Twin Tension System Knot Pass for Raising Operations – The Twin Tension System (TTS) offers a significant advantage in rope rescue operations, particularly when navigating knot passing during raising evolutions. This method uses dual mainlines and staggered knot positions to allow continuous control of the load, enabling one side of the system to manage tension […]
Twin Tension System Knot Pass for Raising Operations Read More »
Mastering the Portuguese Bowline for Focusable Anchor Systems When precision matters and your anchor system needs to work under dynamic loads, few knots offer the directional flexibility and equalized tension control of the Portuguese Bowline. This isn’t just another anchor knot—it’s a system designed to adapt. In this guide, we walk through the steps to
Portuguese Bowline for Anchoring Systems Read More »
Spanned Anchors in Rope Rescue Spanned anchors play a critical role in rope rescue operations, especially when anchor points must be established across gaps, uneven terrain, or large horizontal distances. Unlike traditional anchors that rely on fixed points, spanned anchors offer flexibility in positioning and load distribution. But with this versatility comes added complexity, and
Spanned Anchors in Rope Rescue Read More »
Eccentric Progress Capture in Mechanical Advantage Systems Eccentric Progress Capture in Mechanical Advantage Systems in rope rescue systems – most mechanical advantage setups are designed to pull or contract—that is, to haul loads upward or horizontally. But not all scenarios are about lifting. Some require controlled lowering under load while maintaining tension and control. This
Eccentric Progress Capture in Mechanical Advantage Systems Read More »
The Evolution of Rope Access: Traditional Systems vs. Emerging Twin Primary Systems Rope access techniques are foundational to safe and efficient at-height work, whether in industrial settings, arborist operations, or rescue scenarios. Over time, the field has seen shifts in methodology and equipment, with emerging systems challenging traditional setups. In this blog, we explore the
A 2 Rope System Comparison Read More »
Pickoff Overview This pickoff rescue overview involves rescuing a climber, hiker, or subject from various angles and terrains, particularly on less-than-vertical slopes. While these environments may appear less hazardous than high-angle rescues, they often pose unique challenges and risks. Statistically, more injuries and fatalities occur on low- to mid-angle slopes, and these rescues often require
Pickoff Rescue Overview Read More »
Haul System Basics and the Mechanics of Pulley Systems Haul systems form the backbone of rigging and rescue operations, using the principles of mechanical advantage to reduce the effort required to lift or move heavy loads. By integrating pulley systems into these setups, operators can achieve remarkable efficiency and safety. This guide dives deeper into
Haul System Basics Pulley Systems and Mechanical Advantage Read More »
Force Vectors and Horizontal Systems in Rope Rigging Understanding the dynamics of force vectors is crucial for designing safe and effective rope rigging systems. When working with multiple anchor points, technicians must carefully manage the angles formed between these points. Larger angles result in greater stress on the anchors, potentially compromising the system’s integrity. Minimizing
Force Vectors and Horizontal Systems Read More »
The Art of Staggered Anchors in Rope Rigging Systems In the world of rope rigging, pulley systems are the backbone of many operations. Whether you’re working with a standard three-to-one mechanical advantage system or a compounded setup for more complex scenarios, understanding the nuances of staggered anchors is key to maximizing efficiency and safety.
Staggered Anchors in Rope Rigging Systems Read More »
Highline Systems Overview Highline systems overview would be considered a cornerstone of advanced rope rescue operations, enabling safe and efficient horizontal movement across challenging obstacles such as canyons, rivers, or urban gaps. These systems require meticulous planning, precise execution, and teamwork to ensure both safety and success. This blog delves into the critical components, operational
Highline Systems Overview and Checklist Read More »
