Robots, as important tools for intelligent manufacturing and logistics automation, are continuously expanding the application boundaries of the industry with technological innovations, while also bringing more challenges. These challenges are not only reflected in the innovation of robot product forms but more critically in the deep understanding and adaptation to end application scenarios to achieve effective technology implementation.

Looking at product application forms,Pallet Racking Robo, Case-Picking Robot, intelligent forklifts, and service robots have developed into highly mature application products. With technological advancements, complex forms of products such as composite robots and humanoid robots are also gradually increasing, and their application implementation increasingly emphasizes flexibility and intelligence.

Deep in the end application scenarios, robots are taking on more complex and delicate tasks. The key to application is to solve the complexity and uncertainty in actual operations, thereby enhancing the practical value and efficiency of robots.

One-stop Vehicle Manufacturing Solution

Facing the challenges of diversified robot product forms and complex application scenarios, SEER Robotics, based on the concept of "supporting non-standard applications with standardized products," has built a one-stop vehicle manufacturing solution centered around the SRC controller, with customers at the core and market trends as the guide.

This solution aims to provide manufacturers with the capability to manufacture and design robots with a diversified range of products such as "controllers + software + components," forming more flexible, personalized, and intelligent robot solutions to address various manufacturing and application challenges of robots, and promote the realization of making smart robots accessible to all.

The complete vehicle manufacturing solution includes: SRC controller hardware, various module components for vehicle manufacturing, one-stop implementation tools Roboshop, a full set of hardware and software solutions, vehicle selection guides and debugging manuals, training courses and after-sales service, and product software iteration and upgrade services.

This solution leverages a vast library of partner vehicle models, an integrated robotics industry chain, and SEER Robotics' core technical support to form a unique market competitive edge:

1、In-depth alignment and efficient reuse of the partner vehicle model library

The partner vehicle model library gathers numerous proven vehicle manufacturing solutions that deeply align with the actual needs of industrial logistics, supporting direct reuse for mass production. This not only reduces the trial and error costs for customers during the vehicle manufacturing process but also significantly improves manufacturing efficiency. As a result, customers can quickly respond to market changes and accelerate the time-to-market for their products.

2、Maximizing cost-effectiveness through industry chain integration

By integrating the upstream and downstream of the robotics industry chain, cost-effectiveness is maximized. A stable supply chain and modular component supply effectively reduce the expenditure costs throughout the manufacturing process, while also bringing higher value to industry chain partners, achieving a win-win cooperation.

3、SEER Robotics' core technology provides a solid foundation

SEER Robotics' core technology forms the competitive edge of the one-stop vehicle manufacturing solution, including self-developed software and hardware systems and continuous iteration services. On one hand, it provides a comprehensive function library that supports the robots manufactured by customers to easily cope with various complex and changing application scenarios. On the other hand, it also offers open interfaces and iterable system services. Through openness and continuous innovation, it meets a variety of non-standard needs, helping customers easily manufacture robots that are more adaptable to market trends.

SRC Controller Vehicle Manufacturing Cases

1、Automobile Manufacturing Workshop - Heavy-Duty Transfer

In the automobile manufacturing workshop, to address the need for heavy-duty transfer, SEER Robotics offers a cost-effective vehicle manufacturing solution based on entry-level controllers.

This solution meets the main demands of heavy-load cargo transfer in the engine workshop at a low cost. The vehicle type selected is the pallet racking robot category, which is compact in design, allowing for more flexible access under equipment and docking with production lines.

Additionally, in conjunction with the Unified Resource Dispatching System (RDS), the solution optimizes the robot's operating routes based on the actual production rhythm, preventing underutilization of robots on-site, and achieving efficient collaborative transfer among multiple robots.

2、3C Electronics Workshop - Process Automation

To further enhance the material transfer efficiency in the 3C electronics workshop and reduce manual intervention, SEER Robotics has provided a one-stop vehicle manufacturing solution based on the universal controller SRC-2000, tailored to the logistics needs of various production lines in the workshop.

Based on the SRC-2000 controller, a variety of robots including roller lift robots,Pallet Racking Robot, and intelligent forklifts have been manufactured to precisely match the job requirements.

Integrated with the Unified Resource Dispatching System (RDS), it supports interactions across regions and multiple processes, and centrally manages the task reception and dispatch, traffic control, and automatic charging of different types of robots, enhancing the overall level of automation.

3、Transportation Equipment Maintenance - Intelligent Inspection

The universal controller SRC-2000 is not only suitable for manufacturing common industrial robots but also supports the manufacturing of various types of composite robots for precision tasks such as inspection and assembly.

The inspection work for high-speed train sets is not only highly complex but also requires extreme precision and timeliness. In the maintenance workshop of Beijing's Chaoyang High-Speed Train Station, the introduction of robots has achieved efficient and intelligent inspection of high-speed train sets. Two composite intelligent inspection robots equipped with the SRC-2000 controller can simultaneously inspect the equipment and components of the undercarriage walking parts for two high-speed train sets.

Compound intelligent inspection robots are equipped with highly flexible robotic arms and carry image acquisition devices, capable of performing tasks in complex spatial environments, and supporting comprehensive inspections of bogies. With the aid of high-precision LiDAR navigation, these robots can achieve accurate positioning, ensuring precise scanning of critical components under the vehicle. The autonomous inspection of an eight-car train set takes only 40 minutes, significantly enhancing both inspection accuracy and work efficiency