CS218823B1 - Single-extremalous sensor of the respiration frequency - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a one-extremes breathing rate sensor in which a thermistor is used as a flow-responsive element and in which air circulation is solved so that at one cycle of inspiration the thermistor is influenced by the flow-air only either by inhalation or only by exhalation).

Known breathing frequency sensors using a thermistor as a flow-responsive element place the thermistor in the path of the flowing air in such a way that the thermistor is influenced by the flowing air both inhaling and exhaling, although in the construction of electrical circuits of which the thermistor is usually part it is often advantageous if the thermistor is influenced by the flowing air either only by inhalation or only by exhalation.

The above-mentioned drawbacks are overcome by the sensor according to the invention, which is based on the fact that the thermistor is located opposite the mouth at the partition which is located in the sensor body between the thermistor and the second sensor mouth.

The accompanying drawings show an exemplary embodiment of a sensor according to the invention with a schematic representation of the flow of air flow by arrows. Fig. 1 shows a schematic cross-section of the sensor body 1, inside of which there is a partition 2, near which the thermistor 3 is located. The sensor body 1 has two inputs, one of which is terminated with a mouth 4 and the other with an S. the same designation of individual parts applies. Fig. 1 shows a case of the air flow flow from mouth 4 to mouth S; Fig. 2 shows the air flow flow in the opposite direction.

The sensor body has a partition 2 against the mouth 4 at which a thermistor 3 is located on the side closer to the mouth 4. The air stream entering from the outside of the sensor into the mouth 4 impinges on the thermistor 3, bypasses the partition 2 and flows from the interior of the sensor through the orifice. air flows into the sensor through the orifice S, bypasses the baffle 2 and, without substantially affecting the thermistor 3, flows out of the interior of the sensor through the orifice 4. If it breathes into the sensor from the orifice side 4, the thermistor is always influenced the sensor on the side of the orifice S is influenced by inhalation.

The sensor according to the invention is suitable for measuring the respiratory rate if, from the point of view of the construction of the connected electrical circuits, it is appropriate to obtain one extreme in the time change of resistance during one breathing period. The shaft 4 can also be designed as a parallel design of several air ducts, of which only one is directed to the thermistor. Such a solution is advantageous when a low resistance of the sensor to the flow of air is desired. Breathing of the sensor by the orifice 5 has the advantage over the orifice by the orifice 4 in that the moisture present in the exhaled air stream does not precipitate at the location where the thermistor 3 is located.

Claims (1)

One-extremes thermistor-type breath rate sensor, characterized in that the thermistor (3) is positioned opposite the mouth (4) at the bulkhead (2), the bulkhead (2) in the sensor body (1) being positioned between the mouth (5) and the thermistor (3) ).