Authors :
Dr. S.K. Pahuja; Vinod Kumar Singh
Volume/Issue :
Volume 7 - 2022, Issue 8 - August
Google Scholar :
https://bit.ly/3IIfn9N
Scribd :
https://bit.ly/3DnS1qY
DOI :
https://doi.org/10.5281/zenodo.7076564
Abstract :
- We create a low, simply built prototype for a
medically portable ventilator that could be used in mass
casualty and pandemic conditions without delay. It takes
use of already available manual resuscitators that are
easily accessible and a regulated pneumatic enclosure
(AmbuBag). The AmbuBox provides equipment that is
easy to tackle the issues currently present in the reduced
cost ventilator designs, AmbuBox offer a wide range that
is simple to set up and use while retaining a longer life span
and high-precision flow control. The result was the
creation of a surplus AmbuBox prototype that was
authorized for use in a bench test set using a lung
simulator.
This gadget will be put through clinical testing to
learn more. The prototype device's capacities was defined
in terms of peak flow and varied from 0.2 to 1.6 I/breath
based on the overall tidal volume/min range. For ordinary
respiration, the constructed device may provide a
maximum flow rate within 2.02 and 32.32 l/min at an
exploration of new to inspiratory of new ratio E:I = 2:1.
The experimental gadget can detect around 10 and 40
breaths per minute (bpm). Patients with severe breathing
issues or higher E:I ratios of 2:1 were estimated to breathe
within 4.04 and 64.64 liters per minute (l/min), whereas
patients with modest breathing issues or E:I ratios of 1:1
were estimated to breathe within 3.03 and 48.48 liters per
minute (l/min).Lastly we measure body temp, heart rate
and SPO2 level using Arduino and IOT.
Keywords :
Ambu Bag, Servo Motor, Respiratory Rate.
- We create a low, simply built prototype for a
medically portable ventilator that could be used in mass
casualty and pandemic conditions without delay. It takes
use of already available manual resuscitators that are
easily accessible and a regulated pneumatic enclosure
(AmbuBag). The AmbuBox provides equipment that is
easy to tackle the issues currently present in the reduced
cost ventilator designs, AmbuBox offer a wide range that
is simple to set up and use while retaining a longer life span
and high-precision flow control. The result was the
creation of a surplus AmbuBox prototype that was
authorized for use in a bench test set using a lung
simulator.
This gadget will be put through clinical testing to
learn more. The prototype device's capacities was defined
in terms of peak flow and varied from 0.2 to 1.6 I/breath
based on the overall tidal volume/min range. For ordinary
respiration, the constructed device may provide a
maximum flow rate within 2.02 and 32.32 l/min at an
exploration of new to inspiratory of new ratio E:I = 2:1.
The experimental gadget can detect around 10 and 40
breaths per minute (bpm). Patients with severe breathing
issues or higher E:I ratios of 2:1 were estimated to breathe
within 4.04 and 64.64 liters per minute (l/min), whereas
patients with modest breathing issues or E:I ratios of 1:1
were estimated to breathe within 3.03 and 48.48 liters per
minute (l/min).Lastly we measure body temp, heart rate
and SPO2 level using Arduino and IOT.
Keywords :
Ambu Bag, Servo Motor, Respiratory Rate.
