Vrigger Software May 2026

The storm broke over the Blackwood Ridge just as Elias finished clicking the final carabiner into place on his screen. Outside his window, the real-world wind howled, but inside the glow of his office, he was focused on

, the virtual rigging software that had become his ritual before every high-stakes rescue.

Elias wasn't just a climber; he was the lead instructor for the county’s Search and Rescue team. Tomorrow, they were heading into the "Devil’s Throat," a narrow canyon where a simple slip could mean a sixty-foot drop into white water. Most riggers relied on muscle memory, but Elias relied on physics. He dragged a Gear Finder

and snapped it onto a 12.5mm static rope. With a few more clicks, he built a

—a classic 3:1 mechanical advantage system used for hauling heavy loads. He then toggled the Force Calculations feature. Suddenly, the system came alive with data.

The numbers on the screen turned a cautionary yellow. At the sharpest angle of the high-directional tripod, the force was nearing the limit of the anchor point he had planned to use. "Too much shear," he muttered. He adjusted the rope joiners

and added a second anchor to distribute the load. The numbers on his screen settled back into a safe, comforting green. He’d just prevented a theoretical equipment failure that could have been catastrophic in the field. Satisfied, Elias exported the layout to a PDF training manual

for his team. As he watched the printer hum, he thought about Steve Achelis, the developer of vRigger and author of Mountain Responder

. Steve had seen these accidents firsthand; now, because of this software, Elias’s team wouldn't have to.

The next morning, standing on the edge of the actual Devil's Throat, Elias looked at the real-life anchors. They looked exactly like the images on his screen . He knew exactly where the forces were flowing.

"Rig it just like the diagram, boys," he said, clipping his real carabiner into the real rock. "The math is already on our side." or how to add custom gear to vRigger? vRigger Rope Rigging Software

vRigger is a specialized Windows-based desktop application used by professionals to design, test, and teach rope rigging systems

. It is widely employed in mountain and urban rescue, firefighting, rope access, and theatrical rigging. Core Capabilities System Design & Illustration

: Create high-quality diagrams of complex rope systems by dragging and dropping gear onto a virtual workspace. Force & Physics Calculations

: Automatically calculate forces on every component in a system. The software accounts for variables like friction (in pulleys, carabiners, and descenders), rope angles, and the weight of individual pieces of gear. Mechanical Advantage Analysis

: Determine the mechanical advantage (MA) of hauling systems. It can display theoretical vs. real-world MA while considering friction and system efficiency. Safety Monitoring

: Set minimum safety factors; the software will display warning or failure symbols if forces exceed a component's breaking strength or the specified safety threshold. Gear & Components Extensive Gear Library : Includes over 420 standard items such as carabiners, pulleys, rope grabs, and anchors. Optional Gear Kit 193 specialized items

for industrial use (anchor bolts, hoists), rope access (shock absorbers), theatrical rigging (circus performers, speakers), and firefighting. Custom Gear Builder

: Power users can create their own gear by importing images and defining technical specifications like breaking strength and friction coefficients. Flexible Ropes & Webbing

: Ropes "snap" to gear automatically and stay connected when components are moved or rearranged. Integration & Learning vRigger Gear

This proposal outlines a technical yet engaging paper focusing on vRigger software (formerly RescueRigger), which is used to design, illustrate, and calculate forces in rope rigging systems for rescue, industry, and theater. Paper Title Idea

"Simulating Safety: How vRigger Software Transforms Complex Rope Systems into Calculable Digital Assets" Executive Summary/Abstract

Rope rigging in rescue, industrial access, and theatrical environments involves immense forces and significant safety risks. Traditionally, calculating mechanical advantage ( MAcap M cap A

), friction, and breaking strengths required manual, error-prone calculations. This paper explores how vRigger software revolutionizes this process by offering a 2D virtual workspace that enables the design, testing, and documentation of rigging systems. We will examine its ability to simulate real-world physics, calculate forces instantly, and produce high-quality documentation for training and compliance. 1. Introduction

The Problem: The high-stakes, time-critical nature of rigging where failure can lead to catastrophic accidents.

The Solution: The evolution of "RescueRigger" to the modernized vRigger (Virtual Rigger).

Purpose: To analyze how vRigger, with its library of over 420+ pieces of gear, allows users to visualize and analyze systems before stepping onto the field. 2. The Anatomy of vRigger Software

Interface and Usability: A user-friendly interface that mimics Microsoft Office, allowing for rapid adoption by professionals.

Drag-and-Drop Gear: Utilizing the Extensive Gear Library (Carabiners, Pulleys, Ropes) to build complex systems quickly.

Gear Builder: An innovative tool allowing users to import custom gear (PNG files) to ensure the simulation matches their actual inventory. 3. Key Capabilities: Beyond Just Drawing

Real-time Force Calculations: Highlighting how vRigger calculates mechanical advantage, breaking strength, safety factors, and the complexities of friction (e.g., the difference in forces when raising vs. lowering).

3D Perspective in 2D: Utilizing rope benders to create the appearance of slack and 3D positioning of rigging.

Scenario Simulation: Case studies showing highline systems, confined space rescues, and industrial rope access. 4. Applications and User Impact

Rescue Teams: Mountain, swiftwater, and urban rescue scenarios.

Theatrical Rigging: Designing, testing, and documenting rigging for stage shows.

Training and Documentation: Creating professional, easy-to-understand diagrams for training manuals, reducing accidents caused by misunderstanding rigging plans. 5. Future Directions and Conclusion vrigger software

Continuous Improvement: Ongoing updates, including 64-bit transitions and improved gear management, demonstrate a commitment to user needs.

Conclusion: vRigger has moved from a niche tool to a standard in modern, high-angle, and industrial environments, providing an essential "pre-calculation" layer that enhances safety and efficiency. Why this is an "Interesting" Paper

Technical Focus: It delves into the physics of force calculations ( MAcap M cap A , friction).

Practical Utility: It solves a real-world problem—reducing risk in high-risk professions.

Visual Storytelling: vRigger produces excellent graphics that can make the paper visually engaging. To make this paper even better, I can:

Draft specific sections (like the introduction or a case study)

Focus more on the "safety calculation" aspect vs. the "illustration" aspect Gather more data on the "gear builder" feature Let me know which angle you'd like to dive into! vRigger Rope Rigging Software

I think you meant "trigger software".

Trigger software refers to a type of software that automates specific actions or workflows based on predefined triggers or conditions. These triggers can be events, such as changes in data, user interactions, or system states.

Some common examples of trigger software include:

1. Automation tools: Zapier, IFTTT (If This Then That), and Automator, which connect different apps and services to automate tasks.
2. Workflow management software: Tools like Microsoft Power Automate (formerly Microsoft Flow), Nintex, and K2, which design and automate business processes.
3. Event-driven software: Software that responds to specific events, such as changes in data or user interactions, like AWS Lambda or Google Cloud Functions.

Trigger software is commonly used in various industries, including:

1. Marketing automation
2. Customer relationship management (CRM)
3. Business process management (BPM)
4. Internet of Things (IoT)
5. DevOps and continuous integration

The mountain wind howled across the granite face, nearly drowning out the frantic calls from the ledge forty feet below. On that narrow outcrop, a climber sat with a shattered tibia, while the sun dipped dangerously low toward the horizon.

Back at the trailhead, Mark, the rescue coordinator, stared at his tablet. This wasn't a standard vertical haul; the jagged overhang and shifting scree meant a traditional Z-drag could snag or, worse, fail under the lateral tension. He opened vRigger, a specialized software used by search and rescue teams to design and analyze rope systems.

With a few quick drags on the screen, Mark began "building" the rescue.

Calculating Forces: He dropped in a 3:1 mechanical advantage system, but the software’s tension indicators flashed amber—the friction over the edge was too high for a three-man team to pull.

Virtual Prototyping: He swapped the pulley for a high-directional tripod and added a secondary "piggyback" system. The software instantly recalculated the loads on the anchors.

The Safety Check: vRigger confirmed that even with the added weight of a litter and a medic, the breaking strength of the primary line stayed well within the safety margin.

Mark didn't have to guess. He exported the diagram and sent it to the team’s phones. Following the digital blueprint, the rescuers rigged the complex system in record time. As the litter finally cleared the overhang, the injured climber looked up to see a perfectly executed web of nylon and steel—a system that had been "proven" in the digital world before a single knot was ever tied in the real one. vRigger | Facebook

Introduction

In today's digital age, technology has revolutionized the way we interact with the world around us. One such innovation that has gained significant attention in recent years is Virtual Reality (VR) and Augmented Reality (AR). To create immersive experiences in these realms, specialized software is required. This is where Trigger software comes into play.

What is Trigger Software?

Trigger software is a cutting-edge technology designed to create interactive and engaging experiences in Virtual Reality (VR) and Augmented Reality (AR) environments. Developed by industry experts, Trigger software enables users to design, build, and deploy interactive 3D experiences that simulate real-world environments. This software has numerous applications across various industries, including education, healthcare, entertainment, and more.

Key Features of Trigger Software

Some of the key features of Trigger software include:

1. Intuitive Interface: The software boasts an intuitive interface that allows users to easily create and customize their VR/AR experiences without requiring extensive coding knowledge.
2. 3D Modeling: Trigger software enables users to create stunning 3D models and environments that can be used to simulate real-world scenarios.
3. Interactive Elements: The software allows users to add interactive elements, such as buttons, animations, and physics, to create engaging experiences.
4. Cross-Platform Compatibility: Trigger software supports deployment on various platforms, including PC, mobile, and VR/AR devices.

Applications of Trigger Software

The applications of Trigger software are diverse and widespread. Some of the most notable examples include:

1. Education: Trigger software can be used to create interactive educational experiences that make learning more engaging and fun.
2. Healthcare: The software can be used to create simulations for medical training, therapy, and patient education.
3. Entertainment: Trigger software can be used to create immersive gaming experiences that transport players to new worlds.
4. Architecture and Real Estate: The software can be used to create virtual property tours and architectural visualizations.

Benefits of Trigger Software

The benefits of using Trigger software are numerous. Some of the most significant advantages include:

1. Increased Engagement: Trigger software enables users to create interactive experiences that increase engagement and participation.
2. Cost-Effective: The software provides a cost-effective solution for creating immersive experiences, reducing the need for physical infrastructure and equipment.
3. Improved Learning Outcomes: Trigger software can be used to create interactive educational experiences that improve learning outcomes and retention.

Conclusion

In conclusion, Trigger software is a powerful tool for creating interactive and engaging experiences in Virtual Reality (VR) and Augmented Reality (AR) environments. With its intuitive interface, 3D modeling capabilities, and cross-platform compatibility, Trigger software has numerous applications across various industries. As technology continues to evolve, the demand for Trigger software is likely to increase, making it an exciting and rapidly growing field.

In the world of professional rescue and rope access, the difference between a successful operation and a catastrophic failure often comes down to precise physics. Enter

, a specialized Windows software designed to help riggers plan, test, and illustrate complex rope systems before they ever step into the field. The Evolution of the Virtual Rigger The software was originally known as RescueRigger

, but as its utility spread beyond emergency services into theatrical rigging, industrial rope access, and tree climbing, it was rebranded as

(Virtual Rigger). It serves as a digital sandbox where professionals can build systems using a drag-and-drop interface similar to Microsoft Office. Key Features and Capabilities

vRigger goes far beyond simple drawing; it is a dedicated physics engine for rope work. Massive Gear Library The storm broke over the Blackwood Ridge just

: The software includes over 620 pieces of gear, ranging from carabiners and pulleys to fire engines and tripods. Force Calculations

: With a single click, users can calculate the forces acting on every component in their system. This includes factoring in: Mechanical advantage (e.g., 3:1 or 5:1 hauling systems). Friction losses through pulleys or over carabiners. Breaking strength and safety factors. Dynamic Modeling

: It understands the difference between raising and lowering a load, adjusting force calculations based on how "ratchets" or friction hitches engage. Customization

: If a specific piece of equipment isn't in the library, the Gear Builder

tool allows users to import images and define their own gear with specific attachment points and properties. From Training to the Field Riggers use the software in two primary ways: vRigger Rope Rigging Software

Overview

VRigger is a popular software among 3D artists, designers, and developers who want to create immersive experiences for VR and AR applications. The software allows users to create interactive 3D scenes, animations, and simulations without requiring extensive programming knowledge.

Key Features

Some of the key features of VRigger include:

• Interactive 3D content creation: VRigger enables users to create interactive 3D scenes, including objects, characters, and environments.
• Drag-and-drop interface: The software features a user-friendly drag-and-drop interface that makes it easy to add objects, animations, and interactions to a scene.
• Pre-built templates and assets: VRigger comes with a library of pre-built templates and assets that users can use to get started with their projects.
• Support for VR/AR devices: The software supports a range of VR/AR devices, including Oculus, Vive, and Daydream.
• Export options: VRigger allows users to export their content in a variety of formats, including Unity, Unreal Engine, and WebGL.

Pros and Cons

Here are some pros and cons of using VRigger:

Pros:

• Easy to use: VRigger has a user-friendly interface that makes it easy for non-programmers to create interactive 3D content.
• Fast content creation: The software's drag-and-drop interface and pre-built templates make it possible to create content quickly.
• Cross-platform support: VRigger supports a range of VR/AR devices and export formats.

Cons:

• Limited customization options: While VRigger is easy to use, it can be limited in terms of customization options for advanced users.
• Resource-intensive: The software can be resource-intensive, requiring a powerful computer to run smoothly.

Use Cases

VRigger is suitable for a range of use cases, including:

• VR/AR content creation: The software is ideal for creating interactive 3D content for VR and AR applications.
• Gaming: VRigger can be used to create interactive 3D scenes and characters for games.
• Education and training: The software can be used to create interactive 3D simulations for education and training purposes.

Conclusion

Overall, VRigger is a powerful software tool for creating interactive 3D content for VR and AR applications. Its user-friendly interface and pre-built templates make it easy to get started with content creation, and its support for a range of VR/AR devices and export formats make it a versatile tool. While it may have some limitations in terms of customization options, VRigger is a great choice for anyone looking to create immersive experiences without requiring extensive programming knowledge.

, you can create or "make" a custom feature—specifically new gear or specialized equipment— using the built-in Gear Builder

. This is the primary way to expand the software's capabilities when the standard library (which includes over 620 items) does not have what you need. Using the Gear Builder

The Gear Builder allows you to add specialized equipment to your rigging illustrations. You can: Add your own gear

: Use the tool to import or design components that are unique to your field or specific to a manufacturer not already in the database. Modify existing items

: While the core software comes with 427 pieces of gear, you can use these as a basis for your own customizations. Requesting Official Features

If you prefer not to build the item yourself, the developers offer a path for feature expansion: Gear Requests

: You can officially request that specific gear be added to future versions of the software. Optional Kits

: There is an "Optional Gear Kit" available for purchase that adds nearly 200 additional rescue, industrial, and theatrical rigging items. Collaboration and Support For tips on how to use these creation features effectively: Training Videos : vRigger provides 30 free training videos to help you master the software’s design tools. Community Support : You can join the vRigger Facebook Group

Report: ViRigger Software

1. Executive Summary ViRigger is a specialized 3D simulation software designed for planning and verifying rigging and lifting operations. Developed by Zhuzhou Huawei Machinery Equipment Co., Ltd. (China), it serves as a digital twin tool for engineers, crane operators, and safety inspectors. The software allows users to model complex lifting scenarios in a 3D environment to calculate loads, center of gravity, and collision detection before physical execution.

2. Core Functionality ViRigger focuses on the "virtual trial lift" concept, aiming to solve complex engineering problems digitally to avoid accidents during actual operations. Key functional areas include:

• 3D Scene Modeling: Users can construct the lift environment by importing terrain models, buildings, and obstacles. The software includes a library of standard 3D models (cranes, rigs, loads).
• Equipment Simulation: It supports a vast array of lifting equipment, including crawler cranes, truck cranes, and tower cranes. Users can customize parameters such as boom length, counterweight, and outrigger positions.
• Load Chart Verification: The software automatically references internal databases of crane load charts. It alerts the user if the configured lift exceeds the rated capacity of the selected crane at specific radii and boom angles.
• Physics Calculation: It calculates the center of gravity for asymmetrical loads and determines the tension on each sling leg, ensuring the rigging configuration is balanced.

3. Key Features

• Crane Library: A comprehensive database of cranes from major manufacturers (e.g., Liebherr, Manitowoc, XCMG, Zoomlion). This allows for accurate modeling of specific machinery capabilities.
• Collision Detection: A critical safety feature that automatically detects potential collisions between the load/crane and surrounding obstacles (buildings, pipes, terrain) during simulated movement.
• Path Planning: Users can animate the lift path to visualize the entire operation from pick-up to set-down.
• Report Generation: The software can export technical calculation sheets, 3D diagrams, and lift plans for documentation and safety meetings.

4. Technical Capabilities

• Import/Export: Supports standard CAD formats (e.g., DXF, DWG) for importing site layouts and exporting plan views.
• Custom Modeling: If a specific piece of equipment or load is not in the library, users can create custom 3D models or import them.
• Weather Simulation: Some versions include features to simulate wind load effects, which is critical for tall lifts.

5. Application Industries ViRigger is utilized in industries where heavy lift engineering is critical:

• Construction: Planning the erection of steel structures, bridges, and heavy machinery.
• Petrochemical: Lifting reactors, columns, and pipe racks in confined refinery spaces.
• Power Generation: Installing wind turbine components and transformers.
• Offshore: Planning deck lifts and heavy transport operations.

6. Comparison to Competitors In the market of lift planning software, ViRigger competes with solutions like AutoCAD Plant 3D, Barnhart's Lift Planner, and KISSsoft (for gear/rigging components).

• Advantage: ViRigger is often noted for its specific focus on the Chinese heavy equipment market (XCMG, Zoomlion), providing accurate load charts for these widely used machines. It offers a balance between high-end engineering analysis and operational usability.
• User Interface: The interface is designed for both engineers (calculation focused) and operators (visual focused).

7. Conclusion ViRigger represents the modernization of rigging engineering. By moving lift planning from 2D paper calculations to dynamic 3D simulations, it significantly reduces the risk of human error. It is a vital tool for ensuring operational safety, optimizing equipment utilization, and minimizing costly downtime during complex lifting projects.

Mastering Rigging Mechanics: A Deep Dive into vRigger Software

When it comes to designing complex rope systems—whether for search and rescue, industrial rope access, or arboriculture—the margin for error is non-existent. For years, professionals relied on hand-drawn sketches and "best guess" physics. vRigger changed that landscape by providing a dedicated digital canvas for rigging design and safety analysis. Automation tools: Zapier, IFTTT (If This Then That),

If you are looking to move beyond "napkin math" and create professional-grade rigging plans, here is everything you need to know about vRigger software. What is vRigger?

vRigger (formerly known as RescueReach) is the industry-standard software used to design, illustrate, and analyze rope rigging systems. It allows users to drag and drop hundreds of rigging components—pulleys, carabiners, knots, anchors, and litters—onto a workspace to build a virtual representation of a real-world system.

Unlike generic CAD software, vRigger is purpose-built for the rope world. It understands how ropes interact with hardware, allowing for a level of detail that generic drawing tools simply can’t match. Key Features and Capabilities 1. Extensive Gear Library

The software comes pre-loaded with an enormous library of gear. From name-brand hardware (like Petzl, CMC, and Black Diamond) to generic 3D-rendered components, you can find virtually every piece of equipment found in a standard gear bag. 2. Physics and Force Analysis

This is the "killer feature" of vRigger. The software calculates the tension and force at every point in your system. If you change the angle of a high-line or add a 3:1 mechanical advantage system, vRigger updates the force calculations in real-time. This helps safety officers identify potential "weak links" where gear might exceed its Safe Working Load (SWL). 3. Professional Documentation

For instructors and team leads, vRigger is an essential tool for creating training manuals and Pre-Incident Plans (PIPs). You can export high-resolution images of your systems to include in PDFs, slideshows, or laminated field guides. 4. Human Mannequins

To make diagrams more realistic, vRigger includes "rigging mannequins." You can pose these figures to show exactly where a technician should stand, how a patient should be packaged in a litter, or how a belayer should be positioned. Who Should Use vRigger?

Search and Rescue (SAR) Teams: To plan technical evacuations and train members on complex mechanical advantage.

Industrial Rope Access: For Creating Job Safety Analysis (JSA) documents and visualizing work-at-height solutions.

Fire Departments: To standardize "truck "rigging" and ensure every member is following the same approved configurations.

Arborists: For calculating forces in complex rigging and removals.

Rigging Instructors: To create clear, easy-to-understand visual aids for the classroom. The Learning Curve

While vRigger is intuitive—using a basic drag-and-drop interface—the depth of the physics engine means there is a learning curve to mastering its full potential. Users need a foundational understanding of rigging principles to interpret the force calculations correctly. It’s a tool that amplifies professional knowledge; it doesn't replace it. Version Comparison: Scope vs. vRigger

It is important to note that the software is often updated with new "Gear Kits." Depending on your industry, you can customize your library to focus more on rescue gear, industrial fall protection, or tactical equipment. Final Thoughts

In a field where safety is paramount, vRigger provides a bridge between theoretical physics and practical application. It allows you to "test" a system in a digital environment before ever clipping a carabiner in the field. For any serious rigging professional, it is an investment in both efficiency and safety.

Here’s a structured guide to help you investigate it yourself:

The Evolution of Vrigger: From Niche Utility to Enterprise Standard

To understand the value of Vrigger Software today, we must look at its history. Originally developed as a closed-source internal tool for a European data management firm, the software was released to the public in 2018. Early adopters were primarily system administrators looking for a faster alternative to PowerShell scripts or Bash commands.

By 2021, version 3.0 introduced a GUI (Graphical User Interface) that made visual scripting accessible to non-developers. This pivot transformed Vrigger Software from a "hacker tool" into a legitimate enterprise asset. Today, it competes with established names like Zapier for automation and AutoHotkey for macros, but with a distinct focus on system-level integrity.

The Cons

• Learning Investment: While easier than coding from scratch, it is harder than drag-and-drop tools.
• Windows-Centric Legacy: Although cross-platform, the most stable features are on Windows 10/11.
• Community Size: Smaller than AutoHotkey or Zapier; you may have to write your own help requests.

Troubleshooting Common Vrigger Software Issues

Even robust software has hiccups. Here are solutions to frequent user complaints.

Issue: "My trigger fires twice." Solution: Enable "Debounce Interval" in trigger settings (set to 500ms). This prevents a single event (like a file save) from activating the action twice.

Issue: "Vrigger uses 20% CPU constantly." Solution: You likely have an inefficient "Polling" trigger (checking a folder every 100ms). Switch to "Event-Driven" triggers, which wait for the OS to announce a change rather than constantly checking.

Issue: "My antivirus flagged Vrigger Software as suspicious." Solution: This is a false positive common with automation tools. Add Vrigger's installation folder to your antivirus exclusions list. The official version is signed and verified.

5. Alternative routes

• Use WhatIsThisSoftware subreddit or sites like ShouldIRemoveIt.
• Check File.net or EXE Database if you have a filename.

If you can provide any additional clue — file name, company name, where you saw the term, or a screenshot (text from installer, error message, or UI) — I can narrow it down much further.

vRigger is widely considered the industry-standard software for designing, teaching, and calculating forces in rope rigging systems. It is primarily used by professionals in search and rescue, fire service, industrial rope access, and theatrical rigging to create accurate diagrams and perform complex engineering simulations. Core Capabilities

Physics Engine & Force Calculation: Unlike simple drawing programs, vRigger calculates load and pulling forces throughout a system. Users can see how changing angles, friction, and weights affects the tension on anchors and individual components in real-time.

Extensive Gear Library: The software includes over 600 pieces of gear, including carabiners, pulleys, ropes, and tripods. Specialized libraries are available for different industries like industrial or rope access.

Custom Gear Builder: If a specific tool is missing, users can import their own gear by uploading a PNG and using the built-in Gear Builder to define its connection points and weight capacities.

Visual Documentation: It is frequently used to create high-quality training manuals and handouts. Diagrams can be easily exported to Microsoft Word or PowerPoint. User Experience

Ease of Use: Reviewers from Alpinesavvy note that its interface is similar to Microsoft Office, making it relatively intuitive for new users. It features "auto-snapping" components that click together when dragged near each other.

Learning Resources: There are over 50 free training videos and sample rigging files available to help users get started. Common Criticisms:

Cost: Some users on Firehouse Forums find the software to be a significant investment.

Interface Quirks: Navigating complex diagrams can sometimes be cumbersome, particularly when trying to select specific overlapping parts or working with webbing. Platform: It is strictly a Windows-based application.

These official vRigger tutorials and community reviews demonstrate how to build systems and calculate forces: Getting Started with vRigger 6K views · 6 years ago YouTube · vRigger vRigger's Gear Builder 1K views · 3 years ago YouTube · vRigger What is a Complex Pulley Systems - The T-Method and MA 19K views · 3 years ago YouTube · The Rope Access Channel