Chris,
Pneumatic or 'compliant' footers are designed solely to try to prevent the passage of Structure-Borne feedback into the turntable plinth/bearing/platter/tonearm/cartridge system.
Suspended turntables are an attempt to achieve the same result and can be somewhat successful compared to the alternative?
Suspended floor systems....whether timber-framed, steel-framed or reinforced concrete.....are all subject to Structure-Borne feedback which can suffer frequency transmission between 4-10 Hz and depending on amplitude.....can cause physical movement in the flooring system.
The more a compliant footer is compressed....the less successful it is in attenuating these low frequencies yet the less the footer is compressed....the more movement (in all planes) is possible.
That's why a Minus K stand is 'tuned' to specific weights and is able to move alarmingly when pushed?
Because of the problems in effectively designing an integral 'compliant' or 'sprung' footer system for turntables.....most new racks and shelving systems utilise a Stillpoints type of ball and cup isolation as well as constrained layer damping.
This Stillpoints type of footer is used for turntables, speakers and even amplifiers these days.
As you know that my turntable is placed on a masonry wall-mounted shelf and avoids any form of Structure-Borne feedback......I'm puzzled by your suggestion to 'improve' my set-up by using compliant footers?
In my situation....all this will do is introduce possible movement of the footers due to weight shifting of the tonearm and cartridge as well as temperature and humidity variations?
There is no possible 'up-side' to compliant footers if there is no Structure-Borne feedback.
Now if your system is sitting on a suspended floor-mounted rack or shelving system........there may be advantages to your method of support? :-)
Pneumatic or 'compliant' footers are designed solely to try to prevent the passage of Structure-Borne feedback into the turntable plinth/bearing/platter/tonearm/cartridge system.
Suspended turntables are an attempt to achieve the same result and can be somewhat successful compared to the alternative?
Suspended floor systems....whether timber-framed, steel-framed or reinforced concrete.....are all subject to Structure-Borne feedback which can suffer frequency transmission between 4-10 Hz and depending on amplitude.....can cause physical movement in the flooring system.
The more a compliant footer is compressed....the less successful it is in attenuating these low frequencies yet the less the footer is compressed....the more movement (in all planes) is possible.
That's why a Minus K stand is 'tuned' to specific weights and is able to move alarmingly when pushed?
Because of the problems in effectively designing an integral 'compliant' or 'sprung' footer system for turntables.....most new racks and shelving systems utilise a Stillpoints type of ball and cup isolation as well as constrained layer damping.
This Stillpoints type of footer is used for turntables, speakers and even amplifiers these days.
As you know that my turntable is placed on a masonry wall-mounted shelf and avoids any form of Structure-Borne feedback......I'm puzzled by your suggestion to 'improve' my set-up by using compliant footers?
In my situation....all this will do is introduce possible movement of the footers due to weight shifting of the tonearm and cartridge as well as temperature and humidity variations?
There is no possible 'up-side' to compliant footers if there is no Structure-Borne feedback.
Now if your system is sitting on a suspended floor-mounted rack or shelving system........there may be advantages to your method of support? :-)