Teco Westinghouse: Stainless Steel Washdown

January 19, 2021

Stainless Steel Washdown motors are specifically designed for the rugged and demanding environments required for Car Wash, Food Processing, and other Washdown applications.


  •    –   1/2-10HP
  •    –   Totally Enclosed Fan Cooled IP66 Design
  •    –   60Hz, 230/460V or 575V
  •    –   Horizontal F1 Mount
  •    –   3600 & 1800 RPM
  •    –   NEMA Premium Efficiency
  •    –   1.15 S.F.
  •    –   Class B Temperature Rise
  •    –   Continuous Duty
  •    –   40°C Ambient
  •    –   Class F Insulation
  •    –   NEMA Design B Torques
  •    –   Stainless Steel Frame, End Brackets and Hardware
  •    –   Grounding Terminal Inside Main Conduit Box
  •    –   Stainless Steel Oversized Main Conduit Box – F3 Mounted (IM1001)
  •    –   Designed for 3300 ft. Elevation
  •    –   Bi-Directional Rotation
  •    –   SUS304 Stainless Steel Shaft
  •    –   Double Shielded Bearings Pre-Packed with MULTEMP SRL
  •    –   Contact Lip Type Seal on Both Ends
  •    –   Etched Nameplate on the Stainless Steel Frame
  •    –   New Dual Column Design Nameplate as Standard (60/50 Hz)
  •    –   Aluminum Die Cast Squirrel Cage Rotor Construction
  •    –   Suitable for Inverter Use per NEMA MG-, Part 31
  •    –   Inverter Duty Speed Range: 10:1 Variable Torque, 4:1 Constant Torque
  •    –   9 Leads
  •    –   Two Drain Holes on Bottom of Frame and one in the C-Flange
  •    –   Motors are U.L. Recognized, CSA Approved and CE Marked
  •    –   Department of Energy Efficiency Certificate # CC082A
  •    –   Encapsulated Windings as Option


Related Articles

  • New G2RV-ST And G3RV-ST Relays from Omron

    New G2RV-ST And G3RV-ST Relays from Omron

    Omron’s New G2RV-ST And G3RV-ST Relays Are Among the Fastest in the Industry That Provide Better Visibility, Top-Notch Reliability, and Vibration Resistance January 23, 2023 Speedier relays are a key requirement in today’s fast-paced manufacturing industry, and Omron responded to this need with the new ST relays that are among the fastest available on the… Read More…

Editor’s Pick: Featured Article

Conserving Power and CO2 Emissions with Premium Efficiency Motors

The process of converting electrical energy to mechanical energy is never perfect. As much as we would like to have a 100% efficient motor, it is impossible to build a machine that will take 746 watts of electricity (the equivalent of 1 Hp) and convert it to 1 Hp of mechanical output. It always takes somewhat more than 746 watts to yield 1 Hp’s worth of output.

Motors are continuously being pushed to be more efficient and reduce these losses. Over the years the guiding regulations of motor manufacturing have pushed us to improve efficiencies to new levels to reduce the considerable global power consumption of motors, as they are everywhere. From our factories, utilities and homes and most anywhere you can think of.

How much power consumption aka money are you spending that you do not have to? Take a minute while having your coffee to see if you can save money.

Read More

Latest Articles