CN214241661U - Packing box assembly - Google Patents

Abstract

The utility model relates to a packing box assembly, which is used for packing an article. The packing box assembly comprises: a box body, which has a plurality of side walls and a top cover, and the side walls and the top cover are used to form a box inner space; And at least one buffer isolation structure is used to be placed in the inner space of the box and close to at least one side wall, so as to keep the articles in the inner space of the box spaced from the side wall by a gap. The packaging box assembly further includes at least one parts box, and the parts box is placed in the box inner space outside the at least one buffer isolation structure and outside the article. The utility model has the function of protecting articles, wherein the paper does not need to be glued in the process of folding and forming, which meets the requirements of environmental protection, and the packaging box assembly has good structural rigidity and simple material preparation.

Description

Packing box assembly

Technical Field

The utility model relates to a packing carton assembly, in particular to contain at least one buffering isolation structure's packing carton assembly.

Background

Nowadays, the demand for the transportation quality of articles, especially the transportation quality of electronic products, is higher and higher. Generally, a packing box for accommodating electronic products is required to be provided with a buffering material inside the packing box body, so as to protect the electronic products and avoid collision of the electronic products. Common materials for the cushioning material are, for example, foamed cotton, bubble bags, bubble cloths, and the like. Although the buffering materials have the effect of protecting articles, the subsequent treatment after use is a difficult problem, and the buffering materials are not environment-friendly and easily cause environmental pollution.

Disclosure of Invention

To the technical problem, the utility model aims at providing a packing carton assembly, its function that not only has protection article wherein paper-wood need not bind at the fold forming in-process, accords with the environmental protection requirement, and the structural rigidity of packing carton assembly is good, the simple of prepareeing material.

In order to achieve the above object, the present invention provides the following technical solutions:

a carton assembly for packaging an article Ob, the carton assembly 10 utilizing paper material folded to form a structure for receiving the article, the carton assembly 10 comprising:

a box body 11 having a plurality of sidewalls 111 and a top cover 112, the sidewalls 111 and the top cover 112 forming a box interior space S1; and

at least one buffer structure 12 is disposed in the box space S1 and adjacent to the at least one sidewall 111 to maintain the object Ob in the box space S1 spaced from the sidewall 111 by a gap.

The package assembly 10 further comprises at least one parts box 13, wherein the parts box 13 is disposed in the box inner space S1 outside the at least one buffering and separating structure 12 and outside the object Ob.

The buffering isolation structure 12 includes a plurality of reinforcing partition boards 121 and a multi-bending surrounding board 122, wherein the reinforcing partition boards 121 are inserted into the multi-bending surrounding board 122 in a direction perpendicular to a bending line of the multi-bending surrounding board 122.

In the buffering and isolating structure 12, the multi-folding wall 122 has a groove 1221 therein, the groove 1221 is used for receiving the article Ob between the reinforcing partitions 121, and the multi-folding wall 122 includes a plurality of folding structures 1222 in the groove 1221 outside the reinforcing partitions 121 to maintain a gap between the reinforcing partitions 121 and the sidewalls 111.

The plurality of convolution structures 1222 are double-scroll convolution structures.

At least two buffer isolation structures 12 are placed in the box inner space S1, wherein the grooves 1221 in the multi-bending surrounding plates 122 of at least two buffer isolation structures 12 face each other to form an isolated object placing space for accommodating the object Ob.

The buffer isolation structure 12 has a double-inner-bending structure, and is abutted against the corner of the box inner space S1, so as to enhance the structural strength of the corner of the box body 11.

The buffer isolation structure 12 provides a multi-directional buffer isolation function for the object Ob.

The box body 11 and the buffer isolation structure 12 are formed by cutting, folding and molding the same paper material.

The box body 11, the buffering isolation structure 12 and the part box 13 do not need to be bonded in the forming process of the cut paper.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses a packing carton assembly has the function of protection article, and wherein paper wood need not bind in the fold forming process, accords with the environmental protection requirement, and the structural rigidity of packing carton assembly is good, the simple of prepareeing material.

Drawings

Fig. 1 and 2 are schematic views of two embodiments of the present invention;

fig. 3A to 3C are schematic diagrams illustrating a forming process of the box body 11 according to an embodiment of the present invention;

FIGS. 4A, 4B, 5A, and 5B are schematic views illustrating the formation of two structures of a reinforcing spacer 121 according to an embodiment of the present invention;

fig. 6, 7A and 7B are schematic views of the multi-turn fence 122 and the buffering and isolating structure 12 according to an embodiment of the present invention, and the forming process and operation thereof.

Fig. 8 is a schematic diagram illustrating the operation of the buffer isolation structure 12 according to an embodiment of the present invention.

Wherein the reference numerals are:

10: packing box assembly

11: box body

111: side wall

112: top cover

12: buffer isolation structure

121: reinforced partition

122: multi-bending coaming

1221: groove

1222: rolling structure

13: parts box

S1: space in box

Ob: article with a cover

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in fig. 1, the present invention provides a packaging box assembly 10 with a function of protecting an object Ob. The utility model discloses packing carton assembly 10 mainly utilizes paper material, and the structure of the folding formation holding article of paper material need not bind at whole in-process, can accord with the environmental protection requirement, and the structural rigidity that enables packing carton assembly 10 again is good, and prepares material simply, has many advantages.

The utility model discloses a packing carton assembly 10 contains: a box body 11 having a plurality of sidewalls 111 and a top cover 112, the sidewalls 111 and the top cover 112 forming a box interior space S1, as shown in fig. 3C; and at least one buffering and separating structure 12 for being placed in the compartment space S1 and adjacent to the at least one side wall 111 to maintain the object Ob in the compartment space S1 spaced apart from the side wall 111 by a gap, as shown in fig. 1. The packaging box assembly 10 may optionally include a part box, for example, the packaging box assembly 10 in fig. 1 does not include the part box 13, while the packaging box assembly 10 in fig. 2 includes two part boxes 13, and the part boxes 13 are disposed in the interior space S1 outside the buffer isolation structure 12 and outside the object Ob, as shown in fig. 2.

Referring to fig. 3A, a cutting die and a line drawing of the box 11 are shown, wherein the solid lines are cutting lines of the cutting die, and the broken lines are broken lines, so that the paper states after cutting by the cutting die and impressing the broken lines of the box 11 can be obtained according to the cutting die and the line drawing. FIG. 3B shows a schematic view of the process of folding the paper of FIG. 3A. FIG. 3C shows the box 11 with the folded paper material and unsealed. In fig. 3C, the box body 11 includes a plurality of sidewalls 111 and a top cover 112, and the sidewalls 111 and the top cover 112 are used to form a box inner space S1.

The buffer isolation structure 12 of the present invention comprises a plurality of reinforcing partition plates 121, as shown in fig. 4B, 5B, and 7A; and a multi-fold fence 122, as shown in fig. 7A. Referring to fig. 4A, a knife and line diagram of the reinforced spacer 121 is shown, wherein the solid lines are cutting lines of the knife and the dotted lines are broken lines, and the state of the paper after the knife cutting and line pressing of the reinforced spacer 121 can be known from the knife and line diagram. Shown in fig. 4B is a schematic view of the reinforcing spacer 121 after the paper of fig. 4A has been folded. FIG. 5A shows another cutting die and line drawing of the reinforcing separator 121, in which the solid lines are cutting lines of the cutting die and the dotted lines are broken lines, and the state of the paper after cutting and line pressing by the cutting die and line drawing of the reinforcing separator 121 can be known. Figure 5B shows a schematic view of the reinforcing spacer 121 with the folded paper of figure 5A.

Fig. 6 shows a cutting die and a line drawing of the multi-bending coaming 122, wherein the solid lines are cutting die lines and the dotted lines are broken lines, and the cutting die and line drawing shows the state of the paper material after the multi-bending coaming 122 is cut and the line is stamped. It is worth noting that, after the multi-bending surrounding plate 122 of the present invention is formed, the strength and the impact resistance of the buffering isolation structure 12 can be greatly improved by bending for many times. Referring to fig. 7A and 7B, the reinforcing partition 121 is a separate structural design, and the multiple-bending surrounding plates 122 can be shaped by being clamped in the grooves of the reinforcing partition 121 to form the buffering and isolating structure 12. The reinforcing partition 121 is inserted into the multi-bent surrounding plate 122 in a direction perpendicular to the bending line of the multi-bent surrounding plate 122, and thus the reinforcing partition 121 has an effect of shaping the multi-bent surrounding plate 122.

Referring to fig. 8, the multi-turn wall 122 has a groove 1221 therein, the groove 1221 forms a snap-in receiving area for the article Ob through the reinforcing partition 121, and the multi-turn wall 122 includes a plurality of rolled structures 1222 in the groove 1221 outside the reinforcing partition 121 to maintain a gap between the reinforcing partition 121 and the sidewall 111. The rolled structure 1222 reinforces the buffer effect from the outside of the reinforcing partition 121 to the sidewall 111 of the box body.

In one embodiment, the convolution 1222 is a single-scroll convolution or a double-scroll convolution. Depending on the use requirements.

In one embodiment, at least two buffering and separating structures 12 are disposed in the space S1 inside the box, as shown in fig. 1, 2 and 8, the grooves 1221 in the at least two multi-bending enclosing plates 122 face each other to form a separated object space (corresponding to the space for accommodating the object Ob) for accommodating the object Ob. In addition, the reinforcing partition plates 121 in the at least two buffer isolation structures 12 limit the movement of the object Ob in the isolated object placing space, so as to achieve the effect of stabilizing the position of the object Ob. The compartment maintains a gap between the object Ob and either the sidewall 111 or the top cover 112. Referring to fig. 1 and 2, the article Ob is surrounded by the buffer structure 12, and when the top cover 112 is closed, the buffer structure 12 provides a gap between the article Ob and the top cover 112; similarly, the article Ob is isolated from the bottom of the box interior space S1 by the cushioning isolation structure 12, and thus has a gap. This gap protects the article Ob from being damaged during impact of the package assembly 10, i.e., provides a crush space from the case 11 to the article Ob. Even if the box 11 or the buffer isolation structure 12 is damaged, the article Ob can be kept intact.

Referring to fig. 8, the buffer structure 12 has a double-inward-bending structure (i.e. a double-inward-bending structure of the multi-bending surrounding plate 122) to abut against the corner of the box inner space S1 for enhancing the structural strength of the corner of the box body 11. For example, in a drop or impact test, an external force acts on the corners of the case 11 (fig. 8 shows the corners surrounded by the sidewalls 111 of the case 11), and the force is directly transmitted to the dual inward-bending structures and offset by the dual inward-bending structures, thereby reducing the deformation degree of the corners of the case 11. In addition, if the external force is too large, the double-inner-bending structure can also be used as one of the collapsing designs, and the external force is consumed through the deformation of the double-inner-bending structure, so that the object Ob is kept intact and not damaged.

In light of the foregoing, it can be seen that the buffering isolation structure 12 of the present invention provides a multi-directional buffering isolation function for the object Ob, and the multi-directional buffering isolation function is a buffering isolation function for the external force in the three-dimensional direction.

In one embodiment, the inside space S1 may be free of parts boxes, as shown in fig. 1; or one or more parts boxes 13, two parts boxes 13 are illustrated in fig. 2. This number depends on the number and size of the peripheral parts when the article Ob is packed.

In one embodiment, the box body 11 and the buffer structure 12, or the box body 11, the buffer structure 12 and the component box 13 are made by cutting and folding the same paper (e.g., the same tissue, thickness, weight, color, inner wave pattern, etc.). The same paper material can reduce the material management cost and the possibility of wrong selection of production materials. In addition, the same paper material has consistent vision and simple effect. If desired, different papers may be partially or fully employed, as desired.

Claims (7)

1. A packing box assembly for packing an article (Ob), characterized in that the packing box assembly (10) utilizes paper, and the paper is folded to form a structure for accommodating articles, and the packing box assembly ( 10) Contains: a box body (11) having a plurality of side walls (111) and a top cover (112), and the plurality of side walls (111) and the top cover (112) are used to form a box inner space (S1); and At least one buffer isolation structure (12) is used to be placed in the box inner space (S1) and close to at least one side wall (111), so as to keep the articles (Ob) in the box inner space (S1) and all The side wall (111) is spaced by a gap; The buffer isolation structure (12) comprises a plurality of reinforced partitions (121) and a multi-bend enclosure (122), wherein the plurality of reinforced partitions (121) are perpendicular to the multi-bends The direction of the bending line of the shroud (122) is clipped into the multi-bend shroud (122); In the buffer isolation structure (12), a groove (1221) is formed in the multi-bending shroud (122), and the groove (1221) is used for accommodating the object (Ob) in the plurality of Between the plurality of reinforced partitions (121), the multi-bent surrounding plate (122) includes a plurality of rolled structures ( 1222), maintaining a gap between the plurality of reinforced partitions (121) and the plurality of side walls (111). 2. The packing box assembly according to claim 1, characterized in that, the packing box assembly (10) further comprises at least one part box (13), and the part box (13) is placed in the at least one part box (13) Inside the box inner space (S1) outside the buffer isolation structure (12) and outside the article (Ob). 3. The packaging box assembly according to claim 1, wherein the plurality of roll-fold structures (1222) are double-scroll roll-fold structures. 4. The packaging box assembly according to claim 1, wherein at least two buffer isolation structures (12) are placed in the box inner space (S1), wherein at least two buffer isolation structures ( 12) The grooves (1221) in the multi-bend shroud (122) face each other to form an isolated storage space for accommodating the article (Ob). 5. The packaging box assembly according to claim 1, characterized in that, the buffer isolation structure (12) has a double inner bending structure, which touches the corner of the box inner space (S1) to strengthen the box Structural strength at corners of body (11). 6 . The packaging box assembly according to claim 1 , wherein the box body ( 11 ) and the buffer isolation structure ( 12 ) are formed by cutting and folding the same paper material. 7 . 7. The packaging box assembly according to claim 2, characterized in that, the box body (11), the buffer isolation structure (12) and the parts box (13) are obtained from the cut paper The molding process does not require bonding.

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