Lightweight design

Lightweight design meets the needs of lighter wear and quick response

Multi-point mechanism design

Effectively increase the demand for frefighting rescue and field operations personnel to carry multiple types of materials, and enhance Distribution capacity and extended work safety time

Modular design

Convenient to disassemble, store and transport

Intelligent function expansion

External energy consumption module and software system positioning module and software system (Beidou/GPS satellite positioning funetion; individual positioning visualization cloud platform)
Efficient load-bearing transfer structure
The bionic knee joint designed according to the physiological movement characteristics of the human knee joint increases
wearing comfort and movement adaptability, and at the same time provides safer protection for the wearer's knee joint.
Effectively reduce the energy consumption of human walking
Reduce the probability of injuries to the spine, hip, knee and ankle joints.
Scenarios such as special operations and emergency rescue
Individual soldier's load-bearing training and rapid-response load-bearing marching;
load-bearing for rescuing the wounded;
load-bearing transportation of emergency rescue supplies such as forest fire fighting, mountain and earthquake rescue;
power field load-bearing operation and other scenarios.