CN219884353U

CN219884353U - Small base station packaging box

Info

Publication number: CN219884353U
Application number: CN202321061884.2U
Authority: CN
Inventors: 荣雪松
Original assignee: Taicang T&W Electronics Co Ltd
Current assignee: Taicang T&W Electronics Co Ltd
Priority date: 2023-05-06
Filing date: 2023-05-06
Publication date: 2023-10-24
Anticipated expiration: 2033-05-06

Abstract

The utility model relates to the field of electronic product packaging boxes, in particular to a small base station packaging box which comprises an outer buffer box and an inner box structure; the inner box structure comprises a first paper card and a second paper card, and the first paper card is formed by a plurality of foldable paper cards; the first paper card is folded to form a main product groove and a byproduct groove, and buffer bodies are formed at two ends of the main product groove and the byproduct groove; the second paper card is placed at the bottom of the byproduct tank; the original package is divided into an upper layer buffer structure and a lower layer buffer structure, so that the volume is large, the space utilization rate is seriously insufficient, and more matched product packages cannot be well compatible; the utility model provides a buffer structure of a small base station packing box, which adopts an integrated paper card for new packing, and has the advantages of low cost, good buffer, easy assembly and good user experience of a product after opening the box.

Description

Small base station packaging box

Technical Field

The utility model relates to the field of electronic product packaging boxes, in particular to a small base station packaging box.

Background

At present, the base station products are independently packaged, the upper EPE packaging products, the lower EPE packaging bracket and other accessories; however, as international raw materials rise, the cost of the original packaging mode cannot meet the requirement of customers on the cost, the product is a packaged product, two byproducts are randomly allocated to one main product, the packaging structure is compatible with the two byproducts, the material consumption is reduced while the reliability is ensured, the operation is convenient, and the packaging cost is saved. Based on the above, it is urgently required to design a novel buffer packaging structure to solve the existing problems.

Disclosure of Invention

Aiming at the technical problems in the prior art, the utility model provides a small base station packaging box for solving the problem of large consumption of packaging materials of base station products.

The technical scheme for solving the technical problems is as follows:

provides a small base station packing box, which comprises an outer part

A buffer box; a kind of electronic device with high-pressure air-conditioning system

An inner box structure;

the inner box structure comprises a first paper card and a second paper card, and the first paper card is formed by a plurality of foldable paper cards;

the first paper card is folded to form a main product groove and a byproduct groove, and buffer bodies are formed at two ends of the main product groove and the byproduct groove;

the second paper card is placed at the bottom of the byproduct tank.

Further, the number of foldable paper cards includes paper cards at 1 st to 14 th; a kind of electronic device with high-pressure air-conditioning system

A card paper at the 4-1 th, 5-1 th and 6-1 th positions;

the 1 st and the 2 nd paper cards are folded inwards by 90 degrees, and the 3 rd paper card is folded outwards by 90 degrees, so that the formation of the rear end structure of the first paper card is completed;

the paper card at the 4 th position is folded outwards by 90 degrees, and the paper cards at the 5 th and 6 th positions are folded inwards by 90 degrees, so that the right end structure forming of the first paper card is completed;

the 4-1 paper card is folded outwards by 90 degrees, and the 5-1 paper card and the 6-1 paper card are folded inwards by 90 degrees, so that the left end structure of the first paper card is formed;

the paper card at the 7 th position is folded outwards by 90 degrees, the paper card at the 8 th position is folded inwards by 90 degrees, the paper card at the 9 th position is folded outwards by 90 degrees, the paper card at the 10 th position is folded inwards by 90 degrees, the paper cards at the 11 th and 12 th positions are folded outwards by 90 degrees, the paper card at the 13 th and 14 th positions is folded inwards by 90 degrees, and the front end structure molding of the first paper card is completed.

Further, rectangular notches are formed in the 4 th paper card, the 5 th paper card, the 4 th paper card, the 5 th paper card and the 5 th paper card.

Further, the front end in the outer buffer box is provided with paper cards from 15 th to 18 th positions;

the 15 th paper card and the 16 th paper card are folded inwards by 90 degrees, and the 17 th paper card and the 18 th paper card are folded outwards by 90 degrees.

Further, the 17 th paper card is provided with a byproduct 1 limiting hole and a byproduct 2 limiting hole.

Further, the rectangular notch on the paper card at the 4-1 th and 5-1 th positions forms a groove on the buffer body.

Further, the second paper card comprises 19 th to 21 st paper cards, the 19 th paper card is folded inwards by 90 degrees, and the 21 st paper card is folded outwards by 90 degrees.

Further, the paper clip at 21 is abutted under the by-product 1 limiting hole or the by-product 2 limiting hole, so as to prevent the bottom accessory from escaping from the hole.

The beneficial effects of the utility model are as follows:

1. the original package is divided into an upper layer buffer structure and a lower layer buffer structure, so that the volume is large, the space utilization rate is seriously insufficient, and more matched product packages cannot be well compatible; the utility model provides a buffer structure of a small base station packing box, which adopts an integrated paper card for new packing, and has the advantages of low cost, good buffer, easy assembly and good user experience of a product after opening the box.

2. The accommodating groove is formed in the way that the bracket at the bottom of the product is suspended to avoid, so that the bearing force is prevented from directly contacting the bottoms of the buffer box and the accessory box, the bracket shaking during falling can be reduced, and the buffer performance is further enhanced.

3. The side of the product is provided with a convex cable interface, the groove structure on the buffer body needs to avoid the position, the grooves are formed in the position, the left and right sharing of the EPE structure is not affected, one particle is needed, the groove is convenient to take, and the groove can be used as a finger position.

4. The whole set of packaging structure is compact, no abnormal sound exists in the packaging structure, and the EPE material is easy to recycle.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of the whole structure of the present utility model;

FIG. 3 is a schematic view of the first card of the present utility model when unfolded;

FIG. 4 is a schematic view of a first paper card according to the present utility model after being folded;

FIG. 5 is a schematic view of a buffer box according to the present utility model;

FIG. 6 is a schematic view of a second paper card according to the present utility model after being folded;

FIG. 7 is a schematic view of the installation of one form of the second paper card of the present utility model;

FIG. 8 is a schematic view of another form of installation of a second paper card of the present utility model;

FIG. 9 is a schematic diagram of the overall structure of the present utility model;

in the drawings, the list of parts represented by the reference numerals is as follows:

1a, an outer buffer box; 1b, an inner box structure; 1c, a first paper card; 1c1, a main product tank; 1c2, a byproduct tank; 1c3, a buffer; 1c4, grooves; 1d, a second paper card; 1e, limiting holes of the byproducts 1; 1f, limiting holes of the byproducts 2;

1. paper card 1; 2. paper card at 2 nd place; 3. paper card 3; 4. paper card at 4 th place; 5. paper card at 5 th; 6. paper card 6; 7. paper card at 7; 8. paper card at 8; 9. paper card at 9; 10. paper card at 10; 11. paper card 11; 12. paper card at 12; 13. paper card 13; 14. paper card at 14 th; 15. paper card 15; 16. paper card at 16 th; 17. paper card at 17; 18. paper card at 18; 19. paper card 19; 20. paper card at 20 th; 21. paper card at 21.

Detailed Description

The principles and features of the present utility model are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

The present utility model provides the following preferred embodiments:

the small base station packaging box can effectively protect small base station packaging products and accessories for an elevator, adopts a first paper card buffering and 0427 color box buffering packaging mode, a main product is clamped into a first paper card structure for buffering, an accessory matching groove is formed at the front end of the first paper card structure, and a partition paper card 2 is attached in the groove, so that the accessory matching is prevented from shaking and overflowing from a byproduct hole, and the byproduct is effectively prevented from rubbing with the accessory and colliding with the color box; the color box front end structure is clamped with the first paper to form a byproduct clamping groove, and meanwhile, two holes are reserved in the groove to limit, so that byproducts are effectively protected.

A small base station packaging box comprises an outer buffer box; a kind of electronic device with high-pressure air-conditioning system

An inner box structure;

the second paper card is placed at the bottom of the byproduct tank.

In this embodiment, the cushion packaging style shown in fig. 1 and 2 is designed according to the characteristics of the product.

The buffer packaging structure is designed as follows:

the plane of the first paper card is unfolded as shown in fig. 3, the 1 part and the 2 part of the paper card are folded inwards by 90 degrees, and the 3 part of the paper card is folded outwards by 90 degrees, so that the formation of the rear end structure of the first paper card is completed; the paper card at the 4 parts is folded outwards by 90 degrees, the paper cards at the 5 parts and the 6 parts are folded inwards by 90 degrees, the structure forming of the right end of the first paper card is completed, and the structure of the left end is similar; the 7 paper cards are folded outwards by 90 degrees, the 8 paper cards are folded inwards by 90 degrees, the 9 paper cards are folded outwards by 90 degrees, the 10 paper cards are folded inwards by 90 degrees, the 11 paper cards and the 12 paper cards are folded outwards by 90 degrees, the 13 paper cards and the 14 paper cards are folded inwards by 90 degrees, the front end structure forming of the first paper card is completed, and the structure forming of the first paper card is shown in figure 4.

The buffer box structure is a common 0427 box type structure, but the front end of the buffer box is provided with a structure with deformation shown in fig. 5, paper cards at 15 and 16 are folded inwards by 90 degrees, paper cards at 17 and 18 are folded outwards by 90 degrees, and the buffer box and the first paper card combined forming structure is shown in fig. 9.

The main product small base station is placed in the first paper card, and the hanging lugs at two sides are used for clamping grooves at two sides in the first paper card, as shown in fig. 1 or fig. 2.

The second paper card is a limit paper card matched with an accessory, the folded structure is shown in fig. 6, the paper card at 19 is folded inwards by 90 degrees, and the paper card at 21 is folded outwards by 90 degrees.

When the main product is matched with the byproduct 1, the second paper card is as shown in fig. 7, when the paper card platform at 17 is at 180 degrees, the paper card plane at 21 can cover the limit hole of the byproduct 1 so as to prevent the bottom accessory from running out of the hole.

Similarly, when the main product is matched with the byproduct 2, the second paper card is as shown in fig. 8, and when the paper card platform at 17 is at 180 degrees, the paper card plane at 21 covers the limit hole of the byproduct 2 so as to prevent the bottom accessory from escaping from the hole.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model, but rather to enable any modification, equivalent replacement, improvement or the like to be made within the spirit and principles of the utility model.

Claims

1. A small cell package, comprising:

an outer buffer case (1 a); a kind of electronic device with high-pressure air-conditioning system

An inner box structure (1 b);

the inner box structure (1 b) comprises a first paper card (1 c) and a second paper card (1 d), wherein the first paper card (1 c) is formed by a plurality of foldable paper cards;

the first paper card (1 c) is folded to form a main product groove (1 c 1) and a byproduct groove (1 c 2), and buffer bodies (1 c 3) are formed at two ends of the main product groove (1 c 1) and the byproduct groove (1 c 2);

the second paper card (1 d) is placed at the bottom of the byproduct tank (1 c 2).

2. A small cell packaging in accordance with claim 1, wherein a plurality of said foldable paper cards comprises 1 st to 14 th paper cards; a kind of electronic device with high-pressure air-conditioning system

A card paper at the 4-1 th, 5-1 th and 6-1 th positions;

the 1 st and the 2 nd paper cards are folded inwards by 90 degrees, the 3 rd paper card is folded outwards by 90 degrees, and the rear end structure of the first paper card (1 c) is formed;

the paper card at the 4 th position is folded outwards by 90 degrees, and the paper cards at the 5 th and 6 th positions are folded inwards by 90 degrees, so that the right end structure forming of the first paper card (1 c) is completed;

the paper card at the 4-1 position is folded outwards by 90 degrees, the paper cards at the 5-1 position and the 6-1 position are folded inwards by 90 degrees, and the left end structure of the first paper card (1 c) is formed;

the paper card at the 7 th position is folded outwards by 90 degrees, the paper card at the 8 th position is folded inwards by 90 degrees, the paper card at the 9 th position is folded outwards by 90 degrees, the paper card at the 10 th position is folded inwards by 90 degrees, the paper cards at the 11 th and 12 th positions are folded outwards by 90 degrees, the paper card at the 13 th and 14 th positions is folded inwards by 90 degrees, and the front end structure molding of the paper card (1) is completed.

3. The packaging box for small base stations according to claim 2, wherein rectangular notches are formed in the 4 th and 5 th paper cards and the 4-1 th and 5-1 th paper cards.

4. A small base station packaging according to claim 3, characterized in that the front end inside the outer buffer box (1 a) is provided with 15 th to 18 th paper cards;

5. The small base station packaging box according to claim 4, wherein the 17 th paper card is provided with a byproduct 1 limiting hole (1 e) and a byproduct 2 limiting hole (1 f).

6. A small base station packaging according to claim 5, characterized in that the rectangular notch in the paper card at the 4-1, 5-1 position constitutes a recess (1 c 4) in the buffer body (1 c 3).

7. A packet as claimed in claim 6, characterized in that said second card (1 d) comprises 19 th to 21 st cards, said 19 th card being folded inwards by 90 ° and said 21 st card being folded outwards by 90 °.

8. A packaging for small base stations according to claim 7, characterized in that the paper card at 21 is pressed under the by-product 1 limit hole (1 e) or the by-product 2 limit hole (1 f) to prevent the bottom fitting from coming out of the hole.