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Shock Absorbing Webbing / Rope Single / Double Lanyard with Energy Absorber

Short Description:


  • Material: Polyester
  • Capacity: 23-32KN
  • Color: Customized
  • Type: Webbing/Rope
  • Rope diameter: 14MM
  • Webbing width: 45MM
  • Standard: EN355
  • Product Detail

    Product Tags

    • Product Description

     

    In various industries, safety is paramount, and the use of personal protective equipment (PPE) is a fundamental aspect of ensuring the well-being of workers. One crucial component of PPE is the lanyard, a versatile tool used for restraint, positioning, and fall protection. To further enhance safety measures, lanyards with energy absorbers have become an innovative solution that significantly reduces the impact forces experienced during falls. This article explores the importance of lanyards with energy absorbers, their design principles, and their applications in ensuring a safer working environment.

     

     

     

    Safety lanyards, typically made of durable materials polyester, single leg or double leg, webbing lanyard or rope lanyard, serve as connectors between a worker’s harness and an anchor point. They are crucial in preventing falls by restricting a worker’s movement or providing a means of support during positioning tasks. However, the sudden stop caused by a fall can generate substantial forces, posing a risk of injury. This is where energy absorbers come into play.

     

     

     

    An energy absorber is a device integrated into a lanyard that mitigates the impact forces generated during a fall. It works by dissipating the kinetic energy produced when a fall occurs, thus reducing the force transmitted to the worker and the anchorage point. This mechanism significantly lowers the risk of injury, making lanyards with energy absorbers an indispensable component in fall protection systems.

     

    Design Principles:

     

    The design of lanyards with energy absorbers involves careful consideration of various factors, including the type of work, fall distances, and anchor point locations. There are two primary types of energy absorbers: tearing and deformation.

     

    1. Tearing Energy Absorbers: These designs involve the intentional tearing of webbing or stitching within the lanyard when subjected to a sudden force. This tearing action absorbs the energy and limits the impact on the user.
    2. Deformation Energy Absorbers: These designs rely on the controlled deformation of specific materials, such as specially designed stitching patterns or the use of deformable elements, to absorb and dissipate energy.

     

    Applications:

     

    Lanyards with energy absorbers find applications in various industries, including construction, maintenance, telecommunications, and more. Wherever workers are at risk of falling from heights, these safety devices play a crucial role in preventing injuries.

     

    1. Construction: Construction workers often operate at elevated heights, making fall protection essential. Lanyards with energy absorbers are widely used in this industry to enhance safety during tasks like roofing, scaffolding, and steel erection.
    2. Maintenance and Inspection: Workers performing maintenance or inspection tasks on structures, such as bridges, towers, or wind turbines, benefit from lanyards with energy absorbers to reduce the impact forces in the event of a fall.

     

     

     

    • Specification:

    Model Number: HC001-HC619 Safety lanyard

    safety lanyard specification

    safety specification 1

    safety lanyard specification 2

    safety lanyard specification 3

    • Cautions:

     

    1. Proper Inspection: Always inspect the lanyard before use. Check for any signs of damage, such as cuts, fraying, or weakened areas. Ensure all hooks and connections are functioning properly.
    2. Correct Length: Ensure that the lanyard is of the appropriate length for the specific task. Avoid using a lanyard that is too short or too long, as this can affect its effectiveness in the event of a fall.
    3. Training: Be properly trained in the correct use of the harness, including how to put it on, adjust it, and connect it to an anchor or lanyard. Ensure you understand how to use the harness effectively in emergency situations.
    4. Anchorage Points: Always attach the harness to approved anchorage points. Ensure the anchor points are secure and capable of withstanding the required forces.
    5. Avoid Sharp Edges: Do not expose the lanyard or energy absorber to sharp edges or abrasive surfaces that could compromise their integrity.

     

     

    • Application:

    safety harness application

    • Process & Packing

    safety harness process


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