The present disclose generally relates to a model track assembly and specifically to a support apparatus suitable for supporting a conventional trestle for a model track assembly, such as a model railroad track assembly and model racecar track assembly.
Hobby enthusiasts for many years have enjoyed the operation of model railroad trains and model racecars, both of the type in which separate track sections are removably joined together to form a closed path designed by the hobbyist over which a model train or racecar will travel. In the simplest form, a section of track includes a pair of spaced apart, electrically conductive rails and an arrangement of ties extending between the rails, the rails being joined together to form the track section into the desired configuration. The rails form a closed electrical circuit when the track sections are joined together in a closed configuration or pattern. Means are provided for supplying electrical energy to the rails of the assembled track sections to energize the model train or racecar traveling thereon. The track sections range in size and shape. There are countless possibilities for individual track sections: some are straight; some feature switching mechanisms; some are curved having various radii; and, some are ascending for connection to another track positioned at a higher level.
One of the problems facing designers today is the connection of incoming, ascending segments to other track sections, which are positioned at a different height than the incoming, ascending segments. Generally, track support apparatuses, such as trestles, are used to support such ascending track sections. Trestles may be used individually but are typically arranged in series. For example, a typical figure-8-shaped course includes elevated track sections which cross at the center of the figure-8 at differing levels. The track sections are supported at an incline and decline by gradually ascending and descending trestles. However, prior art support apparatuses fail to provide adequate stability to such track sections ascending above the figure-8-shaped course.
It is also popular to suspend model tracks from architectural structures, such as ceilings, within restaurants, retail outlets, homes, and the like. Suspended model railroad tracks are aesthetically pleasing and add substantially to the enjoyment of being in such places. Diners, customers, friends, and relatives all enjoy watching model trains travel upon such suspended tracks. However, suspending model railroad tracks from architectural structures requires custom installation involving attachment of the track sections and support apparatuses to the architectural structure, typically via suspension members. Thus, each track section and support apparatus must be individually installed specifically to suit its particular location. Additionally, it is frequently desirable to install model railroad track outdoors, such as in garden environments, for example. Thus, it would similarly be beneficial to provide support apparatuses for supporting model railroad tracks and trestles above such surfaces as soil, stone, concrete, floors, etc.
Accordingly, the present disclosure provides a new and improved trestle support apparatus which overcomes the difficulties with the prior art designs.
In accordance with one aspect of the present disclosure, a trestle support apparatus for use with a model track assembly is provided. The model track assembly includes track sections and trestles of a first configuration and separate track sections and trestles of a second configuration. The trestle support apparatus comprises an elongated base including an elongated channel dimensioned to releasably receive and support a trestle of a first configuration. First and second stanchions are releasably mounted to the base.
In accordance with another aspect of the present disclosure, a trestle support apparatus comprises an elongated base including a platform and first and second arms extending outwardly from the platform. The platform and the first and second arms define an elongated channel dimensioned to releasably receive and support a trestle of a first configuration. First and second stanchions are releasably mounted to the base. The first and second stanchions are in spaced apart relation such that at least two parallel track sections can be positioned beneath the base.
In accordance with yet another aspect of the present disclosure, a trestle support apparatus comprises an elongated base including an elongated channel dimensioned to releasably receive and support a trestle of a first configuration. First and second stanchions are releasably mounted to the base. Each of the first and second stanchions include a first end section configured to be releasably mounted beneath the base and a second end section configured to be releasably mounted within the elongated channel.
Still other aspects of the present disclosure will become apparent from a reading and understanding of the detailed description of the several embodiments described hereinbelow.
The present disclosure may take physical form in certain parts and arrangements of parts, several embodiments of which will be described in detail in this specification and illustrated in the accompanying drawings which form a part of the disclosure.
It should, of course, be understood that the description and drawings herein are merely illustrative and that various modifications and changes can be made in the structures disclosed without departing from the scope and spirit of the present disclosure. All references to direction and position, unless otherwise indicated, refer to the orientation of the trestle support apparatus illustrated in the drawings and should not be construed as limiting. It will also be appreciated that the various identified components of the trestles and support apparatus disclosed herein are merely terms of art that may vary from one model track manufacturer to another and should not be deemed to limit the present disclosure.
Referring now to the drawings, wherein like numerals refer to like parts throughout the several views,
With reference to
Each end section 22, 24 of the platform 20 includes a first partial row of equally spaced apart first apertures 60 formed therethrough and a second partial row of equally spaced apertures 62 formed therethrough. The apertures 60, 62 are dimensioned to receive conventional fasteners F (
It should be appreciated that alternate means for securing the stanchions to the base are also contemplated. For example, as shown in
As will also be understood and appreciated by those skilled in the art, the first and second stanchions 14, 16 can be generally identical, and thus only first stanchion 14 will be described in further detail herein. With reference now to
A groove 110, 112 is located on each front and back wall 96, 98 of the stanchion 14. As shown in
With reference again to
As indicated previously, and with reference to
To mount the adapter 200 to the base 12, the adapter is slidingly inserted in the channel 50 such that the second conventional trestle mounted thereto can be positioned at various locations along the base 12. Similar to the securing of the first conventional trestle to the base, at least one fastener F′ is then threaded into one of the apertures 122, 124 located on the base 12 such that an end section of the fastener engages one of the side walls 210, 212 of the adapter. This prevents the longitudinal movement of the adapter in the channel.
With reference to
The stanchion 300 comprises at least two interconnected sections, which can be telescopically received within and secured to each other so that the stanchion has an extended position (
Similar to the previous embodiment, to secure the stanchion 300 to the base 12, the top wall 350 includes a pair of threaded apertures 360, 362 which align with the apertures 60, 62 located on the base 12. Fasteners extend through the base apertures and threadingly engages the stanchion apertures. Again, it should be appreciated that alternate means for securing the stanchion to the base are also contemplated. Provided on the front and back walls 328, 330 are respective mounting aperture 368, 370. The mounting apertures extend diagonally though the stanchion and are each dimensioned to receive a conventional fastener for securing the stanchion to a generally flat, subjacent surface. Grooves 374, 376 are located on the respective front and back walls 328, 330 of the stanchion 300 which allow for the stacking of at least two trestle support apparatuses.
A locking structure 390 selectively locks the second elongated member 312 in a desired position in relation to the first elongated member 310. In the depicted embodiment, located adjacent the top wall 320 of the first elongated member 310 is a threaded aperture 392. A fastener F″, such as a thumb screw, can be threaded into the aperture 392 such that an end section of the fastener frictionally engages the body 352 of the second elongated member 312, which, in turn, prevents the longitudinal movement of the second elongated member in the socket 340.
It should be appreciated that alternate means for releasably locking the elongated members together are also contemplated. For example, a single aperture can be formed along an exterior periphery of the body 352 and is selectively and slidably aligned with one of a plurality of openings formed along an exterior periphery of the first elongated member 310. An outwardly biasing spring-loaded clip portion can be inserted within the body so that an outwardly biasing button portion selectively projects through the single aperture and one of the plurality of openings of the overlapping first elongated member. The overall length of the collapsible stanchion 300 may be adjusted simply by pressing the button portion inwardly and then axially sliding the first and second elongated members relative to one another until a desired opening of the plurality of openings aligns over the single aperture, at which point the button portion will again project downwardly through the aperture and one of the plurality of openings snapping the first and second elongated members in place.
With reference to
Similar to adapter 200, adapter 400 is generally rectangular in shape; although, it should be appreciated that alternate shapes and configurations are contemplated. The adapter comprises a first section 402 and a second section 404 movably connected to the first section. The rotation of the second section relative to the first section allows a trestle which is supported on the second section to transverse the base 12 at various angles. The first section 402 includes a pair of longitudinally extending cutouts 410 and 412 located on opposed sides 420 and 422. The cutouts allow the sides 420, 422 of the adapter to be slidingly received within the channel 50 of the base 12. A top wall 430 of the second section is configured to mate to the specific type of the second conventional trestle being mounted thereto. The adapter 400 further includes means 440 for rotating the second section 404 relative to the first section 402. For example, a shoulder screw 450 can be inserted through an aperture 452 located on the first section so that the threaded end section of the screw threadingly engages an aperture 456 of the second section. The shoulder screw allows the second section 404 to rotate relative to the first section 402. It should be appreciated that alternate means for rotating the second section are also contemplated.
The present disclosure has been described with reference to the above embodiments. Obviously, modifications and alterations will occur to others upon reading and understanding the preceding detailed description. For example, it should also be appreciated that the trestle support apparatus 10 can be easily suspended from a ceiling. In this suspended embodiment, the stanchions 14, 16 are mounted in the base channel 50 in a similar manner described above. The stanchions can then be secured to the ceiling via conventional manners. The components of the trestle support apparatus can be color-coded for ease of assembly. It is intended that the present disclosure be construed as including all such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.
This application claims priority from U.S. Provisional Patent Application Ser. No. 60/879,898 filed Jan. 11, 2007, which is expressly incorporated herein by reference, in its entirety.
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Number | Date | Country | |
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20080169353 A1 | Jul 2008 | US |
Number | Date | Country | |
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60879898 | Jan 2007 | US |