spring loaded platform non-suspended turntable

Or, you can place ten cryo'ed Baby Promethean Mini-Isolator Springs (from Machina Dynamica) beneath the solid base of a 100 pound turntable.
Or, a higher number of these special springs if the total weight is higher due to the weight of any supporting solid base already currently beneath the turntable base.

This is quick, low cost, and easy to level turntable.

Due to limitation of my own personal lifting strength, I have not positioned a turntable/base heavier than 50 pounds where I happened to need only five of the Baby Promethean springs to properly match the 50 pound load to be supported.

Vinyl reproduction capability is beautifully enabled.

I highly recommend Minus K for non suspended turntable. I used to have my TW Acustic Raven AC-1 on Symposium Ultra sitting on top of machine shop bench which has 4 inch granite table top with steel legs. The whole thing weigh about 100+ kg without the turntable. Replacing Symposium Ultra with Minus K was remarkable and in my opinion, well worth the difference in price of the two platform. I don't have problem with subsonic rumble or acoustic feedback through the floor but sonic benefit alone is quite impressive. I also heard VPI Classic 3 to good effect on Minus K. There is even a review of Minus K on suspended table like Linn floating somewhere in the internet and there is a recent review of Minus K on Positive Feedback wiht some comments regarding Minus K vs older version of Vibraplane as well.

Pryso....I suspect that you are right, but remember too that sound travels as well through springy floors (and walls)...low tones travel unimpeded through windows (listen to the delivery trucks going by), but the glass is reflective of the higher frequencies....(cover all windows and/or close the draperies to hear the difference in the room. My suggestion of mounting a turntable on a shelf mounted securely into the wall studs eliminate a surprising amount of vibration transmitted via springy wooden floors...no its not perfect, but I have frequently been surprised at how much better the performance of turntables on walls is improved. Certainly this is only a suggestion and you are encouraged to do as you see fit...but if you try my suggestion, it very well might surprise you too. My recommendation of Bearpaws to replace the mini feet still apply.

"remember too that sound travels as well through springy floors (and walls)"

Absolutely, but my point is once the sound wave strikes/energizes a solid surface/object, the transmission then becomes mechanical, no longer acoustical. I consider acoustical to mean through the air.

In this view, sound waves do not pass through walls and windows directly. Coming from their source they strike a solid surface (drywall or glass in this case) where the energy is transferred by mechanical means. Some level of sound is reflected back, while some frequencies are filtered out (dissipated) in this process which is why higher pitched sounds may not survive. That transferred mechanical energy which survives then excites (vibrates) the air on the other side of the wall or window where it becomes acoustic again.

Consider the transformations with your violin. You pull the bow across a string which creates a mechanical resonance. If someone stands close enough to you they may hear the acoustic transmission of that string vibration, although it will be at a very low level. But the string vibrates the bridge as well as the air, which transmits energy to the soundboard (top of your instrument), which then vibrates air within the cavity of your instrument which becomes amplified by resonant reinforcement and comes out the f holes as acoustic sound waves which can now be heard from a much greater distance. (And yes, some acoustic sound is also projected out from the soundboard itself.) All this involves two different types of energy transfer.

I'm not trying to split hairs here and I don't pretend to understand this as well as a trained engineer or physicist. But I do believe if we are to address a problem it serves us to understand the causes as best as we can. This is why I break down vibration issues for turntables into three separate sources - acoustic, internal mechanical, and external mechanical.

One thing to consider about turntables, that's the resonant frequency of the tonearm and the cartridge and what it takes to excite the resonant frequency. As it turns out most tonearms and cartridges resonate at about 8-12 Hz. Thus, there will be no appreciable mechanical interference for the tonearm or the cartridge as long as vibrations with frequencies in the range 8-12 Hz are not present. Fair enough? But what is there to be afraid of, the acoustic energy in the room, generated by the speakers, will not go that low. And internal vibrations, produced by the motor, don't go that low. So what's the problem? The problem is the Structural Vibration produced by the Earth crust motion and traffic, subways, etc. It's the structureborne vibration that goes as low as 1-2 Hz and lower, but in particular contains frequencies in the critical range 8-12 Hz. Therefore, the most important thing to address is the Structureborne Vibration.