I’ve begun at last the capstone project for my railroad—the
upper level staging at Crescent Lake.
My Crescent Lake will feature a twelve-track reverse loop staging yard,
much as the Eugene Arrival Departure Yard will have for the base level below
it. I need to build and install
Crescent Lake and get it wired while I still have full access to the floor
below. Future access will be more
limited once the Eugene complex is built below.
The test operating sessions conducted so far point strongly
to the need to expand the mainline track and get more of Eugene built. This is so vital that I cancelled
a previously scheduled test operating session to make way for
construction. Step One is to get
Crescent Lake built and installed.
The basic structure for Crescent Lake consists of open grid
panels topped with plywood and an upper layer of cork. I used my standard nominal 4 inch deep
plywood strips for construction, as this will extend below the Tortoise™ switch
machines that will control the switches.
Crescent Lake benchwork panels under construction. They overlay the track plan on the
floor.
The panels are topped in my usual fashion for yard areas—3/4
inch plywood with ¼ inch cork laid on top. I left gaps in the cork at the panel joints. These gaps will be filled with cork
sheet once the panels are installed.
Crescent Lake roadbed panels ready for track line layout and
switch installation. Most of the
two switch ladders will be on the two panels in the upper right, with two final
switches located on the corner panel in the lower right.
The panels will be raised to their final location over seven
feet above the floor. Edges along
the walls will be supported by ledger L-girder, similar to the lower L-girder
on the back wall in the photo above.
Out in the room, the panels will be hung from the ceiling. Our house uses open truss floor joists
for the main floor formed from 2x4 on the flat—broad—face. This made for a wider target to locate
for the suspension lag screws. The
lag screws hold “superstrut” pieces, which provided a way to span between
joints and provide a nut for a threaded rod to be inserted. “Superstrut” is formed steel channel
often used by electricians and plumbers to route and support conduit or
pipe. Jerry B. used his power
hacksaw to help me cut the “superstrut” pieces to length. Thanks Jerry! All are now installed on the ceiling.
“Superstrut” installed on the ceiling, attached to floor
joists above. Each strut in this
picture has a special nut installed within the channel to take the threaded
rod. The upper level wall ledger
L-girders are visible along the side wall.
More to come…
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