30A 2W2P CONN ASSY | Electrozad South

Product image for 30A 2W2P CONN ASSY

To:
CC:

30A 2W2P CONN ASSY

Manufacturer: Hubbell Killark Fittings | Catalog # VPR3255 | Electrozad South Part # 285278

*Call For Price*
Log in or register to view your price, purchase history, and more!
Usually ships within 12 to 18 days
30A 2W2P Connector Assembly

Technical Information

Amperage
30 A
Applications
VERSAMATE metallic pin and sleeve connectors are designed for heavy duty industrial use. These devices supply power to both fixed and portable electrical equipment including pumps, generators, welders, vacuums, blowers, and similar apparatus. Suitable for indoor or outdoor use. Applications include the wet, cold, hosedown, hazardous, or corrosive areas in such industrial applications as: pulp and paper mills; electrical power plants; petrochemical plants; wastewater treatment; marine, docks, ports; construction sites; breweries; refineries; chemical plants; grain facilities; textile manufacturing; and food processing facilities.
Material
Aluminum,Beryllium Copper,Brass,Stainless Steel
Number of Poles
2 Pole
Number of Wires
2
Size
3-1/16" H x 2-17/32" W x 7-17/32" D
Type
Aluminum NEMA 4X metallic connector
Wire Size
Regular stranding: #10-#6; extra flex: #10-#8

Manufacturer Information

Brand
Killark
Sub Brand
VERSAMATE

General Product Info

12-Digit UPC
783936834207
Color
Gray
Finish
Baked Powder Epoxy/Polyester Finish
GTIN
00783936834207
Product UPC
78393683420

Dimensions

Height
3.06 in
Length
7.53 in
Width
3.06 in

Certifications & Compliance

Country of Origin
USA
Overview
  • Type 4X rating when inserted into VersaMate receptacle and locking ring is tightened.
  • Increased Safety type box terminals with gripper ribs securely clamp around conductors.
  • Insulators have high mechanical and dielectric strength.
  • Feature an octagonal body style, ensuring a sure grip when connecting or disconnecting.
  • Includes suitability for Type P marine cable.
  • Funneled conductor entry chambers lead all properly stripped conductors into terminals simultaneously.



Compare