Weldable Roof Anchor with Base Plate
Where narrow flange beams do not have adequate width for bearing and weld of a roof anchor post, this anchor is designed with integrated baseplate to facilitate proper welded connection. Typically a new construction application and used only where welding operations are practical.
Suspended Maintenance Specifications
Our window washing anchors are designed by our on-staff engineering team and fabricated by in-house certified welders to meet and exceed OSHA fall protection regulations and ANSI standards. Diversified offers in-stock, standard window washing anchors but we can create custom solutions to meet your specific needs. Review our standard window washing anchor offerings here, or contact Diversified Fall Protection to discuss applications requiring custom engineered solutions.
Window Washing Anchor Design Considerations
Rope descent systems-
Before any rope descent system is used, the building owner must inform the employer, in writing that the building owner has identified, tested, certified, and maintained each anchorage so it is capable of supporting at least 5,000 pounds (268 kg), in any direction, for each employee attached. The information must be based on an annual inspection by a qualified person and certification of each anchorage by a qualified person, as necessary, and at least every 10 years.
The employer must ensure that no employee uses any anchorage before the employer has obtained written information from the building owner that each anchorage meets the requirements of paragraph (b)(1)(i) of this section. The employer must keep the information for the duration of the job.
The requirements in paragraphs (b)(1)(i) and (ii) of this section must be implemented no later than November 20, 2017.
Use of rope descent systems. The employer must ensure:
No rope descent system is used for heights greater than 300 feet (91 m) above grade unless the employer demonstrates that it is not feasible to access such heights by any other means or that those means pose a greater hazard than using a rope descent system;
The rope descent system is used in accordance with instructions, warnings, and design limitations set by the manufacturer or under the direction of a qualified person;
Each employee who uses the rope descent system is trained in accordance with § 1910.30;
The rope descent system is inspected at the start of each workshift that it is to be used. The employer must ensure damaged or defective equipment is removed from service immediately and replaced;
The rope descent system has proper rigging, including anchorages and tiebacks, with particular emphasis on providing tiebacks when counterweights, cornice hooks, or similar non-permanent anchorages are used;
Each employee uses a separate, independent personal fall arrest system that meets the requirements of subpart I of this part;
All components of each rope descent system, except seat boards, are capable of sustaining a minimum rated load of 5,000 pounds (22.2 kN). Seat boards must be capable of supporting a live load of 300 pounds (136 kg);
Prompt rescue of each employee is provided in the event of a fall;
The ropes of each rope descent system are effectively padded or otherwise protected, where they can contact edges of the building, anchorage, obstructions, or other surfaces, to prevent them from being cut or weakened;
Stabilization is provided at the specific work location when descents are greater than 130 feet (39.6 m);
No employee uses a rope descent system when hazardous weather conditions, such as storms or gusty or excessive wind, are present;
Equipment, such as tools, squeegees, or buckets, is secured by a tool lanyard or similar method to prevent it from falling; and
The ropes of each rope descent system are protected from exposure to open flames, hot work, corrosive chemicals, and other destructive conditions.
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