Saturday, August 23, 2014

Flashers

Every new car sold in the USA since 1967 has been required to have 4-way flashers.  This was not a new idea; kits have been available to install this safety feature on cars since the mid 1950s.  While "parking lights" have been standard since the '20's, they really don't cut it if your car is broken down on the highway.  Flashing lights naturally demand a lot more attention from passing motorists, and are a lot more visible in the day time.

A 4-way flasher is unobtrusive device that makes sense on a vintage car.  It can be hidden away under the dash or in a glove box. "Period correct" flasher installation kits continue to be easily available for 50's vintage cars.  I got a Roberk model 800 for a very reasonable price 6 months ago, and had been waiting for an opportunity to install it.  When I had the seat out of the car (see the prior post) I figured the time was right.  I found the installation to be remarkably easy, but then I am pretty handy with electrical connections.   Here are a few pics:

The Roberk unit is installed under the dash, in front of the shifter.  I used existing factory holes in the dash, which would have been used for the overdrive selector had this been a manual transmission car.
 I had to replace the light bulb in the unit, and plug in a heavy duty 3-pin flasher.  The cost was trivial.    I also used modern 3-way automotive electrical splices, instead of the funky crimp-on clips that originally came with the unit.  Power comes from the back of the cigarette lighter, and four leads are spliced into the four turn signal wires coming from the turn signal switch.  These are easy to find if you have a factory schematic... green with white stripe, white with blue stripe, orange with blue stripe, green with orange stripe.  I made sure to connect to the dash side of the turn signal junction block, so that it wouldn't complicate removing the steering column in the future.
The unit is pretty long,  including a heavy-duty thermal flasher.   Note the dual-zone equalizer for the stereo.
While I was under the dash, I rewired power to the audio amplifiers, and installed a remarkably inexpensive 2-zone equalizer I got off Amazon.  It was labeled as a "7 band parametric equalizer", but it's not parametric and it's not 7 band.  It has 3 bands for the "rear" channel which I connected to the center dash amp, and 4 bands on the "front" channel which I connected to the stereo amp.   This has made a noticeable improvement in the sound quality, providing a better blend between the under dash speakers and the center-dash speaker.  It sounds really great around town, but it's still not the kind of stereo that can compete with big rigs on the freeway... especially if the top is off the car.  Convertibles on the freeway are definitely high noise environments.  In fact, I tend to wear earplugs on long trips.

Ford Guy replaced the driver door glass for me... it turns out that the steel frame that supports the bottom of the window glass was broken some time ago, and poorly repaired.  That could explain why the driver side glass was broken when I got the car in 2011!  The frame has been replaced with a reproduction, and the window works fine.

Nell is running and looking great!  I'm digging the increased leg room, and the improved stereo.  My t-bird club was featured at a cruise night yesterday, and my wife graciously agreed to accompany me.  It was a great time, and Nell got plenty of compliments.

Looking sharp!
One of the cars that showed up with my club looked really familiar... a Peacock Blue '56 with a supercharger, 4-speed, and lots of speed equipment...
A blown, blue '56... where have I seen this before!
Then it dawned on me... I saw it at last year's west coast y-block shootout!


This was one very fast car!  I had a great time talking to the owner and discussing the modifications he had made.  He is a tall guy, and he also modified his seat to provide a few more inches of legroom!  I guess I'm not so unique after all.

Tomorrow I'm looking forward to driving a friend to my local t-bird club meeting, and then maybe sampling a few local micro-brews with him.  Life is good!

Sunday, August 10, 2014

Seeking Legroom

To what lengths will early bird owners go in order to get reasonable legroom?

As I mentioned in a previous post, these cars are rather infamous for their 'foreshortened' cockpit.  Most people 6ft or taller complain about the lack of adequate legroom, especially on the driver side.  The overly large steering wheel and the pedal placement combine to seriously degrade comfort for drivers of greater than average height and girth!  My XL son can get in the car and drive it, but the awkward right leg position causes his foot to go numb in about 20 minutes!

Why did Ford design a car with such short legroom?  Were people shorter in the '50's?  Was the t-bird intended, as often stated by Corvette owners, as a "woman's car"?  I suspect that the real answer has to do with the combined complexity of the power seat and the convertible top.

The power seat was clearly a marketing imperative, cementing the image of the Thunderbird as a 'personal luxury car', but  designing the power mechanism for such a low seat was quite an engineering challenge!  So much so that the designers may not have had time to finish the design of the lower-cost manual seat adjuster... manual seats weren't available until the 1956 model year!   The raise/lower seat mechanism requires a crossbar and motor mechanism immediately behind the seat, limiting how far back the seat rails can be placed.  Here's a pic of the bottom of the seat removd from the car.  The front of the seat is on the bottom, and the motors have been disconnected.


The hideaway soft top was also quite an engineering challenge.  I've helped a fellow club member put  his top up in the rain, and later stow it.  First we had to undo all the latches, release the toggles, unzip the rear window, carefully fold the top flat on the rear deck, then rotate it up vertical on the spring-loaded 'swing-arm' and carefully drop it down into its stowage location behind the seat.  It definitely takes two people to do this safely, and in the right order... on pain of damaging something.  The seat must be adjusted fully forward on the rails before the top can be swung down behind the seat.  And, of course, the rearward motion of the seat must be limited or it might also damage the convertible top when stowed.

Since Nell doesn't have a soft top, I am really not concerned about maintaining room for one behind the seat.  I have been eager to improve the legroom situation on this car for years, and have been looking for a complete manual seat adjustment mechanism from a '56 or '57 that might allow greater rearward motion than the power mechanism.   Since these have turned out to be very scarce and pricy, I finally came to realize that the only reasonable approach is to fabricate new, non-adjustable seat brackets that would completely replace the power seat mechanism.  Since these brackets would be designed as "drop-in" replacements for the original mechanism, the car could easily be returned to stock.

Well, at the last Harbor Freight sale, I picked up an inexpensive flux-wire welder.  I've been wanting to refresh my high school welding skills anyway.  Another trip to the local industrial metal supply house for two 2" x 1/8" bars and some 1" square tubing, a free weekend, and I'm ready to start this project!

First I remove the seat (with some help), flip it over and measure the relationship between the floor mounting studs and the seat.

With the seat all the way back, the floor mounting stud is 4" from the front edge of the seat.
Removing the the mechanism from the seat, we placed the seat back in the car to determine just how far back we can reasonably expect to move the seat.  The determining factor in how far back the seat can move is the garnish rail at the rear of the cockpit. It is covered in vinyl, but it is not padded and definitely uncomfortable to lean against!

Original position... front of the seat was 27 1/2" from the rear fender.
We slide the seat as far back as we can, positioning the seatback just under the rear garnish rail  & making sure this is still comfortable.  This is really as far back as the seat can go!
The seat has been moved 2" back from its original position.
Move the seat rearward by exactly 2"... that is a very concrete and achievable goal!  By measuring the  seat mechanism, I determine that this requires the front seat mounting hole to be even with the front floor mounting stud, and keeping it 2" to the outside and 1 1/4" above the floor rail.

I start by fabricating replacement floor rails (2" wide, just like the originals) out of the 1/8" steel stock.
All bending is done with a heavy bench vise and a sledge hammer.
Final shape.
Drilled for bolts and checked for fit.
also the driver's side
Front bolt tack welded
Welding a 1" section of square tubing, enclosing the bolt.  My welding skills improved significantly throughout this project!
Tack welding the rear seat bracket, based on measurements from the power seat mechanism and test fitting on the seat.  
The floor studs need to be 41" apart (outside dimension), same for front and back.  The diagonal measurements between the studs need to be as close to identical as possible... mine were just under 46".  Once everything was aligned and square, we put the seat in the car for a test fit.  It neatly dropped in place the first time, and fit beautifully!  We then removed the seat, removed the brackets, and painted them.

Painted with hammer tone silver Rustoleum.  Note the elongated holes on the driver's side... this was necessary in order to get the diagonal measurements to match, and the brackets to fit.
Finished brackets in position!  Note how the front studs are now about 2" from the front of the seat.  We have achieved the goal of moving the seat 2" rearward!
Side view, showing how low the seat will be.   
I ended up putting a stack of fender washers above the front of the bracket when bolting it up,  which raised the front of the seat a little.  I would have been better off using a 1 1/2" section of square tubing in the front, instead of 1".

I did some electrical work under the dash while the seat was out: installed a dual zone preamp/equalizer for the stereo, and 4-way flashers... but I'll talk about that in another post.  We re-installed the seat yesterday and took a little drive.  I find the increased legroom to be more comfortable, but my 6 foot son finds it essential for safe driving.  I'm hoping that his right foot won't be going to sleep during our next long drive!