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Pulley System Efficiency Tests MAESTRO and PRO TRAXION

Written By: Lance Piatt

Pulley system efficiency

Pulley System Efficiency Tests with the MAESTRO, ID S, PRO TRAXION, and ROLLCLIP

The efficiency of pulley systems is a critical consideration in rope rescue, rope access, and confined space operations. While theoretical efficiency provides a baseline, actual efficiency can vary significantly due to real-world variables. This article explores findings from Petzl’s lab, which tested the force required to raise a 100 kg mass under various configurations, using different devices at the head of the system and ropes of various diameters.

Test Protocol and Variables

The following parameters were evaluated:

  1. Ropes Tested:
    • 7 mm cord, SEGMENT 8 mm, PUSH 9 mm, CLUB 10 mm, PARALLEL 10.5 mm, AXIS 11 mm, VECTOR 12.5 mm.
  2. Pull Rate:
    • A constant rate of 1.5 meters per minute was maintained.
  3. Devices Tested:
    • MAESTRO, ID S, PRO TRAXION, ROLLCLIP.
  4. Conditions:
    • Tests were performed on new devices and ropes under controlled conditions. Field use may yield different results due to factors like hauling speed, rope wear, and positioning of system elements.

SIMPLE DIRECTIONAL (1:1)

Note: pulley efficiency ratings in the Instructions for Use are based on values measured with a simple 1:1 directional.

Hauling efficiency F = xx M is the value obtained with the smallest compatible rope diameter for the device.

The pulley efficiency expressed in % is calculated from this value.

Efficiency is always less than 100%, the efficiency of an ideal pulley (impossible in reality).

Example for MAESTRO S: F = 116 M, efficiency = 86%

Findings

1:1 Simple Directional Pulley System

In this configuration, the force required to lift the load reflects the efficiency of the pulley system, with efficiency percentages calculated relative to an ideal pulley (100% efficiency is unattainable in reality). For example:

  • MAESTRO S: Efficiency was measured at 86%, with a force (F) of 116 M using the smallest compatible rope diameter.

2:1 Simple Directional Pulley System

This configuration slightly increases mechanical advantage but still relies on a single point of redirection. Efficiency varies depending on the rope and device used.

3:1 Haul System

A common system in rescue scenarios, the 3:1 haul system demonstrated efficiency variations depending on the redirect point used. Proper alignment and selection of high-efficiency pulleys, like the PRO TRAXION, can optimize performance.

4:1 and 5:1 Haul Systems

As mechanical advantage increases, the system becomes more complex, and friction losses compound, reducing overall efficiency. Selecting devices with integrated progress capture, such as the MAESTRO, mitigates some of these losses.

Real-World Considerations

While the lab results provide valuable insights, actual efficiency in the field depends on:

  • Rope Type and Diameter: Larger diameter ropes tend to decrease efficiency.
  • Positioning of System Elements: Misalignment or improper spacing can introduce friction.
  • Hauling Technique: Smooth and consistent hauling improves system performance.
  • Load Characteristics: Uneven loads or dynamic movement can impact efficiency.

SIMPLE DIRECTIONAL (2:1)

HAUL SYSTEM (3:1)

HAUL SYSTEM (4:1)

HAUL SYSTEM (5:1)

2. 3:1 haul system efficiency depending on the redirect point used

Conclusion

The choice of device and system configuration significantly impacts hauling efficiency. Devices like the PETZL MAESTRO and PRO TRAXION offer high efficiency and are well-suited for complex systems. However, understanding the nuances of system setup and maintenance is essential for achieving optimal performance.

For more detailed training and insights into pulley systems and mechanical advantage, visit Rigging Lab Academy and explore our in-depth courses on rope rescue and technical rigging.

Peace on your Days

Lance
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About The Author:

Picture of Lance Piatt

Lance Piatt

Beginning his career in the rescue and rigging world as a “blue collar” SAR member with Deschutes and Jefferson County teams. Lance Piatt owns and operates Red Ibex Solutions, a sales and marketing wheelhouse blending rope rigging education and exquisite imagery with equipment knowledge and understanding; housing Rigging Lab Academy and Rescue Response Gear… Lance is producing high-end video education, working with several experts and instructors to produce unique series of “how to videos” and courses for rope rigging: Such as; the first ever full-length rescue training DVD, 'Tower Rescue', released in fall of 2005. As well as a series of scenario-based rescues ranging from cave rescue to cliff rescue.

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