to illustrate the precise shape of a component and are not intended to limit the scope of the invention.

The invention provides a multidirectional shockproof packaging box, which comprises a box body 1, wherein the box body 1 comprises a turnover cover part and a side plate part, a shockproof part 2 is integrally formed on the turnover cover part and the side plate part so as to carry out omnibearing buffering and shockproof on a packaged product in the box body 1, the shockproof part 2 is integrally folded and formed with the box body 1, the shockproof part 2 comprises a turnover cover block and a side part, and the turnover cover block and the side part are combined and superposed for use according to the actual packaging requirement so as to achieve the effect of multi-surface buffering and shockproof; secondly, can fold and flatten the collection, practice thrift warehousing and transportation space and cost, prop the box and accomplish in one step moreover, be applicable to full-automatic packaging production line, can reduce the ability to improve efficiency for the customer and provide the help.

The flip grid comprises an upper left grid baffle 211, an upper right grid baffle 212, a lower left grid baffle 213 and a lower right grid baffle 214, the upper left grid baffle 211, the upper right grid baffle 212, the lower left grid baffle 213 and the lower right grid baffle 214 can be used independently or in a combined and overlapped mode, and in addition, the side plate grid baffles are any one of a left grid baffle 221, a right grid baffle 222, a middle grid baffle 223, a three-side grid baffle 224, a single-corner grid baffle 225 and a diagonal grid baffle 226. The present invention is specifically illustrated in detail by example 1.

Example 1

The present invention is explained in detail and specifically by taking the example that the flip cover block adopts the upper left block 211 and the upper right block 212 which are combined and overlapped, and the side plate block adopts the three-sided block 224.

The packaging box is integrated to form a plate shape before being assembled as shown in fig. 1, mass production can be completed through a full-automatic box pasting machine, and a box shape can be formed after being assembled as shown in fig. 2.

Referring to fig. 1 and 2, the side plate part of the packing box includes a bottom plate part 121, a side plate part a122, an upper plate part 123 and a side plate part b124, preferably, a full-automatic box pasting machine is folded and molded according to a folding line on a plate as shown in fig. 1, the bottom plate part 121 is used for supporting a packaged product, a box bottom 112 is integrally formed on the bottom plate part 121, the side plate part a122, the upper plate part 123 and the side plate part b124 form a containing space for containing the packaged product, and the upper plate part 123 includes a box cover 111 for closing or opening the containing space, wherein the box bottom 112 and the box cover 111 constitute a flip part of the packing box.

One is a flip grid, as shown by continuing to refer to fig. 1, 2 and 4, the flip grid is a flip extension edge at least one end of the side plate part, a connection surface is arranged at one end of the flip extension edge far away from the side plate part, the connection surface is connected with the inner side of the side plate part, a folding line is arranged on the flip extension edge, and the flip extension edge is folded according to the folding line to form a three-dimensional flip grid;

more specifically, side plate portion a122 is integrally formed with bottom plate portion 121 and is foldable to extend from bottom plate portion 121 so as to be vertically disposed with respect to bottom plate portion 121, a lattice barrier a2111 is provided on side plate portion a122, and upper left lattice barrier 211 for shock absorption of a packaged product is formed on the left side of the top of the package (i.e., the left side of lid 111) after lattice barrier a2111 is fold-formed, side plate portion b124 is integrally formed with upper plate portion 123 and is foldable to extend from upper plate portion 123 so as to be vertically disposed with respect to upper plate portion 123, lattice barrier b2121 is provided on side plate portion b124, and upper right lattice barrier 212 for shock absorption of a packaged product is formed on the right side of the top of the package (i.e., the right side of lid 111) after lattice barrier b2121 is fold-formed, upper left lattice barrier 211 and upper right lattice barrier 212 are used in combination, and have a shock absorption effect on a packaged product at the location of lid 111 of the package.

Further, the lattice baffle a2111 has three folding lines a2112 and a connecting plane a2113, the connecting plane a2113 is adhered to the side plate portion a122, and the lattice baffle a2111 is folded by the folding lines a2112 to form an upper left lattice baffle 211 on the side plate portion a 122; the grid baffle plate b2121 is provided with three folding lines b2122 and a connecting plane b2123, the connecting plane b2123 is adhered to the side plate part b124, the grid baffle plate b2121 is folded by the folding lines b2122 to form an upper right grid baffle 212 on the side plate part b124, the grid baffle plate a2111 and the grid baffle plate b2121 are arranged on two sides of the box cover 111 contained in the upper plate part 123, and an upper left grid baffle 211 and an upper right grid baffle 212 for shock absorption and buffering of a packaged product are respectively formed at the top of the packaging box;

secondly, in order to enhance the adhesion fastness, the invention locally prints the matte oil with enhanced surface on the connection surface a2113 and the side plate portion a122 adhered with the connection surface a2113, so that the surface dyne value of the position is more than 38dny/cm, and by the same reason, the matte oil with enhanced surface is locally printed on the connection surface b2123 and the side plate portion b124 adhered with the connection surface b2123, so that the surface dyne value of the position is more than 38dny/cm, and the adhesion is firm;

in addition, in order to prevent the phenomenon of internal adhesion caused by overlarge adhesive application amount at the adhering position, the adhesive application amount is accurately controlled by using point-like adhesive spraying at the adhering position of the packaging box, the diameter of an adhesive spraying opening is 0.3-0.4 mm, the diameter of adhesive dispensing is 1-2 mm, the distance between every two adhesive spraying points is less than or equal to 1.5mm, the adhesive application amount can not only ensure the adhering fastness, but also prevent the internal adhesion caused by overlarge adhesive application amount, and the box supporting effect is influenced.

Further, all be provided with the incision on check baffle a2111 and check baffle b2121, dodge through the incision when lid 111 buckle, the incision forms through the die-cutting cutter cross cutting, and the die-cutting cutter is sharp low cutting edge of a knife or a sword die-cutting cutter, and its height is 22 ~ 24mm to and knife tip contained angle is 23 ~ 50, paste the sponge adhesive tape of 45 ~ 75 shore hardness within 1mm with the edge of a knife distance, can avoid the paper powder to drop, cause by the packaging product pollution.

In the process of closing the packaging box, the upper left grid baffle 211 and the upper right grid baffle 212 are synchronously unfolded, and the upper left grid baffle 211 and the upper right grid baffle 212 in the unfolded state are used for performing shockproof buffering on a packaged product in the packaging box; during the process of opening the package, the folding of the upper left barrier 211 and the upper right barrier 212 is completed synchronously for taking and placing the packaged product.

As shown in fig. 1, the lattice apron b2121 is provided with a relief portion b2124, which is relieved by the relief portion b2124 when the bottom plate 121 is adhered to the side plate portion b124, and more specifically, the side plate portion b124 is foldable and extendable from the upper plate portion 123 so as to be vertically disposed with respect to the upper plate portion 123 and to be adhered and fixed to the bottom plate portion 121, and if the relief portion b2124 is not provided on the lattice apron b2121, the bottom plate 121 is adhered and fixed to the lattice apron b2121, so that there is no way to unfold or fold the upper right lattice apron 212, and therefore, in order to avoid the adhesion of the bottom plate 121 to the side plate portion b124, the relief portion b2124 is provided on the lattice apron b2121 in the present invention so that the adhesion of the bottom plate 121 to the side plate portion b124 does not interfere with the use of the upper right lattice apron 212.

The side plate grid is a side plate extending edge on one side of the side plate part, the side plate extending edge is provided with a plurality of connecting surfaces, the connecting surfaces are connected with the inner side of the side plate part, the side plate extending edge is provided with folding lines, and the side plate extending edge is folded according to the folding lines to form a three-dimensional side plate partition in the box body 1;

more specifically, as shown in fig. 1, the other side of the opposite side plate portion a122 of the bottom plate portion 121 is integrally formed with a partition plate, and the partition plate is folded to form a three-sided cellular barrier 224 for shock absorption and buffering of a packaged product in the package box, and more specifically, the partition plate includes a partition plate a2241 and a partition plate b2243, the partition plate a2241 and the partition plate b2243 are spaced apart from each other by a connecting surface c2245, the partition plate a2241 has three folding lines c2242 and is folded on one side of the bottom plate portion 121 by the folding line c2242, the connecting surface c2245 is adhered to the bottom plate portion 121, the partition plate b2243 has three folding lines d2244 and is folded on the other side of the bottom plate portion 121 by the folding line d2244, the three-sided cellular barriers 224 are formed in the package box by the partition plate a2241, the partition plate b2243 and the connecting surface c2245, since the partition plate and the package box are made of the same sheet, the, the cost is low;

secondly, in order to enhance the adhesion fastness, the invention locally prints the matte oil with enhanced surface on the connecting surface c2245 and the bottom plate part 121 adhered to the connecting surface c2245, so that the surface dyne value of the position is more than 38dny/cm, and the adhesion is firm;

in addition, in order to prevent the phenomenon of internal adhesion caused by overlarge adhesive application amount at the adhering position, the adhesive application amount is accurately controlled by using point-like adhesive spraying at the adhering position of the packaging box, the diameter of an adhesive spraying opening is 0.3-0.4 mm, the diameter of adhesive dispensing is 1-2 mm, the distance between every two adhesive spraying points is less than or equal to 1.5mm, the adhesive application amount can not only ensure the adhering fastness, but also prevent the internal adhesion caused by overlarge adhesive application amount, and the box supporting effect is influenced.

In addition, broken line c2242 and broken line d2244 all include indentation line and half wear sword tangent line, and indentation line and half wear sword tangent line are the interval arrangement along the straight line, are convenient for convert into, and difficult fold makes to convert into the face more level and smooth, and difficult bounce-back makes the shockproof buffering effect of curb plate check fender better after folding, and half wear sword tangent line still has ventilative effect moreover.

Furthermore, one side of the flip cover block and the side plate block, which is contacted with a packaged product, is provided with a wear-resistant part, for example, the wear-resistant part can be a surface scratch-resistant coating, local printing wear-resistant gloss oil, local printing wear-resistant matte oil, local UV wear-resistant glazing, local water-based wear-resistant glazing, local solvent-based wear-resistant glazing and the like, so that the packaged product is fully protected from being damaged.

In addition, referring to fig. 3, a positioning portion 227 is disposed on a plane of the flip grid, the positioning portion 227 is a window disposed on the flip grid, the packaged product is fixed by the positioning portion 227 of the flip grid, and in actual use, the shape of the window on the flip grid can be circular, oval, square, trapezoid, triangle and various irregular shapes according to the external shape of the packaged product, so as to strengthen and fix the protruding position of the packaged product, so that the packaged product is not easily shaken in the packaging box.

The shockproof piece can be made of paperboard, corrugated paper, paperboard and the like, for example, when the weight of a packaged product is small, the shockproof piece can be made of paperboard; when the weight of the packaged product is larger, the shockproof piece can adopt corrugated paper; when the packaged product belongs to a gift or the product is fragile, the shockproof piece can adopt paperboard, such as thick gray board.

Compared with the common packaging box, the application range of the invention is wider, as follows:

the invention is more suitable for packaging glass products, glass containers or other fragile products;

secondly, the paper is suitable for various coated papers, double-sided offset papers, kraft papers, gold and silver cards and various artistic papers;

thirdly, the method is suitable for various common offset printing, UV offset printing, digital printing, gravure printing, flexography printing, silk-screen printing and partial transfer printing processes;

and fourthly, the method is suitable for various surface finishing processes such as film coating, glazing, oiling, gold stamping, code spraying, labeling and the like.

Example 2

In general, the upper left block 211 and the upper right block 212 in embodiment 1 are combined and superimposed to have a strong anti-vibration and buffering effect, and in actual use, only one of the upper left block 211 and the upper right block 212 may be needed. Embodiment 2 of the present invention thus provides another multi-orientation shock resistant package that includes the components of embodiment 1 above, and like components are identified by like reference numerals, and further description of this embodiment is omitted here. However, referring to fig. 4 and 5, the flip cover stop in this embodiment is one of the upper left stop 211 and the upper right stop 212, for example, the flip cover stop in this embodiment is the upper left stop 211, that is, the side plate portion b124 is not integrally formed with the stop b2121, so that the material cost can be reduced due to the saving of the stop b 2121.

Example 3

In general, in embodiment 1, the flip top bar is used by combining and overlapping the upper left bar 211 and the upper right bar 212, but the overlapping of the upper left bar 211 and the upper right bar 212 only has the shock-proof and buffering effect at the box cover 111 position of the packing box, and the box bottom 112 position of the packing box has no shock-proof and buffering effect. Embodiment 3 of the present invention thus provides another multi-orientation shock resistant package that includes the components of embodiment 1 above, and like components are given like reference numerals, and further description of this embodiment is omitted here. However, referring to fig. 6, in this embodiment, the flip frame further includes a lower left frame 213 and a lower right frame 214, and the upper left frame 211, the upper right frame 212, the lower left frame 213, and the lower right frame 214 are combined and overlapped for use, so as to implement shock absorption at the positions of the box cover 111 and the box bottom 112 of the packing box.

Example 4

In general, in embodiment 3, the flip-top grid is used by combining and overlapping the upper left grid 211, the upper right grid 212, the lower left grid 213, and the lower right grid 214, and in actual use, only one of the lower left grid 213 and the lower right grid 214 may be needed for the position of the box bottom 112 of the packing box. Embodiment 4 of the present invention thus provides another multi-orientation shock resistant package that includes the components of embodiment 1 above, and like components are identified by like reference numerals, and further description of this embodiment is omitted here. However, in the present embodiment, the flap stop of the box bottom 112 of the packing box includes one of the lower left stop 213 and the lower right stop 214, for example, as shown in fig. 7, the upper left stop 211, the upper right stop 212, and the lower left stop 213 are used in combination and stacked; referring to fig. 8, an upper left block 211, an upper right block 212, and a lower right block 214 are used in combination in an overlapping manner.

Example 5

Generally, the side panel is any one of a left dividing barrier 221, a right dividing barrier 222, a middle dividing barrier 223, a three-side barrier 224, a single corner barrier 225 and a diagonal corner barrier 226 according to the shape and number of the packaged product, and when the electronic product and its accessories, such as a smart sound box and its charger, need to be packaged, the accommodating space of the packaging box needs to be divided into a large area and a small area. Embodiment 5 of the present invention thus provides another multi-orientation shock resistant package that includes the components of embodiment 1 above, and like components are given like reference numerals, and further description of this embodiment is omitted here. However, referring to fig. 9, the side panel barrier in this embodiment is one of the left cell barrier 221 and the right cell barrier 222, where the structure of the right cell barrier 221 is shown in fig. (a), the structure of the left cell barrier 221 is shown in fig. (b), and the specific structure and implementation of the left cell barrier 221 or the right cell barrier 222 refer to the content of the three cell barriers 224 in embodiment 1, which is not described herein again.

Example 6

Generally, when the packaged product is a pair of products, for example, a pair of handles of a smart door lock, or a pair of wearable gloves for a virtual reality scene experience, the accommodating space of the packaging box needs to be divided into two equal large areas. Embodiment 6 of the present invention thus provides another multi-orientation shock resistant package that includes the features of embodiment 1 above, and like features are given like reference numerals, and further description of this embodiment is omitted here. However, referring to fig. 10, the side panel block in this embodiment is a middle partition block 223, where the specific structure and implementation of the partition block 223 refer to the content of the three partition blocks 224 in embodiment 1, and this embodiment is not described herein again.

Example 7

Generally, when the packaged product is a main product and its accessories, such as a sweeping robot and a charger, the accommodating space of the packaging box needs to be divided into one corner to accommodate the charger. Embodiment 7 of the present invention thus provides another multi-orientation shock resistant package that includes the features of embodiment 1 above, where like reference numerals refer to like features, and which will not be described again here. However, referring to fig. 11, the side plate block in this embodiment is a single angle block 225, where the single angle block 225 includes any one of a left rear block, a left front block, a right rear block, and a right front block, where the structure of the left rear block is shown in fig. (c), the structure of the left front block is shown in fig. (d), the structure of the right rear block is shown in fig. (e), the structure of the right front block is shown in fig. (f), and the specific structure and implementation manner of any one of the left rear block, the left front block, the right rear block, and the right front block refer to the content of the triple block 224 in embodiment 1, which is not described herein again.

Example 8

Generally, when the packaged product is toothbrush toothpaste, it is necessary to separate the containing spaces of the package to contain the toothbrush and the toothpaste, respectively. Embodiment 8 of the present invention thus provides another multi-orientation shock resistant package that includes the features of embodiment 1 above, and like features are given like reference numerals, and further description of this embodiment is omitted here. However, referring to fig. 12, in the present embodiment, the side panel barrier is a diagonal barrier 226, the diagonal barrier 226 includes one of a left diagonal barrier 226 and a right diagonal barrier 226, a structure of the left diagonal barrier is shown in fig. (g), a structure of the right diagonal barrier is shown in fig. (h), and details of the specific structure and implementation of the left diagonal barrier 226 or the right diagonal barrier 226 refer to the content of the three-sided barrier 224 in embodiment 1, which is not described herein again.

Example 9

Generally, when the packaged product is a plug, the small end is not easily positioned because the plug includes a large end and a small end. Embodiment 8 of the present invention thus provides another multi-orientation shock resistant package that includes the features of embodiment 1 above, and like features are given like reference numerals, and further description of this embodiment is omitted here. However, in the present embodiment, the side plate barrier is a step barrier, the step barrier is shown in fig. 13, and the specific structure and implementation of the step barrier refer to the content of the three-side barrier 224 in embodiment 1, which is not described herein again.

The above embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.

Claims (10)

1. A multi-azimuth shockproof packaging box is characterized by comprising a box body, wherein the box body comprises a turnover part and a side plate part;

shockproof pieces are integrally formed on the turnover cover part and the side plate part so as to buffer and resist shock of packaged products in the box body in all directions;

the shockproof piece and the box body are integrally folded and formed;

the shockproof part comprises a flip grid baffle, the flip grid baffle is arranged on the flip part of the box body, and the flip grid baffles are used for buffering and shockproof packaged products in the box body at the position of the flip part.

2. The multi-orientation crash-proof package of claim 1 wherein: the flip check keep off and prolong the limit for the flip of the at least one end of curb plate portion, and the flip prolongs the one end that the curb plate portion was kept away from on limit and is equipped with the connection face, connects the inboard of face and curb plate portion and is connected, and is equipped with the broken line on the flip extension edge, and flip extension limit is according to the folding three-dimensional flip check fender of formation of broken line.

3. The multi-azimuth package for shock resistance as set forth in claim 1 or 2, wherein: the flip check keep off including last left check keep off, go up right check keep off, lower left check keep off and lower right check keep off, go up left check keep off, go up right check keep off, lower left check keep off and lower right check keep off can one of them use alone, or the combination stack uses.

4. The multi-orientation crash-proof package of claim 1 wherein: the plane of the turnover cover block is provided with a positioning part, the positioning part is a window arranged on the turnover cover block, and the packaged product is fixed through the positioning part of the turnover cover block.

5. The multi-orientation crash-proof package of claim 1 wherein: the shockproof piece also comprises a side plate partition, and the side plate partition is separated in the box body to form a multi-section structure so as to buffer and resist shock for packaged products in the box body.

6. The multi-orientation crash-proof package of claim 5 wherein: the side plate partitions comprise side plate barriers, and the containing space of the box body forms multi-section side plate partitions after the side plate barriers are folded and formed.

7. The multi-orientation crash-proof package of claim 6 wherein: curb plate check keep off the curb plate extension limit for curb plate portion one side, and the curb plate extension limit is equipped with a plurality of connection faces, and a plurality of connection faces are connected with the inboard of curb plate portion, and are equipped with the broken line on the curb plate extension edge, and the curb plate extension limit is according to the broken line folding and is in form three-dimensional curb plate subregion in the box body.

8. The multi-directional shockproof packaging box according to claim 6 or 7, wherein: the side plate block is any one of a left block dividing block, a right block dividing block, a middle block dividing block, a three-face block, a single-corner block and a diagonal block.

9. The multi-orientation crash-proof package of claim 1 wherein: the broken line on flip check fender and the curb plate check fender includes a plurality of indentation lines and a plurality of half a wear sword tangent line, and a plurality of indentation lines and a plurality of half a wear sword tangent line all are the discontinuous along the straight line and arrange.

10. The multi-orientation crash-proof package of claim 1 wherein: the side of the flip grid and the side plate grid in contact with the packaged product is provided with a wear-resistant part.

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