-
Rotary paddle level switch
Rotonivo® - RN 3001
Medium Solids Process pressure -0,9 bar ... +10 bar (-13.1 psi … +145 psi) Process temperature -40°C ... +1100°C (-40°F … +2012°F) -
Rotary paddle level switch
Rotonivo® - RN 3002 - Rope
Medium Solids Process pressure -0,9 bar ... +10 bar (-13.1 psi … +145 psi) Process temperature -40°C ... +600°C (-40°F … +1112°F) -
Rotary paddle level switch
Rotonivo® - RN 3002 - Tube
Medium Solids Process pressure -0,9 bar ... +10 bar (-13.1 psi … +145 psi) Process temperature -40°C ... +1100°C (-40°F … +2012°F) -
Rotary paddle level switch
Rotonivo® - RN 3002 strengthened rope version
Medium Solids Process pressure -0,9 bar ... +10 bar (-13.1 psi … +145 psi) Process temperature -40°C ... +600°C (-40°F … +1112°F) -
Rotary paddle level switch
Rotonivo® - RN 3003
Medium Solids Process pressure -0,9 bar ... +10 bar (-13.1 psi … +145 psi) Process temperature -40°C ... +250°C (-40°F … +482°F) -
Rotary paddle level switch
Rotonivo® - RN 3004
Medium Solids Process pressure -0,9 bar ... +10 bar (-13.1 psi … +145 psi) Process temperature -40°C ... +600°C (-40°F … +1112°F) -
Rotary paddle level switch
Rotonivo® - RN 3005
Medium Solids Process pressure -0,9 bar ... +0,8 bar (-13.1 psi … +11.6 psi) Process temperature -40°C ... +80°C (-40°F … +176°F) -
Rotary paddle level switch
Rotonivo® - RN 4001
Medium Solids Process pressure -0,9 bar ... +0,8 bar (-13.1 psi … +11.6 psi) Process temperature -40°C ... +80°C (-40°F … +176°F) -
Rotary paddle level switch
Rotonivo® - RN 6001
Medium Solids Process pressure -0,9 bar ... +10 bar (-13.1 psi … +145 psi) Process temperature -40°C ... +1100°C (-40°F … +2012°F) -
Rotary paddle level switch
Rotonivo® - RN 6002 - Rope
Medium Solids Process pressure -0,9 bar ... +10 bar (-13.1 psi … +145 psi) Process temperature -40°C ... +600°C (-40°F … +1112°F) -
Rotary paddle level switch
Rotonivo® - RN 6002 - strengthened rope version
Medium Solids Process pressure -0,9 bar ... +10 bar (-13.1 psi … +145 psi) Process temperature -40°C ... +600°C (-40°F … +1112°F) -
Rotary paddle level switch
Rotonivo® - RN 6002 - Tube
Medium Solids Process pressure -0,9 bar ... +10 bar (-13.1 psi … +145 psi) Process temperature -40°C ... +1100°C (-40°F … +2012°F) -
Rotary paddle level switch
Rotonivo® - RN 6003
Medium Solids Process pressure -0,9 bar ... +10 bar (-13.1 psi … +145 psi) Process temperature -40°C ... +250°C (-40°F … +482°F) -
Rotary paddle level switch
Rotonivo® - RN 6004
Medium Solids Process pressure -0,9 bar ... +10 bar (-13.1 psi … +145 psi) Process temperature -40°C ... +600°C (-40°F … +1112°F)
with Rotary paddle switch
Depending on the requirements the
are used as a full, demand or empty detector in storage silos or process vessels and is suitable for use in almost all solids. With their simple electromechanical measuring principle, they can also be adapted to extreme process conditions. The UWT can be used in applications with process temperatures of up to 1100°C and process pressures of up to 10 bar.The robust and versatile functional principle is based on a motor-driven, rotating measuring blade, which is inhibited in its rotary motion when covered with bulk material. This creates a counter-torque which is converted into the electrical output signal "covered" via a swivel movement at a switch. If the bulk material no longer covers the measuring blade, the switch is reset to its initial position via a spring. The original state is reached again, the output signal is inverted.
with Rotary paddle switch
Depending on the requirements the
are used as a full, demand or empty detector in storage silos or process vessels and is suitable for use in almost all solids. With their simple electromechanical measuring principle, they can also be adapted to extreme process conditions. The UWT can be used in applications with process temperatures of up to 1100°C and process pressures of up to 10 bar.The robust and versatile functional principle is based on a motor-driven, rotating measuring blade, which is inhibited in its rotary motion when covered with bulk material. This creates a counter-torque which is converted into the electrical output signal "covered" via a swivel movement at a switch. If the bulk material no longer covers the measuring blade, the switch is reset to its initial position via a spring. The original state is reached again, the output signal is inverted.