Patent Application
20180160785
The present invention relates to a luggage, and more particularly to a hard-shell luggage with a combination of shells and ring frames.
Typically, luggages are classified into hard-shell luggages and soft-shell luggages. The hard-shell luggages have high capacity of anti-deformation. In other words, the hard-shell luggages could take larger impact than the soft-shell luggages to protect goods stored therein.
U.S. Pat. No. 9,380,845 disclosed a luggage with a hard-shell case. The case has a design panel, and has a rim portion. This patent fails to disclose how the case is connected to the rim.
U.S. Pat. No. 6,050,373 disclosed a luggage having two pivoted frames and two shells are mounted in the frames respectively. This patent fails to disclose any mechanism to stop the shells.
US 2016/0166024 disclosed a luggage having a shell consisting of a frame and a panel. The panel is connected to the frame via fasteners. This patent still fails to disclose any mechanism to stop the shells. Besides, the fasteners are parallel to the panel, so that the fasteners couldn't stop the shells.
In view of the above, the primary objective of the present invention is to provide a hard-shell luggage, which has great connection strength of the shells and the ring frames to reduce the risk of a shift of the shell when the luggage is impacted.
In order to achieve the objective of the present invention, a hard-shell luggage includes a first shell having a first panel and a first ring frame connected to the first panel; a second shell having a second panel and a second ring frame connected to the second panel, wherein the first shell is connected to the second shell to form a storage space therein; a first stop mechanism connected to the first ring frame to be abutted against an edge of the first panel to stop a movement toward the storage space of the first panel; and a second stop mechanism connected to the second ring frame to be abutted against an edge of the second panel to stop a movement toward the storage space of the second panel.
In an embodiment, the first and the second stop mechanisms each has an annular rib formed on an inner side of the first and the second ring frames respectively. The annular ribs extend toward the storage space respectively.
The present invention will be best understood by referring to the following detailed description of some illustrative embodiments in conjunction with the accompanying drawings, in which
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The first stop mechanism 24 is connected to the first ring frame 14 to stop the first panel to move inwards. The first stop mechanism 24 is an annular rib formed on an inner side of the first ring frame 14. The first stop mechanism 24 extends toward the storage space 70. The first stop mechanism 24 is abutted against an edge 26 of the first curved plate portion 16 of the first shell 12 when the first panel 12 is connected to the first ring frame 14.
The first panel 12 has a first shoulder portion 28 at the outer side thereof. An edge 30 of the first curved frame portion 18 is abutted against the first shoulder portion 28 when the first curved frame portion 18 is attached to the first curved plate portion 16.
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The second panel 42 has a second curved plate portion 46 at a margin thereof, and the second ring frame 44 has a second curved frame portion 48 at an edge thereof. The second curved frame portion 48 of the second ring frame 44 is attached to the second curved plate portion 46 of the second panel 42, with portions overlapped, to connect the second panel 42 to the second ring frame 44.
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The second stop mechanism 54 is connected to the second ring frame 44 to stop the second panel to move inwards. The second stop mechanism 54 is an annular rib formed on an inner side of the second ring frame 44. The second stop mechanism 54 extends toward the storage space 70. The second stop mechanism 54 is abutted against an edge 56 of the second curved plate portion 46 of the second shell 42 when the second panel 42 is connected to the second ring frame 44.
The second panel 42 has a second shoulder portion 58 at the outer side thereof. An edge 60 of the second curved frame portion 48 is abutted against the second shoulder portion 58 when the second curved frame portion 48 is attached to the second curved plate portion 46.
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The first decorating piece 22 engages the first connecting portion 20 of the first ring frame 14, and the second decorating piece 52 engages the second connecting portion 50 of the second ring frame 44. Therefore, widths of the first and the second ring frames 14, 44 are enlarged, and the structure strength of the luggage is increased. The first decorating piece 22 could have the same color and material as the first panel 12, and the second decorating piece 52 could have the same color and material as the second panel 42 as well, as a result, the entire luggage has a single color and material.
The first and the second shoulder portions 28, 58 are abutted against the edges 30, 60 of the first and the second curved frame portions 18, 48 respectively. It could make the luggage have an even aspect.
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The same as above, a second plate 78 is provided beside the second panel 42. The second plate 78 and the second panel 42 are connected to the second ring frame 44. The edge 56 of the second curved plate portion 46 of the second panel 42 presses the second plate 78 to be abutted against the second stop mechanism 54.
In conclusion, the first and the second stop mechanism 24, 54 may stop the possible movement of the first plate 76 and the first panel 12 as well as the possible movement of the second plate 78 and the second panel 42 respectively.
It must be pointed out that the embodiments described above are only some preferred embodiments of the present invention. All equivalent structures which employ the concepts disclosed in this specification and the appended claims should fall within the scope of the present invention.
