None.
Not Applicable
1. Field of the Invention
The present invention relates generally to the construction and assembly of temporary shelters such as frame tent systems, and more particularly relates to a structural support assembly used in the erection and support of the tent system.
2. Brief Description of Prior Art
Conventional tent systems, canopy frame structures, canvas shelters and the like of a readily assemblable and disassemblable nature such as utilized in the rental trade are commonly made up of cylindrical tubing and various types of junction elements or connectors. To assemble a given desired structure, it is conventional to join upright columns, eave members, and rafters with various types of junction elements or connectors. Fabric is then installed over the frame to enclose the tent structure.
The prior art in the field of tents and temporary shelters yields a variety of tent frame assemblies suitable for use in widely different situations. The circumstances of intended use largely determine the structural features to be included in or eliminated from the tent design. For example, tents employed by backpackers, should be of simple construction, preferably having lightweight components which may be connected without the need for tools or complicated hardware. In contrast to the foregoing, tents to be used at carnivals or exhibits are exposed to greater stresses over a longer period of time, but must nonetheless provide a stable shelter over a large area. Accordingly, frames for these tents generally feature heavier rigid columns linked together with eave members by reinforced connecting means. In the past, the assembly procedure for larger structures has been complicated and time-consuming.
There is a demand for a frame tent system that provides maximum shelter at a minimum weight, and further provides for simpler and quicker tent installation.
As will be seen from the subsequent description, the preferred embodiments of the present invention are improvements over existing structure support assemblies such as used in canvas shelters.
The principal feature and advantage of the present invention is an eave weldment of unique design for assembly and disassembly with the upright columns, eave members and rafters in forming the frame tent system. The columns, eave members and rafters include extruded channels for inter-connecting with the designed eave weldments. The system is designed and configured with a maximized strength-to-weight ratio and can be readily fabricated by extrusion from high strength aluminum alloy or the like.
In accordance with the present invention, a structural support assembly is disclosed. The structural support assembly is directed to an improved structural support assembly designed and configured with a maximized strength-to-weight ratio that can be readily fabricated by extrusion from high strength aluminum alloy or the like, and provides for simpler and quicker tent installation. In particular, the present invention is an eave weldment of unique design for assembly and disassembly with the upright columns, eave members and rafters and forming the frame tent system. In the broadest context, the structural support assembly consists of components configured and correlated with respect to each other so as to attain the desired objective.
First referring to
Referring to the drawings, and in particular
As shown in
The weldment plate 20 can be steel plate having a thickness of ⅝ inch for example and having a generally L-shaped configuration comprising the first end 40 and the second end 60. In the preferred embodiment, the ends 40, 60 each having a pair of bushings 22A, 22B and a pair of spacers 24A, 24B projecting therefrom. As shown in
In particular, the first end 40 having one of the pair of bushings 22A projecting from a first side 42 of the end 40, and the second of the pair of bushings 22B projecting from a second side 44 of the end 40, such that the bushing 22A is serially aligned with bushing 22B. It being critical that the bushings 22A, 22B be disposed at a location 21A along the length of the first end 40, that location 21A at the approximate midway of the length of the first end 40. Likewise, the first end 40 having one of the pair of spacers 24A projecting from the first side 42 of the end 40, and the second of the pair of spacers 24B projecting from the second side 44 of the first end 40, such that the spacer 24A is serially aligned with spacer 24B. It being critical that the spacers 24A, 24B be disposed at a location 21B of the first end 40, that location 21B being at an approximate end 45 of the first end 40.
The second end 60 having one of the pair of bushings 22A projecting from a first side 62 of the end 60, and the second of the pair of bushings 22B projecting from a second side 64 of the end 60, such that the bushing 22A is serially aligned with bushing 22B. It being critical that the bushings 22A, 22B disposed at a location 61A along the length of the second end 60, that location 61A at the approximate midway of the length of the second end 60. Likewise, the second end 60 having one of the pair of spacers 24A projecting from the first side 62 of the end 60, and the second of the pair of spacers 24B projecting from the second side 64 of the end 60, such that the spacer 24A is serially aligned with spacer 24B. It being critical that the spacers 24A, 24B be disposed at a location 61B of the end 60, that location 61B being at an approximate end 65 of the second end 60.
The bushings 22A, 22B and spacers 24A, 24B are preferably of cylindrical configuration having flattened end surfaces 22C. The bushings 22A, 22B include central holes 22D that receive dowel pins that releasably connect members 110, 120, 130 to weldments 10, 600, 700. Spacers 24 can be tubular sections with flat ends.
As should be appreciated, the eave weldment 10 is symmetrically constructed and can include an insert tube 30A and 30B welded on opposite sides of the weldment plate 20. The insert tubes 30A, 30B generally in perpendicular relationship to the first and second ends 40, 60 that define the weldment plate 20. As such, only the insert tube 30A found on one side of the weldment plate 20 is primarily discussed herein. It should be understood that the insert tube 30B is identical to those described above, with the exception that the other insert tube 30B represents a mirror image of the insert tube 30A described.
The insert tube 30A includes a stop 32 disposed on a surface 33 of the insert tube 30A. It being critical that the stop 32 be disposed at a location 32A along the length of the insert tube 30A. A pair of pin holes 34 is further disposed through the surface 33 at approximate opposite ends of the insert tube 30.
Cable connected dowel pins 734 (see
The weldment plate 20 further includes plate apertures 27, and a tie down clearance 28 tie-down and for anchoring the system 100.
Assembly of the frame system of the present invention is similar to assembly of prior art tent frames. As shown in
An end of eave member 120 receives one of the ends of the insert tube 30A or 30B disposed concentrically therein, and is securely retained by one of the dowel pins inserted through the pin hole 34. In application, the stop 32 serve as locator stops so when an eave member 120 is installed over an end of the insert tube, one of the cable connected dowel pins can be inserted through the pin hole 34 and through a hole (not shown) of the eave member 120 in alignment with the pin hole 34, securing the eave member 120 in place.
An end of the rafter 130 receives the end 60 of the weldment plate 20. The bushings 22A, 22B and the spacers 24A, 24B of the end 60 of the weldment plate 20 are slidingly received within the channel 50 (as will be further described) of the rafter 130. When received, the bushings 22A, 22B and spacers 24A, 24B are in communication with the interior surface of the rafter 130 so that the end 60 of the weldment plate 20 is frictionally received and therefore releasably secured within the rafter 130.
An end of the upright column 110 receives the end 40 of the weldment plate 20. The bushings 22A, 22B and the spacers 24A, 24B of the end 40 of the weldment plate 20 are slidingly received within the channel 50 of the upright column 110. When received, the bushings 22A, 22B and spacers 24A, 24B are in communication with the interior surface of the column 110 so that the end 40 of the weldment plate 20 is frictionally received and therefore releasably secured within the upright column 110.
The frame members 110, 120, 130 of the system 100 each include a pair of ends (not shown) having openings that define the channel 50. The channel 50 adapted to receive the components of the eave weldment 10 namely, the insert tubes 30A, 30B, the first end 40 of the weldment plate 20 and the second end 60 of the weldment plate 20 as discussed above, such that the connecting members of the eave weldment 10 and the frame members 110, 120 and 130 are substantially in end-to-end relation to one another to form the frame tent system 100.
Referring to
The channel 50 includes a pair of end sections 52 each defining a first inside width 52A that defines a generally rectangular opening (indicated by dashed lines 86, end section 52 and plate 20) that is less than a second inside width 54A disposed at a center of wider rectangular section 54 of the channel 50. In application, when the channel 50 receives the first end 40 of the weldment plate 20 for example, the first end 40 is received so that the bushings 22A, 22B and then the spacers 24A, 24B are received by the section 54 of the channel 50. When received, the flattened end surfaces 22C of the bushings 22A, 22B and spacers 24A, 24B are in frictional communication with the interior surfaces 54B of the section 54 so that the first end 40 of the weldment plate 20 is frictionally received therein. The spacers 24A, 24B and plate end 40 are shown, partially cut away, engaged in channel 50 in
When the channel 50 receives one of the insert tubes 30A for example, the insert tube 30A is received within the channel 50 until the stop 32 of the insert tube 30A abuts a side end 56 of the channel 50. The width “W1” of the insert tube 30A sized to be frictionally received within the width 54B of the channel 50. The insert tube 30A is then securely retained within the channel 50 by inserting a dowel pin through the pin hole 34 of the insert tube 30A and through a hole (not shown) of the frame member. As known in the art, the grooves 80, 81 in channel 50 can be used to secure the cover 114 to the outside of the frame tent system 100 or to secure material (not shown) to the inside of the frame tent system 100.
Although the description above contains many specificities, these should not be construed as limiting the scope of the invention but as merely providing illustrations of some of the presently preferred embodiments of this invention.
It will be obvious to those skilled in the art that modifications may be made to the embodiments described above without departing from the scope of the present invention. Thus the scope of the invention should be determined by the appended claims in the formal application and their legal equivalents, rather than by the examples given.
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Number | Date | Country |
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WO 9946456 | Sep 1999 | WO |
Number | Date | Country | |
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20060231128 A1 | Oct 2006 | US |