PACKING SYSTEM

Abstract

A packing system is provided. The packing system includes a box, a partition, and a first article and a second article to be packed. The box has an inner space. The partition is movably disposed within the inner space and divides the inner space into a first space and a second space. The second article is stored in the second space. The first article is partially compressed and contained in the first space. The first article is in contact with the partition to support the partition and absorb a shock and movement of the partition, and therefore reduce the possible damage occurred on the second article.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 a is an exploded view of the packing system in the prior art.

FIG. 1 b is a cross-sectional view of the packing system in the prior art.

FIG. 2 is a view of the embodiment of the electronic device.

FIG. 3 a is an exploded view of the embodiment of the structure of the packing system.

FIG. 3 b is a cross-sectional view of the embodiment shown in FIG. 3a.

FIG. 3 c is a view of the embodiment shown in FIG. 3b.

FIG. 3 d is another embodiment of the partition and the first cushion.

FIG. 4 a is an exploded view of another embodiment of the packing system.

FIG. 4 b is a cross-sectional view of the embodiment shown in FIG. 4a.

FIG. 5 is a cross-sectional view of the embodiment adding a hardness board.

FIG. 6 a is a view of the embodiment of the support base.

FIG. 6 b is a view of another embodiment of the support base.

FIG. 7 a is a view of the embodiment illustrating the support base is in the stretching position.

FIG. 7 b is a view of the embodiment illustrating the support base is in the compressing position.

FIG. 7 c is a view of the embodiment illustrating the support base is in the less stretching position.

FIG. 8 a is an exploded view of the embodiment included an elastic material.

FIG. 8 b is a cross-sectional view of the embodiment illustrating the support base is in the less stretching position.

FIG. 8 c is a cross-sectional view of the embodiment illustrating the support base is in the less compressing position.

FIG. 9 a is a view of another embodiment illustrating the first article and the second article in the present invention.

FIG. 9 b is a cross-sectional view of the embodiment of the packing system shown in FIG. 9a.

FIG. 10 a and FIG. 10b are views of another embodiment in the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

A packing system is disclosed in the present invention. In the preferred embodiment, the packing system is used for an electronic device. In the present invention, a display device is used as an example of the electronic device, as shown in FIG. 2. However, the present invention can also be implemented in other devices or equipment, such as fans, lamps and so on.

As the embodiment shown in FIG. 3a and FIG. 3b, the packing system includes a box 100, a first cushion 220 and a partition 300. The box 100 includes an internal space 110. In the present embodiment, the box 100 is a quadrate box and the internal space 110 is also a quadrate space. However, in a different embodiment, the shape of the box 100 and the internal space 110 can be varied for different types of articles. In accordance with one embodiment, the box 100 is a box made of cardboard. In a different embodiment, the box 100 is made of plastic or other materials.

As shown in FIG. 3a and FIG. 3b, the first cushion 220 is disposed within the internal space 110. The first cushion 220 is made of the Styrofoam. In a different embodiment, the first cushion is made of cushion material, such as foam, organic expandable materials, air pad and so on. The partition 300 is movably disposed in the internal space 110 of the box 100, and the two ends of the partition 300 are contacting the internal wall of the box 100 to maintain the stability of the partition in the horizontal direction. A first interval 221 is maintained between the partition 300 and the first cushion 220. Therefore, the partition 300 and the first cushion 220 are separated from each other. As shown in FIG. 3b, the internal space 110 is divided into a first space 112 and a second space 111 by the partition 300. The first space 112 is formed between the partition 300 and the first cushion 220. The first space 112 includes a first height. Besides, in a preferred embodiment, the rigidity coefficiency of the partition 300 is larger than the rigidity coefficiency of the first cushion 220. In the preferred embodiment, the partition 300 is movably disposed in the internal space 110 through the friction between the box 100 and the partition 300. However, in a different embodiment, the partition 300 is supported by the article stored in the first space 112 and is movably disposed within the box 100.

When the box 100 is impacted or compelled by an external force, the first cushion 220 is moved relative to the partition 300. When the first cushion 220 and the partition 300 are oppositely moved by the compressing force, as shown in FIG. 3c, the box 100 will be deformed and the first interval 221 formed between the first cushion 220 and the partition 300 is compressed to be a second interval 222. The second interval 222 is smaller than the first interval 221, and at this time, the first height of the first space 112 is compressed to be a smaller second height. Besides, in the preferred embodiment, when an external force is compressing, the box 100 starts to deform at the position close to the second interval 222, in order to start its deformation in coordination with the variation of the gap between the first cushion 220 and the partition 300.

FIG. 3 d is another embodiment of the partition 300 and a second cushion 210. In this embodiment, two sides of the partition 300 are respectively stretched to the second cushion 210. The second cushion 210 includes a shape looks like a paperboard. The second cushion 210 is contacted to two sides of the extensional portion of the partition 300 and against each other. The second space 111 is formed between two sides of the stretching portion of the partition 300.

As the embodiment shown in FIG. 4a and FIG. 4b, the packing system further includes a first article 500 and a second article 700. The first article 500 is stored in the first space 112. The second article 700 is stored in the second space 111. The first article 500 is a support base with deformable ability and deformable recovery ability. In a different embodiment, the first article 500 can be any other device with deformable ability and deformable recovery ability. The second article 700 can be a display device. In a different embodiment, the second article 700 can be an electric fan, a lamp or any other electronic device. Besides, in the present invention, the second article 700 can be any other non-electronic devices, such as mirror, glass and so on.

In the embodiment, the thickness of the partition 300 is adjustable according to the size of the internal space 110 of the box 100 to vary the sizes of the first space 112 and the second space 111. In the preferred embodiment, the partition 300 is made by Styrofoam. In coordinate with the impact resistance level of the second article 700 and the first article 500, the hardness of the partition 300 is adjustable. For example, a high density of the Styrofoam material is used to be the partition 300. Besides, the partition 300 can have multi-layers structure for increasing the ability of absorbing the shock or for any other purposes. As the embodiment shown in FIG. 5, the partition 300 adds a hardness board 310 along the surface of the first space 112. By adding a hardness board 310, the probability that the partition 300 is harmed or penetrated by hitting is decreased.

As the embodiment shown in FIG. 4a and FIG. 4b illustrates, a second cushion 210 is disposed in the internal space 110 of the box 100. A second space 111 is formed between the second cushion 210 and the partition 300 and stored in the second article 700. The second cushion 210 is disposed against the partition 300 and is used to fill in the gap between the second article 700 and the box 100. When the box 100 is impacted by an external force, the second cushion 210 is not moved relative to the partition 300. In other words, the relative position between the second cushion 210 and the partition 300 is not changed. As shown in FIG. 4b, the second cushion 210 covers the second article 700, except for the portion of the second cushion 210 contacting the partition 300. However, in a different embodiment, the second cushion 210 and the partition 300 are respectively disposed in the top and the bottom of the article 700. Besides, the second cushion 210 is made by Styrofoam. However, in a different embodiment, the second cushion 210 is made by any other cushion material, such as foam, organic expandable materials, air pad and so on.

As the embodiment shown in FIG. 4a and FIG. 4b illustrates, the first article 500 is a support base 501 and is connected with the second article 700 to support the second article 700, wherein the support base 501 can also be separated from the second article 700. As shown in FIG. 4b and FIG. 6a, the support base 501 includes a base 510, a support rod 530, a connective stand 550 and an elastic member 570. Two ends of the support rod 530 are a base end 531 and a sustained end 533. The base end 531 is rotatably connected to the base 510. The sustained end 533 is rotatable to connect the connective stand 550. When the base 510 is set as the reference point, the sustained end 533 is rotated relative to the base end 531. The elastic member 570 is respectively connected to the base 510 and the support rod 530. In the preferred embodiment, the elastic member 570 is a distorted spring disposed in the base end 531 of the support rod 530. However, as illustrated in the embodiment shown in FIG. 6b, the elastic member 570 is a straight spring extended along the support rod 530.

When the support rod 530 is in the stretched position relative to the base 510, as shown in FIG. 6a and FIG. 7a, the connective stand 550 is connected to the backboard of the second article 700. The base 510 is disposed in a platform to provide a support for the second article 700. Besides, in this situation, the deformable value and the elastic force of the elastic member 570 is the minimum. As shown in FIG. 7b, when the support rod 530 is in the compressing position relative to the base 510, the relative displacement between the support rod 530 and the base 510 is extremely compressed and the volume of the support base 501 is shrunk to the minimum. The deformable value and the elastic force of the elastic member 570 is the maximum. As shown in FIG. 7c, when the support rod 530 is in the less stretching position or less compressing position between the stretching position and the compressing position, the volume of the support base 501 is smaller than the volume where the support base 501 is in the stretching position and larger than the volume where the support base 501 is in the compressing position. The deformable value and the elastic force of the elastic member 570 are increasable. The support rod 530 is rotated relative to the base 510 by the external force, which stretches the elastic member 570 to generate an elastic force relative to the external force for allowing the support base 501 to form a cushion device with shock absorbing structure.

Besides, in order to maintain the support rod 530 in the less stretching position instead of bouncing back to the stretching position, the support base 501 includes a constraining member 590. The constraining member 590 circles around the base 510 and the support rod 530 and limits the support rod 530 to stretch to the stretching position. As shown in FIG. 7c, the constraining member 590 is used to limit the support base 501 to the less stretching position between the stretching position and the compressing position. However, in a different embodiment, the constraining member 590 is used to limit the support base 501 to the extreme compressing position to avoid the support base 501 to have an unpredictable stretching. In the preferred embodiment, the constraining member 590 is a plastic belt. In a different embodiment, the constraining member 590 is a rope or a belt made by different materials. Besides, the constraining member 590 can be replaced by a position device or a clip. In a different embodiment, the constraining member 590 can be used in the first article 500.

As the embodiment shown in FIG. 8a and FIG. 8b, the support base 501 is in the less stretching position between the stretching position and the compressing position and is in the first space 112 of the box 100. The support base 501 is stretched and compressed in the first direction 410. In other words, the connective stand 550 is shifted relative to the base 510 in the first direction by disposing the support rod 530 and the elastic member 570. In the preferred embodiment, the first direction 410 is vertical to the direction of the disposition of the partition 300. The support base 501 is contacting against the partition 300 and provides a force for the partition 300 to absorb the shock and the displacement in the partition 300. In the preferred embodiment, the base 510 of the support base 501 is contacting against the partition 300. Besides, as shown in FIG. 8b, the support base 501 is maintained in the less stretching position by disposing the constraining member 590. However, in a different embodiment, the support base 501 is maintained in the less stretching position by sustaining the weight of the partition 300 and the second article 700.

Besides, in the preferred embodiment, the stretching position, the less stretching position and the compressing position of the second article 700 and the support base 501 are arranged in the first direction 410. As shown in FIG. 8c, when the second article 700 is shaken by an external force, the partition 300 is compressed in the first direction 410. The external force is transmitted from the partition 300 to the support base 501 along the first direction 410. The support base 501 is compressed from the less stretching position and moved to the less compressing position to absorb the shock and the displacement. Because the partition 300 is moved relative to the first cushion 220, the height of the first space 112 is descended from the first height to the second height. At the moment, the elastic member 570 is compressed for storing an elastic strength to force the support base 501 to return from the stretching position to the original position (the less stretching position). By the compression of the support base 501 and the elastic strength of the elastic member 570, the second article 700 is able to reduce the shock generated by the external force and reduce the damage of the second article 700.

As the embodiment shown in FIG. 8a and FIG. 8b, the packing system further includes an elastic material 600. The elastic material 600 is disposed within the first interval 221 between the partition 300 and the first cushion 220. By comparing to the elastic material 600, the partition 300 and the first cushion 220, the rigidity coefficiency of the elastic material 600 is smaller than the rigidity coefficiency of the partition 300 and the first cushion 220. In other words, when the same external force is used, the resistance of the elastic material 600 is less than the resistance of the partition 300 and the first cushion 220. Besides, when the same external force is used, the deformable value of the elastic material 600 is bigger than the deformable value of the partition 300 and the first cushion 220. In the preferred embodiment, the elastic material 600 includes an air pad. However, in a different embodiment, the elastic material 600 includes foam or other materials. As shown in FIG. 8c, when the partition 300 is compressed along the first direction 410, the first interval 221 is reduced to be the second interval 222. Because the rigidity coefficiency of the elastic material 600 is small, the elastic material 600 is compressed and deformed between the partition 300 and the first cushion 220 and operates in coordination with the support base 501 to absorb the shock.

FIG. 9 a is another embodiment showing in the present invention. In this embodiment, the support rod 530 of the support base 501 and the base 510 are sleeved together along the axial direction of the support rod 530. In other words, the support rod 530 of the support base 501 and the base 510 are constructed to be a support base structure with telescope type shape. In this embodiment, the elastic member 570 includes a reel spring or a constant force spring. Two ends of the elastic member 570 are respectively connected to the bottom of the support rod 530 and the base 510. The support end 530 is rotatably connected to the connective stand 550. As shown in FIG. 9b, the support base 501 is stored in the first space 112 of the box 100. In this embodiment, the support base 501 includes a constraining member 590 to circle around the connective base 550 of the support base 501 and the base 510 for keeping the support base 501 in the less compressing position. The support base 501 is stretchable and compressible along the first direction 410. In other words, by disposing the support rod 530 and the elastic member 570, the connective stand 550 is shifted relative to the base 510 along the first direction 410. The support base 501 is contacting against the partition 300 and provides a force for the partition 300 to absorb the shock and the displacement of the partition 300. In this preferred embodiment, the connective stand 500 of the support base 501 is contacting against the partition 300. However, in a different embodiment, the base 510 of the support base 501 is contacting against the partition 300.

Besides, in this preferred embodiment, the stretching position, the less compressing position and the compressing position of the second article 700 and the support base 501 are arranged in the first direction 410. When the second article 700 is shaken by an external force, the partition 300 is compressed along the first direction 410. The external force is transmitted from the partition 300 to the support base 501 along the first direction 410. The support base 501 is compressed along the compressing direction to absorb the shaking and the displacement. At the moment, the elastic strength of the elastic member 570 forces the support base 501 to shift back from the compressing position to the original position (the less stretching position). By the compression of the support base 501 and the elastic strength of the elastic member 570, the shock received by the second article 700 from the external force is reduced and the damage of the second article 700 is reduced.

FIG. 10 a and FIG. 10b are showing another embodiment of the present invention. As shown in FIG. 10a, the support base 501 is compressed to the compressing position by the weight of the partition 300 and the second article 700. The constraining member 590 is circled around the base 510 and the support rod 530 and limits the stretching of the support base 501 within the less stretching position between the stretching position and the compressing position. In other words, as shown in FIG. 10a, when the support base 501 is compressed to the compressing position, the constraining member 590 is kept in a loose status. When the box 100 is opened, as shown in FIG. 10b, and the partition 300 and the second article 700 are taken out, the support base 501 is bounced back toward the stretching position. By disposing the constraining member 590, the stretching of the support base 501 is limited to the less stretching position for avoiding the support base 501 bouncing back to the stretching position directly.

Although the preferred embodiments of the present invention have been described herein, the above description is merely illustrative. Further modification of the invention herein disclosed will occur to those skilled in the respective arts and all such modifications are deemed to be within the scope of the invention as defined by the appended claims.

Claims

1. A packing system used to store a first article, comprising: a box having an internal space;a first cushion disposed within the internal space; anda partition disposed within the internal space, wherein the partition and the first cushion are separated by a first interval and a first space is formed between the first cushion and the partition for containing the first article;wherein when an external force compels the box and forces the first cushion and the partition to oppositely move, the box is deformed to reduce the first interval to be a second interval and the second interval is smaller than the first interval.

2. The packing system of claim 1, wherein the rigidity coefficiency of the partition is larger than the rigidity coefficiency of the first cushion.

3. The packing system of claim 1 further comprising an elastic material, wherein the elastic material is disposed in the first interval and is more deformable than the box.

4. The packing system of claim 3, wherein the rigidity coefficiency of the elastic material is smaller than the partition and the first cushion.

5. The packing system of claim 1 further comprising a second cushion, wherein the second cushion is disposed within the internal space opposite to the first cushion, and the second cushion is against the partition, when the external force is applied on the box, the second cushion does not move relative to the partition.

6. A packing system, comprising: a box having an internal space;a first cushion disposed within the internal space;a partition disposed within the internal space, wherein the partition and the first cushion are separated by a first interval and a first space is formed between the first cushion and the partition; anda first article stored in the first space and the first article can be in a less stretching status and a less compressing status;wherein when the box is not impacted by an external force, the first space is kept in a first height and the first article is in the less stretching status and is stored in the first space; when the external force is applied on the box, the first cushion and the partition are oppositely moved and the box starts to be deformed from closed to the first interval, and the first space is compressed to be a second height and is smaller than the first space, the first article is deformed in the less compressing status.

7. The packing system of claim 6, wherein the rigidity coefficiency of the partition is larger than the rigidity coefficiency of the first cushion.

8. The packing system of claim 6 further comprising an elastic material, wherein the elastic material is disposed in the first interval and is more deformable than the box.

9. The packing system of claim 6, wherein the rigidity coefficiency of the elastic material is smaller than the partition and the first cushion.

10. The packing system of claim 6, wherein the first article includes a support base being stretchable and compressible in a first direction and against the partition, the support base includes: a base;a support rod, wherein the support rod includes a base end and a sustained end, and the base end is connected to the base and the sustained end is movable relative to the base end;a connective stand connected to the sustained end of the support rod, wherein the connective stand is used to connect to an object; andan elastic member connected to the base and the support rod, wherein the support rod is located between a compressed position and a stretched position in a less compressed position, the elastic member provides an elastic force to drive the support rod to stretch to the stretched position, one of the base and the connective stand is against the partition.

11-15. (canceled)

16. The packing system of claim 10 further comprising a constraining member, wherein the constraining member circles around the base and the support rod in the less compressed position to restrict the first article to stretch from the less stretching status to a stretching status.

17. The packing system of claim 6 further comprising a second cushion, wherein the partition is disposed between the second cushion and the first cushion, and a second space is formed between the second cushion and the partition.

18. A packing system, comprising: a box having an internal space;a first cushion disposed within the internal space;a partition disposed within the internal space, wherein the partition and the first cushion are separated by a first interval, and a first space is formed between the partition and the first cushion for containing the first article;a first article stored in the first space and the first article being against the partition; anda constraining member, the constraining member circling around the first article and restricting the first article to stretch from a less stretching status to a stretching status;wherein when an external force compels the first article, the partition is moved relative to the box and forces the first article to move from the less stretching status to a less compressing status.

19. The packing system of claim 18, wherein the partition and the first cushion are connected together.

20. The packing system of claim 18, wherein the less stretching status is the lowest height of the first article.

21. The packing system of claim 18, wherein the first cushion and the partition are separated by a interval, and a first space is formed between the first cushion and the partition and the first article is stored in the first space; wherein when the box is not impacted by an external force, the first space is kept in a first height and the first article is kept in the less stretching status and stored in the first space; when the box is impacted by the external force, the first cushion and the partition are partially and oppositely moved and the box starts to be deformed from closed to the first interval and the first space is contracted to be a second height and the second space is smaller than the first space and the first article is deformed to be contracted and stored within the first space.

22. The packing system of claim 18 further comprising an elastic material, wherein the elastic material is disposed between the partition and the first cushion and the elastic material is more deformable than the box.

23. The packing system of claim 18, wherein the rigidity coefficiency of the elastic material is smaller than the partition and the first cushion.

24. The packing system of claim 18, wherein the first article includes a support base and the support base is stretched and compressed in a first direction and against the partition, the support base comprises: a base;a support rod, wherein the support rod includes a base end and a sustained end and the base end is connected to the base and the sustained end is movable relative to the base end;a connective stand connected to the sustained end of the support rod, wherein the connective stand is used to connect an object; andan elastic member connected to the base and the support rod, wherein the support rod is located in a less compressed position between a compressed position and a stretched position, the elastic member provides an elastic force to drive the support rod to stretch to the stretched position, one of the base and the connective stand is against the partition;wherein the constraining member circles around the base and the support rod in the less compressed position.

25. The packing system of claim 24, wherein the sustained end is rotatable around the base end.

26. The packing system of claim 25, wherein the elastic member includes a straight spring disposed along the support rod.

27. The packing system of claim 25, wherein the elastic member includes a distorted spring disposed in the base end of the support rod.

28. The packing system of claim 24, wherein the support rod and the base are sleeved together along the axial direction of the support rod.

29. The packing system of claim 28, wherein the elastic member includes a reel spring disposed along the support rod.

30. The packing system of claim 18 further comprising a second cushion, and the partition is disposed between the second cushion and the first cushion and a second space is formed between the second cushion and the partition.