BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is an expansion diagram of a packing box according to a preferred embodiment of the invention;
FIGS. 2A-2F are diagrams of assembling the fabricating board of FIG. 1 to form a packing box;
FIGS. 3A-3C are diagrams of assembling a packing box for delivery according to the fabricating board of FIG. 1.
DETAILED DESCRIPTION OF THE INVENTION
Please refer to FIG. 1 and FIG. 2A. FIG. 1 is an expansion diagram of a packing box according to a preferred embodiment of the invention. FIG. 2A is a diagram of assembling the fabricating board of FIG. 1 to form a packing box. As indicated in FIG. 1, the fabricating board 1 folded to form a packing box comprises a first pair of side boards, a second pair of side boards, a first pair of top boards, and a second pair of top boards. The first pair of side boards includes a first side board 10(1) and a second side board 10(2). The second pair of side boards includes a third side board 10(3) and a fourth side board 10(4). The first pair of top boards includes a first top board 20(1) and a second top board 20(2). The second pair of top boards includes a third top boards 20(3) and a fourth top board 20(4). The fabricating board 1 also comprises four bottom boards 30(1)˜30(4). The side boards 10(1), 10(3), 10(2), and 10(4) are sequentially connected. The first top board 20(1) and the second top board 20(2) are respectively connected to the upper edges 10A and 10B of the first side boards 10(1) and the second side board 10(2). The first top board 20(1) has a first gripping board 21(1) and a first slot 22(1). The second top board 20(2) has a second gripping board 21(2) and a second slot 22(2). The first gripping board 21(1) and the second gripping board 21(2) are respectively connected to the upper edges 20A and 20B of the first top boards 20(1) and the second top board 20(2). The first gripping board 21(1) and the second gripping board 21(2) have a first hole 23(1) and a second hole 23(2), respectively. The third top boards 20(3) and the fourth top board 20(4) are respectively connected to the upper edges 10C and 10D of the third side board 10(2) and the fourth side board 10(4). The third top board 20(3) has a first plugging board 24(1) and a first slit 25(1). The fourth top board 20(4) a second plugging boards 24(2) and a second slit 25(2). The first plugging board 24(1) and the second plugging board 24(2) are respectively connected to the upper edges 20C and 20D of the third top board 20(2) and the fourth top board 20(4). The four bottom boards 30(1)˜30(4) are respectively connected to the lower edges 10E˜10H of the first, the third, the second, and the fourth side boards 10(1), 10(3), 10(2) and 10(4). The bottom boards 30(1)˜30(4) and the side boards 10(1)˜10(4) are folded to form a case body 100 having an opening 100A as illustrated in FIG. 2A.
As indicated in FIG. 1, preferably, the first gripping board 21(1) and the second gripping board 21(2) are respectively connected to the central parts of the upper edges 20A and 20B of the first top boards 20(1) and the second top board 20(2), and the first slot 22(1) and the second slot 22(2) are respectively positioned near the central parts of the upper edges 20A and 20B of the first top boards 20(1) and the second top board 20(2). Furthermore, the third top board 20(3) further comprises two third plugging boards 26(1), 26(2), and two third slits 27(1), 27(2). The fourth top board 20(4) further comprises two fourth plugging boards 26(3), 26(4), and two fourth slits 27(3), 27(4). The slits 27(1)˜27(4) are substantially parallel to the slits 25(1) and 25(2).
Preferably, the fabricating board 1 further comprises a first tongue 40(1), a second tongue 40(2), a first buttonhole 41(1), and second buttonhole 41(2). The first buttonhole 41(1) is positioned at the center of the connection part of the first side boards 10(1) and the first top board 20(1). The second buttonhole 41(2) is positioned at the center of the connection part of the second top boards 20(2) and the second side board 10(2). The first buttonhole 41(1) and the second buttonhole 41(2) are substantially parallel to the lower edges of the first top board 20(1) and the second top board 20(2). The first tongue 40(1) and the second tongue 40(2) are respectively connected to the first side board 10(1) and the second side board 10(2) and extended towards the first top board 20(1) and the second top board 20(2). The connection part of the first tongue 40(1) and the first side board 10(1) and the connection part of the second tongue 40(2) and the second side board 10(2) are positioned underneath the first buttonhole 41(1) and the second buttonhole 41(2) respectively.
Preferably, the fabricating board 1 has a connecting board which can be connected to the side edge of the first side board 10(1) or the side edge of the fourth side board 10(4). In the present embodiment of the invention, a connecting board 50 is connected to the side edge of the first side board 10(1) for illustration. When the fabricating board 1 is folded to form a packing box, the connecting board 50 functions as a connecting interface between the first side board 10(1) and the fourth side board 10(4).
The fabricating board 1 of FIG. 1 can be assembled in two different ways to satisfy the needs of storage, delivery or carrying-by-hand. When a product is packed for delivery, the first gripping board 21(1) and the second gripping board 21(2) of the packing box are not exposed outside the case body; that is, the packing box is packed as an ordinary box for the convenience of storage or delivery. Alternatively, the first gripping board 21(1) and the second gripping board 21(2) can be folded to protrude from the case body to form a handle for the convenience of the user's portability. The process for folding the fabricating board 1 to form a packing box with a handle is disclosed below.
Referring to FIGS. 2A˜2F, diagrams of assembling the fabricating board of FIG. 1 to form a packing box are shown. As indicated in FIG. 2A, after four side boards 10(1)˜10(4) and four bottom boards 30(1)˜10(4) are folded to form a case body 100 that has an opening 100A. The first top board 20(1), the second top board 20(2), the third top boards 20(3), and the fourth top board 20(4) are respectively connected to the four upper edges 10A˜10D of the case body 100. Next, after the first and the second top boards 20(1) and 20(2) are folded towards the opening 100A to cover the opening 100A, the first and the second gripping boards 21(1) and 21(2) are respectively folded away from the opening 100A, then the two gripping boards 21(1) and 21(2) are possible to be against with each other as indicated in FIG. 2B.
Then, the third and the fourth top boards 20(3) and 20(4) are folded towards the opening 100A to cover the first and the second top boards 20(1) and 20(2). The fourth top board 20(4) covers a part of the first and the second top boards 20(1) and 20(2), as indicated in FIG. 2C, the first and the second gripping boards 21(1) and 21(2) pass through the second slit 25(2). Likewise, the third top board 20(3) covers a part of the first and the second top boards 20(1) and 20(2). Meanwhile, the third and the fourth plugging boards 26(1)˜26(4) disposed on the side edges of the third and the fourth top boards 20(3) and 20(4) are inserted into the first and the second buttonholes 41(1) and 41(2). As indicated in FIG. 2D, the first and the second gripping boards 21(1) and 21(2) are protruded from the surface of the top boards to form a handle.
Next, the first and the second plugging boards 24(1) and 24(2) respectively pass through the first and the second holes 23(1) and 23(2) located on the first and the second gripping board 21(1) and 21(2), and are inserted into the first and the second slots 22(2) and 22(1) (not illustrated in FIG. 2D) for fixing the handle formed by the first and the second gripping boards 21(1) and 21(2) as indicated in FIG. 2E.
Afterwards, the first tongue 40(1) is inserted into the third slit 27(1) and the fourth slit 27(4) (not illustrated in FIG. 2E) located on the third top board 20(3), the tongue second 40(2) is inserted into the third slit 27(2) and the fourth slit 27(3) located on the fourth top board 20(4). The assembly of the packing box is completed here. The assembled packing box is illustrated in FIG. 2F. The packing box 200 has a case body 100 and a handle formed by the first and the second gripping boards 21(1) and 21(2). Via the combination of the first and the second plugging boards 24(1) and 24(2), the third and the fourth plugging boards 26(1)˜26(4) (not illustrated in FIG. 2F), the first and the second tongues 40(1) and 40(2), and the first and the second top boards 20(1) and 20(2) (not illustrated in FIG. 2F), 20(3), 20(4) and the case body 100, the top boards are firmly connected to the case body 100, and the gripping boards 21(1) and 20(2) also form a stable handle. When a user would like to carry the packing box 200, the user can let his or her fingers pass through the first and the second holes 23(1) and 23(2) and grasp the gripping boards 21(1) and 21(2).
Moreover, when the product is to be delivered, the packing box is assembled in a manner that the first and the second gripping boards 21(1) and 21(2) are not exposed outside the case body 100 for the convenience of storage or delivery. Such way of assembling the packing box is disclosed below.
Referring to FIGS. 3A˜3C, diagrams of assembling a packing box for delivery according to the fabricating board of FIG. 1 are shown. As indicated in FIG. 3A, when the first and the second top boards 20(1) and 20(2) are respectively folded towards the opening 100A, the first and the second gripping boards 21(1) and 21(2) disposed on the first and the second top board 20(1) and 20(2) are also folded towards the opening 100A. Meanwhile, the second gripping board 21(2) (not illustrated in FIG. 3A) is disposed within the case body 100 below the first top board 20(1), and first gripping board 21(1) is flatly disposed above the top surface of the second top board 20(2).
Next, the third top board 20(3) and the fourth top board 20(4) are folded towards the opening 100A to cover the first and the second top boards 20(1) and 20(2), and all of the third and the fourth plugging boards 26(1)˜26(4) are inserted into the first and the second buttonholes 41(1) and 41(2). Meanwhile, as indicated in FIG. 3B, after the first and the second plugging boards 24(1) and 24(2) are inserted into the first and the second slots 22(1) and 22(2) (the first slot 22(1) is not illustrated in FIG. 3B) and after the first tongues 40(1) is inserted into the third and the fourth slits 27(1), 27(4) (the slit 27(1) and 27(4) are not illustrated in FIG. 3B) and the second tongue 40(2) is inserted into the third and the fourth slits 27(2), 27(3), the top boards 20(3) and 20(4) are fixed onto the case body 100. As the assembled packing box 200 shown in FIG. 3C, the gripping boards 21(1) and 21(2) are not exposed outside the case body.
If a packing box is used for the purpose of delivery, the gripping boards are not exposed outside the case body. As a result, not only the delivery space is reduced, and the transportation volume of a container and the storage capacity of a warehouse are also increased.
The fabricating board 1 of FIG. 1 can be assembled in two different ways to meet the needs of storage, delivery or carrying-by-hand. The design of the fabricating board 1 also has the advantage of saving materials to be used. For example, the first and the second top boards 20(1) and 20(2) substantially have the same first width W1; the gripping boards 21(1) and 21(2) substantially have the same second width W2; the third and the fourth top boards 20(3) and 20(4) substantially have the same third width W3. Preferably, the sum of the first width W1 and the second width W2 is substantially equal to or smaller than the third width W3. The cost for the fabricating board is based on the area formed by the maximum length and the maximum width when the fabricating board is completely expanded. The design of the gripping boards 21(1) and 21(2) of the invention does not increase the entire expanded area of the fabricating board; therefore, there is no increment to the cost of the fabricating board. Compared with the packing box for electric pot disclosed in Taiwanese Patent Publication No. 82210043, the packing box of the invention is further advantaged by material saving of fabricating board.
According to the packing box and fabricating board thereof disclosed in the above embodiment of the invention, the packing box has a case body and a handle which is not exposed outside the case body for saving the space occupied by the portable packing box during storage or delivery. After the product is sold, the handle can be folded to expose outside the case body, so that the user or the consumer can carry the box by the handle. Compared with the conventional packing box having a plastic handle, the fabricating board for being folded to form the packing box is cut from a single sheet, hence dispensing with the use of plastic handle, such that the time and labor required for fixing the handle to the fabricating board are also omitted. Consequently, both the cost and the number of components to be assembled are reduced. The recyclability of the fabricating board makes the packing box more environmental friendly and satisfactory to the market needs.
While the invention has been described by way of example and in terms of a preferred embodiment, it is to be understood that the invention is not limited thereto. On the contrary, it is intended to cover various modifications and similar arrangements and procedures, and the scope of the appended claims therefore should be accorded the broadest interpretation so as to encompass all such modifications and similar arrangements and procedures.
Patent Application
20080023533
