SU585845A1 - Sensor for measuring breathing parameters - Google Patents

Description

(54) SENSOR FOR MEASURING RESPIRATORY PARAMETERS

one

The invention relates to the field of medical technology and is intended to measure the parameters of the external respiration of a person.

A known sensor for measuring breathing parameters, comprising a housing, a helical swirler, an impeller, a straining force, a light source and a photosensitive element 1.

However, the known device allows measurement of respiration parameters in only one direction of flow.

The purpose of the invention is to improve the accuracy of measurement of inhalation and exhalation parameters.

This is achieved by the fact that the sensor is provided with a wind vane with a light curtain and an additional impeller and jet, with the wind vane mounted between the turns along the symmetry axis of the swirl, and the impellers and spout are located on both sides of the swirl.

The drawing shows a sensor circuit for measuring breathing parameters.

The sensor includes a housing 1, a helical swirler 2, impellers 3 and 4, and streamers 5 and 6 located on either side of the swirling 2, a vane 7 with a light curtain mounted between the turns along the axis of symmetry of the swirler 2, light source 8 and a photosensitive element 9 .

The sensor works in the following way. In the inspiratory phase, the gas flow passes through the flow straightener 6, where it becomes laminar, and the impeller 3 stops, if the latter has turned to bed. Next, the air passes the swirler 2 and transfers its energy to the impeller 4, the speed of vrash, which is proportional to the flow rate of the gas stream. From impeller 4 after jet flow 5, laminar flow enters the respiratory system.

In the expiratory phase, the process proceeds in the opposite direction, and the aerodynamic characteristics of the forward and reverse flows are quite identical.

The impellers 3 and 4 modulate the light notes when they are turned on, from the source 8 of the light to the element 9, for example a photodiode. During one revolution of the impeller, the interruption of the drying is completed twice.

The dynamic air pressure rotates the vane 7, which provides the definition of the phase of breathing. The sensitivity of the flag is chosen not lower than the sensitivity of the impeller and is ensured by the choice of a flat, frontal section and a special design in the form of a balanced templar.

In this way, the sensor design ensures that the impellers work one by one. By reducing the moment of inertia of the mollusks impellers, the sensitivity of the sensor increases and the accuracy of the measurement of respiration parameters is improved.

Claims (1)

1. US patent, No. 3792611, CL. 73-231,1972.