The advanced electronic half-body cardiopulmonary resuscitation training manikins are professional first aid training devices that integrate highly realistic anatomical structures and electronic feedback technology. They are mainly used for teaching and assessing basic and some advanced CPR skills in adults. This model adopts a realistic half-body structure design. The range of motion of the chest, skin and joints is close to that of a real human body. It can precisely simulate the resistance and rebound sensation during pressing, helping trainees master the correct pressing touch and force.
The device is equipped with an electronic detection system that can monitor in real time the depth, frequency, recovery speed and ventilation volume of external chest compressions, and provide feedback on the operation quality through the display screen or voice prompts. When trainees encounter problems such as too shallow pressure, too slow frequency or insufficient ventilation, the system will automatically alarm or prompt, facilitating timely adjustment. Some models also have training record and data analysis functions, which can be used for skills assessment and performance evaluation.
simulate standard airway opening;
artificial chest compression, correct compression depth (5-6cm) :
Insufficient pressing depth, the yellow light will come on.
The pressing strength is correct, the green light is on, and there is a correct beeping sound as an indication.
When the pressure is too high, the red light will come on and there will be an alarm beeping sound as an indication.
artificial mouth-to-mouth breathing (blowing) :
The volume of tidal air blown in is determined by observing the rise and fall of the chest (tidal air volume standard ≤500ml/600m-1000ml≤).
Operating frequency: international standard: 100-120 times per minute, marked by "beep" sound;
operation mode: training operation;
power supply: battery;
This simulation manikin supports multiple training modes, such as basic single-person CPR, two-person cooperative CPR and airway management practice, and is suitable for scenarios such as hospitals, emergency centers, nursing and medical colleges. Through systematic training, trainees can not only improve the standardization of external chest compressions and artificial respiration, but also make correct responses quickly in emergency situations, thereby increasing the success rate of patient rescue.