Next-Generation Robot Demonstrates High-Dynamic Motion Capabilities in Experimental Testing

QUANZHOU, China, June 18, 2026 (GLOBE NEWSWIRE) -- INLIF LIMITED (NASDAQ:INLF) (together with all its subsidiaries and consolidated entities, the "Company" or "INLIF"), a company engaged in the research, development, manufacturing, and sales of injection molding machine-dedicated manipulator arms, today announced its strategic entry into the humanoid robotics market.

According to industry trends and market developments observed by the Company, the industry of humanoid robotics is currently at a critical stage in the transition from technology validation to industrialization. The Company believes that advances in artificial intelligence ("AI"), embodied AI, precision servo systems, and motion control algorithms may support broader adoption of humanoid robots across a wide range of real-world applications, including industrial manufacturing, warehousing and logistics, hazardous-environment operations, commercial services, and household scenarios.

Against this backdrop, INLIF remains optimistic about the long-term development prospects of integrating industrial automation technologies with humanoid robotics and believes that the two fields share technological synergies that the Company intends to leverage. INLIF has been deeply engaged in the industrial robotics and injection molding automation sectors for years, accumulating expertise in mechanical structure design and precision motion control. INLIF has also gained practical experience in implementing automation solutions in various operating environments. The Company believes these technological capabilities and industry experience provide a solid foundation for its strategic expansion into this emerging market segment.

Following the commencement of research and development ("R&D") of related core robotics technologies in the first half of 2026, INLIF aims to fully leverage its long-standing technical expertise and industry strengths to expand into the humanoid robotics sector. The Company's newly developed humanoid robot is undergoing validation tests in experimental environments. The Company believes that the robot is likely to demonstrate high-dynamic motion capabilities, including performing somersault maneuvers, as well as strong motion coordination, dynamic balance, and system control stability. These developments will represent an important early step in the Company's ongoing R&D efforts in motion control and system collaboration technologies.

To advance the development efforts toward potential future commercialization, INLIF plans to focus on the following strategic initiatives, subject to ongoing R&D results and resource allocation.