Mechatronics Lab Robot Trainer Teaching Equipment Vocational Training Equipment

Name: Mechatronics Lab Robot Trainer Teaching Equipment Vocational Training Equipment
Brand: Jinan Should Shine Didactic Equipment Co., Ltd.
SKU: 1600370502078_1
Price: 2000.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Training & Industrial Automation Simulation: Equipped with a six-axis robotic arm and gripper end effector, the system enables hands-on training in precision object manipulation, assembly, and material handling tasks.
Modular Design for Customization: The aluminum frame allows flexible configuration to adapt to diverse educational or industrial workflows, supporting scalability and scenario-specific adjustments.

Key features

1. Corrosion-Resistant Aluminum Frame

With a corrosion-resistant aluminum frame, ensure durability and lightweight portability while maintaining structural integrity. The modular design allows for easy reconfiguration, offering 30% faster setup compared to fixed systems*

2. Intuitive Touchscreen Interface

With an interactive touchscreen interface, program precise movements and presets effortlessly, reducing training time by up to 40% compared to button-based controls*

3. Six-Axis Precision Engineering

With a six-axis robotic arm, achieve 0.1mm accuracy in complex tasks, outperforming four-axis systems in versatility for assembly, material handling, and educational demonstrations*

4. Modular Adaptability for Diverse Scenarios

With a modular frame and customizable components, adapt to 80% more training scenarios than non-modular systems, supporting both industrial simulation and classroom experiments*

5. Safety-Certified Design

With a safety cage compliant with industrial safety standards (e.g., ISO 13855), ensure operator protection in educational environments while enabling continuous operation*

Product details

The Mechatronics Lab Robot Trainer is a versatile vocational training system designed for educational and laboratory environments. Built with an aluminum modular frame and a six-axis robotic arm, it combines precision engineering with safety features like a protective cage and mobile base. Ideal for teaching robotics programming, automation, and mechanical design, this equipment adapts to diverse training needs through customizable configurations.

Technical specifications

Feature	Specification	Application Scenario
Material	Aluminum frame with modular design	Lightweight yet durable for lab setups
Robotic Arm	6-axis motion with gripper end effector	Assembly, material handling, precision tasks
Safety	Yellow mesh safety cage	Operator protection during operation
Mobility	Wheeled base with locking casters	Easy repositioning in dynamic classrooms
Control System	Touchscreen interface + programmable	Teaching programming and automation

Customization guide

Adjustable parameters include:

Modular frame extensions to customize workspace dimensions
End effector swaps (e.g., grippers, tools) for task-specific training
Software interfaces (e.g., Python/ROS integration) for advanced users

Get inspired

Train the next generation of engineers with a system that balances safety, precision, and adaptability. Whether simulating industrial assembly lines or exploring robotics fundamentals, this trainer empowers learners to master real-world automation challenges.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Payload Capacity	2kg	3kg (+50%)	5kg (+150%)*
Degrees of Freedom	6-axis	7-axis (enhanced)	7-axis + wrist rotation (premium)
Control Interface	Basic touchscreen	Programmable SDK	Industrial-grade PLC
Safety Features	Standard cage	Emergency stop + sensors	Dual-layer safety system

Supplier's note

Technical Breakthroughs:
- 6-axis precision: Enables complex assembly tasks with ±0.1mm accuracy, surpassing basic 4-axis trainers.
- Modular design: Reduces downtime by 30% compared to fixed systems when reconfiguring labs.
- Dual-layer safety: The Pro model’s pressure-sensitive cage and motion sensors exceed OSHA safety standards.
Version Selection Guide:
- Base Model: Ideal for introductory courses needing cost-effective, foundational training.
- Advanced Model: Suitable for engineering programs requiring programmable logic and intermediate payload handling.
- Pro Model: Best for vocational institutes preparing students for industrial automation roles. Its 5kg payload and industrial PLC interface mirror real-world factory setups, ensuring graduates are job-ready.

*Pro Model payload capacity exceeds industry benchmarks by 150% for heavy-duty training scenarios.

Frequently asked questions

Which robotic arm model is best for vocational training labs?
How do I maintain the robotic arm’s safety cage and moving parts?
Why is the frame made of aluminum instead of steel for educational robotic arms?
Can the robotic arm system be customized for specific training needs?
Is the robotic arm system compliant with educational safety standards?
What tasks can this robotic arm perform in a mechatronics lab?
How is this robotic arm designed for educational purposes?
Can the gripper end effector be replaced with other tools?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Material Quality	Lab equipment durability	Industry: Steel (ASTM A36); Our Base: Aluminum (EN AW-6061) ▲; Advanced: Aluminum + carbon fiber (▲▲ 20% stronger)	Lighter weight reduces strain on lab space; corrosion-resistant.	Advanced version requires specialized maintenance.
Safety Features	High-risk training environments	Industry: Basic cage (OSHA); Our Base: Yellow mesh cage (IP65 rated ▲); Advanced: + laser sensors (▲▲ collision detection)	Dust/water resistance and collision prevention enhance safety.	Advanced sensors increase upfront cost.
Mobility	Reconfigurable lab setups	Industry: Fixed base; Our Base: Wheels with locks (ISO 7094 ▲); Advanced: Motorized mobility (▲▲ autonomous)	Easy relocation; motorized version automates positioning.	Motorized systems need frequent software updates.
Modularity	Customizable training programs	Industry: Limited modules; Our Base: 3+ modules (ISO 9001 ▲); Advanced: 5+ modules + quick-connect (▲▲)	Adapts to diverse curricula; quick-connect reduces assembly time.	Advanced requires training for complex configurations.
Precision	Advanced robotics training	Industry: 4-axis arms; Our Base: 6-axis (ISO 9283 ▲); Advanced: 7-axis + 0.02mm accuracy (▲▲)	Handles complex tasks like micro-assembly; high dexterity.	Steeper learning curve for instructors.
Control Interface	User-friendly operation	Industry: Basic buttons; Our Base: Touchscreen (IEC 60912 ▲); Advanced: Voice/gesture control (▲▲)	Intuitive drag-and-drop for students; gesture control boosts engagement.	Advanced interfaces may lag in low-light conditions.

Mechatronics Lab Robot Trainer Teaching Equipment Vocational Training Equipment

Mechatronics Lab Robot Trainer Teaching Equipment Vocational Training Equipment

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Corrosion-Resistant Aluminum Frame

2. Intuitive Touchscreen Interface

3. Six-Axis Precision Engineering

4. Modular Adaptability for Diverse Scenarios

5. Safety-Certified Design

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which robotic arm model is best for vocational training labs?

How do I maintain the robotic arm’s safety cage and moving parts?

Why is the frame made of aluminum instead of steel for educational robotic arms?

Can the robotic arm system be customized for specific training needs?

Is the robotic arm system compliant with educational safety standards?

What tasks can this robotic arm perform in a mechatronics lab?

How is this robotic arm designed for educational purposes?

Can the gripper end effector be replaced with other tools?

Product comparison

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