Container Sidewall and Roof Connector
Disclosed is a connector between sidewalls, or the top rails of the sidewalls, and roof panels. The connector includes a downwardly oriented pocket adapted to receive a portion of the sidewall and an inwardly oriented pocket adapted to receive a portion of a roof panel. The connector also includes a base flange that is comparatively sized to, and adapted to be supported by, a roof bow support ledge of the sidewall. The inwardly oriented pocket is located directly above, and offset from, the base flange of the connector. Connectors, such as adhesives or rivets, may be utilized to secure the connector to the sidewall and to secure the connector to the roof panel.
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The present invention relates to a connector between a container sidewall and a container roof. The present invention may be employed in any container structure and is particularly suited for use in an over-the-road trailer.
BACKGROUND OF THE INVENTIONFIG. 1, from U.S. Pat. No. 8,177,289 by Haire, illustrates an example of a container sidewall/roof connection employing a traditional connection between a roof and sidewalls. In the illustrated example, a top rail 100 and roof 105 are of similar materials. Sidewalls and rooves for over-the-road trailers are commonly made from aluminum due to its strength, light weight, and corrosion resistance. By using materials of similar strengths and characteristics (expansion, electrode potentials, etc.) for the roof and sidewalls, the two structures may be joined simply by fastening the two structures directly together through adhesives and/or rivets. In the Haire reference, a rivet 110 and a “J”-shaped piece of metal 115 hold the roof 105 in place against the top lip 120 of the top rail 100.
FIG. 2, also from U.S. Pat. No. 8,177,289 by Haire, shows another example of a traditional roof sidewall connection. The connection shown in FIG. 2 includes a top rail 100 secured to a roof 105 via a rivet 110 and J-channel 115 (or J-shaped piece of metal). The example shown in FIG. 2 also includes a roof bow support ledge 125 adapted to receive support members, such as roof bow supports that are used to support the roof 105.
Additional examples of traditional connections between container roofs and sidewalls may be found in FIGS. 2 and 3 of U.S. Pat. No. 3,192,377 and FIG. 2 of U.S. Pat. No. 3,196,267, both by Abolins.
Although the Haire and Abolins connections are acceptable when similar materials are used for both the top rail/sidewall and the roof, when dissimilar materials are used for the roof and sidewall of a container, there exists a need for a specialized connection between the roof and sidewall of the container.
SUMMARY OF THE INVENTIONIn accordance with the preferred embodiments of the present invention, some of the issues associated with sidewalls and container roofs of different construction materials are overcome. A connector of composite roofs and sidewalls is presented.
The improved container includes a sidewall having a vertically oriented panel extending from about the bottom of the container to about the top of the container. At about the top of the sidewall, a horizontal panel extends inward towards the storage area of the container. A vertical section extends upward from the innermost portion of the horizontal panel, and a first flange extends further inward from the middle portion of the vertical section. At the top of the vertical section, a second flange extends outwardly parallel to the first flange. The horizontal panel, vertical section, and second flange generally form a U-shape.
The composite connector has a central wall that generally abuts the vertical section of the top rail. At the bottom-most portion of the vertical section of the composite connector, a bottom flange extends inwardly that abuts a first flange of the top rail. A center flange extends inwardly from the central wall of the composite connector, wherein the center flange extends parallel to the first flange and is spaced a distance from the first flange. Above the second flange is an area of the central wall adapted to receive a composite roof panel. At the top of the central wall of the composite connector, a top plate extends perpendicular to the vertical section. The innermost portion top plate, the center flange, and an upper portion of the central wall section form a C-shape that is adapted to receive a composite roof panel. At the outermost section of the top plate is a downward flange that is adjacent to the outermost portion of the second flange of the sidewall. The downward flange of the top plate generally acts to prevent inward movement of the composite connector relative to the sidewall.
In one embodiment, the composite roof panel includes a top sheet that has an outermost portion adjacent to the innermost portion of the horizontal portion of the composite connector. The composite roof panel also has a bottom sheet with an outermost portion abutting the second flange of the vertical section of the composite connector. The top and bottom sheets are preferably aluminum or steel, although other metals may also be used to create the composite panels. Although composite panels are preferable due to their high strength-to-weight ratio, solid panels may also be used and would be within the scope of the present invention.
The present invention may be used in association with any container structure having a sidewall and a roof. However, for the purposes of this application, the invention will be primarily described in association with an over-the-road trailer.
In the illustrated example, the first direction 101 is referred to as the upward direction, the second direction 102 is referred to as the inward direction, the third direction 103 is referred to as the downward direction, and the fourth direction 104 is referred to as the outward direction. These directions generally refer to the orientation of a structure relative to the center of a cargo container. The terms “downward” or “below” are herein defined to refer to the general direction toward the far end of the sidewall from the sidewall-roof connector. In the instance of a container with vertical sidewalls and a roof located above the sidewalls relative to the earth (i.e., standard orientation), the terms “downward” and “below” will have the same meaning as their plain and ordinary meanings. However, if the container tips over (or is upside down) so that the roof is not above the sidewall from a global perspective, the sidewall is still downward from the sidewall-roof connector as used herein.
The terms “upward” and “above” refer to the opposite direction as “downward” and “below.” The term “vertically oriented” refers to the orientation of something extending “upward” or “downward.” The term “inward” is defined refer to the general direction toward the far end of the roof panel from the sidewall-roof connector, and “outward” is defined to be the opposite direction as “inward.” The term “horizontally oriented” refers to the orientation of something extending “inwardly” or “outwardly.”
The roof panel 195 shown in
As highlighted in
The downward protrusion 220, the outward portion 231 of the flat top 215, and the central portion 225 form a downwardly opening pocket adapted to receive the outer flange 185 of the top rail. The spacing of the central portion 225 from the downward protrusion 220 is such that the outer flange 185 may easily be placed between the central portion 225 and the downward protrusion 220 while limiting inward and outward movement of the sidewall-roof connector 210 relative to the top rail 130. In one embodiment, the separation of the downward protrusion 220 and the central portion 225 is just 1/20th of an inch more than the width of the outer flange 185 of the top rail 130.
The flat top 215 of the sidewall-roof connector 210 includes an inward portion 230 that is located adjacent to a portion of the upper outer skin 205 of the roof panel 195. Extending inward from the central portion 225 is a central flange 235 that is located adjacent to a portion of the lower outer skin 205 of the roof panel 195. The inward portion 230 and the central flange 235 inwardly extend parallel to each other and are separated from each other by approximately the width of the roof panel 195. The inward portion 230, the central flange 235, and an upper part of the central portion 225 together form an inwardly opening pocket that is dimensioned to receive and hold an end of the roof panel 195. In the illustrated example, the length of the central flange 235 is less than the length of the inward portion 230, but other embodiments of the invention may include central flanges that have an equal, or greater, length than the inward portion 230.
At the bottom of the central portion 225, a base flange 240 inwardly extends parallel and adjacent to the inner flange 175 of the top rail 130. In the illustrated example, the length of the base flange 240 is approximately equal to the length of the inner flange 175. The base flange 240 extends from the central portion 225 parallel to both the central flange 235 and the inward portion 230 of the top plate 215.
In an exemplary embodiment, the sidewall-roof connector is constructed from aluminum, but the connector may also be made from other materials such as fiber glass, carbon fiber, or stainless steel, or the connector may have a composite construction like the roof panel. In the illustrated examples, the sidewall-roof connector is shown as a single structure with a unitary construction. However, in alternate embodiments of the invention, the sidewall-connector may be constructed from multiple pieces. For example, in one embodiment, the flat top and central portion (or central wall) of the connector are separable pieces that are held together via fasteners. In yet another embodiment of the invention, the central flange is separable from the central portion and is secured via fasteners. The central portion includes apertures at a plurality of elevations for receiving the fasteners such that the pocket (formed by the central flange, inward portion, and upper part of the central portion) may be adjusted to receive roof panels of a plurality of thicknesses.
The ends 260 of the downward protrusion 220, inward portion 230, central flange 235, and base flange 260 are shown in
In the illustrated example, the length 315 of the base flange 240 is more than the length 295 of the outward portion 231, which is more than the length 290 of the inward portion 230 that is approximately equal to the height of the central portion 225. In the exemplary embodiment shown in
The dimensions disclosed in relation to
It should be understood that the structures, processes, methods, and systems described herein are not related or limited to any particular type components unless indicated otherwise. The specific features of the exemplary embodiments may be incorporated into other embodiments. For example, the locking dimples shown in
Claims
1. A connector for joining a sidewall to a roof panel, the connector comprising:
- a central wall perpendicularly intersecting with a top panel;
- the top panel having an inner portion located inward of the central wall, an outer portion located outward of the central wall, and a downward flange extending from the outer portion of the top panel;
- a bottom flange inwardly extending parallel to the top panel from the central wall below the outer portion of the top panel;
- a central panel extending parallel to both the inner portion of the top panel and the bottom flange, the central panel located directly between the inner portion of the top panel and the bottom flange;
- wherein
- the downward flange, outer portion of the top panel, and the central wall form a downwardly opening pocket adapted to receive a portion of the sidewall; and
- the central panel, the central wall, and the inner portion of the top panel form an inwardly opening pocket adapted to receive a portion of the roof panel.
2. The connector of claim 1 wherein
- The central panel extends directly from the central wall.
3. The connector of claim 1 wherein
- the inwardly opening pocket includes a first corner at the intersection of the central wall and the inner portion of the top panel;
- the first corner has a concave surface directly adjacent to a convex surface; and
- the first corner is adapted to receive an outer skin of the roof panel.
4. The connector of claim 1 wherein
- the base bottom flange inwardly extends a first distance from the central wall;
- the outer portion of the top panel outwardly extends a second distance from the central wall;
- the inner portion of the top panel inwardly extends a third distance from the central wall;
- the third distance is less than the second distance; and
- the second distance is less than the first distance.
5. The connector of claim 1 wherein
- the downwardly opening pocket has a first depth and a first width;
- the inwardly opening pocket has a second depth and a second width;
- the second depth is at least twice the first depth; and
- the first width is at least twice the second width.
6. The connector of claim 1 wherein
- the central panel inwardly extends a first distance from the central wall;
- the inner portion of the top panel inwardly extends a second distance from the central wall; and
- the second distance is at least twice the first distance.
7. The connector of claim 1 wherein
- the bottom flange, the central wall, and the central flange form a third pocket that opens inwardly below the inwardly opening pocket; and
- the third pocket is adapted to receive a roof bow to support the roof panel.
8. The connector of claim 1 further comprising
- a bonding agent secured to a bottom side of the inner portion of the top panel for securing the roof panel within the inwardly opening pocket.
9. A sidewall-roof construction of a container comprising:
- a roof panel;
- a sidewall having a vertically oriented portion, a top flange outwardly extending from the top of the vertically oriented portion, a lower flange inwardly extending from the vertically oriented portion, and the lower flange located below the top flange;
- a connector having a central wall perpendicularly intersecting with a top panel, the top panel having an inner portion located inward of the central wall and an outer portion located outward of the central wall, and a bottom flange extending inwardly from the central wall adjacent to the lower flange of the sidewall;
- wherein
- the outer portion of the top panel and the central wall form a downwardly opening pocket receiving the top flange of the sidewall; and
- the top flange of the central wall and the inner portion of the top panel form an inwardly opening pocket receiving the roof panel.
10. The sidewall-roof construction of claim 9 further comprising
- the connector having a a central panel inwardly extending parallel to the inner portion of the top panel, and a downward flange extending from the outermost part of outer portion of the top panel;
- wherein
- the central panel partially defines the inwardly opening pocket, and
- the downward flange partially defines the downwardly opening pocket.
11. The sidewall-roof construction of claim 9 wherein
- the lower flange of the sidewall inwardly extends the full length of the bottom flange of the connector.
12. The sidewall-roof construction of claim 9 wherein
- the sidewall includes a horizontal top outwardly extending from the bottom of the vertically oriented portion; and
- the outermost portion of the top panel is inward of the outermost portion of the horizontal top.
13. The sidewall-roof construction of claim 9 wherein
- the bottom flange of the connector is secured to the lower flange of the sidewall via at least one of a double-sided adhesive tape, caulk, epoxy resin, and a rivet.
14. The sidewall-roof construction of claim 9 wherein
- the connector is a unitary piece of metal separate from the sidewall.
15. The sidewall-roof construction of claim 9 further comprising
- the connector having a a central panel inwardly extending parallel to the inner portion of the top panel;
- wherein
- the roof panel is a composite panel with an upper metal skin, a lower metal skin, and a non-metallic inner core;
- the outermost portion of the upper metal skin is directly adjacent to the inner portion of the top panel; and
- the outermost portion of the lower skin is directly adjacent to the central panel.
16. The sidewall-roof construction of claim 15 wherein
- the inwardly opening pocket has a first corner with a nook at the intersection of the central wall and the inner portion of the top panel; and
- a portion of the upper metal skin of the roof panel is located within the nook.
17. The sidewall-roof construction of claim 9 wherein
- the bottom flange inwardly extends a first distance from the central wall;
- the outer portion of the top panel outwardly extends a second distance from the central wall;
- the inner portion of the top panel inwardly extends a third distance from the central wall;
- the third distance is less than the second distance; and
- the second distance is less than the first distance.
18. The sidewall-roof construction of claim 9 wherein
- the downwardly opening pocket has a first depth and a first width;
- the inwardly opening pocket has a second depth and a second width;
- the second depth is at least twice the first depth; and
- the first width is at least twice the second width.
19. The sidewall-roof construction of claim 9 further comprising
- a bonding agent secured to both
- a bottom side of the inner portion of the top panel and
- an upper metal skin of the roof panel.
20. The sidewall-roof construction of claim 9 wherein
- the vertically oriented portion, the top flange, and the lower flange are formed as unitary metal top rail of the sidewall.
Type: Application
Filed: Jan 28, 2021
Publication Date: Jul 28, 2022
Applicant: Vanguard National Trailer Corporation (Monon, IN)
Inventor: Mark Roush (Lafayette, IN)
Application Number: 17/160,667