CN214268373U - Stacked disassembly-free packaging material structure - Google Patents

Abstract

A stacked packaging material structure without disassembly comprises a stacked packaging material, a cover plate and a panel, wherein the stacked packaging material is formed by stacking a plurality of packaging material units with the same structure, each packaging material unit comprises a bottom plate, a pre-opened stacking notch for stacking is formed in the corner position of each bottom plate, a packaging material structure block is arranged on each bottom plate, and a stacking positioning block matched with the pre-opened stacking notch is formed in the corner position of the upper surface of each packaging material structure block; a plurality of blind grooves serving as object placing grooves are arranged on the packaging material structure block in parallel, the object placing grooves are matched with the bottom surface structure of the material to be packaged, and one side of each object placing groove is arranged to be an opening side; the opening side of the packing material structure block is provided with a panel for sealing, and the surface of the uppermost packing material structure block after being stacked is provided with a cover plate for sealing the surface. The utility model discloses packaging structure is compact, and the protectiveness is good, is convenient for stack the packing, and convenient transportation and recovery are favorable to reduce cost.

Description

Stacked disassembly-free packaging material structure

Technical Field

The utility model relates to a packaging material technical field, concretely relates to heap exempts from to tear open packing material structure.

Background

In the production, storage and transportation processes of enterprises, packing materials are often used for packing parts or finished products, different packing modes can produce different packing effects, and the protection degrees of packaged objects packed in the packing materials are different; in addition, due to the problems of violent transportation or random stacking which may exist in the storage and transportation processes, if the packaging material is not designed reasonably, the packaged objects packaged in the cartons are easy to collide and damage, the quality is affected, and the loss is caused.

In view of the above problems, many existing packaging material structures adopt integral packaging, and the packaging material structure is complex in structure and limited by size and needs to bear expensive plastic mold cost and processing cost, so that the packaging operation is complicated, the manufacturing is complex, the integral packaging volume is large, and the taking and placing operation is troublesome; the stacked small and medium-sized packaged objects are easy to deform due to the bearing problem, and are easy to shift and collapse in the operation process after being stacked; meanwhile, the packaging material structure has the problem of inconvenient recycling due to integral packaging, so that the comprehensive use cost is higher.

Therefore, it is necessary to design a non-disassembly packing material structure that can not only satisfy the non-disassembly packing but also improve the structural stability in the stacking state.

SUMMERY OF THE UTILITY MODEL

The technical problem solved by the utility model is to provide a heap exempts from to tear open packing material structure to solve the defect in the above-mentioned technical background.

The utility model provides a technical problem adopt following technical scheme to realize:

a stacked packaging material structure without disassembly comprises a stacked packaging material, a cover plate and a panel, wherein the stacked packaging material is formed by stacking a plurality of packaging material units with the same structure, each packaging material unit comprises a bottom plate, a pre-opened stacking notch for stacking is formed in the corner position of each bottom plate, a packaging material structure block is arranged on each bottom plate, and a stacking positioning block matched with the pre-opened stacking notch is formed in the corner position of the upper surface of each packaging material structure block; a plurality of blind grooves serving as object placing grooves are arranged on the packaging material structure block in parallel, the object placing grooves are matched with the bottom surface structure of the material to be packaged, and one side of each object placing groove is arranged to be an opening side; the opening side of the packing material structure block is provided with a panel for sealing, and the surface of the uppermost packing material structure block after being stacked is provided with a cover plate for sealing the surface.

As a further limitation, the packing material structure block is made by molding a composite EPE material.

In a further preferred embodiment, the opening side of the storage compartment is provided on a short side of the storage compartment.

As a further limitation, an anti-skid layer for preventing the material to be packaged from sliding is formed on the inner surface of the storage groove, and a plastic suction disc or a plastic suction plate is arranged on the anti-skid layer for structural limitation and protection.

As a further limitation, a panel lifting slot is formed in the side edge of the packing unit corresponding to one side of the panel, so that the panel can be conveniently detached by force at the panel lifting slot.

By way of further limitation, the panel matches the open side dimensions of the packing unit.

By way of further limitation, the open sides of the laminated wrappers are located on the same side after the wrapper units are stacked, and the panels are of one-piece, single-sided construction with the open side on one side being closed at the open side of the laminated wrappers.

The panel comprises a panel body and a limiting filler block formed on the inner surface of the panel body, and the limiting filler block is matched with the end face of the material to be packaged on the opening side so as to limit and protect the end face of the opening side of the material to be packaged after the panel is closed.

By way of further limitation, the surface of the plate body of the panel and the cover plate is provided with a printing surface.

As a further limitation, the laminated packing material is wrapped and protected by the edge protection strips at the corresponding corner positions of the packing belt during packing and forming.

Has the advantages that: the utility model relates to a heap exempts from to tear open packing material structure's structural design is reasonable, and packing effect is good, can cushion the pressure or the impact that packing material bore in the transportation, can effectively avoid the packing article in it to be collided and damaged, has realized the effective protection to article, has guaranteed the integrity in the article transportation, has reduced the loss on the way of article transportation; meanwhile, the packaging material in the packaging box can be taken and placed without disassembly, the packaging does not need to be disassembled, the automatic taking of the product is facilitated, the recovery efficiency of the packaging material can be effectively improved, and the energy conservation, the environmental protection and the reduction of the enterprise cost are facilitated.

Drawings

Fig. 1 is a schematic diagram of an explosion structure according to a preferred embodiment of the present invention.

Fig. 2 is a schematic diagram of a packing status according to a preferred embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a packing unit according to a preferred embodiment of the present invention.

Fig. 4 is a schematic diagram of a back structure of a panel according to a preferred embodiment of the present invention.

Wherein: 1. a cover plate; 2. a packing unit; 3. a forklift pallet; 4. a panel; 5. edge protecting strips; 6. packing a belt; 7. a panel lifting slot opening; 8. stacking the positioning blocks; 9. packing the material structure block; 10. a PVC blister tray; 11. combining a filler block; 12. pre-opening a stacking notch; 13. a base plate; 14. a panel body; 15. and limiting the filler blocks.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings.

Referring to fig. 1-4, in the preferred embodiment of a stacked non-dismantling wrapping material structure, in the embodiment, the stacked wrapping material of the stacked non-dismantling wrapping material structure is formed by stacking four layers of wrapping material units 2 with the same structure, each wrapping material unit 2 has the same structure, as shown in fig. 3, and includes a bottom plate 13 and a wrapping material structure block 9 formed on the bottom plate 13, the wrapping material structure block 9 is formed by molding a composite EPE material to buffer and protect a material to be packaged, two rectangular blind slots arranged side by side are arranged on the upper surface of the wrapping material structure block 9 as object slots, the rectangular blind slots are three-sided closed, one surface is provided with an open surface, the open side corresponding to the open surface is arranged on the short side of the object slot, and a notch is reserved on the open surface of the bottom plate 13.

The combined filler blocks 11 of the L shapes symmetrically arranged in the rectangular blind grooves are padded to form bottom surface structures matched with the materials to be packaged in the rectangular blind grooves, so that the materials to be packaged and the attaching degree of the object placing grooves are guaranteed. In this embodiment, the combined filler block 11 is formed with an anti-slip layer for preventing the material to be packaged from slipping corresponding to the contact side surface of the material to be packaged, and the PVC plastic sucking disc 10 is adhered to the surface of the anti-slip layer through an adhesive for structural limitation and protection.

In order to facilitate the stacking operation of the packing material units 2, pre-opened stacking notches 12 are formed in the corner positions of the bottom plates 13 of the packing material units 2, and stacking positioning blocks 8 matched with the pre-opened stacking notches 12 are arranged in the positions corresponding to the corners of the top surfaces of the corresponding packing material structure blocks 9; the packing material units 2 which are stacked up and down through the pre-opened stacking notches 12 and the stacking positioning blocks 8 to form a stacked packing material structure as shown in figures 1 and 2, the surface of the packing material unit 2 on the uppermost layer is sealed by taking the peach-wood core splint as the cover plate 1 after the stacked packing materials are stacked, and the cover plate 1 is also provided with notches matched with the stacking positioning blocks 8, so that the cover plate 1 can be completely covered on the surface of the stacked packing materials.

The opening side corresponding to the rectangular blind slot is then closed by the panel 4, in this embodiment, the structure of the panel 4 is as shown in fig. 4, and includes a panel plate body 14 and a limiting filler block 15 formed on the surface of the panel plate body 14, the side of the panel plate body 14 on the opening side is matched with the side of the packing material unit 2, and the limiting filler block 15 is matched with the end face of the material to be packaged on the opening side and closes the reserved notch of the counter bottom plate 13, so as to provide limiting protection for the material to be packaged after the panel 4 is used for face-closing the opening side of the packing material unit 2. The panel 4 is sealed in the packing unit 2 through the threaded connecting piece, the panel 4 can be opened only by removing the corresponding threaded connecting piece during disassembly, the material packaged in the packing unit 2 is taken out from the side edge of the packing unit 2, and in order to open the panel 4, a panel lifting and pulling groove opening 7 is arranged on the side edge of the packing unit 2 corresponding to the panel 4, so that the panel 4 can be conveniently and forcibly removed through the panel lifting and pulling groove opening 7.

In another embodiment, if the open side of the laminated packaging is located on the same side after the packaging units 2 are stacked, a single panel 4 can be used to close the entire surface of the laminated packaging on the open side, which results in a lower construction cost.

In the embodiment, in order to distinguish the packages, the surface of the plate body of the panel 4 and the surface of the cover plate 1 are provided with printing surfaces.

When the laminated packing material is packed and packed, the laminated packing material is packed and formed, and is wrapped and protected at the corner position corresponding to the packing belt 6 through the edge protection strip 5.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes, modifications and/or alterations to the present invention may be made by those skilled in the art after reading the technical disclosure of the present invention, and all such equivalents may fall within the scope of the present invention as defined by the appended claims.

Claims (10)

1. A stacked packaging material structure without disassembly comprises a stacked packaging material, a cover plate and a panel, and is characterized in that the stacked packaging material is formed by stacking a plurality of packaging material units with the same structure, each packaging material unit comprises a bottom plate, a pre-opened stacking notch for stacking is formed in the corner position of each bottom plate, a packaging material structure block is arranged on each bottom plate, and a stacking positioning block matched with the pre-opened stacking notch is formed in the corner position of the upper surface of each packaging material structure block; a plurality of blind grooves serving as object placing grooves are arranged on the packaging material structure block in parallel, the object placing grooves are matched with the bottom surface structure of the material to be packaged, and one side of each object placing groove is arranged to be an opening side; the opening side of the packing material structure block is provided with a panel for sealing, and the surface of the uppermost packing material structure block after being stacked is provided with a cover plate for sealing the surface.

2. The stacked disassembly-free packing material structure of claim 1, wherein the packing material structure blocks are formed by molding a composite EPE material.

3. The stacked non-dismantling packing material structure as claimed in claim 1, wherein the opening side of the storage slot is disposed at the short side of the storage slot.

4. The stackable non-dismantling packaging material structure as claimed in claim 1, wherein the inner surface of the storage groove is formed with an anti-slip layer for preventing the material to be packaged from slipping, and the anti-slip layer is provided with a plastic suction disc or a plastic suction plate for structural limitation and protection.

5. The stacked disassembly-free packaging material structure of claim 1, wherein the packaging material unit is provided with a panel opening notch at a side edge corresponding to the panel.

6. The stacked disassembly-free packing material structure of claim 1, wherein the panel is matched with the side size of the opening side of the packing material unit.

7. The stacked disassembly-free packing material structure of claim 1, wherein the open sides of the stacked packing materials are located on the same side after the packing material units are stacked, and the face plate is a one-piece single-plate structure, and the open side on one side is single-sided closed at the open side of the stacked packing materials.

8. The stackable non-unpacking material structure of claim 1, wherein the panel comprises a panel board body and a spacing filler block molded on the inner surface of the panel board body, the spacing filler block being matched with the end surface of the material to be packed on the opening side.

9. The stacked non-dismantling packaging material structure as claimed in claim 1, wherein the plate body surfaces of the panel and the cover plate are provided with printing surfaces.

10. The stacked disassembly-free packing material structure of claim 1, wherein the stacked packing material is wrapped and protected by a protective strip at the corresponding corner position of the packing belt during the packing and forming.

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