SU491375A1 - Device for measuring the volume of respiration - Google Patents

Description

one

The invention relates to the medical industry and can be used for functional diagnostics and for artificial ventilation of the lungs.

A device for measuring the volume of respiration is known, which contains a spirometer. However, it has significant breathing resistance under the forced mode due to the long connecting pipe length, does not provide the possibility of long-term measurement of respiratory volumes under load and in motion due to the lack of communication between the circulation system and the atmosphere and accumulation of carbon dioxide as a result of this breathing during mechanical ventilation when the respiratory system has elevated pressure.

The described device is characterized in that it is provided with a flow divider consisting of a two-end body, an air duct package placed inside the body, one of the air ducts being pneumatically connected to the spirometer, and the latter is made with a sealed casing pneumatically connected to one end of the body and atmosphere. or the circulation line of the ventilator, and the other end of the case during measurement is associated with the patient. This provides the possibility of long-term measurement of respiratory volumes under load, during spontaneous breathing and during artificial ventilation of the lungs (ALV).

FIG. 1 is a schematic diagram of the device described; in fig. 2 is a diagram of the connection of the device with the ventilator;

The device includes a spirometer I, made with a sealed casing 2, the divider

flow and package of 3 ducts. The flow divider has a housing 4 with two ends 5 and 6, the first of which is associated with the patient. The casing 2 air pipe 7 is connected to another end 6 of the housing 4 and the atmosphere or

circulation system of the device 8 artificial ventilation of the lungs. Package 3 ducts located inside the housing 4 of the flow divider. The patient is connected to the end of the 5th case.

4 flow divider and exhales into spirometer 1, which is connected to the air duct 7 of the flow divider. The entire flow of air supplied to the system by a packet of 3 air ducts is divided into parts, with one part of it through

The air duct 7 of the bag is fed to the spirometer 1, where it is measured, and the rest of the flow is released to the atmosphere.

When measuring the volume of respiration in the case of artificial ventilation of the lungs, one of the parts of the flow is supplied to the spirometer 1, and the remaining parts to the circulation system of the mechanical ventilation apparatus 8, to which the cavity A of the sealed casing 2 of the snirometer is also connected.

Due to the fact that the gas flow regimes in all air ducts of Ixta 3 are the same, a certain part of the total air flow passing through them is supplied to the snapshot 1, so that the total capacity of the spirometer 1 can be measured as many times as the total air flow through package 3 more flow through one duct.

Thus, the device allows to take long-term measurements of respiratory volumes, since carbon dioxide accumulation is excluded in the circulatory system, as well as respiratory volumes during artificial ventilation of the lungs are measured.

Claims (1)

Invention Formula A device for measuring the volume of respiration is contained; its metering device, characterized in that, in order to ensure the possibility of long-lasting volumes of respiration under load, during breathing and during artificial ventilation of the lungs, it is equipped with a flow divider consisting of a body with two ends, an air duct housing located inside the corus, one of the air ducts is nonevally connected to the spirometer, the spirometer is made with a sealed casing pneumatically connected to one end of the body and the atmosphere or circulation line of the ventilator, and the other end of the body during the measurement is associated with the patient.