Disk Containing Box Structure

Abstract

A disk containing box structure includes a container body and a cover. The container body has a containing space, and a first axle portion on a side of an opening of the containing space. The cover has a second axle portion corresponding to the first axle portion, so that the cover can be lifted or closed onto the container body by combining the first axle portion and the second axle portion. The bottom of the container body includes at least one lower support body having a first embedding portion. The cover includes an upper support body having a second embedding portion matched with the first embedding portion. The second embedding portion of the upper support body is connected to the first embedding portion of the adjacent disk containing box structure and stacked to form a structure for securely stacking the disk containing box structures for the storage of optical disks.

Description

FIELD OF THE INVENTION

The present invention relates to a disk containing box structure, and more particularly to a disk containing box structure for storing information recording media.

BACKGROUND OF THE INVENTION

As digital information technology advances rapidly, the demand for a capacity of storage media for storing huge data becomes increasingly higher. At present, common storage media include floppy and hard disks (such as floppy disks, optical disks, memory cards and flash disks, etc), and optical disks such as laser discs (LD) and read-only or recordable compact disks (in the formats of CD, VCD and DVD, etc) are used extensively, particularly the recordable optical disk (hereinafter referred to as “Optical disk”), and users can use an optical disk for storing a large quantity of data. As optical disks become increasingly popular, its demand is increased drastically. Most optical disks available in the market are sold in a package of a fixed quantity (such as 50 pieces or 100 pieces per pack), and the commonest structure of the package is a cylindrical packaging box.

A common cylindrical CD containing box as disclosed Referring to R.O.C. Pat. Publication No. 510,354 entitled “Improved optical disk container structure” includes a base and a hood, and the base is provided for carrying a plurality of optical disks stacked with each other, and the hood is provided for covering the base to protect the plurality of stacked optical disk, and the base has two to three hooking flanges protruded and extended upward from the top of the periphery of the base, and the ventral sides of all hooking flanges are arranged in the same direction (either clockwise or counter-clockwise), and each hooking flange has an embedding groove, and its top side serves as a retaining distal surface stacked on the bottom of the optical disk, and the middle of the retaining distal surface has a positioning through hole for inserting a positioning shaft positioning to connect the central holes of the plurality of optical disks, the hood is a hollow tubular body corresponding to a plurality of optical disks stacked in the axial direction, and a plurality of embedding flanges are extended horizontally outward and downward from the periphery of an opening at the bottom of the hood, and latched with the embedding groove of the flange coupled to the top of the periphery of the base by rotating in clockwise or counterclockwise direction to protect, store and position the plurality of stacked optical disks.

Since the aforementioned conventional cylindrical packaging box has the function of stacking a plurality of optical disks only, but has no other use, the access or placing of the disk can be done in a single direction, although the cylindrical packaging box can hold a large quantity of optical disk. In other words, a user has to remove the optical disk at the top of the stack before taking out the optical disk down below. After taking out the desired optical disk, the user has to put all optical disks back into the packaging box. Obviously, such application is very inconvenient, and thus users usually discard the cylindrical packaging box after they purchase the plurality of optical disks with such package, and purchase another rack for storing the optical disks. The conventional cylindrical packaging box has the disadvantages of lacking of reusability, wasting natural resources for processing the discarded packaging boxes, incurring an extra cost for purchasing another optical disk storage box or rack, and causing troubles to users.

On the other hand, the optical disk racks available in the market are empty rack used for storing burned optical disks, but they are not designed or used as a containing box of optical disks that are packed for shipments, due to its high cost. Therefore, the selling price of the optical disks will become higher. Furthermore, the conventional cylindrical packaging box comes with a body in the shape of a barrel for saving storage spaces when many boxes are stacked on top of one another. As a result, the boxes may fall when they are stacked too high, and thus the boxes are placed transversally next to each other and occupy much space.

From the description above, the major drawback of the conventional cylindrical packaging box resides on its lack of reusability, and the packaging boxes of this short requires improvements to overcome the following issues:

1. The cylindrical packaging box stores optical disks by stacking them, and thus users cannot pick and select a disk down below unless they remove the one on the top first. Such packaging box is lack of convenience for accessing optical disks, and its application is very inconvenient.

2. Since the cylindrical packaging box is lack of reusability and cannot be used for other purposes, and it is not convenient for storing a plurality of cylindrical package boxes, the packaging boxes are usually discarded and cause a waste of natural resources.

SUMMARY OF THE INVENTION

In view of the foregoing shortcomings of the prior art, the primary objective of the present invention is to provide a containing box structure that facilitates storing or picking an optical disk, and the containing box structure is convenient to carry and easy to stack and store.

The invention provides a disk containing box structure provided for containing optical disks, and the containing box structure comprises a container body and a cover, wherein both sides of the container body have sidewalls and a containing space disposed transversally at the internal periphery of the container body, and a side of an opening of the containing space has a first axle portion, and the cover has a second axle portion corresponding to the first axle portion, such that the cover can be lift open or covered onto the container body by combining the first axle portion and the second axle portion. The surface at the bottom of the container body has at least one lower support body for securely erecting the container body, and the lower support body has a first embedding portion, and the cover has an upper support body, and the upper support body has a second embedding portion matched with the first embedding portion, such that the second embedding portion of the upper support body and the first embedding portion of the adjacent disk containing box structure are coupled and stacked securely to define a structure for securely stacking a plurality of disk containing box structures that store optical disks, and the disk containing box structure has an easy-to-open feature for selecting or accessing an optical disk.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an exploded view of a disk containing box structure in accordance with the present invention;

FIG. 2 is a perspective view of a disk containing box structure in accordance with the present invention;

FIG. 3 is another perspective view of a disk containing box structure in accordance with the present invention;

FIG. 4 is sectional view of a disk containing box structure perspective view of a disk containing box structure in accordance with the present invention; and

FIG. 5 is a schematic view of stacking the disk containing box structures in accordance with the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The technical contents of the present invention will now be described in more detail hereinafter with reference to the accompanying drawings that show various embodiments of the invention.

Referring to FIGS. 1 to 3, FIG. 1 is an exploded view of a disk containing box structure 1, and FIGS. 2 and 3 are perspective views of the disk containing box structure 1 viewing from different angles. The disk containing box structure 1 comprises a container body 2 and a cover 3, and both sides of the container body 2 have sidewalls and its internal periphery forms a transversally disposed containing space 20, and the internal periphery of the containing space 20 is substantially in an arc shape for containing a plurality of optical disks, and a side of an opening of the containing space 20 has a first axle portion 21, and a first latch portion 24 disposed on another side corresponding to the first axle portion 21, and a surface at the bottom of the container body 2 has at least one lower support body 23 for securely erecting the container body 2, and the container body 2 has at least one rib 22 for reinforcing its structure, and the rib 22 is installed in the containing space 20 for partitioning the containing space 20, and facilitating and supporting the optical disks to be erected in the containing space 20. The cover 3 has a second axle portion 31 corresponding to the first axle portion 21 (as shown in FIG. 3), and the container body 2 and the cover 3 are combined by the first axle portion 21 and the second axle portion 31, such that the first axle portion 21 and the second axle portion 31 are rotated correspondingly to lift or cover the cover 3 onto the container body 2. The cover 3 has a second latch portion 34 corresponding to the first latch portion 24, such that when the second latch portion 34 are latched with the first latch portion 24 to cover the cover 3 to fix with the container body 2, the cover 3 can be locked with the container body 2 to seal the containing space 20. Further, the lower support body 23 of the container body 2 has a first embedding portion 231, and the cover 3 has at least one upper support body 33 disposed at a position corresponding to the lower support body 23, and the upper support body 33 has a second embedding portion 331 matched with the first embedding portion 231, and the lower support body 23 of another disk containing box structure 1 can be stacked onto the upper support body 33, so that the two disk containing box structures 1 can be stacked for storage. The second embedding portion 331 of the upper support body 33 is connected to the first embedding portion 231 of the adjacent disk containing box structure 1 for a secured stacking. To facilitate the carrying, the cover 3 has a handle 32, wherein the handle 32 can be a flexible long-strip component, and both ends of the handle 32 have a hook portion 321 connected to the upper support body 33 of the cover 3, and the upper support body 33 has a through hole 332 and reserves a space for embedding the hook portion 321 of the handle 32, and the hook portion 321 is limited in the upper support body 33, such that users can hold the handle 32 to lift the disk containing box structure 1. In FIGS. 3 and 4, the handle 32 is passed into the upper support body 33 and both ends of the handle 32 are fixed into the upper support body 33, and the first embedding portion 231 of the lower support body 23 can be a groove, and the second embedding portion 331 of the upper support body 33 of the cover 3 is composed of one or more protruded members engaged with the groove for stacking a plurality of disk containing box structures 1 and preventing them from sliding (as shown in FIG. 5) .

With the foregoing structure, users can place optical disks neatly into the containing space 20, and the optical disks are erected in the containing space 20 by a support of the rib 22, so that users can lift open or close the cover 3 easily, and latch the first latch portion 24 with the second latch portion 34 to seal the containing space 20 for the storage of the optical disks. Further, the handle 32 allows user to carry the disk containing box structure 1 easily, and the upper and lower support bodies 33, 23 of the disk containing box structure 1 can be stacked for an easily storage of the optical disk containing boxes.

In summation of the above description, the present invention herein enhances the performance over the conventional structure and further complies with the patent application requirements and is duly filed for patent application.

While the invention has been described by means of specific embodiments, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope and spirit of the invention set forth in the claims.

Claims

1. A disk containing box structure, for containing optical disks, and the containing box structure comprising:

a container body, having sidewalls disposed on both sides of the container body, and a containing space defined at the internal periphery of the container body, and an opening of the containing space having a first axle portion, and a surface at the bottom of the container body having at least one lower support body for securely erecting the container body, and the lower support body having a first embedding portion;

a cover, having a second axle portion corresponding to the first axle portion, such that the cover can be lifted or covered onto the container body by combining the first axle portion and the second axle portion, and the cover having at least one upper support body for stacking another the disk containing box structure onto the upper support body, and the upper support body having a second embedding portion matched with the first embedding portion, such that the second embedding portion of the upper support body is engaged with the first embedding portion of the adjacent disk containing box structure for a secured stacking.

2. The disk containing box structure of claim 1, wherein the containing space includes a first latch portion disposed at an opening of the containing space and corresponding to another side of the first axle portion, and the cover includes a second latch portion corresponding to the first latch portion, such that the second latch portion and the first latch portion are latched to close the cover and fix the container body.

3. The disk containing box structure of claim 1, wherein the container body includes at least one rib installed therein for reinforcing the structure.

4. The disk containing box structure of claim 3, wherein the rib is installed in the containing space for partitioning the containing space.

5. The disk containing box structure of claim 1, wherein the cover includes a handle installed thereon.

6. The disk containing box structure of claim 5, wherein the handle comes with two ends, each having a hook portion coupled to the upper support body of the cover.

7. The disk containing box structure of claim 1, wherein the containing space is disposed transversally.