It's a follower circuit with an over designed bias network built around the negative supply biasing the power tubes. I say over designed only because it seems like a lot of work to get a distortion capability which by all accounts seems to be pretty crappy sounding.

Building on what JHS mentioned...
The plate takes a 300 vdc charge and sits at AC ground through it's PS node filter cap. Like any follower there won't be any gain and a slight attenuation. Based on shifting VB3's negative grid voltage it'll distort though. With "distortion off" the diode is reverse biased which sends a large enough negative voltage on to the grid so that a full signal swing is well under the cathode's upper limit. When this voltage gets raised to a certain level it looks like it works to oppose the tie in (through the 470k R) to the + rail so that the diode gets a forward biasing voltage and starts to conduct. The current flow stablizes the voltage at whatever the diode conduction limit is and this raises the grid bias up closer to where the cathode sits. Much closer. The static K voltage without distortion is + 3.5V. This would shift with the new bias conditons (to what, I don't know - it's hard to say) but not so much that the new "distortion on" grid bias with input signal couldn't reach it. It looks like it's meant to pit the rail voltages against each other until a point is reached where the diode kicks in and raises the grid bias up to a level where doinking around with the variable resistor starts to impact the grid/cathode interaction creating more or less distortion at the input. This signal gets "followed" out of the cathode circuit to the volume pot slightly smaller but with drive potential.

The stage before this doesn't need a huge amount of gain. Actually it can get by with very little because even a small signal voltage would cause an ugly (even uglier?) distortion had they not added the ground lift network "under" V3B starting at the coil. The grid of V3B is connected to the bottom of the Cathode RC network, through the 100k distortion pot. The signal goes from there into one end of the Volume pot and then divided down. This whole network sits on top of another network which looks like it's meant to allow for the clean headroom needed for "distortion off" settings along with the bias shift adjustment needs for "distortion on" setting which I mentioned above.

The coil looks like a two way street. Input one way, feedback the other. Filtering high frequency content either way; just keeping frequency crud off the grid and letting the bypass cap at the cathode do it's usual thing but with the higher frequencies cut out.

A word of warning... I haven't built an amp in probably 5 years. I haven't l even looked inside one and very rarely even think about them anymore so these are just "at a glance" observations and I am rusty to say the least.