Reversible Motors World K Series With Thermal Protector for Signals

2RK6A-CWJ

2RK6A-CWJ

Motor

  This product is currently no longer available for sale
Product Classification Product Name List Price List Price Shipping Date
Motor 2RK6A-CWJ - - Discontinued Product
(1.4.2015 discontinued)

Included

  • Motor : Motor, Capacitor, Capacitor Cap, Operating Manual

Specifications

Data Download

Other Specifications

General Specifications

Item Specifications
Insulation Resistance After rated operation at normal ambient temperature and humidity, the measurement between the coils and the case is 100 MΩ min. using a 500 VDC megger.
Dielectric Strength No abnormality is observed even with an application of 1.5 kVAC at 50 Hz between the coils and the case for 1 minute after rated operation at normal ambient temperature and humidity.
Temperature Rise A gearhead or equivalent heat sink* connected to the motor and the winding temperature rise is measured at 80 °C max. using the resistance change method after continuous rated operation under normal ambient temperature and humidity.
Thermal Class 130 (B)
Overheat Protective Device 6 W Type: Impedance protection
Other Types: Built-in thermal protector (automatic return type) Open: 130 ± 5 °C, Return: 82 ± 15 °C
Operating Ambient Temperature Single-Phase 100 V, Single-Phase 200 V: -10~+50 °C (Non-freezing)
Other Voltages: -10~+40 °C (Non-freezing)
Operating Ambient Humidity 85 % max. (Non-condensing)
Degree of Protection Lead Wire Type: IP20
Terminal Box Type: IP40
  • *Heat sink size (Material: Aluminum)
Motor Type (Output Power) Size (mm) Thickness (mm)
6 W Type 115 x 115 5
15 W Type 125 x 125
25 W Type 135 x 135
40 W Type 165 x 165
60 W Type, 90 W Type 200 x 200

Permissible Radial Load and Permissible Axial Load of Round Shaft Type

Permissible Radial Load

Motor Permissible Radial Load N
Frame Size □ (mm) Output Shaft Diameter φ (mm) From Shaft End
10 mm
From Shaft End
20 mm
42 5 40 -
60 6 50 110
70 6 40 60
80 8 90 140
90 10 140 200
12 240 270

Permissible Axial Load

Avoid axial load as much as possible. If an axial load is unavoidable, keep it at half or less of the motor mass.

Radial Load and Axial Load

System Configuration

System Configuration

close