The era of humanoid robots has arrived, creating a new generation of automation through "intelligence + kinetic energy".
The era of humanoid robots has arrived, creating a new generation of automation through "intelligence + kinetic energy".
Global tech giants reveal the future of humanoid robots: "Optimus will produce one million units annually within five years." — Elon Musk, Tesla earnings call. "We will open-source the Groot N1 base model, allowing developers to accelerate the creation of AI robots." — Jensen Huang, NVIDIA GTC Technology Conference. Musk and Huang's statements declare that humanoid robots are no longer just a fantasy in science fiction movies, but a reality that is about to be mass-produced and widespread. From the evolution of language models to the practical application of humanoid robots, intelligent manufacturing is entering a new era combining "knowledge" and "action." In this wave, Origen focuses on three core technologies: AIoT sensing, gearbox design, and fluid transmission.
📍AIoT Sensor Systems: The Intelligent Language of Factory Data
At Haolihui, we are committed to building machines that can "understand questions." We have installed various sensors (including temperature and vibration sensors) on gearboxes and various cross-milling heads, transmitting data back to the user through the Pi System to build a dedicated enterprise data platform. Furthermore, we combine LLM (Large Language Model) technology, allowing users to query the current status of equipment, fault records, or maintenance suggestions through conversational question-and-answer sessions. This is not just monitoring, but the first step towards self-diagnosis and self-learning.
📍Fluid-driven tool holders: Breakthroughs in machining speed and yield
For workpieces like pumps and valves, the internal bores often have multiple dimensions. Previously, horizontal machining centers were typically used, equipped with multiple boring tools, one for each dimension. This required constant tool changes and realignment during machining, which was not only time-consuming but could also affect accuracy due to accumulated errors.
However, with U-axis technology, a single U-axis head can automatically adjust the tool tip position to machine different stepped bore diameters. This not only shortens machining time but also reduces tool changes, resulting in a smoother overall production flow.
📍Challenge 3: Machining of eccentric holes and control of workpiece surface roughness
To address the machining needs of high-precision, high-hardness and brittle materials (such as semiconductor carrier disks), Haolihui has launched a fluid-driven spindle tool holder, redefining efficiency and quality.
● Rotation speed: Up to 30,000 RPM
● Efficiency: 50% reduction in processing time
● Quality: Yield increased to 95%
● Advantage: No additional electricity required for processing
📍 Gearbox Core Technology: The Power That Makes Robots Truly "Move"
Intelligence and perception are the "brain" and "senses" of humanoid robots; while a stable and precise power structure is their "muscles" and "skeleton." Origen possesses the capability for customized gearbox design, featuring high precision and low backlash (less than one arcminute), and can provide comprehensive solutions tailored to specific needs.
Application areas include:
● Robotic arm
● AGV (Automated Guided Vehicle)
● AMR (Autonomous Mobile Vehicle)
● Semiconductor cleaning production line
● Medical automated production line
● Automated logistics warehousing
Our vision: To let intelligence define the next generation of human-machine collaboration and achieve perfect integration with kinetic energy.
We believe that when intelligence and machinery are deeply integrated, factories will no longer be just production bases, but intelligent spaces that can interact with people and integrate the physical and virtual worlds. Haolihui is continuously working to create this future.