PACKING STRUCTURE

Abstract

Disclosed is a packing structure, including an outer packing box, an inner packing box, and a buffer cardboard. The inner packing box and the buffer cardboard are disposed in the outer packing box, and the buffer cardboard is located between the inner packing box and the outer packing box. The buffer cardboard that has been taken out of the outer packing box is adapted to be folded to form a supporting base for placing an electronic device thereon.

Claims

1. A packing structure, comprising: an outer packing box; an inner packing box, disposed in the outer packing box; and a buffer cardboard, disposed in the outer packing box, and located between the inner packing box and the outer packing box, wherein the buffer cardboard comprises: a main board, having a first side and a second side relative to the first side, and comprising a first supporting board and a second supporting board foldably connected to the first supporting board; two first lateral boards, foldably connected to the first supporting board respectively on the first side and the second side; two second lateral boards, foldably connected to the second supporting board respectively on the first side and the second side; a first auxiliary board, detachably connected to the first lateral board and the second lateral board that are connected with the first side; and a second auxiliary board, detachably connected to the first lateral board and the second lateral board that are connected with the second side, wherein after the first auxiliary board and the second auxiliary board are disassembled, the second supporting board is folded relative to the first supporting board, the two first lateral boards are folded relative to the first supporting board to stand between the second supporting board and the first supporting board, the two second lateral boards are folded relative to the second supporting board to stand between the second supporting board and the first supporting board, and the two first lateral boards are juxtaposed between the two second lateral boards.

2. The packing structure according to claim 1, wherein the buffer cardboard has a first tearing line and a second tearing line relative to the first tearing line, the first auxiliary board is connected through the first tearing line to the first lateral board and the second lateral board that are connected with the first side, and the second auxiliary board is connected through the second tearing line to the first lateral board and the second lateral board that are connected with the second side.

3. The packing structure according to claim 1, wherein the two first lateral boards that stand between the second supporting board and the first supporting board contact the second supporting board.

4. The packing structure according to claim 1, wherein the two first lateral boards that stand between the second supporting board and the first supporting board respectively contact the first side and the second side.

5. The packing structure according to claim 1, wherein the second supporting board is supported by the two first lateral boards and the two second lateral boards and inclined to the first supporting board, and the second supporting board, the two first lateral boards and the first supporting board surround to form a heat dissipating space and a heat dissipating opening communicating with the heat dissipating space.

6. The packing structure according to claim 5, wherein the second supporting board has a heat dissipating hole, and the heat dissipating hole is communicating with the heat dissipating space.

7. The packing structure according to claim 1, wherein the buffer cardboard further comprises two first fasteners and two second fasteners, the two first fasteners are foldably connected to the first supporting board respectively on the first side and the second side, and the two second fasteners are foldably connected to the two second lateral boards respectively, the first supporting board is individually provided with a first lock hole on the first side and the second side, and each of the second fasteners has a second lock hole, after the first auxiliary board and the second auxiliary board are disassembled, the second supporting board is folded relative to the first supporting board, and the two first lateral boards are folded relative to the first supporting board to stand between the second supporting board and the first supporting board, the two second lateral boards are folded relative to the second supporting board to stand between the second supporting board and the first supporting board, the two second fasteners are folded respectively relative to the two second lateral boards and inserted into the two first lock holes, and the two first fasteners are folded respectively relative to the first supporting board and inserted into the two second lock holes.

8. The packing structure according to claim 7, wherein the two first fasteners respectively partially overlap on the two first lock holes.

9. The packing structure according to claim 1, wherein the two first lateral boards and the two second lateral boards are a plurality of triangular boards.

10. The packing structure according to claim 1, wherein the buffer cardboard further comprises a first folding connecting board and a second folding connecting board that are located between the first supporting board and the second supporting board, the first folding connecting board is foldably connected between the first supporting board and the second folding connecting board, and the second folding connecting board is foldably connected between the first folding connecting board and the second supporting board, after the first auxiliary board and the second auxiliary board are disassembled, the second folding connecting board is folded relative to the second supporting board, the first folding connecting board is folded relative to the second folding connecting board, the first folding connecting board is folded relative to the first supporting board, and a limiting protrusion is formed by the first folding connecting board and the second folding connecting board that have been relatively folded.

11. The packing structure according to claim 10, wherein there is a first folding line between the first folding connecting board and the first supporting board, there is a second folding line between the second folding connecting board and the second supporting board, and there is a third folding line between the first folding connecting board and the second folding connecting board, wherein the third folding line is located between the first folding line and the second folding line, and is parallel to the first folding line and the second folding line.

12. The packing structure according to claim 1, wherein the first supporting board has a folding procedure reference diagram printed between the first side and the second side.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0008] FIG. 1 is a schematic view of a packing structure according to an embodiment of the disclosure.

[0009] FIG. 2A is a schematic view of the buffer cardboard of FIG. 1 that has been taken out of the outer packing box.

[0010] FIG. 2B is an unfolding schematic view of the buffer cardboard of FIG. 2A.

[0011] FIG. 3A is a schematic view of the buffer cardboard of FIG. 2B that has been folded to form a supporting base.

[0012] FIG. 3B is a schematic view of FIG. 3A from another perspective.

[0013] FIG. 4A to FIG. 4D are process schematic views of folding a buffer cardboard to form a supporting base.

DESCRIPTION OF THE EMBODIMENTS

[0014] FIG. 1 is a schematic view of a packing structure according to an embodiment of the disclosure Please refer to FIG. 1. In the embodiment, a packing structure 10 is adaptable for packing and protecting an electronic device, such as a notebook computer, but the embodiment is not limited thereto. In detail, the packing structure 10 includes an outer packing box 11, an inner packing box 12, and a buffer cardboard 100. The electronic device is packed in the inner packing box 12, and the inner packing box 12 is removably disposed in the outer packing box 11. Therefore, the electronic device may be protected by the inner packing box 12 and the outer packing box 11 at the same time to prevent damage during transportation.

[0015] The outer packing box 11, the inner packing box 12, and the buffer cardboard 100 may all be made of corrugated paper. The buffer cardboard 100 is removably disposed in the outer packing box 11 and located between the inner packing box 12 and the outer packing box 11. Furthermore, the buffer cardboard 100 may absorb an impact force acting on the outer packing box 11 to prevent the impact force from directly acting on the inner packing box 12 and causing damage or harm to the electronic device. For example, in order to improve a buffering effect, the buffer cardboard 100 may be folded first to increase a thickness thereof, and then the buffer cardboard 100 that has been folded may be placed between the inner packing box 12 and the outer packing box 11.

[0016] FIG. 2A is a schematic view of the buffer cardboard of FIG. 1 that has been taken out of the outer packing box. FIG. 2B is an unfolding schematic view of the buffer cardboard of FIG. 2A. FIG. 3A is a schematic view of the buffer cardboard of FIG. 2B that has been folded to form a supporting base. FIG. 3B is a schematic view of FIG. 3A from another perspective. As shown in FIG. 1, FIG. 2A, and FIG. 2B, after the buffer cardboard 100 has been taken out of the outer packing box 11, the buffer cardboard 100 may be unfolded first. Next, as shown in FIG. 2B, FIG. 3A, and FIG. 3B, a user may fold the buffer cardboard 100 according to a folding line, a tearing line, or other folding reference features to form a supporting base 101 for an electronic device 20 to be placed. In other words, the buffer cardboard 100 may not only be used to absorb an external impact force, but may also be reused as the supporting base 101 for the electronic device 20 to be placed, which is compatible with the sustainable development goals of environmental protection and resource reuse.

[0017] As shown in FIG. 3A and FIG. 3B, the electronic device 20 placed on the supporting base 101 may be tilted relative to a work plane to offer the user to obtain a better operating angle or viewing angle that improves operation comfort. On the other hand, the supporting base 101 may be used as a heat dissipating supporting base. The supporting base 101 is a hollow structure, and has a heat dissipating space 101a communicating with outside. Furthermore, the supporting base 101 has a relatively high side and a low side. The high side has a heat dissipating opening 101b communicating with the heat dissipating space 101a, and the low side has a limiting protrusion 101c configured for stopping the electronic device 20 to avoid the electronic device 20 sliding off the supporting base 101. In addition, a supporting surface on which the electronic device 20 is placed has one or more heat dissipating holes 101d. The heat dissipating hole 101d is communicating with the heat dissipating space 101a and located between the high side and the low side.

[0018] For example, the heat dissipating opening 101b may be used as an air inlet for external cold air to enter the heat dissipating space 101a. Correspondingly, the heat dissipating space 101a may be used as an air inlet space, and the heat dissipating hole 101d may be used as an air outlet for cold air to discharge from the heat dissipating space 101a to outside. Therefore, cold air may enter the heat dissipating space 101a through the heat dissipating opening 101b, and then be blown from the heat dissipating space 101a to the electronic device 20 through the heat dissipating hole 101d to provide the cold air needed for the electronic device 20 to dissipate heat. In other words, the supporting base 101 may provide a heat dissipating airflow channel for the electronic device placed thereon to avoid the electronic device 20 malfunctioning or declining in performance due to overheating.

[0019] Please refer to FIG. 2B. In the embodiment, the buffer cardboard 100 includes a main board 110, two first lateral boards 120, two second lateral boards 130, a first auxiliary board 140a, and a second auxiliary board 140b. The main board 110 may be a rectangular board. The main board 110 has a first side 111 and a second side 112 relative to the first side 111, and the first side 111 and the second side 112 may be two long sides in the rectangular board that are parallel to each other.

[0020] The two first lateral boards 120 are symmetrically disposed and respectively connected to the first side 111 and the second side 112. The two second lateral boards 130 are symmetrically disposed and respectively connected the first side 111 and the second side 112. In addition, the first auxiliary board 140a and the second auxiliary board 140b are symmetrically disposed. The first auxiliary board 140a is connected to the first lateral board 120 and the second lateral board 130 that are connected with the first side 111, and the second auxiliary board 140b is connected to the first lateral board 120 and the second lateral board 130 that are connected with the second side 112.

[0021] Please refer to FIG. 2B. The main board 110 includes a first supporting board 110a, a second supporting board 110b, a first folding connecting board 110c, and a second folding connecting board 110d. The first folding connecting board 110c and the second folding connecting board 110d are located between the first supporting board 110a and the second supporting board 110b, and the first folding connecting board 110c is connected between the first supporting board 110a and the second folding connecting board 110d. In addition, the second folding connecting board 110d is connected between the first folding connecting board 110c and the second supporting board 110b.

[0022] For example, the first supporting board 110a, the first folding connecting board 110c, the second folding connecting board 110d, and the second supporting board 110b may be four rectangular boards that are sequentially connected. An area of the first supporting board 110a may be larger than an area of the second supporting board 110b, and the area of the second supporting board 110b may be larger than an area of the first folding connecting board 110c and an area of the second folding connecting board 110d. In addition, the area of the first folding connecting board 110c may be equal to the area of the second folding connecting board 110d, and a sum of the area of the second supporting board 110b, the area of the first folding connecting board 110c, and the area of the second folding connecting board 110d may be equal to the area of the first supporting board 110a.

[0023] Please refer to FIG. 2B. There is a first folding line 113 between the first folding connecting board 110c and the first supporting board 110a to allow the first folding connecting board 110c to be folded along the first folding line 113 relative to the first folding connecting board 110c. There is a second folding line 114 between the second folding connecting board 110d and the second supporting board 110b to allow the second supporting board 110b to be folded along the second folding line 114 relative to the second folding connecting board 110d. In addition, there is a third folding line 115 between the first folding connecting board 110c and the second folding connecting board 110d to allow the second folding connecting board 110d to be folded along the third folding line 115 relative to the first folding connecting board 110c. That is to say, the second supporting board 110b is foldably connected to the first supporting board 110a through the second folding connecting board 110d and the first folding connecting board 110c.

[0024] In detail, the third folding line 115 is located between the first folding line 113 and the second folding line 114, and is parallel to the first folding line 113 and the second folding line 114. On the other hand, the first folding line 113, the second folding line 114, and the third folding line 115 are all perpendicularly connected to the first side 111 and the second side 112, and are arranged between the first side 111 and the second side 112.

[0025] Please refer to FIG. 2B. The two first lateral boards 120 are connected to the first supporting board 110a respectively on the first side 111 and the second side 112. There is a folding line that overlaps on the first side 111 between one of the two first lateral boards 120 and the first supporting board 110a, and there is a folding line that overlaps on the second side 112 between another one of the two first lateral boards 120 and the first supporting board 110a. Therefore, the two first lateral boards 120 may be folded respectively along the first side 111 and the second side 112 relative to the first supporting board 110a.

[0026] On the other hand, the two second lateral boards 130 are connected to the second supporting board 110b respectively on the first side 111 and the second side 112. There is a folding line that overlaps on the first side 111 between one of the two second lateral boards 130 and the second supporting board 110b, and there is a folding line that overlaps on the second side 112 between another one of the two second lateral boards 130 and the second supporting board 110b. Therefore, the two second lateral boards 130 may be folded respectively along the first side 111 and the second side 112 relative to the second supporting board 110b.

[0027] Please refer to FIG. 2B. The first lateral board 120 that is connected with the first side 111, the first supporting board 110a, and the first lateral board 120 that is connected with the second side 112 are sequentially arranged between the first auxiliary board 140a and the second auxiliary board 140b. Correspondingly, the second lateral board 130 that is connected with the first side 111, the second supporting board 110b, and the second lateral board 130 that is connected with the second side 112 are sequentially arranged between the first auxiliary board 140a and the second auxiliary board 140b.

[0028] On the other hand, the first side 111 of the main board 110 has a section that is not connected with the first lateral board 120 and the second lateral board 130, and the first auxiliary board 140a is connected to the section to be connected to the first folding connecting board 110c, the second folding connecting board 110d, and the first supporting board 110a. Correspondingly, the second side 112 of the main board 110 has a section that is not connected with the first lateral board 120 and the second lateral board 130, and the second auxiliary board 140b is connected to the section to be connected to the first folding connecting board 110c, the second folding connecting board 110d, and the first supporting board 110a.

[0029] Please refer to FIG. 2B. The buffer cardboard 100 has a first tearing line 102 and a second tearing line 103 relative to the first tearing line 102, and the first tearing line 102 and the second tearing line 103 are symmetrically disposed. The first auxiliary board 140a is connected through the first tearing line 102 to the first lateral board 120 that is connected with the first side 111, the second lateral board 130 that is connected with the first side 111, and the section in the first side 111 that is not connected with the first lateral board 120 and the second lateral board 130. Correspondingly, the second auxiliary board 140b is connected through the second tearing line 103 to the first lateral board 120 that is connected with the second side 112, the second lateral board 130 that is connected with the second side 112, and the section in the second side 112 that is not connected with the first lateral board 120 and the second lateral board 130.

[0030] Furthermore, the first tearing line 102 may include multiple holes arranged along a predetermined cutting line to facilitate detaching the first auxiliary board 140a along the first tearing line 102 from the first lateral board 120 that is connected with the first side 111 and the second lateral board 130 that is connected with the first side 111. Correspondingly, the second tearing line 103 may include multiple holes arranged along a predetermined cutting line to facilitate detaching the second auxiliary board 140b along the second tearing line 103 from the first lateral board 120 that is connected with the second side 112 and the second lateral board 130 that is connected with the second side 112.

[0031] FIG. 4A to FIG. 4D are process schematic views of folding a buffer cardboard to form a supporting base. First, please refer to FIG. 2B and FIG. 4A. The first supporting board 110a has a folding procedure reference diagram 104 of the buffer cardboard 100 printed between the first side 111 and the second side 112 to facilitate the user to refer to the folding procedure reference diagram 104 to fold and assemble the supporting base 101 shown in FIG. 3A and FIG. 3B. In detail, before the buffer cardboard 100 is folded, the first auxiliary board 140a and the second auxiliary board 140b must be disassembled first respectively along the first tearing line 102 and the second tearing line 103.

[0032] Next, please refer to FIG. 2B and FIG. 4B. The second supporting board 110b is allowed to be folded along the first folding line 113 relative to the first supporting board 110a, and an angle between the second supporting board 110b and the first supporting board 110a is allowed to be acute to let the second supporting board 110b to be inclined to the first supporting board 110a. Next, please refer to FIG. 2B, FIG. 4B, and FIG. 4C. The second folding connecting board 110d is allowed to be folded along the second folding line 114 relative to the second supporting board 110b, the first folding connecting board 110c is allowed to be folded along the third folding line 115 relative to the second folding connecting board 110d, and the first folding connecting board 110c is allowed to be folded along the first folding line 113 relative to the first supporting board 110a to allow the first folding connecting board 110c and the second folding connecting board 110d that are relatively folded to form a limiting protrusion 101c. For example, a cross-sectional profile of the limiting protrusion 101c may be a triangular profile.

[0033] Next, please refer to FIG. 2B, FIG. 4C, and FIG. 4D. The two first lateral boards 120 are allowed to be folded relative to the first supporting board 110a toward the second supporting board 110b, and a folding angle is approximately 90 degrees. Then, the two second lateral boards 130 are allowed to be folded relative to the second supporting board 110b toward the first supporting board 110a, and a folding angle is approximately 90 degrees. After the foregoing folding procedure, the two first lateral boards 120 are juxtaposed between the two second lateral boards 130, and one of the second lateral boards 130, one of the first lateral boards 120, another one of the first lateral boards 120, and another one of the second lateral boards 130 sequentially stand between the second supporting board 110b and the first supporting board 110a to support the second supporting board 110b as shown in FIG. 3B.

[0034] As shown in FIG. 2B, FIG. 3B, and FIG. 4D, each of the first lateral boards 120 and each of the second lateral boards 130 may be a triangular board, preferably a right triangular board. Furthermore, each of the first lateral boards 120 that stands between the second supporting board 110b and the first supporting board 110a contacts the second supporting board 110b, and contacts opposite sides (that is, the first side 111 and the second side 112) of the second supporting board 110b at a right angle with an adjacent side or an opposite side to allow the second supporting board 110b to be inclined to the first supporting board 110a.

[0035] On the other hand, each of the second lateral boards 130 is connected to the second supporting board 110b at a right angle with an adjacent side or an opposite side to allow each of the second lateral boards 130 that has been folded to face the work plane with a hypotenuse, and the two first lateral boards 120 and the two second lateral boards 130 jointly support the second supporting board 110b to allow the second supporting board 110b to be inclined to the first supporting board 110a.

[0036] As shown in FIG. 2B, FIG. 3B and FIG. 4D, the buffer cardboard 100 further includes two first fasteners 150 and two second fasteners 160. The two first fasteners 150 are symmetrically disposed, and are foldably connected to the first supporting board 110a respectively on the first side 111 and the second side 112. In addition, the two second fasteners 160 are symmetrically disposed, and are foldably connected to the two second lateral boards 130 respectively corresponding to the two first fasteners 150.

[0037] Furthermore, the first supporting board 110a is individually provided with a first lock hole 116 on the first side 111 and the second side 112, and each of the second fasteners 160 has a second lock hole 161. The two first lock holes 116 are disposed corresponding to the two second fasteners 160, and the two first fasteners 150 respectively partially overlap on the two first lock holes 116. In addition, the two second lock holes 161 are disposed corresponding to the two first fasteners 150.

[0038] After the two first lateral boards 120 are folded relative to the first supporting board 110a toward the second supporting board 110b, and the two second lateral boards 130 are folded relative to the second supporting board 110b toward the first supporting board 110a, the two first fasteners 150 are respectively separated on the two first lock holes 116. Next, the two second fasteners 160 are folded respectively relative to the two second lateral boards 130 and inserted into the two first lock holes 116. Then, the two first fasteners 150 are folded respectively relative to the first supporting board 110a and inserted into the two second lock holes 161 to allow the first lateral board 120 and the second lateral board 130 that are connected with the first side 111 to be tightly joined, and to allow the first lateral board 120 and the second lateral board that are connected with the second side 112 to be tightly joined. At this point, the assembly of a folding group of the supporting base 101 is roughly completed.

[0039] As shown in FIG. 3A and FIG. 3B, the second supporting board 110b is supported by the two first lateral boards 120 and the two second lateral boards 130 and is inclined to the first supporting board 110a, and the second supporting board 110b, the two first lateral boards 120 and the first supporting board 110a surround to form the heat dissipating space 101a and the heat dissipating opening 101b communicating with the heat dissipating space 101a. In addition, the second supporting board 110b may provide an inclined supporting plane for the electronic device and the heat dissipating hole 101d that the second supporting board 110b is communicating with the heat dissipating space 101a.

[0040] In an embodiment, the first auxiliary board 140a and the second auxiliary board 140b that have been disassembled may be folded and inserted into the heat dissipating space 101a to jointly support the second supporting board 110b with the two first lateral boards 120 and the two second lateral boards 130.

[0041] In summary, in the packing structure of the disclosure, the buffer cardboard may absorb an impact force acting on the outer packing box to prevent the impact force from directly acting on the inner packing box and causing damage or harm to the electronic device. After the buffer cardboard has been taken out of the outer packing box, the buffer cardboard may be unfolded first. Next, the user may fold the buffer cardboard according to a folding line, a tearing line, or other folding reference features to form the supporting base for the electronic device to be placed. In other words, the buffer cardboard may not only be configured to absorb the external impact force, but may also be reused as the supporting base for the electronic device to be placed, which is consistent with the sustainable development goals of environmental protection and resource reuse.

[0042] Furthermore, the electronic device placed on the supporting base may be tilted relative to the work plane to provide the user with a better operating angle or viewing angle that improves operation comfort. In addition, the supporting base may provide the heat dissipating airflow channel for the electronic device placed thereon to avoid the electronic device malfunctioning or declining in performance due to overheating.

[0043] Although the disclosure has been disclosed in the above embodiments, the embodiments are not intended to limit the disclosure. Persons skilled in the art may make some changes and modifications without departing from the spirit and scope of the disclosure. Therefore, the protection scope of the disclosure shall be defined by the appended claims.