Ocal® ELL230-G BLUE™ ELL230-G Standard Radius Conduit Elbow, 2 in Trade, 30 deg, Rigid Steel, Hot Dipped Galvanized
Conduit Elbows
501216
MFG #: ELL230-G
Ocal®
87.44000
/ ea
- Alternate Catalog Number: 7TAA087100R0025
- Application: To Change Direction for Threaded, Rigid Conduit or When Terminating at a Box or Fitting
- ARRA Compliant: C
- Bend Angle: 30 °
- Buy American Compliant: C
- Catalog Number: ELL230-G
- Country of Origin: US
- Currency: USD
- Depth: 21.920000000000000 in
- Dimensions: 21.92 in L
- EU RoHS Indicator: C
- Gross Volume Per Pack: 1.73
- Gross Volume per Pack Metric: 28.32
- Gross Weight Per Pack: 5.0400 lb
- Gross Weight per Pack Metric: 2.29
- Gross Weight UOM Metric: kg
- Harmonization Tariff Schedule Code: 7307199060
- Height: 1.00 in
- Height [Metric]: 2.5400 cm
- Item Group: 08708
- Item Group 2: 087
- Length [Metric]: 2.5400 cm
- Radius: 9-1/2 in
- Returnable: Y
- Series: ELL
- Suitable For Use With: Rigid/Electrical Conduits
- Type: Standard Radius Straight End
- UNSPSC: 39131717
- UPC 11: 70450842329
- UPC 12: 704508423292
- Width: 1.00 in
- Width [Metric]: 2.5400 cm
- Stock Status: NONSTOCK
- Brand: Ocal®
- Manufacturer: Thomas & Betts
- Finish: Hot-Dip Galvanize
- Color: Gray
- Material: Steel
- Trade Size: 2 in
- Length: 1.00 in
ABB OCAL-BLUE™ Conduit Elbow, Standard Radius, 2 in, 30 deg, 9-1/2 in Radius, For Use With: Rigid Conduit, Rigid Steel, Gray, Hot Dipped Galvanized, 21.92 in L
- Seller Home Page URL - 267(Seller Home Page URL)
- Spec Sheet 1 URL - ABB_ELL230_G_Data_Sheet.pdf(Spec Sheet 1 URL)
- Spec Sheet URL - 12056_9KJEB75AX0SDL16U.pdf(Spec Sheet URL)
- Spec Sheet URL - WSD-000551.pdf(Spec Sheet URL)
- Tech Drawing URL(Tech Drawing URL)
- Video - https://www.youtube.com/embed/0fotiIQgN8g(Video)
- Applications
- Features
To Change Direction for Threaded, Rigid Conduit or When Terminating at a Box or Fitting |
Color-Coded Thread Protectors for Easy Identification of Conduit Size |
Ocal-Blue® standard radius elbows are factory bent to reduce the time and wasted materials that can result from field bending |