Butt-joining and positioning structure of vertical bar with hook hole

Abstract

A structure includes: two abutted vertical bars having a rectangular tube shape; a plurality of hook hole groups on the side wall thereof; the side walls of the vertical bars are provided with first and second locking through holes, respectively, at the place adjacent to the butt-joining opening thereof; a hook hole group is arranged between one butt-joining opening and the first or second locking through hole; a bidirectional plug-in butt-joining member is assembled between the two butt-joining openings at the opposite ends of the two vertical bars, and the bidirectional plug-in butt-joining member further includes recess portions that are aligned with the hook hole groups arranged on the vertical bar adjacent to the butt-joining opening; and first and second positioning holes arranged on the side wall of the bidirectional plug-in butt-joining member and aligned with the respective locking through holes for locking through the respective locking member.

Claims

1. A storage shelf structure comprising: two vertical bars that abut each other, wherein a first vertical bar from said two vertical bars is on top of a second vertical bar from said two vertical bars; wherein the first vertical bar and the second vertical bar are parallel to each other; wherein each vertical bar is a rectangular hollow tube having four side walls, wherein at least two side walls from said four side walls each have a plurality of hook holes formed therein arranged at intervals; wherein opposite ends of each vertical bar have a butt-joining opening respectively, wherein each of the at least two side walls from said four side walls of each vertical bar have a first locking through hole and a second locking through hole that are spaced apart from the hook holes of each vertical bar respectively; wherein the hook holes of the second vertical bar are arranged between one of the butt-joining openings of the second vertical bar and the second locking through hole or the first locking through hole of the second vertical bar; and a bidirectional plug-in butt-joining member comprising at least three side walls, wherein two side walls from said at least three side walls each have: a first positioning hole, a second positioning hole, and two elongated holes located between the first positioning hole and the second positioning hole, wherein the two elongated holes each have a first height and the hooks holes of the first and second vertical bars each have a second height; wherein the first height is approximately twice the size of the second height; wherein the bidirectional plug-in butt-joining member is inserted within a corresponding butt-joining opening from said butt-joining openings of each of the vertical bars respectively so that a top portion of the bidirectional plug-in butt-joining member is located within the first vertical bar and a bottom portion of the bidirectional plug-in butt-joining member is located within the second vertical bar; wherein the elongated holes of the bidirectional plug-in butt-joining member align with the hook holes of the second vertical bar; the first positioning holes of the bidirectional plug-in butt-joining member align with the first locking through holes of the first vertical bar to receive a first pair of fasteners respectively to secure the first vertical bar to the bidirectional plug-in butt-joining member; and the second positioning holes of the bidirectional plug-in butt-joining member align with the second locking through holes of the second vertical bar to receive a second pair of fasteners respectively to secure the second vertical bar to the bidirectional plug-in butt-joining member; at least one horizontal cross bar, wherein each horizontal cross bar has an end portion comprising a plurality of hooks; wherein the hooks of a first horizontal cross bar from said at least one horizontal cross bar are inserted through the hook holes of a corresponding side wall from said at least two side walls of the second vertical bar and the elongated holes from a corresponding side wall from said two side walls of the bidirectional plug-in butt-joining member to secure the first horizontal cross bar to the second vertical bar in a perpendicular orientation.

2. The storage shelf structure defined in claim 1, wherein a spacer rib is formed between each of two elongated holes respectively, and each of the elongated holes have a vertical orientation.

3. The storage shelf structure defined in claim 2, wherein a cross section of the bidirectional plug-in butt-joining member is U-shaped, rectangular, or C-shaped.

4. The storage shelf structure defined in claim 3, wherein the first positioning holes and the second positioning holes are screw holes, and the first pair of fasteners and the second pair of fasteners are bolts.

5. The storage shelf structure defined in claim 1, wherein a cross section of the bidirectional plug-in butt-joining member is U-shaped, rectangular, or C-shaped.

6. The storage shelf structure defined in claim 5, wherein the first positioning holes and the second positioning holes are screw holes, and the first pair of fasteners and the second pair of fasteners are bolts.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

(1) FIG. 1 is a components combination three-dimensional diagram of a preferred embodiment of the present invention.

(2) FIG. 2 is a components decomposition three-dimensional diagram of a preferred embodiment of the present invention.

(3) FIG. 3 is a longitudinal cross-sectional view of components partial combination of a preferred embodiment of the present invention.

(4) FIG. 4 is a longitudinal cross-sectional view of components combination of a preferred embodiment of the present invention.

(5) FIG. 5 is a transverse cross-sectional view of components combination of a preferred embodiment of the present invention.

(6) FIG. 6 is a first variation of the bidirectional plug-in butt-joining member of the present invention.

(7) FIG. 7 is a second variation of the bidirectional plug-in butt-joining member of the present invention.

(8) FIG. 8 is a third variation of the bidirectional plug-in butt-joining member of the present invention.

(9) FIG. 9 is a fourth variation of the bidirectional plug-in butt-joining member of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

(10) Referring to FIGS. 1 to 5, which are the preferred embodiments of the butt-joining and positioning structure of vertical bar with hook hole of the present invention. However, these embodiments are for illustration purposes only, and are not limited by the patent applications.

(11) The butt-joining and positioning structure of vertical bar with hook hole comprises the following components: two vertical bars 10 that are up-and-down butt-joined and abutted against each other; each vertical bar 10 is a rectangular hollow tube type, and comprises four side walls, wherein at least two side walls are provided with a plurality of hook hole groups 11 up-and-down arranged at intervals; both ends of the vertical bar 10 have a butt-joining opening 12, 12B, respectively, and the side walls of the hook hole group 11 of the vertical bars 10 are provided with a first locking through hole 131 and a second locking through hole 132, respectively, at the place adjacent to each butt-joining opening 12, 12B; a hook hole group 11 is arranged between one of the butt-joining openings 12, 12B and the second locking through hole 132 (or the first locking through hole 131), so that when the butt-joining openings 12, 12B at the opposite ends of the two vertical bars 10 are butt-joined (as shown in FIGS. 4 and 5), the section adjacent to the butt-joining portion between the first locking through hole 131 and the second locking through hole 132 has a configuration of hook hole group 11; a bidirectional plug-in butt-joining member 20 which is a bidirectional plug-in type assembled between the butt-joining openings 12, 12B at the opposite ends of the two vertical bars 10; the cross-sectional shape (which will be described later in detail) of the bidirectional plug-in butt-joining member 20 must be fitted with the butt-joining openings 12, 12B of the vertical bars 10, and the bidirectional plug-in butt-joining member 20 further includes at least two recess portions 21 arranged on at least two side walls of the bidirectional plug-in butt-joining member 20; the at least two recess portions 21 are aligned and communicated with the hook hole groups 11 arranged on the vertical bar 10 adjacent to the butt-joining opening 12B, and the profile of the at least two recess portions 21 must be larger than the profile of the hook hole group 11; at least one first positioning hole 221 arranged on at least one side wall of the bidirectional plug-in butt-joining member 20 and located at one end interval of at least one recess portion 21; the position of each first positioning hole 221 is aligned with its corresponding first locking through hole 131 for locking and positioning through the first locking member 31; at least one second positioning hole 222 arranged on at least one side wall of the bidirectional plug-in butt-joining member 20 and located at the other end interval of at least one recess portion 21; the position of each second positioning hole 222 is aligned with its corresponding second locking through hole 132 for locking and positioning through the second locking member 32.

(12) As shown in FIG. 2, in this embodiment, each recess portion 21 includes two elongated holes 213 that are disposed at intervals on the side walls of the bidirectional plug-in butt-joining member 20. A spacer rib 215 is formed between the two elongated holes 213, and the extending direction of the two elongated holes 213 is parallel to the extending direction of the bidirectional plug-in butt-joining member 20 (Note: In the drawing of this embodiment, the extending directions of both the elongated holes 213 and the bidirectional plug-in butt-joining member 20 are up and down direction). In this embodiment, the spacer rib 215 formed between the two elongated holes 213 can form a flexural reinforcement effect to the structure of bidirectional plug-in butt-joining member 20.

(13) With the structural pattern and technical features of the above structure, the practical applications of the butt-joining and positioning structure of vertical bar with hook hole disclosed in the present invention are shown in FIGS. 1 to 5. The two vertical bars 10 are abutted against each other with the butt-joining openings 12, 12B, and the bidirectional plug-in butt-joining member 20 in a bidirectional plug-in configuration is inserted into the butt-joining openings 12, 12B at the opposite ends of the two vertical bars 10, wherein the recess portion 21 of the bidirectional plug-in butt-joining member 20 and the hook hole group 11 of the vertical bar 10 at close to the butt-joining opening 12B are aligned with each other. The first positioning hole 221 of the bidirectional plug-in butt-joining member 20 and the first locking through hole 131 of the vertical bar 10 are aligned, and locked and positioned through the first locking member 31. The second positioning hole 222 of the bidirectional plug-in butt-joining member 20 and the second locking through hole 132 of the vertical bar 10 are aligned, and locked and positioned through the second locking member 32. Under the state that the ends of the two vertical bars 10 achieves butt-joining and positioning, the hook hole group 11 of the vertical bar 10 at close to the butt-joining opening 12B can be provided for the alignment with the hook group 41 at the end portion of the cross bar 40 to achieve positioning state, and, through the technical feature of the recess portion 21 of the bidirectional plug-in butt-joining member 20 aligned with the hook hole group 11 of the vertical bar 10, the aforementioned hook group 41 can successfully achieve hooking function, so that the butt-joining sections at the end portions of the two vertical bars 10 can be provided for the hooking and combining function for the end portions of the cross bars 40 to meet the multiple and flexible requirements of the storage shelf structure.

(14) The cross section of the bidirectional plug-in butt-joining member can be any shape of U-shaped, hollow rectangular, C-shaped with a notch 23, and II-shaped. Specifically, the cross section of the bidirectional plug-in butt-joining member 20, as shown in FIGS. 2 and 5, is U shape, and has three sidewalls that are formed by continuously bending orthogonally at 90 degrees and the other side is an open side. The recess portions 21 may be a type provided on the opposite side walls. It may also be a bidirectional plug-in butt-joining member 20B, as shown in FIG. 6, wherein the recess portions 21 are disposed on the three side walls. The cross section of the bidirectional plug-in butt-joining member 20C shown in FIG. 7 is a hollow rectangular shape and has enclosed four side walls. The hollow rectangular shape includes specific shape of a square or a rectangle. In this embodiment, the advantage is that the recess portion 21 can be arranged on all four side walls, and the expandability of the shelf body is the best. However, in such a hollow rectangular shape, the recess portion 21 can also be arranged on two or three side walls. In addition, the cross section of the bidirectional plug-in butt-joining member 20D, as shown in FIG. 8, is in C shape with a notch 23 forming on one side, which is also a practical implementation type. Compared to the U-shaped cross section, this embodiment has better rigidity.

(15) As shown in FIGS. 2 and 3, in this embodiment, the first positioning hole 221 and the second positioning hole 222 are screw holes, and the first locking member 31 and the second locking member 32 are configured as bolts.

(16) As shown in FIG. 9, in this embodiment, each recess portion 21B of the bidirectional plug-in butt-joining member 20E is so constructed that the corresponding side wall is configured as an inwardly concave type. Moreover, the cross section of the bidirectional plug-in butt-joining member 20E disclosed in this embodiment is II-shaped, and this type of configuration may be constructed from aluminum extruded material. It is worth mentioning that in this embodiment, the recess portion 21B and the first positioning hole 221 together with the second positioning hole 222 are respectively arranged on different side walls of the bidirectional plug-in butt-joining member 20E, which is also a practical implementation type.

(17) Furthermore, as shown in FIGS. 2 and 3, the butt-joining position of the butt-joining openings 12, 12B at the opposite ends of the two vertical bars 10 corresponds to the position between one end of the recess portion 21 provided on the bidirectional plug-in butt-joining member 20 and the first positioning hole 221 (or the second positioning hole 222).

(18) It is additionally noted that the first positioning holes 221 and the second positioning holes 222 shown in the drawing of the embodiment are respectively arranged on the two opposite side walls, so that the first locking members 31 and the second locking members 32 are two sets of pair locking type. However, if the vertical bar 10 and the bidirectional plug-in butt-joining member 20 are made of metal materials, only a single lateral locking with the first locking member 31 and the second locking member 32 is sufficient to achieve a firm state. Therefore, it suffices to set at least one first positioning hole 221 and at least one second positioning hole 222.