For a core insert base (stainless steel) and top plate for use with 3M DBI SALA HC Davit Mast in the formation of a confined space rescue and work support system, use 3M DBI SALA Confined Space HC (High Capacity) Core Insert Base with Top Plate. The core insert base with top plate is constructed of SAE 304 stainless steel which provides corrosion protection against the elements and is silver in appearance. It's designed to be installed flush onto the working surface, reducing surface obstructions that can occur with surface mounted davit bases. The top plate is equipped with mounting holes used to accommodate four M20 fasteners used to fix the base to the mounting surface. This feature is ideal in situations in which substrate thickness is inadequate to accommodate the entire sleeve portion of the base. The friction reducing insert sleeve is constructed of thermoplastic which aids in davit rotation. When used as part of a complete system, this base meets the requirements of EN795:2012, EN1496:2006, CEN/TS 16415: 2013, and AS/NZS 5532. All 3M DBI SALA HC Bases are designed to be used in combination with 3M DBI SALA HC Davit Masts, and together form a perfectly matched confined space rescue and work support system. When it comes to confined space entry/rescue, it's essential that equipment operates perfectly and quickly. 3M has an extensive line of rescue and retrieval systems with decades of proven field service. Safety engineers and site directors trust 3M DBI SALA for the type of high quality, rugged systems that will ensure top performance when it is needed the most.
- Sandblasted surface finish
- 360 degree davit mast rotation
- Permanent installation
- Also available in galvanised steel
- For use with all 3M DBI-SALA HC Davits
- Replaces Manufacturer Part Number 8562827
Specifications:
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Mast/Sleeve Diameter: 10 cm (4 in)
- Recommended Industry: Construction, General Industry, Mining, Oil & Gas, Transportation, Utilities
- Standards When Used As Part Of A Complete System: EN795:2012, EN1496:2006, CEN/TS 16415: 2013, and AS/NZS 5532