CN221564158U - Novel buffering package material - Google Patents

Abstract

The novel buffering packing material comprises an upper packing material group and a lower packing material group, wherein the upper packing material group comprises two upper corner packing materials and at least one upper middle packing material, and the lower packing material group comprises two lower corner packing materials and at least one lower middle packing material; the lower corner packaging material comprises an L-shaped first supporting plate, two sides of the first supporting plate are respectively connected with a first side plate, the first supporting plate is clamped between the two first side plates, and a corner slot which can be clamped on a corner is formed by enclosing the two first side plates and the first supporting plate; the lower middle packaging material comprises a middle bottom plate, wherein two sides of the middle bottom plate in the length direction are respectively connected with a second side plate, the middle bottom plate is clamped between the two second side plates, and a strip-shaped slot is formed between the two second side plates and the middle bottom plate; wherein, first backup pad and middle part bottom plate are EPE plate body, and first curb plate and second curb plate are honeycomb cardboard. The buffering packing material is more environment-friendly, and meanwhile, packaged products can be better protected.

Description

Novel buffering package material

Technical Field

The utility model relates to the technical field of packaging, in particular to a novel buffering packing material.

Background

The buffer design packaging mode of the liquid crystal television, the liquid crystal advertisement machine or the intelligent interactive flat plate is mainly adopted by EPS or EPE material packaging materials to protect equipment in the market at present.

In the conventional equipment buffer design, the equipment is protected by buffering EPE material packages around the equipment, as shown in fig. 1, corner packages 2' are sleeved on four corners of the equipment 1' (packaged products), middle packages 3' are sleeved on the upper and lower edges of the equipment, and the corner packages 2' and the middle packages 3' are formed by foaming EPE and other foaming materials. Although EPE has the advantages of shock resistance, sound insulation, heat preservation, good plasticity, strong toughness, recycling, strong collision resistance and the like, the production cost is relatively high, the compression resistance of EPE is probably inferior to that of some hard packaging materials, the rigidity is insufficient, and the EPE is not directly and naturally degraded by a method, so that the EPE is not a completely environment-friendly material.

For the package material of buffering material, partly be the honeycomb cardboard of direct use environmental protection material, although its rigidity is good, its buffering dynamics is little, and antidetonation, shock resistance are general, especially to the part of equipment bottom, and the impact that can receive in the transportation bottom is comparatively serious, and the buffering material of package material needs to guarantee certain buffer performance, otherwise exists the risk of falling down when using.

Disclosure of utility model

The utility model aims to provide a novel buffering packing material, which is more environment-friendly and can better protect packaged products.

In order to achieve the above object, the solution of the present utility model is:

The novel buffering packing material comprises an upper packing material group and a lower packing material group, wherein the upper packing material group comprises two upper corner packing materials and at least one upper middle packing material, and the lower packing material group comprises two lower corner packing materials and at least one lower middle packing material; the lower corner packaging material comprises an L-shaped first supporting plate, two sides of the first supporting plate are respectively connected with a first side plate, the first supporting plate is clamped between the two first side plates, and a corner slot which can be clamped on a corner is formed by enclosing the two first side plates and the first supporting plate; the lower middle packaging material comprises a middle bottom plate, wherein two sides of the middle bottom plate in the length direction are respectively connected with a second side plate, the middle bottom plate is clamped between the two second side plates, and a strip-shaped slot is formed between the two second side plates and the middle bottom plate; wherein, first backup pad and middle part bottom plate are EPE plate body, and first curb plate and second curb plate are honeycomb cardboard.

Further, the lower corner wrapping material is clamped at two corners below the packaged product, the first supporting plate comprises a bottom plate and side plates extending vertically upwards from one side of the bottom plate, and the bottom plate and the side plates are respectively supported at the corners of the bottom of the packaged product.

Further, the lower middle packing material is clamped on the bottom edge of the packaged product, and the middle bottom plate is supported at the bottom of the packaged product.

Further, two first side plates are respectively adhered to two sides of the first supporting plate through adhesives, and two second side plates are respectively adhered to two sides of the middle bottom plate through adhesives.

Further, the upper corner packing material and the upper middle packing material are respectively formed by combining a plurality of honeycomb paperboards, wherein the upper corner packing material comprises a first bottom board, three third side boards which are arranged in a U shape are connected to the first bottom board, and a corner slot which can be clamped on a corner is formed by enclosing the three third side boards and the first bottom board; the upper middle packing material is connected with the fourth side plates on two side edges of the second bottom plate along the length direction, and a strip-shaped slot is formed by enclosing between the two fourth side plates and the second bottom plate.

Further, the cell pitch of the honeycomb paperboard was 8mm.

After the structure is adopted, the buffering package material is combined with a small part of EPE by adopting the honeycomb paperboard, so that the good buffering performance of the EPE is reserved, meanwhile, the rigidity of the buffering package material is improved, the machine is effectively prevented from being overturned, meanwhile, the utilization rate of environment-friendly materials is greatly improved, and the utilization rate of environment-friendly materials of products is improved.

Drawings

FIG. 1 is a schematic view of a prior art apparatus with a cushioning packaging material thereon;

FIG. 2 is a schematic view of the structure of the present utility model installed on a device;

FIG. 3 is a schematic view of the lower corner wrapping material according to the present utility model;

FIG. 4 is a schematic view of the structure of the lower middle packing material of the present utility model;

FIG. 5 is a schematic view of the structure of the upper corner wrapping material of the present utility model;

Fig. 6 is a schematic structural view of the upper middle packing material of the present utility model.

Detailed Description

In order to further explain the technical scheme of the utility model, the utility model is explained in detail by specific examples.

Referring to fig. 2 to 6, the present utility model discloses a novel buffering package material, which comprises an upper package material set and a lower package material set, and is used for buffering and packaging a packaged product 1, wherein the packaged product is generally an electronic device such as a liquid crystal television, a liquid crystal advertisement machine, a conference machine or an intelligent interactive tablet. The upper packing material set comprises two upper corner packing materials 2 and at least one upper middle packing material 3, and the lower packing material set comprises two lower corner packing materials 4 and at least one lower middle packing material 5, so that buffer packing is carried out on the upper side edge and the lower side edge of the four corners of the packaged product 1, and the upper middle packing material 3 and the lower middle packing material 5 can be used on the two side edges of the packaged product 1.

In the present utility model, as shown in fig. 3, the lower corner wrapping material 4 includes an L-shaped first supporting plate 41, two sides of the first supporting plate 41 are respectively connected with a first side plate 42, the first supporting plate 41 is clamped between the two first side plates 42, and a corner slot 40 capable of being clamped on a corner is formed by enclosing between the two first side plates 42 and the first supporting plate 41. In this embodiment, a first side plate 32 is provided with a notch 421 according to the packaging requirement of the packaged object, wherein one lower corner wrapping material 4 and the other lower corner wrapping material 4 clamped at the opposite lower corner form symmetry. Since the lower corner wrapping 4 is caught at both corners under the packaged product 1, the first support plate 41 includes a bottom plate 411 and side plates 412 extending vertically upward from one side of the bottom plate 411, and the bottom plate 411 and the side plates 412 are respectively supported at the bottom corners of the packaged product 1.

As shown in fig. 4, the lower middle packaging material 5 includes a middle bottom plate 51, two sides of which are respectively connected with a second side plate 52 along the length direction, the middle bottom plate 51 is clamped between the two second side plates 52, and a strip slot 50 is formed between the two second side plates 52 and the middle bottom plate 51. Since the lower middle wrapper 5 is caught on the bottom edge of the packaged product 1 in use, the middle bottom plate 51 is supported at the bottom of the packaged product 1.

In the lower corner packing material 4 and the lower middle packing material 5, the first supporting plate 41 and the middle bottom plate 51 are EPE plate bodies, and the first side plate 42 and the second side plate 52 are honeycomb paperboards. The two first side plates 42 may be adhered to both sides of the first support plate 41 by means of an adhesive, and the two second side plates 52 may be adhered to both sides of the middle bottom plate 51 by means of an adhesive. Through designing first backup pad 41 and middle part bottom plate 51 as the EPE plate body, consider packaged product, say that equipment receives the impact comparatively seriously in the transportation bottom, design preferably uses the more superior EPE of cushioning properties as supporting complete machine weight, simultaneously significantly reduce EPE use amount, and the buffering package material that is located equipment front and back changes honeycomb cardboard, improves the tilting support effect around the machine greatly, effectively improves complete machine and falls the machine phenomenon, and honeycomb cardboard can be regarded as the complete machine and falls the effective buffering of machine simultaneously, effectively protects machine safety. The mode that EPE and honeycomb cardboard combine together in lower corner package material 4 and the lower middle part package material 5 can reduce EPE use amount, and the strength of standing of the complete machine is heightened, effectively improves environmental protection material honeycomb cardboard and uses, and the product is more green environmental protection.

For the upper packing material set, as shown in fig. 5, the upper corner packing material 2 and the upper middle packing material 3 may be directly combined by a plurality of honeycomb paperboards, respectively. The upper corner wrapping material 2 includes a first bottom plate 21, on which three third side plates forming a U-shaped arrangement are connected, and a corner slot 20 capable of being clamped on a corner is formed between the three third side plates and the first bottom plate 21. The three third side plates are divided into two parallel transverse third side plates 221, the heights and thicknesses of the two transverse third side plates 221 can be different, the design is carried out according to the use requirement, the other longitudinal third side plate 222 is vertically positioned at one side of the two transverse third side plates 221, the outer side of one side of the two transverse third side plates is sealed, and the corner slot 20 is formed by enclosing. As shown in fig. 6, the upper middle packing material 3 is connected with the fourth side plates 32 on two sides of the second bottom plate 31 along the length direction, and a strip slot 30 is formed between the two fourth side plates 32 and the second bottom plate 31. The height and thickness of the two fourth side plates 32 may be different and designed according to the use requirements. The first bottom panel 21, the third transverse side panel 221, the third longitudinal side panel 222, the second bottom panel 31, and the fourth side panel 32 are each honeycomb paperboard. The upper corner packing material 2 and the upper middle packing material 3 in the upper packing material set are designed to be composed of honeycomb paperboards, because the upper packing material set has the advantages that the requirement on buffering is not as severe as that of the lower packing material set on the protection equipment, the strength of the honeycomb paperboards is good, the weight is light, the honeycomb paperboards have good buffering function, and the machine safety is effectively protected.

For the honeycomb paperboards used in the upper corner packing material 2, the upper middle packing material 3, the lower corner packing material 4 and the lower middle packing material 5 (the first side plate 42 and the second side plate 52), the honeycomb paperboards with the hole pitch of 8mm can be adopted, and the corresponding pair of the honeycomb paperboards with the specification can meet the buffer packaging requirements of liquid crystal display products in the aspects of buffering and vibration isolation functions, strength and rigidity.

The utility model is mainly different from the prior art in that the most of the buffering materials of the packing materials are environment-friendly honeycomb paperboards, and the packing materials which are all composed of EPE can be well reflected in buffering performance in the existing buffering design, but the performance in rigidity strength is not outstanding. The buffering package material adopts the design of combining the honeycomb paperboard and the EPE, and the honeycomb paperboard and the EPE are combined for application, so that the advantages of high EPE buffering property, strong shock resistance and impact resistance and difficult deformation are maintained on the use effect especially in the lower package material group, and the advantage of high rigidity strength of the honeycomb paperboard is also reflected, so that the original two materials applied in different fields are well combined together. In addition, the combined application of the honeycomb paperboard and the EPE greatly reduces the use of the EPE, enlarges the application of the honeycomb paperboard, can be greatly improved in environmental protection, and obviously improves the application of green environmental protection due to the advantage that the honeycomb paperboard can be naturally degraded.

The above examples and drawings are not intended to limit the form or form of the present utility model, and any suitable variations or modifications thereof by those skilled in the art should be construed as not departing from the scope of the present utility model.

Claims (6)

1. The utility model provides a novel buffering package material which characterized in that: the upper packing material set comprises two upper corner packing materials and at least one upper middle packing material, and the lower packing material set comprises two lower corner packing materials and at least one lower middle packing material; the lower corner packaging material comprises an L-shaped first supporting plate, two sides of the first supporting plate are respectively connected with a first side plate, the first supporting plate is clamped between the two first side plates, and a corner slot which can be clamped on a corner is formed by enclosing the two first side plates and the first supporting plate; the lower middle packaging material comprises a middle bottom plate, wherein two sides of the middle bottom plate in the length direction are respectively connected with a second side plate, the middle bottom plate is clamped between the two second side plates, and a strip-shaped slot is formed between the two second side plates and the middle bottom plate; wherein, first backup pad and middle part bottom plate are EPE plate body, and first curb plate and second curb plate are honeycomb cardboard.

2. The novel cushioning packaging material as set forth in claim 1, wherein: the lower corner packing material is clamped at two side corners below the packaged product, the first supporting plate comprises a bottom plate and side plates extending vertically upwards from one side of the bottom plate, and the bottom plate and the side plates are respectively supported at the bottom corners of the packaged product.

3. The novel cushioning packaging material as set forth in claim 1, wherein: the lower middle packing material is clamped on the bottom edge of the packaged product, and the middle bottom plate is supported at the bottom of the packaged product.

4. A novel cushioning packaging material as set forth in any one of claims 1 to 3, wherein: the two first side plates are respectively adhered to the two sides of the first supporting plate through adhesives, and the two second side plates are respectively adhered to the two sides of the middle bottom plate through adhesives.

5. The novel cushioning packaging material as set forth in claim 1, wherein: the upper corner packing material and the upper middle packing material are respectively formed by combining a plurality of honeycomb paperboards, wherein the upper corner packing material comprises a first bottom board, three third side boards which are arranged in a U shape are connected to the first bottom board, and a corner slot which can be clamped on a corner is formed by enclosing the three third side boards and the first bottom board; the upper middle packing material is connected with the fourth side plates on two side edges of the second bottom plate along the length direction, and a strip-shaped slot is formed by enclosing between the two fourth side plates and the second bottom plate.

6. A novel cushioning package as set forth in claim 1 or 5, wherein: the cell pitch of the honeycomb paperboard is 8mm.