Turbine vibrators use compressed air to turn an unbalanced turbine wheel producing rotary vibration. The more unbalanced the wheel and the faster it turns the greater the centrifugal force produced. In general, properly designed turbine vibrators are much more quiet and efficient than other types of pneumatic rotary vibrators (i.e. ball or roller vibrators).
Applications:
Features:
Operating Requirements:
Frequency at 20 PSI (1.4 BAR) |
N/A 24,500 rpm |
Air Flow at 20 PSI (1.4 BAR) |
N/A <1.0 cfm |
Force at 20 PSI (1.4 BAR) |
N/A 102 lbs |
Frequency at 40 PSI (2.8 BAR) |
N/A 32,000 rpm |
Air Flow at 40 PSI (2.8 BAR) |
N/A 1.4 cfm |
Force at 40 PSI (2.8 BAR) |
N/A 174 lbs |
Frequency at 60 PSI (4.1 BAR) |
N/A 36,000 rpm |
Air Flow at 60 PSI (4.1 BAR) |
N/A 1.8 cfm |
Force at 60 PSI (4.1 BAR) |
N/A 220 lbs |
Frequency at 80 PSI (5.5 BAR) |
N/A 40,000 rpm |
Air Flow at 80 PSI (5.5 BAR) |
N/A 2.1 cfm |
Force at 80 PSI (5.5 BAR) |
N/A 272 lbs |
Weight lbs. |
N/A 0.7 |
(A) Inch |
N/A 2.5 |
(B) Inch |
N/A 2 |
(C) Inch |
N/A 1.25 |
(D) Inch |
N/A 1.938 |
(E) Inch |
N/A 5/16" |
(F) Inch |
N/A 1/8" NPT |