Robotic 3d Print 3d Prints Robot Concrete Robotic Arm 3d-printing

Name: Robotic 3d Print 3d Prints Robot Concrete Robotic Arm 3d-printing
Brand: Jinan Uniontech Machinery Co., Ltd.
SKU: 1601386090876_1
Price: 30999.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

3D Concrete Printing: Equipped with a six-axis robotic arm and customizable end-effectors, the system enables precise 3D printing of concrete structures with high accuracy and adaptability.
Material Handling: Integrates a modular material handling system (hopper and conveyor belt) for efficient storage, dispensing, and processing of materials like powders, granules, or small components.

Key features

1. Material Technology: Corrosion-Resistant Construction

With a durable metal-and-plastic composite body, the robotic arm ensures longevity in industrial environments. The materials are engineered to withstand harsh conditions, such as those encountered in concrete 3D printing.

2. Interactive Design: Modular Customization & Touchscreen Control

With a programmable touchscreen interface and modular components, you can adapt the robotic arm to diverse tasks (e.g., changing end-effectors or material handling systems). This flexibility outperforms rigid, single-purpose systems*.

3. Performance Parameters: High-Precision 6-Axis Motion

With six degrees of freedom and precise motion control, the arm achieves intricate 3D printing accuracy, ideal for complex concrete structures. Its speed and adaptability rival traditional manufacturing setups*.

4. Scenario Solutions: Industrial-Scale Material Handling

Designed for continuous operation in commercial settings, the system integrates a conveyor belt and hopper for seamless material feeding. This makes it ideal for high-volume production, unlike smaller-scale 3D printers*.

5. Certification Standards: EPR Germany Compliance

Certified to EPR Germany packing standards, the product ensures environmental responsibility through sustainable material sourcing and disposal practices.

Product details

The Robotic 3D Print Concrete Robotic Arm is an articulated industrial solution designed for precise 3D printing and material handling in construction and manufacturing. Equipped with a 6-axis robotic arm, modular end-effectors, and an EPR-certified design, it offers customizable automation for concrete deposition, assembly, and material feeding tasks.

Technical specifications

Feature	Specification	Application Scenario
Degrees of Freedom	6-axis motion	Complex 3D printing paths and assembly tasks
End-Effector	Interchangeable gripper/nozzle	Handling concrete, powders, or small parts
Material Construction	Durable metal/plastic composite	Harsh industrial environments
Certification	EPR Germany Packing Compliance	EU-regulated waste management and recycling
Control Panel	Digital display + programmable interface	Real-time task monitoring and customization
Material Handling	Hopper + conveyor belt system	Continuous feed for 3D printing or assembly

Customization guide

Adjustable end-effector types (e.g., concrete nozzle, gripper) and material handling configurations to meet specific production needs.

Get inspired

With its modular design and 6-axis precision, this robotic arm enables automated 3D concrete printing for construction projects or high-volume assembly tasks. Customize the system to streamline workflows in factories, warehouses, or architectural fabrication labs.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Payload Capacity	5 kg	+15% (5.75 kg)	+30% (6.5 kg)*
Motion Speed	1 m/s	1.15 m/s	1.3 m/s
Positioning Precision	±1 mm	±0.85 mm	±0.7 mm
Certifications	EPR Germany	EPR + ISO 9001	EPR + ISO + RoHS

Supplier's note

Technical Breakthroughs:
- 6-axis motion: Enables intricate 3D printing paths 20% faster than traditional 4-axis systems.
- EPR Compliance: Ensures environmentally responsible disposal and recycling, critical for EU projects.
- Modular Design: Swap end-effectors in minutes to handle concrete, metals, or plastics without reprogramming.
Version Selection Guidance:
- Base Model: Ideal for small-scale workshops needing basic 3D printing or assembly (e.g., prototyping).
- Advanced Model: Suitable for medium-volume production requiring faster speeds and ISO-certified reliability (e.g., automotive parts manufacturing).
- Pro Model: Best for high-precision applications like aerospace or construction, where ultra-precise concrete deposition and RoHS compliance are mandatory.

With the Pro Model’s ±0.7 mm precision, you can print architectural concrete structures with flawless surface finishes. Pair its heavy-duty payload capacity with the hopper system to automate large-scale material feeding, reducing labor costs by 30%.

Frequently asked questions

Which robotic arm model is best for small-scale concrete 3D printing projects?
How do I maintain the end-effector for concrete 3D printing?
Why is metal preferred over plastic in concrete 3D printing robotic arms?
Can I customize the end-effector for different 3D printing tasks?
Is the robotic arm system EPR-certified for European construction projects?
How does the robotic arm handle varying concrete consistencies?
What makes this robotic arm faster than traditional concrete printing methods?
Are there safety certifications for the robotic arm’s industrial use?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Articulated Robots	Manufacturing assembly, 3D printing	6 DOF (Industry: 4-5 ▲+2), Payload: 150 kg (ISO 9283), EPR Germany Packing	High precision (±0.02 mm), customizable end-effectors (5+ types), versatile	Higher cost, complex programming (requires skilled technicians)
SCARA Robots	Electronics assembly, Pick-and-place	4 DOF, Repeatability: ±0.01 mm (ISO 9283), Speed: 120 cycles/min	Fast 2D motion, cost-effective for repetitive tasks	Limited 3D flexibility, rigid programming requirements
Delta Robots	Food packaging, High-speed sorting	3-4 DOF, Speed: 120+ cycles/min, Lightweight payloads (≤5 kg)	Extremely fast for lightweight items, compact design	Low payload capacity, less precise for complex tasks
Collaborative Robots	Human-robot collaboration, Small assembly	Force-limited safety (ISO 10218-1), Easy drag-and-drop programming	Safe for human interaction, easy to reprogram	Lower payload (≤15 kg), slower than industrial robots
Cartesian (Gantry)	3D printing, Material handling	3-axis linear motion, Workspace: 2x2x2 m (customizable), Low cost	Simple design, cost-effective for linear tasks	Limited flexibility, slower cycle times
Mobile Manipulators	Warehouse automation, Logistics	Autonomous navigation (ISO 3843), Integrated robotic arm + mobile base	Flexible deployment, adaptable to dynamic environments	Complex integration, higher upfront cost

Robotic 3d Print 3d Prints Robot Concrete Robotic Arm 3d-printing

Robotic 3d Print 3d Prints Robot Concrete Robotic Arm 3d-printing

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Material Technology: Corrosion-Resistant Construction

2. Interactive Design: Modular Customization & Touchscreen Control

3. Performance Parameters: High-Precision 6-Axis Motion

4. Scenario Solutions: Industrial-Scale Material Handling

5. Certification Standards: EPR Germany Compliance

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which robotic arm model is best for small-scale concrete 3D printing projects?

How do I maintain the end-effector for concrete 3D printing?

Why is metal preferred over plastic in concrete 3D printing robotic arms?

Can I customize the end-effector for different 3D printing tasks?

Is the robotic arm system EPR-certified for European construction projects?

How does the robotic arm handle varying concrete consistencies?

What makes this robotic arm faster than traditional concrete printing methods?

Are there safety certifications for the robotic arm’s industrial use?

Product comparison

Related searches