A medical pneumoperitoneum machine is a device used in surgery that can help doctors perform surgical operations by injecting gas into the abdominal cavity. In the medical field, pneumoperitoneum machines are widely used in various abdominal surgeries, such as cholecystectomy, appendectomy, etc.
The working principle of a medical pneumoperitoneum machine is simple. When doctors need to use a pneumoperitoneum machine, they connect the patient to the pneumoperitoneum machine and adjust the gas flow and pressure through a control device. When the gas is injected into the abdominal cavity, it pushes the abdominal organs apart, giving more space and better visibility for the procedure. This makes it easier for the surgeon to perform the procedure, reducing the time and risk of complications.
When using a medical pneumoperitoneum machine, doctors need to ensure the safety and reliability of the pneumoperitoneum machine, such as checking the pipes for air leaks or blockages, and they need to adjust the gas flow and pressure correctly to ensure the surgical outcome and patient safety.
Flow sensors play an important role in the application of medical pneumoperitoneum machines.
Flow sensors sense and measure the flow of gas, ensuring that the physician can accurately control the supply of pneumoperitoneum. In laparoscopic surgery, pneumoperitoneum is used to inflate the abdomen, and the flow sensor senses and controls the flow of gas to ensure that the degree of expansion meets the needs of the operation and avoids over-inflation or under-inflation.
In addition, the flow sensor can monitor the flow rate and flow of gas, thus ensuring safety during surgery. If the gas flow rate is too fast or too high, the flow sensor will immediately send out an alarm to remind the doctor to adjust the pneumoperitoneum supply in time.
At the same time, the flow sensor can also help the doctor control the operation time. In laparoscopic surgery, the surgeon needs to control the supply of pneumoperitoneum according to the needs of the operation, and by using a flow sensor, the surgeon can control the supply of pneumoperitoneum more precisely, thereby controlling the operation time.
A variety of sensors such as gas sensors, temperature sensors, flow sensors, and pressure sensors can be applied to the medical and health field, participating in the medical process and playing an important role as key components. For more sensor solutions in the medical and health field, please contact Dasheng for assistance