CN210213231U - Buffering packaging structure - Google Patents

Abstract

The utility model discloses a buffer packaging structure, which comprises a bearing box, a supporting block and a stacking block; the side wall of the bearing box is enclosed to form a containing cavity, the side wall of the bearing box is provided with an object taking groove, the object taking groove extends downwards from the top surface of the side wall of the bearing box, and the object taking groove penetrates through the inner surface and the outer surface of the side wall of the bearing box; the supporting blocks are arranged on the inner surface of the side wall of the bearing box, at least two supporting blocks are arranged on the two opposite side walls of the bearing box in a staggered mode, the top surfaces of the supporting blocks are arranged below the top surface of the side wall of the bearing box, and the top surfaces of the supporting blocks are arranged on the same plane; the stacking block is arranged on the bottom surface of the bearing box and is used for being placed on a plurality of supporting blocks of the same type of buffer packaging structure; therefore, an operator can place products in the accommodating cavity and stack the buffering packaging structures to reduce the occupied space and the cost of packaging materials.

Description

Buffering packaging structure

Technical Field

The utility model relates to a transport package field, in particular to buffering packaging structure.

Background

In the field of transportation and packaging, single-box packaging is generally used, namely one packaging box is used for packaging one product, auxiliary material box sealing adhesive paper is required to be used for each packaging box, the cost of packaging materials is high, a plurality of packaging boxes are directly stacked and placed in a large space, and therefore a technical scheme capable of solving the problems is urgently needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a buffering packaging structure to solve the high problem of packaging material cost.

In order to solve the technical problem, the utility model provides a buffer packaging structure, which comprises a bearing box, wherein the side wall of the bearing box is enclosed to form an accommodating cavity, the side wall of the bearing box is provided with an object taking groove, the object taking groove extends downwards from the top surface of the side wall of the bearing box, and the object taking groove penetrates through the inner surface and the outer surface of the side wall of the bearing box; the supporting blocks are arranged on the inner surface of the side wall of the bearing box, at least two supporting blocks are arranged on the two opposite side walls of the bearing box in a staggered mode, the top surfaces of the supporting blocks are arranged below the top surface of the side wall of the bearing box, and the top surfaces of the supporting blocks are arranged on the same plane; and the stacking block is arranged on the bottom surface of the bearing box and is used for being placed on the supporting blocks of the same buffer packaging structure.

In one embodiment, the two opposite side walls of the carrying box are provided with the fetching grooves.

In one embodiment, the support blocks are arranged on two opposite sides of each fetching groove.

In one embodiment, the bottom surface of the containing cavity is provided with a finger clearance block, and the top surface of the finger clearance block is arranged above the bottom of the fetching groove.

In one embodiment, the finger clearance block is provided at the geometric center of the bottom surface of the receiving cavity.

In one embodiment, the height of the fetching groove is 14 cm-15 cm.

In one embodiment, the width of the fetching groove is 12 cm-14 cm.

In one embodiment, the cushioning packaging structure is made of baolilong.

In one embodiment, the cushioning packaging structure is integrally formed.

In one embodiment, the distance between the top surface of the side wall of the bearing box and the top surface of the supporting block is 13-17 mm.

In the above embodiment, since the side wall of the carrying box is surrounded to form the receiving cavity, and the supporting blocks are all arranged on the inner surface of the side wall of the carrying box, an operator can place a product in the receiving cavity and clamp and fix the product through the supporting blocks; and this moment again because it locates to pile up the piece the bottom surface of bearing the case, it is used for placing the homogeneous to pile up the piece the polylith of buffering packaging structure on the supporting shoe, so can pile up each buffering packaging structure and place to reduce occupation space, and pack in unison through the bounding wall case, place each buffering packaging structure packing on the pallet, not only can improve packing efficiency this moment, more saved and produced the line auxiliary material joint sealing adhesive tape, can save about 50% in the packaging material cost.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings required for the embodiments will be briefly described below, and obviously, the drawings in the following description are only some embodiments of the present invention, 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 view of a cushion packaging structure provided by the present invention;

FIG. 2 is a schematic bottom view of the cushioning packaging structure of FIG. 1;

FIG. 3 is a schematic top view of the cushioning packaging structure of FIG. 1;

fig. 4 is a schematic view showing a stacked state of the cushioning packaging structure shown in fig. 1.

Detailed Description

The technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings.

As can be seen from fig. 1 to 4, the cushioning packaging structure according to the embodiment of the present invention includes a carrying case 10, a receiving cavity 11 is defined by a side wall of the carrying case 10, an object-taking groove 12 is formed in the side wall of the carrying case 10, the object-taking groove 12 extends downward from a top surface of the side wall of the carrying case 10, and the object-taking groove 12 penetrates through inner and outer surfaces of the side wall of the carrying case 10; the supporting blocks 20 are all arranged on the inner surface of the side wall of the carrying case 10, at least two supporting blocks 20 are arranged on the two opposite side walls of the carrying case 10 in a staggered mode, the top surfaces of the supporting blocks 20 are all arranged below the top surface of the side wall of the carrying case 10, and the top surfaces of the supporting blocks 20 are all arranged on the same plane; and the stacking blocks 30 are arranged on the bottom surface of the carrying case 10, and the stacking blocks 30 are used for being placed on a plurality of supporting blocks 20 of the same cushion packaging structure.

When the product clamping device is applied, a product can be placed in the containing cavity 11, and each supporting block 20 is placed on the periphery of the product, so that the product is clamped and fixed; assuming that the plurality of cushion packaging structures are all provided with products, the cushion packaging structures can be stacked, that is, the stacking block 30 of the upper cushion packaging structure is placed in the containing cavity 11 of the lower cushion packaging structure, and the stacking block 30 is directly supported on the plurality of supporting blocks 20, so that the stacking and packaging of the plurality of products are realized, and great convenience is provided for the transport and packaging of the products; and after each buffering packaging structure is piled up and put, still can utilize the bounding wall case to carry out unified packing to place each buffering packaging structure packing on the pallet, not only can improve packing efficiency this moment, more saved and produced the line auxiliary material joint sealing adhesive tape, can save about 50% in the packaging material cost.

It should be noted that no matter what shape and structure the carrying case 10 is configured into, it is only necessary to place and store the product, but for the convenience of transportation and storage, it is preferable to configure the carrying case 10 into a rectangular case, so as to increase the space utilization and facilitate transportation.

In addition, the supporting blocks 20 are arranged on two opposite side walls of the carrying case 10 in a staggered manner, so as to ensure that the buffer packaging structures are stably stacked; as shown in fig. 1 and fig. 3, and referring to the direction shown in fig. 3, the upper side wall of the carrying case 10 is defined as a back side wall, and the lower side wall of the carrying case 10 is defined as a front side wall, and if the back side wall of the carrying case 10 is already provided with the supporting block 20, the supporting block 20 is required to be also arranged on the front side wall of the carrying case 10, and the supporting block 20 on the front side wall and the supporting block 20 on the back side wall are in a non-opposite state, that is, the supporting block 20 on the front side wall can be arranged in a left offset manner or in a right offset manner, so as to ensure that at least two sides of the stacking block 30 can obtain a supporting force when.

Further, the supporting blocks 20 may be formed by protruding the inner surface of the side wall of the carrying case 10 and separated from the bottom surface of the carrying case 10, but in order to improve the supporting ability of the supporting blocks 20, it is preferable to arrange the supporting blocks 20 to extend to the bottom surface of the carrying case 10 and be connected as a whole, so as to avoid the occurrence of fracture due to excessive stress on the supporting blocks 20.

Preferably, get the effect of thing groove 12 and be convenient for operating personnel and take out the product, its quantity, set up the realization that the position does not influence this function, nevertheless can more easily take out the product for operating personnel, as shown in fig. 1, can set up all be equipped with on the relative both sides wall of bearing box 10 get thing groove 12, if two get thing grooves 12 and locate the front lateral wall and the back lateral wall of bearing box 10 respectively, operating personnel alright both hands are simultaneously through getting thing groove 12 and snatch the product this moment, and the operating personnel of being convenient for carry out the application of force, all provide convenience for packing into and taking out of product.

Preferably, in order to improve the support smoothness of the stacking block 30, the supporting blocks 20 may be configured as shown in fig. 1 and 3, where the supporting blocks 20 are disposed on two opposite sides of each fetching slot 12, and the supporting block 20 on each side may be one or more; for example, each side of each object-taking groove 12 can be provided with two mutually separated supporting blocks 20, at this time, eight supporting blocks 20 are provided, and each two supporting blocks 20 support one end corner position of the stacking block 30, so that the bearing stability of the stacking block 30 is greatly improved.

Preferably, when taking out the product, if the product is directly supported on the bottom surface of the storage cavity 11, it will not be convenient for the operator to apply force to take out the product, and to solve this problem, the structure shown in fig. 1 and fig. 3 may be adopted, that is, the bottom surface of the storage cavity 11 is provided with the finger space block 40, and the top surface of the finger space block 40 is arranged above the bottom of the fetching groove 12.

So when the product was placed in accomodating the intracavity 11, the product will be supported on finger space piece 40 to make the bottom surface of product and get and have the space between the thing groove 12 bottom surface, the operating personnel finger of being convenient for snatchs the product in stretching into this space, provides very big facility for vanning, uninstallation operation.

Wherein, finger space piece 40 can be one or polylith, when finger space piece 40 is the polylith, should guarantee that the top surface of each finger space piece 40 is in same horizontal plane to carry out the dislocation of similar supporting shoe 20 and arrange, in order to guarantee the stationarity that the buffer packaging structure piled up when placing in the future.

And a preferred mode of setting of finger space block 40 is as shown in fig. 1 and fig. 3, finger space block 40 is located the geometric center department of taking in the bottom surface of chamber 11, so only need set up a finger space block 40 this moment, just can raise the product wholly, avoid setting up polylith finger space block 40 and increase manufacturing cost.

Preferably, in order to improve the adaptability of accommodating the product, the height of the fetching groove 12 is set to be 14cm to 15cm (namely, the distance between the upper end and the lower end of the fetching groove 12) by taking the direction shown in fig. 1 as a reference, and the depth of the fetching groove 12 is approximately equal to the depth of the accommodating cavity 11, so that after the size requirement is met, the task of loading 10KG standard products can be completely satisfied by adopting a buffer packaging structure, and the loading and taking-out stroke of the product is also 14cm to 15cm, so that the stroke length is suitable, and the loading and taking-out of the product can be facilitated.

Preferably, in order to facilitate the operator to load and take out the product, it should be guaranteed that the hand of the operator can be completely placed in the object taking groove 12, for achieving the purpose, the width of the object taking groove 12 can be set to 12 cm-14 cm (namely, the distance between the left side and the right side of the object taking groove 12) by taking the direction shown in fig. 1 as a reference, the width of the object taking groove 12 can be ensured to be enough to accommodate the hand of the operator after meeting the requirement of the size, and the problem that the slotting space of the object taking groove 12 is too large to reduce the strength of the buffer packaging structure is.

Preferably, in order to ensure the structural strength of the buffer packaging structure and consider the manufacturing cost of the buffer packaging structure, it is particularly important to select a proper manufacturing material, and the baolilong has various advantages of light weight, impact resistance, low cost and the like, so that the product competitiveness of the buffer packaging structure made of the baolilong can be improved.

Furthermore, the buffering packaging structure can be integrally formed, the mode is simple to manufacture, the mold opening design cost can be reduced, and the product competitiveness of the buffering packaging structure is further improved.

Preferably, the stacking block 30 is mainly used for realizing the stacking installation of each buffer packaging structure, so that the depth of the stacking block 30 capable of being inserted into the receiving cavity 11 directly influences the stability of the stacking effect; and with the direction shown in fig. 1 as a reference, after the distance between the top surface of the side wall of the carrying box 10 and the top surface of the supporting block 20 is set to be 13 mm-17 mm, it can be ensured that a sufficient space is left for the insertion of the stacking block 30, and an important guarantee is provided for the stability of the stacking effect.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (10)

1. A cushion packaging structure is characterized by comprising,

the side wall of the bearing box is enclosed to form a containing cavity, the side wall of the bearing box is provided with an object taking groove, the object taking groove extends downwards from the top surface of the side wall of the bearing box, and the object taking groove penetrates through the inner surface and the outer surface of the side wall of the bearing box;

the supporting blocks are arranged on the inner surface of the side wall of the bearing box, at least two supporting blocks are arranged on the two opposite side walls of the bearing box in a staggered mode, the top surfaces of the supporting blocks are arranged below the top surface of the side wall of the bearing box, and the top surfaces of the supporting blocks are arranged on the same plane;

and the stacking block is arranged on the bottom surface of the bearing box and is used for being placed on the supporting blocks of the same buffer packaging structure.

2. The cushioning packaging structure of claim 1, wherein the article-taking out slots are disposed on two opposite side walls of the carrying case.

3. The cushioning packaging structure of claim 2, wherein said support blocks are disposed on opposite sides of each said access slot.

4. The cushioning packaging structure of claim 1, wherein a bottom surface of the receiving cavity is provided with a finger clearance block, and a top surface of the finger clearance block is disposed above a bottom surface of the fetching groove.

5. The cushioning package structure of claim 4, wherein the finger void block is located at a geometric center of the receiving cavity floor.

6. The cushioning packaging structure of claim 1, wherein the height of the fetching groove is 14cm to 15 cm.

7. The cushioning packaging structure of any one of claims 1 or 6, wherein the width of the access slot is 12cm to 14 cm.

8. The cushioning package structure of claim 1, wherein the cushioning package structure is made of baolilong.

9. The cushioning package structure of any one of claims 1 or 8, wherein the cushioning package structure is integrally formed.

10. The cushioning packaging structure of claim 1, wherein the distance between the top surface of the side wall of the carrier box and the top surface of the support block is 13mm to 17 mm.

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