PACKING BOX STRUCTURE

Abstract

In a packing box structure, a peripheral resistance group is received in an inner accommodation space of an outer box and abuts against inner walls of the inner accommodation space, and a box cover covers a top side of the outer box. A honeycomb composite resistance plate of the peripheral resistance group and a honeycomb composite plate of an inner layer of the box cover provide a stable support for a packing box and can resist shock from an external force, and the main structure is made of recycled paper, so as to achieve effects of convenient use and good environmental protection.

Description

FIELD OF THE INVENTION

The present invention relates to a packing box structure, and particularly to a packing box structure with high strength.

BACKGROUND

A currently well-known packing box structure is as shown in FIG. 1, the packing box structure 40 is formed by a pallet body 41, a plurality of outer boxboard bodies 42 (only one side thereof is shown in FIG. 1) and a top plate body 43. A user can place goods 50 on the pallet body 41, then fix the plurality of outer boxboard bodies 42 around the pallet body 41, and combine the top plate body 43 on a box top surface encircled by the outer boxboard bodies 42, so as to provide package use for transporting the goods 50. However, in the well-known packing box structure 40, the goods 50 are placed vertically on the pallet body 41, then the plurality of outer boxboard bodies 42 is fixed around the pallet body 41, and combine the top plate body 43 on a box top surface encircled by the outer boxboard bodies; therefore, the pallet body 41, the outer boxboard bodies 42 and the top plate body 43 are assembled and combined through nailing, causing poor convenience of use of the overall packing box structure 40.

In addition, the pallet body 41, the outer boxboard bodies 42 and the top plate body 43 of the well-known packing box structure 40 are all made by wood, so it is necessary to cut down a large number of forest trees, causing damage to ecological environments, which thus is poor in environmental protection. Besides, the pallet body 41, the outer boxboard bodies 42 and the top plate body 43 made of wood further need thermal treatment or smokeless processing, which further increases the difficulty in manufacturing the overall packing box structure 40.

In view of the problems of the well-known packing box structure, how to improve the packing box structure so as to increase convenience of use for users and simplicity of manufacturing is one of the problems to be solved by those skilled in the art.

SUMMARY OF THE INVENTION

In view of the foregoing problems, a main objective of the present invention is to provide a packing box structure, so as to increase convenience of use for users and simplicity of manufacturing.

In addition, another objective of the present invention is to provide a packing box structure without use of wood but capable of achieving bearing strength which is equivalent to or superior to that of the packing box structure made of wood.

Based on the foregoing objectives, the packing box structure of the present invention includes: a bottom plate body, a peripheral resistance group and a top cover body. The bottom plate body is provided with an outer layer and an inner layer, the outer layer and the inner layer are combined with each other, and corners of the bottom plate body are each provided with an insert port; the peripheral resistance group is provided with a plurality of first peripheral resistance plate bodies, a plurality of second peripheral resistance plate bodies and a plurality of penetrating bodies, the first peripheral resistance plate bodies and the second peripheral resistance plate bodies are respectively combined by corrugated boards and honeycomb composite resistance plates, the middle of two side edges of each of the first peripheral resistance plate bodies is provided with a positioning penetrating tube, upper and lower sides at two side edges of each of the second peripheral resistance plate bodies are respectively provided with a pivot penetrating tube, the positioning penetrating tubes of the plurality of first peripheral resistance plate bodies are opposite the pivot penetrating tubes of the plurality of second peripheral resistance plate bodies and are respectively penetrated and fixed with the plurality of penetrating bodies, two ends of each of the penetrating bodies respectively penetrate out of the pivot penetrating tubes of the second peripheral resistance plate bodies, a bottom side of the peripheral resistance group is fixed to the bottom plate body, and the penetrating bodies penetrate out of bottom ends of the pivot penetrating tubes of the second peripheral resistance plate bodies, to be penetrated and fixed to the insert ports at the corners of the bottom plate body; and the top cover body is provided with an outer layer and an inner layer, the outer layer and the inner layer are combined with each other, corners of the top cover body are each provided with an insert port, the top cover body is disposed on a top side of the peripheral resistance group, and the penetrating bodies penetrate out of top ends of the pivot penetrating tubes of the second peripheral resistance plate bodies, to be penetrated and fixed to the insert ports at the corners of the top cover body.

In an embodiment of the present invention, the outer layer of the bottom plate body is a corrugated board made of recycled paper, and the inner layer is a honeycomb composite resistance plate.

In an embodiment of the present invention, the corrugated board of the peripheral resistance group is made of recycled paper.

In an embodiment of the present invention, the penetrating bodies of the peripheral resistance group are corrugated boards made of recycled paper.

In an embodiment of the present invention, the outer layer of the top cover body is a corrugated board made of recycled paper, and the inner layer is a honeycomb composite resistance plate.

In an embodiment of the present invention, the corrugated boards are in a horizontal-vertical wave shape. Accordingly, the overall strength of the corrugated boards can be improved.

In an embodiment of the present invention, the bottom plate body, the peripheral resistance group and the top cover body are all made of paper.

The present invention has the following effects: the honeycomb composite resistance plate of the peripheral resistance group and the honeycomb composite plate of the inner layer of the box cover provide a stable support for a packing box and can resist shock from an external force, and the main structure is made of recycled paper, so as to achieve effects of convenient use and good environmental protection.

In addition, through the structure of the present invention and in coordination with embodiments where all structures use paper or are made of recycled paper, the effect of bearing strength which is equivalent to or superior to that of the packing box structure made of wood can be achieved completely without use of wood.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic structural diagram of a well-known packing box structure;

FIG. 2 is a schematic appearance diagram of an improved packing box structure according to an embodiment of the present invention;

FIG. 3 is a three-dimensional exploded schematic diagram of an improved packing box structure according to an embodiment of the present invention;

FIG. 4 is a sectional and partially enlarged schematic diagram of an improved packing box structure according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of an extending connection state of first peripheral resistance plate bodies and second peripheral resistance plate bodies of a peripheral resistance group according to an embodiment of the present invention; and

FIG. 6 is a schematic diagram of a use state in which an improved packing box structure accommodates goods according to an embodiment of the present invention.

DETAILED DESCRIPTION

To understand the present invention more clearly, specific embodiments of the present invention are described below with reference to the accompanying drawings. The shapes, sizes, scales and the like of the elements shown in the figures are merely exemplary, instead of limiting the implementation scope of the present invention. In addition, although any embodiment to be described below discloses a plurality of technical features at the same time, it does not mean that all technical features in any embodiment must be implemented at the same time.

Referring to FIG. 2 to FIG. 4, FIG. 2 to FIG. 4 are respectively appearance, exploded, and sectional and partially enlarged schematic diagrams of an improved packing box structure according to an embodiment of the present invention. The improved packing box structure includes a bottom plate body 10, a peripheral resistance group 20 and a top cover body 30.

The bottom plate body 10 is provided with an outer layer 11 and an inner layer 12, the outer layer 11 and the inner layer 12 are combined with each other, and corners of the bottom plate body 10 are each provided with an insert port 13. The outer layer 11 of the bottom plate body 10 is a corrugated board made of recycled paper, and the inner layer 12 is a honeycomb composite resistance plate.

The peripheral resistance group 20 is provided with a plurality of first peripheral resistance plate bodies 21, a plurality of second peripheral resistance plate bodies 22 and a plurality of penetrating bodies 23. The first peripheral resistance plate bodies 21 and the second peripheral resistance plate bodies 22 are respectively combined by corrugated boards 210, 220 and honeycomb composite resistance plates 211, 221. The corrugated boards 210, 220 are made of recycled paper.

The middle of two side edges of each of the first peripheral resistance plate bodies 21 is provided with a positioning penetrating tube 212, upper and lower sides at two side edges of each of the second peripheral resistance plate bodies 22 are respectively provided with a pivot penetrating tube 222. The positioning penetrating tubes 212 of the plurality of first peripheral resistance plate bodies 21 are opposite the pivot penetrating tubes 222 of the plurality of second peripheral resistance plate bodies 22 and are respectively penetrated and fixed with the plurality of penetrating bodies 23. In addition, two ends of each of the penetrating bodies 23 respectively penetrate out of the pivot penetrating tubes 222 of the second peripheral resistance plate bodies 22. The penetrating bodies 23 are corrugated boards made of recycled paper. A bottom side of the peripheral resistance group 20 is fixed to the bottom plate body 10, and the penetrating bodies 23 penetrate out of bottom ends of the pivot penetrating tubes 222 of the second peripheral resistance plate bodies 22, to be penetrated and fixed to the insert ports 13 at the corners of the bottom plate body 10.

The top cover body 30 is provided with an outer layer 31 and an inner layer 32, the outer layer 31 and the inner layer 32 are combined with each other, corners of the top cover body 30 are each provided with an insert port 33, the top cover body 30 is fixed to a top side of the peripheral resistance group 20, and the penetrating bodies 23 penetrate out of top ends of the pivot penetrating tubes 222 of the second peripheral resistance plate bodies 22, to be penetrated and fixed to the insert ports 33 at the corners of the top cover body 30.

The improved packing box structure of the present creation is completed through cooperation of the foregoing structure. Referring to FIG. 2 to FIG. 6, FIG. 2 to FIG. 6 are respectively appearance, three-dimensional exploded, sectional and partially enlarged schematic diagrams of an improved packing box structure, and schematic diagrams of an extending connection state of first peripheral resistance plate bodies and second peripheral resistance plate bodies of a peripheral resistance group and of a use state in which an improved packing box structure accommodates goods according to an embodiment of the present invention.

The bottom plate body 10 is fixed to a bottom side of the peripheral resistance group 20, the penetrating bodies 23 of the peripheral resistance group 20 penetrate out of bottom ends of the pivot penetrating tubes 222 of the second peripheral resistance plate bodies 22, to be penetrated and fixed to the insert ports 13 at the corners of the bottom plate body 10, the top cover body 30 is fixed to a top side of the peripheral resistance group 20, the penetrating bodies 23 of the peripheral resistance group 20 penetrate out of top ends of the pivot penetrating tubes 222 of the second peripheral resistance plate bodies 22, to be penetrated and fixed to the insert ports 33 at the corners of the top cover body 30, through the bottom plate body 10, the peripheral resistance group 20 and the top cover body 30, the corrugated boards are combined with the honeycomb composite resistance plates, so as to provide a stable support for a packing box and be capable of resisting shock from an external force; in addition, in the embodiments where the bottom plate body 10, the peripheral resistance group 20 and the top cover body 30 are all made of paper, the effect of bearing strength which is equivalent to or superior to that of the packing box structure completely made of wood can be achieved completely without use of wood.

Moreover, the positioning penetrating tubes 212 of the first peripheral resistance plate bodies 21 of the peripheral resistance group 20 are opposite the pivot penetrating tubes 222 of the second peripheral resistance plate bodies 22 and are respectively penetrated and fixed with the plurality of penetrating bodies 23, to enable the peripheral resistance group 20 to extend as required or change in conjunction with the bottom plate body 10 and the top cover body 30 having different sizes, so as to achieve the efficacy of big structural changes and good use convenience.

The above descriptions are preferred embodiments of the present invention, but are not intended to limit the present invention. Any person skilled in the art can make some variations according to the shapes, structures, features and number in the scope of the present invention without departing from the spirit and scope of the present invention. Therefore, the scope of the present invention should be subject to that defined by the claims appended to the specification.

Claims

1. A packing box structure, comprising:

a bottom plate body, wherein the bottom plate body is provided with an outer layer and an inner layer, the outer layer and the inner layer are combined with each other, and corners of the bottom plate body are each provided with an insert port;

a peripheral resistance group, wherein the peripheral resistance group is provided with a plurality of first peripheral resistance plate bodies, a plurality of second peripheral resistance plate bodies and a plurality of penetrating bodies, the first peripheral resistance plate bodies and the second peripheral resistance plate bodies are respectively combined by corrugated boards and honeycomb composite resistance plates, the middle of two side edges of each of the first peripheral resistance plate bodies is provided with a positioning penetrating tube, upper and lower sides at two side edges of each of the second peripheral resistance plate bodies are respectively provided with a pivot penetrating tube, the positioning penetrating tubes of the plurality of first peripheral resistance plate bodies are opposite the pivot penetrating tubes of the plurality of second peripheral resistance plate bodies and are respectively penetrated and fixed with the plurality of penetrating bodies, two ends of each of the penetrating bodies respectively penetrate out of the pivot penetrating tubes of the second peripheral resistance plate bodies, a bottom side of the peripheral resistance group is fixed to the bottom plate body, and the penetrating bodies penetrate out of bottom ends of the pivot penetrating tubes of the second peripheral resistance plate bodies, to be penetrated and fixed to the insert ports at the corners of the bottom plate body; and

a top cover body, wherein the top cover body is provided with an outer layer and an inner layer, the outer layer and the inner layer are combined with each other, corners of the top cover body are each provided with an insert port, the top cover body is disposed on a top side of the peripheral resistance group, and the penetrating bodies penetrate out of top ends of the pivot penetrating tubes of the second peripheral resistance plate bodies, to be penetrated and fixed to the insert ports at the corners of the top cover body.

2. The packing box structure according to claim 1, wherein the outer layer of the bottom plate body is a corrugated board made of recycled paper, and the inner layer is a honeycomb composite resistance plate.

3. The packing box structure according to claim 1, wherein the corrugated board of the peripheral resistance group is made of recycled paper.

4. The packing box structure according to claim 1, wherein the penetrating bodies of the peripheral resistance group are corrugated boards made of recycled paper.

5. The packing box structure according to claim 1, wherein the outer layer of the top cover body is a corrugated board made of recycled paper, and the inner layer is a honeycomb composite resistance plate.

6. The packing box structure according to claim 1, wherein the corrugated boards are in a horizontal-vertical wave shape.

7. The packing box structure according to claim 1, wherein the bottom plate body, the peripheral resistance group and the top cover body are all made of paper.

8. The packing box structure according to claim 7, wherein the paper is a material of recycled paper.