Customizable Six-axis Robotic Arms

Germany, Japan, United States, South Korea, Canada, Mexico, Brazil

Product Info  

Six-axis robotic arms (Six-axis industrial robots) are core equipment in modern automated manufacturing, renowned for their flexibility and high precision, mimicking the movements of a human arm. They achieve six degrees of freedom in space through six independent rotating axes (six rotary joints), enabling comprehensive motion capabilities similar to a human arm.

This is a robotic arm, which can be used in the automotive industry, primarily for assembly, welding, and painting. It features highly flexible movement and high precision. It can be customized according to the needs of automotive parts factories.

This is a six-axis industrial robot, which can be used in emerging industrial fields, such as lithium battery and photovoltaic equipment manufacturing, and semiconductor wafer handling. It features high flexibility and high precision. It can be customized according to the needs of emerging industrial factories.

Usage Areas 

Thanks to their exceptional flexibility, six-axis robots cover almost all discrete manufacturing industries:

(1) Automotive and Electronics
The automotive industry accounts for approximately 35% of the market share, mainly used for assembly, welding, and painting. In the 3C electronics field, they are used for precision assembly and testing.

(2) Emerging Industries
Lithium-ion battery and photovoltaic equipment manufacturing, and semiconductor wafer handling.

(3) Medical and Life Sciences
By 2025, the deployment of sensors in medical robots increased by 40%, widely used in robot-assisted surgery and rehabilitation training.

(4) Logistics and Warehousing
Responsible for high-frequency material handling, stacking, and automated sorting.

This is an industrial automation robot, which can be used in the automotive industry, primarily for assembly, welding, and painting. It features highly flexible movement and high precision. It can be customized according to the needs of automotive parts factories.

This is an industrial manipulator, which can be used in the medical and life sciences fields, widely applied in robot-assisted surgery and rehabilitation training. It can achieve six degrees of freedom of movement in space, achieving comprehensive movement capabilities similar to a human arm, and operates with high precision. It can be customized according to the needs of medical equipment factories.

What Problems Can It Solve for Customers? 

(1) Solving the flexibility challenge of “complex spatial operations”
Six-axis robots have 6 degrees of freedom similar to a human arm, enabling rotation and folding at any angle. This solves the difficult movements that three-axis and four-axis robots cannot perform, such as obstacle avoidance in confined spaces, backhand grasping, and all-round spraying or welding.

(2) Solving the flexibility pain point of “frequent production line changes”
By switching programs and end-effectors, a six-axis robot can transform from a “material handler” to a “welder” or “assembler.” This solves the huge cost expenditure for customers who previously had to rebuild production lines every time a new product was launched, achieving multi-purpose functionality with a single machine.

(3) Solving workplace safety in “high-risk and extreme environments”
In environments harmful to humans, such as die-casting spraying, chemical cleaning, arc welding, or high-temperature forging, six-axis robots completely replace manual labor, solving the problems of occupational disease claims, frequent safety accidents, and high labor protection costs faced by customers.

(4) Overcoming the precision limitations of “human eyes and manual work”
In precision grinding, gluing, or 3C assembly, the repetitive positioning accuracy of robots far exceeds that of manual labor. It solves persistent quality problems such as poor product consistency, uneven glue application, and surface scratches caused by employee fatigue and hand tremors.

(5) Solving “rising labor costs and talent shortages”
With the aging global population, recruiting skilled technicians (such as senior welders and painters) is extremely difficult. Six-axis robots, through 24/7 operation, solve the practical difficulties faced by customers, including difficulty in recruiting workers, high turnover rates, high training costs, and low production efficiency during night shifts.

This is an automated robotic feeding device that replaces traditional manual handling and feeding of materials. It is a device that enables automatic, continuous, and enclosed material transport. Its features include highly flexible movement and high precision. It can be customized according to the actual needs of the factory.

Performance Parameters 

What makes us different 

(1) Support for non-standard customization
We can customize products according to customer needs.

(2) Product advantages analysis
Direct supply from the factory, reliable technology, and guaranteed after-sales service.

(3) Factory direct sales
Direct sales from the source manufacturer, no middlemen, price is competitive.

(4) Quality assurance
All products undergo thorough inspection before shipment, ensuring high customer satisfaction.

(5) On-time delivery
Short production cycle, on-time or early delivery.

Benefits of Choosing Us  

(1) Years of production experience and technological accumulation
(2) Physical factory saves you money on intermediary costs
(3) Strictly selected raw materials, ensuring reliable quality.
(4) Supports customization to meet various needs
(5) Professional team provides attentive service

Maintenance & Support  

(1) Response Time Commitment:
Online technical support and remote troubleshooting within 12 hours, solution feedback within 24 hours.

(2) Equipment Warranty Period:
A 12-month warranty is typically provided (starting from the date of shipment on the bill of lading). During the warranty period, non-human-caused damaged parts will be replaced free of charge (excluding consumables), but the related international express shipping costs will be borne by the customer.

(3) Equipment Installation and Commissioning:
We provide paid overseas installation and commissioning services. You are responsible for the engineer’s visa, round-trip airfare, accommodation, and daily service fees. In some cases, if the equipment structure is simple, we can also provide detailed installation manuals and remote video guidance for you to arrange installation independently.

(4) Customized Training Services
After equipment installation, we provide 1-2 days of training for customer operators and maintenance personnel.
Operation Training: Safe and standardized use of the equipment.
Maintenance Training: Daily inspection, maintenance, and replacement of wear parts training.
Training Forms: Including on-site training, factory centralized training, and online courses.

(5) Spare Parts Guarantee: Real-time inventory management and rapid delivery of key wear parts.

(6) Satisfaction Survey and Follow-up:
Regular satisfaction surveys are conducted to collect feedback for subsequent product quality control and service process improvement.

This is an industrial robotic arm, which can be used in the logistics and warehousing field, responsible for the stacking and automated sorting of high-frequency turnover materials. It features high flexibility and high precision. It can be customized according to the needs of logistics and warehousing companies.

Discover Our Company 

Feedback & Future Trends 

(1) Market Size
Continuous growth

(2) Problems Solved for Customers
Increased productivity, reduced human error, and improved operational safety in harsh environments.

(3) Integration with Artificial Intelligence
Through machine vision, robots possess stronger environmental perception, autonomous decision-making, and flexible production capabilities.

Automated Machinery Personalization Process 

(1) Requirements Analysis and Solution Design

Clarify Requirements: Communicate thoroughly with the client to understand the specific requirements for equipment functions, capacity, precision, working environment, etc., and create a written requirements document.

Solution Design: The engineering team conducts a feasibility analysis based on the requirements, proposes a preliminary design scheme (including mechanical structure, electrical control, process flow, etc.), and outputs schematic diagrams for client confirmation.

(2) Technical Review and Contract Signing

Technical Review: Organize a cross-departmental review to assess the design rationality, cost budget, and delivery cycle, and adjust the scheme if necessary.

Contract Signing: Clarify technical parameters, acceptance standards, payment methods, and after-sales service terms to avoid future disputes.

(3) Detailed Design and Procurement of Accessories

Detailed Design: Complete detailed technical documents such as mechanical drawings, electrical schematics, and PLC program framework.

Procurement of Accessories: Procure standard parts (such as motors and sensors) and customized processed parts (such as sheet metal and molds) according to the BOM (Bill of Materials).

(4) Product Manufacturing and Commissioning

Product Manufacturing: Manufacture the equipment according to the drawings, ensuring compliance with the drawing specifications.

Electrical Wiring and Commissioning: Install the control system, write PLC/robot programs, perform single-unit debugging and integrated testing, and optimize the motion logic.

(5) Acceptance and Delivery

Customer Acceptance: Conduct trial operation tests according to contract standards (such as continuous production and stability assessment), and obtain customer signature confirmation.

Training and Delivery: Provide operation manuals, maintenance guides, and on-site training, and complete equipment handover.

(6) After-Sales Follow-up
Regular Follow-up: Collect equipment operation data, resolve potential problems, and provide upgrade or modification services.