Smart medical products
Smart Medicine Cabinet Machine
The intelligent medicine cabinet machine is a modern medical terminal device that integrates intelligent storage, data interaction, and medication management. The product features a modular design, consisting of three core components: an intelligent chassis, a high definition touch display screen, and an intelligent medicine cabinet. It provides efficient, safe, and convenient medication management solutions for medical institutions, pharmacies, community healthcare centers, and smart healthcare scenarios
Mechanical Exoskeleton Assist Device
With the intensifying aging population and the increasing number of patients with sports injuries and neurological diseases, the rehabilitation needs of people with lower limb motor dysfunction are becoming more prominent. Traditional rehabilitation training relies on manual assistance, which is inefficient, difficult to control in intensity, and can easily lead to patient frustration. This lower limb rehabilitation assistive exoskeleton, with the core goals of "human machine collaboration, natural adaptation, and safety and reliability," aims to provide scientific walking assistance and rehabilitation training support for patients with lower limb dysfunction (such as hemiplegia, spinal cord injury, and post operative rehabilitation), helping patients rebuild motor abilities, enhance autonomy in daily activities, and reduce the workload of caregivers
Smart wearable exoskeleton mechanical arm
The intelligent wearable exoskeleton mechanical arm is an auxiliary device that integrates robotics, intelligent control systems, and ergonomic design. Through a bionic joint structure and high precision power system, it achieves precise assistance and strength enhancement for upper limb movements, providing intelligent solutions for medical rehabilitation, industrial operations, and special scenario applications The product features a lightweight wearable architecture design, fitting closely with the shoulder and back structure of the human body through a multi point fixation system, ensuring wearing comfort and movement stability. The bionic mechanical joints can simulate the movement trajectories of the human shoulder, elbow, and wrist joints, achieving natural and smooth human machine collaborative operations Relying on advanced sensing technology and intelligent control algorithms, the device can perceive the user's movement intentions in real-time, providing precise power assistance, effectively reducing the physical burden caused by repetitive labor, and improving operational efficiency and precision
