The present invention relates to a packing device that is made of thermo-formed plastic sheet and that provides cushion feature so as to protect the electronic product packed in the packing device.
It is one of the main concerns of protection of shock sensitive items such as electronic products during delivery. The products are packed by packing device such as polystyrene foam or paperboard. In order to reduce the risk of impact during transportation, the packing device has to be made thick enough so as to provide a cushion feature for the products. Nevertheless, the bulky packing device occupies too much space and the products are not easily to be positioned or fixed. If the packing device, such as paperboard, is made to be thin to save more space for the product, it has less ability of anti-shake feature and tends to be peeled off that affects the products to be packed. Besides, the conventional packing devices cannot be overlapped and this is inconvenient for the packers. Besides, for the electronic industry, one of the important factors of the cost of manufacturing is the time of assembly. A better-designed packing device reduces the time of packing. Generally, most of the electronic products are precious so that it is the main concerns to pack the maximum quantity of product within limited space and to deliver the product to its destinations. A conventional packing device 1 is shown in
Therefore, it is desired to have a proper packing device that provides well positioning and cushion features so as to provide protection to the products.
In accordance with an aspect of the present invention, there is provided a packing device made of thermo-formed plastic sheet for packing shock sensitive and the packing device includes a bottom plate having adjacent first recesses and each first recess has first flaps which are higher than a receiving plane of the first recess, and each first recess has a positioning portion in an inside thereof. A side plate being foldable along a folding line relative to the bottom plate has engaging portions that are engaged with the positioning portions. The side plate includes adjacent second recesses and each second recess has a plurality of second flaps that are higher than a receiving plane of the second recess. The side plate has receiving portions located opposite to the engaging portions. A top plate being foldable along a folding line relative to the side plate has protrusions which are engaged with the receiving portions when the top plate is folded the folding line toward the side plate. The top plate has third recesses and each of which has third flaps that are higher than a receiving plane of the third recess. The first flaps, the second flaps, and the third flaps are located on lines parallel with each other so as to form a plurality of spaces for receiving the shock sensitive items.
The present invention will become more obvious from the following description when taken in connection with the accompanying drawings, which show, for purposes of illustration only, a preferred embodiment in accordance with the present invention.
Referring to the drawings and in particular to
The bottom plate 21 includes several adjacent first recesses 211 and each of which has a stepped wave-shaped surface 212 so as to provide cushion feature. Each of the first recesses 211 has a plurality of first flaps 213, 213A which are higher than the receiving plane of the first recess 211 as shown in
Each of the first recesses 211 has a plurality of adjacent positioning portions 214 on an inside thereof and the side plate 22 has a plurality of engaging portions 221 which are located corresponding to the positioning portions 214 so that the side plate 22 is engaged with the positioning portions 214 of the bottom plate 21. There are several second flaps 224C located beside the folding line a—a and engaging ports 2210 are located at two sides of an end of each second flap 224C. The engaging ports 2210 are engaged with the positioning portions 214. Preferably, the positioning portion 214 includes a protrusion 2140 so as to be securely engaged with the engaging portion 221.
The side plate 22 includes adjacent second recesses 222 and each second recess 222 includes a stepped wave-shaped inside 223. Preferably, some of the second recesses 222 have an arrow mark which assists the packers to identify the direction of folding. The side plate 22 includes a plurality of second flaps 224A, 224B, 224C which are higher than the receiving plane of the second recess 222.
The side plate 22 has receiving portions 225 located opposite to the engaging portions 221, and the top plate 23 has a plurality of protrusions 231 which are engaged with the receiving portions 225 when the top plate 23 is folded along the line b—b.
The top plate 23 has a plurality of third recesses 232 and each of which has stepped wave-shaped insides 233, 233A. Each of the third recesses 232 has a plurality of third flaps 234, 234A that are higher than the receiving plane of each third recess 232 as shown in
As shown in
Referring to
The packing device can be made by single thermo-formed vacuum forming plastic sheet and so that it is convenient to be mass production so as to reduce the cost of manufacturing. Besides, because the material HDPE has better stiffness, flexibility and memory features so that it provides good cushion feature. For the foldable packing devices 2, they can be used repeatedly and has better anti-shake feature. The packing device can be arranged as U-shaped, wherein the L-shaped portions can be engaged at right angle which makes the electronic product easy to be put therein, and then covered with the other side to form the U-shaped packing device. For the packers, it is easily to finish the packing processes. This saves a lot of packing space and increases the quantity of the products.
While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.
Number | Name | Date | Kind |
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6142304 | Moren et al. | Nov 2000 | A |
Number | Date | Country | |
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20050074585 A1 | Apr 2005 | US |