Medical training models provide a highly simulated clinical skills training and pathophysiological cognition environment for medical trainees (medical students, nurses, doctors) under the absolute preconditions of safety, repeatability, and standardization. This addresses the core bottlenecks in traditional clinical education: excessive observation with insufficient practice, high risks, and unequal opportunities.

Scenarios in which diaphragm pumps can be used in medical training models include:

  1. Mobile Interactive Male/Female Catheterization Models:​ These models require simulation of bladder irrigation, catheterization, and other operations, which may involve the storage and delivery of fluids (such as simulated urine or irrigation solution). Diaphragm pumps can be used to provide stable, controllable, and clean fluid flow pressure, enabling the "catheterization procedure to be completed without relying on an external water bag for pressure."
  2. Intelligent Cardiopulmonary Auscultation and Abdominal Palpation Training Systems:​ Advanced versions may integrate physiological functions such as simulated blood circulation or abdominal effusion, requiring a pump to drive simulated blood or other fluids.
  3. Comprehensive Emergency Training Systems or High-Fidelity Critical Care Patient Simulators:​ These highly realistic simulators may encompass complex physiological functions such as simulated blood circulation, respiration (simulated airway secretions), sweating, and bleeding. Due to their clean and controllable characteristics, diaphragm pumps are well-suited for driving these simulated bodily fluids.
  4. Wearable Thoracentesis Training Suit Systems:​ Used for training thoracentesis, they may require the generation and aspiration of simulated pleural effusion. Diaphragm pumps can be used to create and control the simulated effusion.
  5. Traditional Chinese Medicine Pulse Simulation Teaching and Assessment Systems:​ These may require simulation of vascular pulsation, which could potentially be achieved through precisely controlled liquid pulses. Diaphragm pumps are capable of this task.
  6. Vascular Interventional Therapy Simulation Training Platforms:​ Such platforms require simulation of blood flow. Diaphragm pumps are an ideal choice for generating controlled pulsatile flow.
  7. Battlefield Effect Simulation Training Systems:​ These may include simulation of traumatic effects like bleeding, requiring a pump to deliver simulated blood.

With their outstanding fluid delivery performance, NIDEC diaphragm liquid pumps have become a reliable, core component validated in the field of medical training models for over a decade. Their key technical advantages include: highly stable flow output with minimal pulsation, a wide adjustable range, and excellent repeatability, ensuring the realism and repeatability of simulated physiological processes (such as infusion and blood circulation). Furthermore, the pumps are durably designed with a service life exceeding 10,000 hours, enabling them to withstand high-frequency use in training. Their good media compatibility further broadens their application in the delivery of various simulated bodily fluids.

Current diaphragm pump models used in medical training models include:

  • Rubber EPDM material: 00H220H032, 00H220H035, 00H220H042
  • Rubber FKM material: 00H704K611