Portable Welding Training. Anywhere

A compact VR welding simulator built for mobility, quick setup, and on-the-go training. Ideal for schools, demos, and field use.

Welding GO is a fully portable VR welding simulator that runs without a PC or bulky hardware. It offers hands-on training through a standalone headset, foldable table, and controller-based torch—anywhere, anytime.

 

— From classrooms to field demos

Training Where It’s Needed

— Lightweight, fast and ready to train.

Built for Mobility

Compact Mobility

Designed for trainers on the go—easy to carry and deploy.

Quick Deployment

Setup and training start in under 20 minutes.

Foldable Training Table

Adds physical reference for realistic positioning.

Essential Weld Modes

Includes MIG/MAG and SMAW—ideal for beginner training.

 

 

— Designed to support early-stage skill development

Trained Skills

Welding GO enables entry-level welders to build foundational skills in posture, torch control, and movement through guided, repeatable simulation—ideal for early-stage training and pre-hands-on familiarization.

 

 

— Weld Smarter, Waste Less

Sustainable Training

WeldSoft supports environmentally conscious training with a cleaner, smarter approach to welding education.

 

 

Technical Specifications

1. Supported Welding Processes

• The system supports four primary welding processes: SMAW (Shielded Metal Arc Welding), MIG/MAG (Metal Inert/Active Gas Welding), TIG (Tungsten Inert Gas Welding), and FCAW (Flux-Cored Arc Welding). These are selectable within the simulation environment and supported by corresponding physical torches.

 

2. Hardware Components

• The hardware package includes a central control unit responsible for power and system connectivity.
• The welding mask features integrated AR/VR technology and provides a full field of view for realistic simulation.
• Realistic welding torches are included for all supported welding types, offering authentic hand positioning and feel.
• The workstation is compact, stable, and features adjustable workpieces to simulate different welding angles and tasks.
• Integrated sensors accurately track torch position, angle, movement speed, and distance in real time.
• An external instructor display allows for real-time monitoring and control of training sessions.
• Optional components such as a report printer and LMS integration module are available for extended functionality.

 

3. Software Features

• The simulation engine provides real-time feedback on welding parameters such as penetration depth, porosity, and spatter.
• A role-based user management system enables institutions to organize training through defined access levels (institution, instructor, student).
• The scenario library includes process-specific tasks categorized by joint type, welding position, and difficulty level.
• Progress data is tracked and can be exported as detailed performance reports for evaluation.
• The software supports a multi-language interface, allowing institutions in different regions to operate in their native language.

 

4. System Requirements and Deployment

• The simulator is delivered in a compact, classroom-ready configuration and is easy to set up and relocate.
• The system operates without the need for consumables such as gas, electrodes, or filler material, allowing unlimited safe practice.
• Standard power requirement: 220–240V AC.
• Recommended ambient temperature for operation is between 10°C and 35°C.
• Intended for indoor use in controlled training environments.