DE2836188B1 - Measuring device for determining flow noises for indirect blood pressure display - Google Patents

Description

Claims: 1. Measuring device for determining flow noise (so-called Korotkov sound) constricted arteries caused by pumped blood go out, with a sound sensor closed on one side with a membrane with an electroacoustic transducer, the signals for an electrical circuit can be taken for evaluation and display, characterized in that as a sound sensor a stethoscope chest piece is used, the connection of which to the sound line is closed and is converted into a bushing for electrical lines and in the central a FET (field effect transistor) microphone with a given air gap opposite a membrane is arranged.

2. Measuring device according to claim 1, characterized in that the FET microphone is cast in the back wall of the stethoscope chest piece.

The invention is based on a measuring device for determining flow noise (so-called Korotkov noises) constricted arteries caused by pumped blood go out, with a sound sensor closed on one side with a membrane with an electro-acoustic converter that sends signals for an electrical circuit can be taken for evaluation and display.

Measuring devices of this type are used to determine the so-called indirect Blood pressure value provided and known for example from DE-AS 14 66 829.

These devices are intended to avoid errors that occur with subjective Measurement of blood pressure determined by a stethoscope.

The cuffs suitable for constricting arteries can be used for Measuring devices of the type mentioned at the beginning can still be used if they are equipped with detectors that deliver electrical signals via the constriction pressure. Further Detectors are required, the electrical signals of the named after Korotkow Supply flow noises in the vicinity of the constriction, with the signals for the constriction pressure can be evaluated electrically. It's a matter of effort whether the indirect blood pressure values calculated by the electrical circuit are displayed or to be printed out.

In practice it has been found that microphones as sound pickups are not readily usable because their sensitivity does not depend on the frequency is adapted to the received noises and they pick up too many signals that with great effort would have to be filtered before electrical processing. There were therefore specially adapted sound pickups have already been developed (DE-OS 27 38 354, 25 25 743, 2525696,2524968,2424 195,2340813).

With the conversion of the well-known stethoscope breast piece, it was done proved to be useful but not significant for the invention per se, that a small hole 19 is also made through which a pressure difference between the sound space and external pressure can be slowly compensated. With this pressure equalization the microphone is protected from excessive voltage on one side.

The large number of new developments of sound sensors is it can be seen that larger problems are seen in the adaptation, which is caused by the Acquaintances could not be solved easily.

The known sound sensors have the common disadvantage that they are light to be destructible because they have a complicated structure with mechanically moving parts are that have to be manufactured with great precision mechanical effort.

It is therefore the task of a measuring device with the simplest possible and to create a sound transducer that can be produced inexpensively, against interference is insensitive and can be replaced without major effort in the event of destruction.

Against the realization that with a stethoscope chest piece other Conditions for the conduction of sound through an attached hose are given nevertheless, an attempt was made to use a stethoscope chestpiece as a sound pick-up, its connection to the sound line closed and in a bushing for electrical Lines is converted and in the central opposite with a given air gap the membrane a FET (field effect transistor) microphone is arranged, whereby the loss of the part that is only usable with subjective measurement was accepted. The experiment was surprisingly successful because it was found that the The intensity and frequency range of the signals supplied to the built-in FET microphone happened to be useful for further evaluation and thus had a complicated structure Could replace sound transducers. The most amazing thing about the invention is seen in that the newly developed FET microphones, which are in a rear Bore of the stethoscope chest piece were poured in, surprisingly good in terms of the frequency range the sound sensor of a Stethoscope are adapted, although its sound line is destroyed by the installation will.

In the drawing, an example of the invention is shown schematically, which shows a measuring device consisting of a housing 10 for the evaluation electronics Components 11 for display consists of an air hose 20 from the detector for measuring the pinch pressure and a line 13 for signal transmission of the sound sensor 12 are connected.

The part that particularly characterizes the invention, the sound sensor 12, is on an exaggerated scale and in section for better understanding shown.

Centrally opposite the membrane 18, of which a sound space is on one side is completed, there is a FET microphone 16. The microphone 16 is with a hardening mass 17 in a rear bore of a stethoscope originating chest piece 12 held, the electrical leads through the connection 15 of a sound conduction tube, which is also closed will.

Claims (1)

With this sound sensor, which continues with its membrane as before the skin surface is put on, through which the flow noise constricts Artieren is to be measured, in contrast to structure-borne sound microphones by the air space between the membrane and the microphone is able to pass on Contact noises largely avoided. To be on the safe side, the evaluating Electronics, however, also ensure that randomly introduced extraneous noises, the falsify a measurement result, be removed.