CN216916645U - Buffer package in notebook - Google Patents

Abstract

The utility model discloses an inner buffer package of a notebook computer, which is formed by folding a paper-formed paperboard and is characterized by comprising a bottom surface base plate, wherein two sides of the bottom surface base plate are respectively connected with a first side plate and a second side plate, and the first side plate and the second side plate are folded towards the bottom surface base plate to respectively form a first buffer tube and a second buffer tube; the first buffer tube and the second buffer tube are separated by a third buffer tube and a fourth buffer tube which are coaxial, and the heights of the third buffer tube and the fourth buffer tube are not higher than those of the first buffer tube and the second buffer tube; the cover plate is connected to the two ends of the bottom surface base plate respectively, the opening ends of the first buffer tube and the second buffer tube are closed after the cover plate is folded, an accommodating space is formed by the bottom surface base plate, the first buffer tube, the second buffer tube and the cover plate together, and the third buffer tube and the fourth buffer tube are located in the accommodating space. The both ends of the product are accommodated in the accommodating space formed by the bottom substrate and the buffer tube together, so that the product is better protected and buffered.

Description

Buffer package in notebook

Technical Field

The utility model relates to the technical field of electronic product packaging, in particular to an inner buffer package of a notebook computer.

Background

The notebook is the most successful invention in recent times as a highly integrated electronic product, and the appearance of the notebook not only improves the working efficiency of people, but also brings great convenience to the life of people. As a high-precision electronic product, it is very important to protect the package of the product, and how to design a good-performance, environment-friendly, and convenient package is tested for each package designer.

The common protection part of the notebook has structures such as foam, paper plastic, paper folding and the like, but the structure of the foam material has poor environmental protection performance, does not meet the environmental protection policy of national plastic limit, and has large occupied space and high cost in transportation; the paper folding structure in the prior art is complex in forming, needs to consume a large amount of labor to complete when being packaged and used, and is low in efficiency.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is that the existing notebook computer packaging structure is complex and not environment-friendly.

In order to solve the technical problems, the utility model adopts the technical scheme that:

the buffer package in the notebook computer is formed by folding a paper-formed paperboard, and comprises a bottom base plate (1), wherein two sides of the bottom base plate (1) are respectively connected with a first side plate (2) and a second side plate (3), and the first side plate (2) and the second side plate (3) respectively form a first buffer tube (4) and a second buffer tube (5) after being folded towards the bottom base plate (1);

the buffer tube I (4) and the buffer tube II (5) are separated by a buffer tube III (6) and a buffer tube IV (7) which are coaxial, and the heights of the buffer tube III (6) and the buffer tube IV (7) are not higher than those of the buffer tube I (4) and the buffer tube II (5);

apron (8) are connected respectively at bottom surface base plate (1) both ends, will after apron (8) are folded the open end of buffer tube (4) and buffer tube two (5) is sealed, bottom surface base plate (1), buffer tube (4), buffer tube two (5) and apron (8) form the accommodation space jointly, buffer tube three (6) and buffer tube four (7) are located in the accommodation space.

Furthermore, the buffer tube III (6) and the buffer tube IV (7) are respectively formed by folding the side wing I (9) and the side wing II (10) which are positioned at the two ends of the side plate II (3) after being folded for 180 degrees in opposite directions.

Furthermore, the two sides of the first flank (9) and the second flank (10) are respectively provided with a clamping sheet (16) and a clamping groove (17) matched with the clamping sheet, and the buffer tube III (6) and the buffer tube IV (7) are fixedly molded through the clamping sheet (16) and the clamping groove (17).

Further, the cover plate (8) comprises a lower part and an upper part, the lower part closes the opening ends of the buffer tube I (4) and the buffer tube II (5); the upper portion includes connecting piece (14) and with interior bolster (15) that connecting piece (14) link to each other, connecting piece (14) cladding the top of buffer tube one (4) and buffer tube two (5), interior bolster (15) and side fold ear 90 folding back accommodate in the accommodation space.

Furthermore, the two ends of the first buffer tube (4) and the second buffer tube (5) are respectively provided with a flap (11), and the flap (11) is wrapped on the outer side of the cover plate (8).

Furthermore, the flap (11) is provided with an inserting piece (12), the central part of the cover plate (8) is provided with a notch (13), and the inserting piece (12) is inserted into the notch (13) for fixation.

Furthermore, the first side plate (2) and the second side plate (3) face the bottom substrate (1) and are folded in the direction and fixed on the bottom substrate (1) in a sticking mode.

Further, the sum of the lengths of the buffer tube three (6) and the buffer tube four (7) is less than or equal to the length of the bottom substrate (1).

Further, the heights of the buffer tube three (6) and the buffer tube four (7) are lower than those of the buffer tube one (4) and the buffer tube two (5).

The beneficial effects obtained by the utility model are as follows:

1. the buffer lining is formed by paper, the side part and the bottom part are surrounded by the buffer tube, and the two end parts of the product are accommodated in an accommodating space formed by the bottom substrate and the buffer tube together and are integrally suspended in the air, so that the product is better protected and buffered;

2. the buffer lining is made of a full corrugated board material and is folded and formed in one paper mode, so that the packaging cost is low, and the buffer lining is convenient and environment-friendly;

3. the buffer tube is formed, so that the use of a buffer filler made of a plastic material is avoided, and the whole environment is protected.

Drawings

Fig. 1 to 4 show a folding process of the cushioning packaging in the notebook from a plane to a three-dimensional structure.

Reference numerals: 1-a bottom substrate; 2, a first side plate; 3-side plate II; 4-buffer tube one; 5-buffer tube two; 6-buffer tube III; 7-buffer tube four; 8-cover plate; 9-flank one; 10-flank two; 11-flap; 12-an insert sheet; 13-notches; 14-a connector; 15-an inner buffer; 16-a snap-fit piece; 17-engaging groove.

Detailed Description

The technical scheme of the utility model is further and clearly explained by combining the attached drawings and the specific embodiment.

Example 1

As shown in fig. 1-4, the buffer package in the notebook computer provided by the present invention is formed by folding a paper-formed paperboard, and the buffer package includes a bottom substrate 1, wherein two sides of the bottom substrate 1 are respectively connected to a first side plate 2 and a second side plate 3, and the first side plate 2 and the second side plate 3 are folded toward the bottom substrate 1 to respectively form a first buffer tube 4 and a second buffer tube 5. The first buffer tube 4 and the second buffer tube 5 are separated by a third buffer tube 6 and a fourth buffer tube 7 which are coaxial, and the heights of the third buffer tube 6 and the fourth buffer tube 7 are not higher than the heights of the first buffer tube 4 and the second buffer tube 5.

The two ends of the bottom surface substrate 1 are respectively connected with a cover plate 8, the cover plate 8 is folded to close the opening ends of the first buffer tube 4 and the second buffer tube 5, the bottom surface substrate 1, the first buffer tube 4, the second buffer tube 5 and the cover plate 8 jointly form an accommodating space, and the third buffer tube 6 and the fourth buffer tube 7 are located in the accommodating space.

Specifically, the third buffer tube 6 and the fourth buffer tube 7 are respectively formed by folding the first side wing 9 and the second side wing 10 at the two ends of the second side plate 3 after being folded 180 degrees in opposite directions. More specifically, the two sides of the first wing 9 and the second wing 10 are respectively provided with a locking piece 16 and a locking groove 17 matched with the locking piece 16, and the buffer tube three 6 and the buffer tube four 7 are fixedly molded through the locking piece 16 and the locking groove 17.

Further, the cover plate 8 includes a lower portion closing the open ends of the buffer tubes one 4 and two 5 and an upper portion; the upper portion includes connecting piece 14 and with interior bolster 15 that connecting piece 14 links to each other, connecting piece 14 cladding the top of buffer tube 4 and buffer tube two 5, interior bolster 15 and its side fold ear 90 folding back accommodate in the accommodation space.

Specifically, flaps 11 are respectively arranged at two ends of the first buffer tube 4 and the second buffer tube 5, and the flaps 11 are wrapped outside the cover plate 8. More specifically, the flap 11 is provided with a plug-in piece 12, the central part of the cover plate 8 is provided with a notch 13, and the plug-in piece 12 is inserted into the notch 13 for fixing.

Further, the first side plate 2 and the second side plate 3 are folded towards the bottom substrate 1 and fixed on the bottom substrate 1 in an adhering mode.

Further, the sum of the lengths of the buffer tube three 6 and the buffer tube four 7 is less than or equal to the length of the bottom substrate 1.

Further, the heights of buffer tube three 6 and buffer tube four 7 are lower than the heights of buffer tube one 4 and buffer tube two 5.

The utility model provides a concrete folding process of cushion packaging in notebook as follows:

(1) automatically adhering the side plate I2 and the side plate II 3 to the bottom base plate 1 on the automatic equipment (shown in figure 1);

(2) folding the first side wing 9 and the second side wing 10 at the two ends of the second side plate 3 in opposite directions for 180 degrees, folding the folded side wings into a third buffer tube 6 and a fourth buffer tube 7, and inserting the clamping sheet 16 into the clamping groove 17 to form and fix the third buffer tube 6 and the fourth buffer tube 7 (as shown in fig. 2);

(4) folding the side plate two 3 with the buffer tube three 6 and the buffer tube four 7 and the side plate one 2 inwards by 90 degrees, and folding the side plate one 2 and the side plate two 3 into a buffer tube structure (as shown in figure 3);

(5) folding the cover plate 8 to seal the opening ends of the first buffer tube 4 and the second buffer tube 5 at the lower part of the cover plate 8; folding the flap 11 to cover the lower part of the cover plate 8, and inserting the insert 12 of the flap 11 into the notch 13 at the center of the cover plate 8 for fixing (as shown in fig. 4);

(6) folding the upper part of the cover plate 8 downwards by 90 degrees, so that the connecting piece 14 covers the tops of the first buffer tube 4 and the second buffer tube 5, and folding the inner buffer piece 15 and the side folding lugs thereof by 90 degrees and accommodating the folded inner buffer piece in the accommodating space (as shown in fig. 4);

(7) two ends of the notebook product are sleeved in the accommodating space formed by the bottom substrate 1, the first buffer tube 4, the second buffer tube 5 and the cover plate 8.

The above-described embodiments are merely exemplary aspects of the present invention, which are not intended to limit the present invention. Various changes and modifications may be made by one of ordinary skill in the pertinent art without departing from the spirit and scope of the present invention. Therefore, the technical scheme obtained by adopting the mode of equivalent replacement or equivalent transformation is within the protection scope of the utility model.

Claims (9)

1. A buffer package in a notebook computer is formed by folding a paper-formed paperboard, and is characterized by comprising a bottom base plate (1), wherein two sides of the bottom base plate (1) are respectively connected with a first side plate (2) and a second side plate (3), and the first side plate (2) and the second side plate (3) respectively form a first buffer tube (4) and a second buffer tube (5) after being folded towards the bottom base plate (1);

the buffer tube I (4) and the buffer tube II (5) are separated by a buffer tube III (6) and a buffer tube IV (7) which are coaxial, and the heights of the buffer tube III (6) and the buffer tube IV (7) are not higher than those of the buffer tube I (4) and the buffer tube II (5);

apron (8) are connected respectively at bottom surface base plate (1) both ends, will after apron (8) are folded the open end of buffer tube (4) and buffer tube two (5) is sealed, bottom surface base plate (1), buffer tube (4), buffer tube two (5) and apron (8) form the accommodation space jointly, buffer tube three (6) and buffer tube four (7) are located in the accommodation space.

2. The notebook inner buffer package according to claim 1, wherein the buffer tube three (6) and the buffer tube four (7) are respectively formed by folding after 180 ° folding the side wing one (9) and the side wing two (10) at the two ends of the side plate two (3) towards each other.

3. The notebook inner buffer package according to claim 2, wherein the two sides of the first wing (9) and the second wing (10) are respectively provided with a snap piece (16) and a snap groove (17) matched with the snap piece, and the buffer tube three (6) and the buffer tube four (7) are fixedly formed through the snap piece (16) and the snap groove (17).

4. The buffer packaging in notebook according to claim 1, characterized in that the cover plate (8) comprises a lower part and an upper part, the lower part closing the open ends of the buffer tube one (4) and the buffer tube two (5); the upper portion includes connecting piece (14) and with interior bolster (15) that connecting piece (14) link to each other, connecting piece (14) cladding the top of buffer tube one (4) and buffer tube two (5), interior bolster (15) and side fold ear 90 folding back accommodate in the accommodation space.

5. The notebook inner buffer package according to claim 1, wherein the buffer tube I (4) and the buffer tube II (5) are respectively provided with a flap (11) at two ends, and the flaps (11) are wrapped outside the cover plate (8).

6. The cushioning packaging in a notebook computer according to claim 5, characterized in that the flap (11) is provided with a plug (12), the central part of the cover plate (8) is provided with a notch (13), and the plug (12) is inserted into the notch (13) for fixing.

7. The cushioning packaging structure in the notebook computer according to claim 1, wherein the side plate I (2) and the side plate II (3) are folded towards the bottom base plate (1) and fixed on the bottom base plate (1) by means of pasting.

8. The notebook inner buffer package according to claim 1, wherein the sum of the lengths of buffer tube three (6) and buffer tube four (7) is less than or equal to the length of the bottom substrate (1).

9. The notebook inner buffer package of claim 1, wherein the buffer tubes three (6) and four (7) are at a lower elevation than the buffer tubes one (4) and two (5).

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