SU1186192A1 - Medical temperature=sensitive element - Google Patents

Description

The invention relates to a technique for measuring temperature, in particular to sensors for measuring the temperature of exhaled air and the point temperature of the walls of various hollow organs in a person, for example, a tracheobronchial tree.

The purpose of the invention is to improve the accuracy of measuring the surface temperature of the walls of hollow organs.

FIG. 1 shows a temperature sensor, a cut; in fig. 2 is a view A of FIG. one.

The temperature gauge consists of a tubular body 1 made, for example, of stainless steel. The support 2 and the mobile control branch 3 are rigidly fixed on it at one end. The control branch 3 is rigidly connected to the flexible rod 4 passing through the longitudinal holes in the guide tube 5 mounted on the housing 1 and the elastic element 6. The link 4 is rigidly connected to the working end the elastic element 6. The elastic element 6 is rigidly fixed to the housing 1. The element 6 has a cylindrical shape, and on one of its sides there are slots 7, providing bending.

In the elastic element 6 there are two rows of longitudinal holes 8, through which the thrust 4 and the electrical conductors 9 pass, connecting the temperature-sensitive element 10 with the electrical measuring device. The working end of the elastic element has a recess 11, in the center of which a thermosensitive element 10 is reinforced, made in the form of a spring spiral.

The sensor is used as follows.

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Introduce the sensor into the cavity of a hollow organ. Visually mark the "point" necessary for measuring the temperature on the organ wall. By manipulating the adjusting jaw under the control of vision, the working end of the elastic element with the thermosensitive element is directed to this “point” and fixed. The temperature-sensitive element, made in the form of a spiral, is compressed under pressure until the edges of the recess contact the wall of the organ. This achieves complete sealing of the thermoelement from the influence of external factors and at the same time its tight contact with the organ wall. The thermoelement is in this position all the time necessary to measure the temperature.

After measuring the temperature of the wall of the hollow organ, the restrictive chamber, by shifting the regulating branch, returns to its original position and is removed.

Measurement of the temperature of exhaled air is made as follows; after the bronchoscopy is performed, the working end of the elastic element is placed in the stream of exhaled air in one of the bronchi.

In this regard, external factors affecting the accuracy of measuring the temperature of exhaled air are completely excluded and the results most accurately reflect fluctuations in the temperature of exhaled air in various pathologies. After measuring the temperature of exhaled air, the sensor is removed from the bronchoscope.

Type A

Claims (2)

MEDICAL SENSOR OF TEMPERATURE, comprising a housing, a temperature-sensitive element and conductors, characterized in that, In order to improve the accuracy of measuring the surface temperature of the walls of hollow organs, an elastic element is fixed at one end of the sensor body, having slots on one side, and an emphasis and regulating branch connected to the elastic element with a flexible spring are located at the other end of the body. located in the recess at the working end of the elastic element, and in the case and the elastic element are longitudinal holes for flexible traction and conductors. 2 1 11