TELEHANDLER SIMULATOR
SANLAB Learning's telehandler simulator is a realistic, risk-free tool. It lets operators practice skills like lifting and load placement. Simulator offers flexible, immersive training with 3D graphics, VR, and motion platforms. Has weather simulations, real-time performance monitoring, and many camera views. These features help with learning.
Telehandler Simulator Training for Safe and Efficient Operation
SANLAB Learning's telehandler simulator provides operators with a risk-free, realistic training environment. Simulator is for operators in demanding situations. It uses advanced 3D graphics, real-world scenarios, and detailed reports to provide training. It eliminates risks associated with real telehandler operation, improving safety and reducing costs.
The simulator replicates real telehandler controls. It lets operators practice key skills: lifting, carrying, and placing loads. Available in many versions: stationary, 3DOF, 6DOF, and desktop. It offers flexibility to meet training needs. Ensures a versatile experience for all operators.
Key Features for Enhanced Telehandler Simulator Training
Realistic Modern 3D Graphics: The telehandler simulator uses high-resolution 3D graphics to replicate real-world environments. Dynamic visuals make training immersive. They enable operators to practice in a safe and efficient manner.
Full-Size Cabin Option Inside the Simulator: Operators can choose a touchscreen or a full-size cabin. The cabin mirrors real telehandler controls. This makes the training engaging and reflective of real-life scenarios.
Realistic Physical Calculations: The simulator accurately calculates engine RPM, torque, and hydraulic pressure, providing a lifelike experience of telehandler operation.
Telehandler Simulator Controls with Vehicle Equipment: The simulator replicates the pedals, levers, and buttons found in real telehandlers. This provides a realistic environment where operators can become accustomed to the equipment.
VR Support for Immersive Training: Simulator supports Oculus Rift and HTC Vive headsets. It offers 360-degree views and enhances spatial awareness. This gives operators a more immersive learning experience.
Motion Platform Options and Customization for Telehandler Simulator VR Training
Advanced telehandler simulator
training provides a variety of motion platforms to meet diverse training needs. They include stationary, 3DOF, 6DOF, and desktop models. Each offers a different level of realism and control to optimize training.
Motion Platform Options of Telehandler Simulator VR:
• Stable Simulators — Ideal for learning control systems with no motion feedback.
• 3DOF (Pitch, Heave, Roll) — Provides basic movement sensations suitable for introductory training.
• 6DOF (Pitch, Heave, Roll, Yaw, Surge, Sway) — Offers a comprehensive and realistic training experience with full motion simulation.
• Desktop Version — Delivers a compact, versatile training solution with a range of features.
Motion Platform Response Strength Adjustment:
This interface allows for adjusting the response strength of the motion platform in the VR telehandler simulator.
• Low — Delivers a softer, lighter simulation with reduced response intensity.
• Mid — Provides a balanced experience with moderate response strength for realistic feedback.
• High — Offers the most accurate simulation, closely mimicking real-world conditions with strong and effective feedback.
Additional Features:
• Power On/Off — Activate or deactivate the motion platform as required.
• Reset — Restore the motion platform to its default settings.
• Test Start — Initiate a diagnostic test to verify the motion platform’s functionality.
• Test Stop — End the diagnostic test and resume normal operation.
These settings and features help tune the simulator's feedback to real-world conditions. They ensure realistic and effective training.
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Comprehensive Telehandler Simulator Training with Dynamic Scenarios
Telehandler simulator has training scenarios. They aim to build key operator skills in a safe environment. These scenarios prepare operators for real-world challenges.
Course Highlights:
• Slalom — This scenario enhances maneuverability as operators navigate through tight spaces, improving control and precision..
• Warehouse Loading — Trains operators to efficiently load and unload materials in a warehouse setting, focusing on accuracy and safety.
• Ghost Loader — Develops spatial awareness by helping operators improve positioning and load management.
• Lowbed Loading — Teaches operators how to safely load the telehandler onto a lowbed, ensuring stability during transportation.
• Container Moving — Focuses on handling and moving containers, improving operators' ability to manage large and heavy loads.
• Container Unloading — Trains operators in safely and efficiently unloading containers, emphasizing balance and control.
• Truck Unloading — Enhances skills in unloading trucks, ensuring that loads are handled safely and accurately.
Optimized Learning with VR Integration
The telehandler simulator's VR integration enhances the training experience by providing immersive learning environments. Instructors can check operators in real time. This allows for immediate feedback on strengths and areas for improvement. Operators develop skills to excel in simulations and real-life. They gain confidence to tackle challenges.
Camera Views for Telehandler Simulator Training
Camera angles allow operators to observe the machine and its surroundings, ensuring safe and efficient operation. Telehandler simulator offers a variety of camera angles to deliver comprehensive training. The realistic camera views in the telehandler simulator VR include:
• Operator Perspective Camera
• External Camera
• Load Camera
• Overhead View Camera
• Rear View Camera
• Trainer Cameras
• Orbit View
Utilizing these six camera angles enhances both engagement and realism in training. This method benefits operators and trainers alike, allowing operators to master machine control from various perspectives. It’s especially effective for developing skills in handling heavy machinery.
Telehandler Simulator Real-Time Monitoring and Detailed Reporting
Real-Time Monitoring: Instructors can observe operators' actions in real-time. They can track metrics like speed, load control, precision, and safety. This enables immediate feedback and helps identify both strengths and areas for improvement.
Detailed Reporting: The telehandler simulator generates comprehensive reports that include:
• Date of Scenario: The exact date the training scenario was performed.
• Scenario Creator: The designer or team responsible for the scenario.
• Average Score: A summary of the operator's performance.
• Task Completion Metrics: Measures of task accuracy and efficiency.
• Time Usage: The total time spent on the task.
• Error-Free Operation: Assessment of performance without errors.
• Metrics Explanation: A detailed explanation of how each metric is calculated and evaluated.
These features analyze operator performance in detail. They ensure effective training and highlight areas for improvement.
Realistic Weather Simulation in Telehandler Training
SANLAB Learning's telehandler simulator delivers a highly engaging training experience by incorporating realistic, real-world weather conditions.
With advanced graphics, operators can face many scenarios. It simulates different weather, times of day, and seasons.
The simulator allows operators to work in various environments, such as sunrise, midday, sunset, and nighttime. You can fully adjust the weather. It includes rain, snow, fog, clouds, and sunlight. You can also customize their intensity levels.
Real-time weather simulation helps operators develop the skills needed to manage challenges in actual work environments.
Control Panel Overview for Telehandler Simulator Operations
The control panel in the telehandler simulator is designed to replicate real-world telehandler controls, providing a highly realistic and intuitive training experience. Key components include:
• Front Panel: Displays fuel level, engine temperature, RPM, and hydraulic pressure for monitoring performance.
• Driving Controls: Forward/reverse lever, steering wheel, and throttle for precise telehandler navigation.
• Loader Controls: Manages lifting arm for accurate load handling and placement during operations.
• Overload Warning: Visual indicator alerts operators of overloads, maintaining safety during heavy lifting.
• Overload Bypass: Allows manual intervention in critical load handling situations when needed.
• Emergency Button: Immediate shutdown button for emergency situations, ensuring operator safety.
SimPro Telehandler Simulator Series
SimPro6
Telehandler Simulator
SimPro3
Telehandler Simulator
SimPro
Telehandler Simulator
SimPro Desktop
Telehandler Simulator
Virtual Reality Integration
Using VR in the telehandler simulator improves training. It creates a very realistic environment. VR technology allows operators to encounter real-world scenarios in a safe training setting. They can practice in confined spaces, challenging weather, and on various surfaces. Simulator has 360-degree visuals and advanced graphics. It replicates the machine's interior and exterior. This helps users understand the controls. Additionally, VR provides real-time feedback, enabling operators to quickly identify and correct mistakes. It speeds up learning and boosts adaptability. This makes operators more flexible in varied job conditions.
Equipment Requirements of Telehandler Simulator
• 1 simulation computer
• 1 virtual reality headset (for the virtual reality version)
• 3 monitors/TVs
• 1 cabin containing the physical inputs of the telehandler machine (steering wheel, pedals, etc.)
• 1 touch screen
• 1 uninterruptible power supply (to ensure data and system security against power outages)
Quantification and Consideration
The telehandler simulator includes a reporting module that can generate outputs in HTML or PDF formats containing the following information at the end of the scenario. The reporting system eliminates record-keeping confusion and makes training more efficient.
- Name of the institution providing education
- Name of the person providing education
- Student name
- Date the course was given
- Total duration of the course
- Task completion time
- Data from the completed course
- Image of the completed lesson
- Reports of completed lessons