CN217779537U - A buffering packaging structure for fragile article - Google Patents

Abstract

The application discloses a buffering packaging structure for fragile article includes: the packaging box comprises a box body, a packaging box and a packaging box, wherein a containing space for containing a to-be-packaged piece is limited in the box body, and the box body comprises an upper bottom and a lower bottom; the top buffer is arranged between the upper bottom and the to-be-packaged piece; the bottom buffer is arranged between the lower bottom and the to-be-packaged piece; the honeycomb plate is arranged below the bottom buffer and used for providing bottom support for the to-be-packaged piece; the protecting ribs are arranged on the edges of the to-be-packaged piece and the top buffer; and the protective corners are arranged on the top corners of the to-be-packaged piece and the top buffer. The application provides a buffering packaging structure for fragile products, wherein the fragile products are fixed through a buffering assembly and are internally buffered, so that the fragile products are prevented from being damaged in the transportation process; the cost can be reduced by adopting a paper material to replace a wood material, and the environmental protection property of the package can be improved by adopting a foamed polyethylene material to replace an EPS foam board.

Description

A buffering packaging structure for fragile article

Technical Field

The application relates to the technical field of logistics, in particular to a buffering packaging structure for fragile products.

Background

Along with the rapid development of the express industry, more and more types of products begin to be transported through express delivery, and especially some fragile products put forward higher requirements on express packaging.

Currently, in some fragile products, low-density EPS foam boards are mostly used as cushioning materials in boxes, and wooden frames or wooden frames are used as external materials. The EPS foam board is not an environment-friendly material, and the waste treatment of EPS packaging can cause serious pollution to the environment. Due to the fact that the time consumption of the wooden frame or the wooden frame is long, the packaging efficiency is affected, the labor cost is high, and the wooden frame or the wooden frame is difficult to detach, so that the terminal user experience is poor. In addition, the overall cost of the wooden frame or the wooden frame is higher, and the matching degree with the product price is poor.

Therefore, how to provide a fragile product cushioning packaging structure with good protection performance and low cost becomes a technical problem to be solved by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The application aims to provide a buffering packaging structure for fragile articles, which has good protection performance on articles to be packaged and lower cost.

In order to solve one or more of the above technical problems, the present application adopts the following technical solutions:

the application provides a buffering packaging structure for fragile article, include:

the packaging box comprises a box body, a packaging box and a packaging box, wherein a containing space for containing a to-be-packaged piece is defined in the box body, and the box body comprises an upper bottom and a lower bottom;

a top cushion disposed between the upper base and the ready-to-package;

a bottom cushion disposed between the lower base and the item to be packaged;

a honeycomb panel disposed below the bottom cushion for providing bottom support for the ready-to-package;

a plurality of retaining ridges disposed on the ready-to-package and the top cushioned edge;

a plurality of corner protectors disposed on the ready-to-package and top cushioned top corners.

Further, protect stupefied including first body and first protruding structure, the cross section of first body is the L type, first protruding structure is followed the interior angle of first body is outwards extended and is formed. The edge of the to-be-packaged piece can be wrapped by the edge protection ridge, the to-be-packaged piece is prevented from shaking in the outer package box and being damaged, and therefore the overall stability is improved.

Further, protect stupefied be the notch cuttype, the notch cuttype protects stupefied and makes the fashioned piece of waiting to pack form complete regular structure to have sufficient buffering effect. The number of the protecting ribs is 2.

Furthermore, the corner protector comprises a second body, a third body, a fourth body and second protruding structures, wherein the second body, the third body and the fourth body are arranged in a mutually crossed mode, the second protruding structures are arranged on the second body and the third body, and the second protruding structures extend outwards along the inner walls of the second body and the third body respectively to form the corner protector.

Furthermore, the corner protector is of a step type, and the step type corner protector enables the formed package to be packaged to form a complete regular structure and has a sufficient buffering effect.

Furthermore, the number of the corner protectors is 4, the corner protectors correspond to four corners of the to-be-packaged piece respectively, and buffer protection is formed on the four corners of the to-be-packaged piece.

Further, the top cushion and the bottom cushion are matched with the shape of the to-be-packaged piece.

Furthermore, the box body and the honeycomb plate are made of paper materials. The structure made of the paper material can be cut into a desired shape by using a common paperboard cutting board die, so that the die opening cost can be reduced, and the early-stage investment cost of the packaging structure is reduced.

Furthermore, the top buffer, the bottom buffer, the protecting ribs and the protecting corners are all made of foamed polyethylene. The foamed polyethylene is a novel environment-friendly packaging material, and the production process of the foamed polyethylene belongs to physical foaming, does not produce other chemical components, and can be recycled repeatedly. The foamed polyethylene can be gradually and naturally degraded into other substances after being irradiated by sunlight or buried underground for several months in nature, and the environment can not be polluted.

Furthermore, the box body adopts a top-bottom cover structure, the upper bottom is a top cover, and the lower bottom is a bottom cover.

Further, the ready-to-package piece includes a mirror.

According to the specific embodiments provided herein, the present application discloses the following technical effects:

the application provides a buffering packaging structure for fragile products, which is improved from the aspects of structure and material, on one hand, the periphery of a to-be-packaged piece is fixed through a buffering assembly, and internal buffering is provided, so that the to-be-packaged piece is prevented from being damaged in the transportation process; on the other hand, the paper material is used for replacing the wood material, so that the cost is reduced, and the expanded polyethylene material is used for replacing the EPS foam board, so that the environmental protection property of the package can be improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a cushioning packaging structure for fragile products in an opened state according to an embodiment of the present application.

Fig. 2 is a schematic view illustrating an assembly of an inner structure of a cushioning packaging structure for fragile products according to an embodiment of the present application.

Fig. 3 is a schematic view of a corner protector of a cushioning packaging structure for fragile articles according to an embodiment of the present application.

Fig. 4 is a schematic diagram of an enclosure of a cushioning packaging structure for fragile articles according to an embodiment of the present application.

Fig. 5 is a schematic packaging diagram of a cushioning packaging structure for fragile products according to an embodiment of the present application.

Fig. 6 is a schematic diagram of a cushion packaging structure for fragile articles according to one embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments that can be derived from the embodiments given herein by a person of ordinary skill in the art are intended to be within the scope of the present disclosure.

As described in the background art, in some existing packages for fragile products, the cushioning material in the box mostly uses low-density EPS foam boards, and the outside uses wooden frames or wooden frames. The EPS foam board is not an environment-friendly material, and when the EPS foam board is used as packaging waste, the EPS foam board is not easy to rapidly and naturally decompose in a natural environment, and the environment is easy to pollute. The cost of the wooden frame or the wooden frame is high, and the time consumption of beating the wooden frame or the wooden frame is long, so that the packing efficiency is influenced. In addition, wooden shelves or frames are difficult to disassemble, resulting in poor end user experience. In view of the above, the application provides a buffering packaging structure for fragile products, which is improved in structure and material, and on one hand, the periphery of the fragile products is fixed and internally buffered by a buffering component, so that the fragile products are prevented from being damaged in the transportation process; on the other hand, the paper material is used for replacing the wood material, so that the cost is reduced, and the expanded polyethylene material is used for replacing the EPS foam board, so that the environmental protection property of the package can be improved.

Fig. 1 is a schematic structural view of a cushioning packaging structure for fragile products in an opened state according to an embodiment of the present application. Fig. 2 is a schematic view illustrating an assembly of the internal structure of a cushioning packaging structure for fragile products according to an embodiment of the present application. Fig. 3 is a schematic view of a corner protector of a cushioning packaging structure for fragile articles according to an embodiment of the present application. Fig. 4 is a schematic diagram of an enclosure of a cushioning packaging structure for fragile articles according to an embodiment of the present application. As shown in fig. 1, with simultaneous reference to fig. 2, 3 and 4, the cushioning packaging structure for fragile articles generally comprises: the box body 100, the top buffer 200, the bottom buffer 300, the protecting edge 400, the protecting corner 500 and the honeycomb plate 600. The box body 100 includes an upper bottom and a lower bottom, a receiving space for receiving the to-be-packaged item is defined in the box body, the box body adopts a top-bottom cover structure, the upper bottom is a top cover 110, and the lower bottom is a bottom cover 120. It is understood that the top cushion 200, the bottom cushion 300, the corner protectors 400, the corner protectors 500 and the honeycomb panel 600 are also located in the receiving space.

The top buffer 200 is disposed between the top cover 110 and the fragile product, and the bottom buffer 300 is disposed between the bottom cover 120 and the fragile product. The top buffer 200 and the bottom buffer 300 can provide internal buffer for the fragile products, and the fragile products are prevented from being damaged by being pressed by external articles in the transportation process. In addition, as the structure of some fragile articles is irregular, the shapes of the assembled articles form a regular structure by utilizing the top buffer 200 and the bottom buffer 300, which is beneficial to assembly. In one particular embodiment, the item to be fragile is a mirror 700, made of glass, which is easily damaged by impact or compression during transportation.

The honeycomb plate 600 is disposed below the bottom bumper 300 to provide bottom support for the mirror 700. Further, the use of the honeycomb panels 600 to provide bottom support for the mirror 700 also increases the puncture resistance of the package and reinforces the overall compression resistance of the package structure.

The plurality of protection ridges 400 are arranged on the edge of the mirror 700, the protection ridges 400 comprise a first body 410 and a first protrusion structure 420, the cross section of the first body 410 is L-shaped, and the first protrusion structure is formed by extending outwards along the inner angle of the first body 410 of 420. On one hand, the first convex structure 420 of the edge protector fixes the buffer assembly and the mirror 700 together, so that the mirror 700 is prevented from shaking in the outer case to be damaged, and the overall stability is improved; on the other hand, the protective edges 400 respectively correspond to two edges of the mirror 700, and form a buffer protection for the two edges of the mirror 700.

Further, the number of the protecting ribs 400 is 2.

Generally, the corners of the mirror 700 are fragile and susceptible to impact during transport, and are therefore particularly protected. The corner protector 500 is disposed at a top corner of the mirror 700, the corner protector 500 includes a second body 510, a third body 520, and a fourth body 530, which are disposed to intersect with each other two by two, and a second protrusion structure 540 disposed on the second body 510 and the third body 520, and the second protrusion structure 540 is formed by extending outwards along inner walls of the second body 510 and the third body 520, respectively. Specifically, the corner protectors 500 are stepped, and the stepped corner protectors 500 enable the formed mirror 700 to form a complete regular structure and have a sufficient buffering effect.

Furthermore, the number of the corner protectors 500 is 4, and the corner protectors correspond to four corners of the mirror respectively, so that buffer protection is formed on the four corners of the mirror. In this way, the corner of the mirror may be protected from damage in the event of a collision by the corner protectors 500.

As a preferred embodiment, in the embodiment of the present application, the top buffer 200 and the bottom buffer 300 are adapted to the shape of the mirror 700, so that the size of the accommodating space is adapted to the size of the mirror 700, the buffer assembly can fix the mirror 700, and the mirror 700 is kept away from the space, thereby preventing the mirror 700 from being damaged due to shaking during transportation.

Further, the top buffer 200, the bottom buffer 300, the top cover 110 and the bottom cover 120 have the same width and length, so that the top buffer 200 and the bottom buffer 300 abut against the inner walls of the top cover 110 and the bottom cover 120 to better limit the position of the mirror 700.

The box body 100 and the honeycomb plate 600 are made of paper materials. The structure made of the paper material can be cut into a desired shape by using a common paperboard cutting board die, so that the die opening cost can be reduced, and the early-stage investment cost of the packaging structure is reduced.

The top buffer 200, the bottom buffer 300, the edge protector 400 and the corner protector 500 are all made of foamed polyethylene. The foamed polyethylene is a novel environment-friendly packaging material, and the production process of the foamed polyethylene belongs to physical foaming, does not produce other chemical components, and can be recycled repeatedly. The foamed polyethylene can be gradually and naturally degraded into other substances in nature after being irradiated by sunlight or buried underground for several months, and the environment can not be polluted.

Fig. 5 is a schematic packaging diagram of a cushioning packaging structure for fragile products according to an embodiment of the present application. Fig. 6 is a schematic diagram of a cushion packaging structure for fragile articles according to one embodiment of the present application. As shown in fig. 5, and with reference to fig. 6, the cushioning packaging process for fragile products is as follows: 1. sequentially stacking the floor cover 110 and the honeycomb 600 plate; 2. placing the mirror 700 between the top buffer 200 and the bottom buffer 300; 3. placing the corner protectors 400 and 500 on the ridges and corners of the top cushion 200 and the bottom cushion 300, respectively; 4. placing the mirror 700 with the protective edge 400, the protective corner 500, the top cushion 200 and the bottom cushion 300 installed thereon on the honeycomb panel 600; 5. and (5) covering the top cover 110, and firmly binding by using a packing belt to finish packaging.

Further, after the packaging is completed, the edge of the mirror 700 abuts against the top cushion 200 and the bottom cushion 300, and the two sides of the mirror 700 are in direct contact with the protective edge 400 and the protective corner 500, so that the edge of the mirror 700 can be wrapped, the vibration stress in the transportation process is reduced, and the mirror 700 is sufficiently protected.

When the box is unpacked, only the packing belt needs to be removed, and then the components such as the top cover 110, the protecting ribs 400, the protecting corners 500, the top buffer 200, the bottom buffer 300 and the honeycomb plate 600 are taken down in sequence.

From the above, the embodiment of the application provides a buffering packaging structure for fragile products, which is improved in structure and material, and on one hand, the periphery of the fragile products is fixed and internally buffered by a buffering component, so that the fragile products are prevented from being damaged in the transportation process; on the other hand, the paper material is used for replacing the wood material, the cost is reduced, and the foaming polyethylene material is used for replacing the EPS foam board to increase the environmental protection of the package.

The above detailed description is provided for a cushioning packaging structure for fragile products, and the principle and the implementation manner of the present application are explained by applying specific examples, and the above description of the examples is only used to help understanding the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, the specific embodiments and the application range may be changed. In view of the above, the description should not be taken as limiting the application.

Claims (10)

1. A cushioning packaging structure for fragile articles, comprising:

the packaging box comprises a box body, a packaging box and a packaging box, wherein a containing space for containing a to-be-packaged piece is defined in the box body, and the box body comprises an upper bottom and a lower bottom;

a top cushion disposed between the upper base and the ready-to-package item;

a bottom cushion disposed between the base and the ready-to-package piece;

a honeycomb panel disposed below the bottom cushion for providing bottom support for the ready-to-package;

a plurality of ridges disposed on the ready-to-package and the top cushioned edges;

a plurality of corner protectors disposed on the top corners of the ready-to-package piece and the top cushion.

2. The cushioning packaging structure for fragile products according to claim 1, wherein the protecting rib comprises a first body and a first protrusion structure, the cross section of the first body is L-shaped, and the first protrusion structure extends outwards along the inner angle of the first body.

3. The cushioning packaging structure for fragile products according to claim 2, wherein the number of the protecting ridges is 2.

4. The cushioning packaging structure for fragile products according to claim 1, wherein said corner protector comprises a second body, a third body and a fourth body arranged to cross each other two by two, and a second protrusion structure provided on said second body and said third body, said second protrusion structure extending outwardly along inner walls of said second body and said third body, respectively.

5. The cushioning packaging structure for fragile products according to claim 4, wherein the number of the beads is 4.

6. The cushioning packaging structure for fragile articles according to claim 1, characterized in that the top cushion and the bottom cushion are adapted to the shape of the ready-to-package member.

7. The cushioning packaging structure for fragile products according to claim 1, wherein the box body and the honeycomb plate are made of paper material.

8. The cushioning packaging structure for fragile products according to claim 1, wherein said top cushioning, bottom cushioning, edge protecting and corner protecting are made of foamed polyethylene.

9. The cushioning packaging structure for fragile products according to claim 1, wherein said box body is of a top-bottom lid structure, said upper bottom is a top lid, and said lower bottom is a bottom lid.

10. The cushioning packaging structure for fragile articles according to claim 1, wherein the to-be-packaged item comprises a mirror.

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