….Using the BIAS tap as a positive reference point…
Someone mentioned using the bias tap as a reference tap because of its lower voltage. I looked at lord valve's schematic, so I get the idea. …

Probably late in the game, but I never liked dropping from hundreds of volts to get a few. Were it mine, I'd be inclined to add a second diode facing the other way at the bias tap and make a small low voltage positive supply for the purpose. Bonus: no way for some failure to put B+ in your heater circuit.

I've attached the elevated heater section in that Marshall schematic link that someone posted. Seems like it attached to the preamp can cap for reference. Any comments?

Don't forget the filter cap...
Some basic teory still necessary to understand what you're doing.
First, choose a supply node from at least two point of view : inevitably the divider will draw some current to ground (the divider is a power consumer by itself), and we don't want to affect the voltages over the chain supply so is preferable to install as close to the power supply and not in the end of the supply chain. Second: we want a quiet supply node for our DC reference, as much free of ripple. From this point the screen supply node is good compromise. Calculate the voltage you need . Choose the values of resistors in respect with voltage you need but also how much current you want to spend. But keep in mind a large value of series resistor, like 470k-1M will drastically limit the charging current of the filter capacitor, meant you will get the nominal voltage in seconds or tens of seconds. From the same reason the filter cap should not be larger than 10-20 uF large enough to smooth the ripple for our new filament reference point. Is all compromise.(for instance: 1M resistor with 100uF cap have a time constant 100 sec.)-you have a parallel resistor here meant bigger series resistor=longer time to stabilise.
From the screen node put a 220k series with 22k shunt. Instal a 10-22uF/ 100v cap over shunt resistor and tie the filament center tap to this . Done.
Eg: Suppose you have 380v at screens 220k series/22k shunt=34.5 V , 220+22= 244k, 380/244000=1.56mA , 380-34.5=345.5V over series resistor. 345Vx0.00156A= 0.538W power dissipation. 1W resistor will be enough, but 2w better choice.
From a 440V supply node with 220k/22k you get 40V DC elevation. Just change the values in the picture you posted: replace 470k with 220k/2W and 820 ohm with 22K.
470k/820 do almost nothing. Is a minimal elevation maybe to suppress some noise due h-k coupling but is not a elevation in a sense we used to protect heater to cathodes insulation at high potential like in cathode folowers or cathodyne inverter circuits. You forgot to tell us what is the reason you intend to elevate the heaters reference? We usually elevate the heater reference for a reason. And as the side aspect- you may find slight difference in sound.
But could be a mistake as well, as we see in jvm 410 schematic posted above. It use 470k/82k and not 470k/820 ohm. They made it in a rush and was confused? You have to take time for everything when ask two grands for an amp...I think. 820 ohm is not the same as 82K of course . But maybe some of those mistakes who made a difference from a boring to a brilliant amp? It is as simple as hell...