Are you struggling with challenges like these while striving to keep up with customer demands?
If so, it’s time to consider automating your internal supply chain—a powerful way to tackle these issues with enhanced productivity. TCID offers AGV/AMR automation systems tailored to your specific requirements, whether integrated with your inventory management system or as a standalone solution.
But not every advanced technology is economically viable for every operation. To find the best AGV/AMR solution for you, TCID’s experts are here to discuss and analyze your logistics structure, identifying the optimal level of automation to streamline your processes.
Our mission is to save you time and money, especially in standardized daily operations, while reducing transportation damage. With our autonomous AGV/AMR vehicles, you can enjoy efficient, reliable transportation processes and make the most of your resources.
TCID’s automation solutions are designed to meet various levels of internal logistics automation, from driver assistance systems to semi-automated driving and fully automated logistics processes.
An autonomous pallet robot is a type of robotic system designed to handle, transport, and manage pallets within warehouses, distribution centers, or manufacturing facilities. These robots are typically equipped with advanced navigation and sensor technologies, allowing them to move autonomously through their environment while avoiding obstacles and efficiently performing tasks like loading and unloading goods.
Key features often include:
An autonomous pallet robot is a specialized robotic system designed to transport and manage pallets within environments like warehouses and distribution centers. These robots operate without direct human control, using advanced navigation technologies such as LIDAR, cameras, and sensors to move around and avoid obstacles.
Key characteristics include:
An autonomous mobile robot (AMR) is a type of robotic system capable of navigating and performing tasks in dynamic environments without direct human control. Unlike traditional automated guided vehicles (AGVs) that follow fixed paths, AMRs use advanced technologies to move freely and adapt to their surroundings.
Navigation and Mapping: AMRs typically employ sensors (like LIDAR, cameras, and ultrasonic sensors) to create maps of their environment and navigate autonomously using algorithms for pathfinding and obstacle avoidance.
Flexibility: They can operate in various settings, including warehouses, factories, hospitals, and offices, adapting their routes based on changes in the environment.
Task Execution: AMRs can perform a range of tasks, such as transporting materials, delivering goods, or conducting inspections.
Integration: They often integrate with other systems, like warehouse management software, to optimize workflows and improve operational efficiency.
Safety: Equipped with features to detect and respond to obstacles, ensuring safe interactions with humans and other equipment.
A cobot, or collaborative robot, is designed to work alongside humans in a shared workspace. Unlike traditional industrial robots that typically operate in isolation or behind safety barriers, cobots are built with safety features and advanced sensing technology to interact safely with human workers.
Safety: Cobots are equipped with sensors and software to detect human presence, ensuring safe operation without the need for safety cages.
Ease of Use: Many cobots are designed to be user-friendly, allowing operators to easily program and reprogram them for various tasks without extensive technical expertise.
Flexibility: They can perform a wide range of tasks, such as assembly, packaging, material handling, and quality inspection, adapting to different workflows as needed.
Collaboration: Cobots can enhance human productivity by taking on repetitive, physically demanding, or precise tasks, allowing human workers to focus on more complex and creative activities.
Scalability: Businesses can easily scale their operations by adding more cobots as needed, making them a versatile solution for various industries.
Robot tự hành AMR giống như dòng sản phẩm STILL ACH là một giải pháp tiên tiến cho việc vận chuyển hàng tầm thấp (chuyển hàng theo phương ngang). Chúng có thể vận chuyển nhiều loại kiện hàng và pallet khác nhau, có thể kết nối linh hoạt với nhiều loại kho bãi và trạm trung chuyển.
We harness our expertise to help you analyze your processes and identify potential automation opportunities, setting the stage for your future success. With our expert guidance, you make the decisions. Our consultation process, led by STILL’s intralogistics experts and TCID’s seasoned partners, follows these key steps:
During the inspection, we gather crucial information and provide a comprehensive evaluation of the existing material flow, gaining a thorough understanding of your warehouse operations.
Using the data collected from your processes and logistics, we analyze the possibilities for automation. We also evaluate the technical and economic feasibility of different automation solutions, with a focus on optimizing efficiency and reducing costs.
You’ll receive customized recommendations for action specifically designed for your business, drawing from our extensive experience and consideration of your financial resources.
We present concepts and models that illustrate the added value you can achieve. Additionally, we outline the essential conditions required to successfully implement your project and individual solutions.
The degree of automation is defined by your processes. Our experts will collaborate closely with you to determine the ideal level of automation and systematically develop your operations.
At this level, the driver is supported in his tasks by various intelligent assistance functions on his truck, but remains responsible for navigation in every situation.
This level of automation includes solutions that enable vehicles to navigate in the warehouse partially on their own using special software or artificial intelligence and sensors.
With standardized automation kits, trucks can be automated for different process requirements within a very short time and scaled up to form a fully automated logistics process.