Gnashing of teeth…

 

img_3104These are fairly sizable components for this piece. Housed within each of the side aprons, they provide the energy to make the table come to life. To make this happen the teeth on the large gear must align with those on not one, but two racks placed above and below it.

Demonstrating the alignment for the top rack and drive

The mortising process is straightforward. A hole slightly larger than the diameter of the large gear is created using an expansive bit which is then excavated to provide space for the rectangular section surrounding it.

With the cavity complete, a hole is bored through the apron for the winding axle. The operator will use this shaft to wind the mechanisms. Now the final placement of the drive can occur with the mounting plate mortised into the (interior) apron side.

Of course, nothing goes smoothly, and a bit of adjustment is required to get things appropriately integrated. There was a bit of an over correction during the first round, but nothing that a snippet of veneer and glue couldn’t fix. Number two went much quicker…

Left and right sides fit with drives and top racks

The next step is to mortise for the lower racks, the ones that connect to the main box.

Future location of the lower racks

Drive Mechanisms

Layout Prep With the top guides and racks “installed” (…and by that I mean in place in the carcass. At this point, they are not actually fastened to the carcass…), the spring barrel drive mechanisms are the next components to be addressed. These two devices, mounted on each side of the main box, provide the power to make the table open. 

The pinnacle of high technology during the eighteenth century, the drive mechanisms are based on clock mainspring barrels. Holes in the exterior of the aprons admit a key to tension them, just as one winds a clock. Since they engage both the upper and lower racks, their placement within the carcass aprons is critical. The image shows the layout lines defining where the mechanisms will go. But it’s not just a matter of simply excavating the material. The depth of each component is important since the racks, and drive gear teeth must align.

 I will be excavating the material, and installing these mechanisms over the next week. I anticipate there will be a number of adjustments required. Holes will need to be bored in several stages, mirroring the various diameters of the mechanism followed by mortising. 

Fitting the Top Racks

It’s time to install the racks and guides into the prototype carcass. I’m following a methodical process to make sure everything aligns and functions. As with the carcass construction, start at the top and work down. So, the first components are the top racks and guides. These are easy. Simply rabbet the top edges of the legs and aprons to be flush with both the top surface, and the interior apron side.

Test fitting these, however, exposes an issue. The hinges for the flaps on main box interfere…

img_2977

I need about 3 mm more clearance on each side for main box to fit. Two options: either make the main box smaller, or recess the racks further into the aprons. However, if the latter option is exercised the rabbets for the racks will cut into the mortises and tenons for the aprons and legs! So, I have to make the main box smaller. But, in order to take the main box down to the required dimensions, I’ll have to un-glue it! (Don’t recall doing that in the first place, but oh well…). Good thing I used hide glue!

Since I have only a small kettle, it’s a slow process, but after about 6 or 7 iterations, the dovetail joints holding the sides on are free.

Ungluing the main box 1Ungluing the main box 2

With the main box disassembled, I remove 3 mm from each side. This keeps the front profile uniform.

Just 3 mm…
Note that after drying out for a night, the pieces are totally usable again! Reassembled main box

Now resized, the main box slides within the top racks.


While this addresses the immediate problem, it causes others. In particular, future (foreseeable) issues include:

  • The flaps covering the two side compartments in the main box will need to be resized. No problem. I used hide glue on those too!
  • Also, the lower racks may need to be built out to remain in-line with the drive assemblies (and top racks).

 

Mechanisms have arrived!

Lower rack , guide, and drive mechanism dry fit

Lower rack , guide, and drive mechanism dry fit

The rack and drive hardware necessary to make the table operate have arrived!

They came in the post a week ago Friday. I couldn’t write about it any quicker as I’ve been moving into my new (temporary) studio, and engaged in a client project. These are the work of Jon Spencer, the talented machinist responsible for translating my drawings into functional brass and steel. He also created the main box latch.

Detail of a drive barrel mechanism

Detail of a drive barrel mechanism

I am anxious to get back to work on this piece. My plan is to complete the current commission on which I’m working, then the one behind it. (Fortunately, several furniture commissions occupied me while waiting for these mechanism pieces.) With both of these addressed, I look forward to starting back on the marquetry prototype for the top, and beginning installation of the mechanisms into the prototype (not necessarily in that order!).