DE6931508U - DEVICE FOR MEASURING PULSE BLOOD PRESSURE, WITH A SOUND PRESSURE TRANSDUCER - Google Patents

Description

Patent attorney! _U 2 * £? ^ L, *., Dirt. ·

5 Cologne. Friesens'raBe M * < Telephone 81 4 | Ü3 (at the HohoniolleiMiring)

IG / llg July 24, 1969

ELAG, Inn. J. Klein

5 Cologne-Ehrenfeld, Overbeckstr. 2-4.

Device for measuring the pulse blood pressure, with a pressure transducer "

The invention relates to a device for measuring pulse blood pressure, especially the sound of Korottkoff a compressed air cuff attached to the patient, which is connected via a connecting line to a Sound pressure transducer is connected.

There are blood pressure meters with electrically controlled pressure \ generation with a playback device for the Korottkoff '■ see noise in the loudspeaker known, the Korottkoff; see noise on a mercury instrument as soon as it starts, is used to determine the systolic value, while when down! sound of the noise the diastolic value is read off. j The Korottkoff noise can be picked up via an air pressure chamber in the cuff. By operating the Hg regulator, the cuff is inflated and the pressure is reduced after the desired level has been reached; in the latter process, the Korottkoff noise can be heard through the loudspeaker.

It is also known to be sealed by at least one Chamber to use a sound pressure transducer connected to a connection line of the cuff as a signal transmitter.

the, wherein this signal transmitter is built in particular in the measuring device. The signal generator can be a piezoelectric Be Schwinger. Now it has been shown that the use of the Druekluftmanschette with a necessarily not Chamber that is too small gives rise to malfunctions or an insensitive display in the signal transmitter and thus in the measuring device. Because in addition to the Korottkoff noise with a frequency of approximately 70, the pulse frequency also occurs with a Frequency of around 15, which affects the selectivity, which has a considerable amplitude. The applicant has therefore already proposed that both chambers be closed separate. It is difficult, however, to find the technically useful location, that of the various acoustic frequencies of the volumes of the chamber, the sensitivity of the signal generator and other coupling or mounting conditions depend. It must be ensured that the without delay by z. B. the patient's arm wound cuff does not give rise to any disturbance or a reduction in sensitivity due to the fact that the weak Korottkoff noise superimposed or otherwise acoustic is disturbed.

According to the invention, the above disadvantages are avoided; It is suggested that one be relative to the first chamber ; smaller second chamber of the compressed air maneels is present and arranged laterally next to the first chamber and with this is acoustically coupled, this second chamber via a signal line, as is individually known per se, with the sound transducer connected is. According to a further improvement of the invention, optimal measurement results are achieved in that the second Chamber next to the end of the first chamber is attached «The pulse frequency is determined by Korottkoff even with strong amplitudes Noise is better kept out that the dimensioning of the two chambers is made so that the second chamber ; mer has only about 1/5 the volume of the first chamber. One white tere special embodiment of the invention provides that both

de chambers are connected to one another via an acoustically damping material. It has been shown in a surprising way that the use of an acoustically damping material was not, as could be assumed, that Korottkoffsche Noise also dampens, but, especially if a rubber-elastic material and / or a material in the form of a Layer or plate is used, just the pulse frequency is attenuated. This gives a higher sensitivity to the korottkoff see pulse rates.

Another embodiment of the invention provides a special embodiment of the sound transducer. For a number of uses the use of a piezoelectric crystal is ruled out mainly because of its temperature dependence, or keeping the temperature constant would be extensive Need equipment construction, which is ruled out even with smaller devices for reasons of cost. The adhesive layer between a carrier plate and the crystal must not change significantly over time, because otherwise the tension will not or is not transferred evenly to the crystal. These disadvantages are improved according to the invention in that the Sound transducer is an electrically and / or magnetically excitable and adjustable or oscillatable by the signal air pressure Has structural unit which, according to a particular embodiment of the invention, a current-carrying electrical, in particular is provided with an iron core coil or winding, connected to a transmitter element. The transmitter element can be a membrane a small closed air chamber open to the signal line. Preferably the winding is over at least a holder like an annular component with the membrane, especially provided at an eccentric stiffened point. You can use an E-shaped core, in whose E-columns, seen in section, the coil is inserted and here can swing.

One embodiment of the invention is shown in the drawing and is explained in more detail below. In the drawing

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A partially cut side view of the large and small chambers, the compressed air line, as well as the signal pressure line and also the sound transducer is shown

The cuff consists of the large, first chamber 10 and a smaller second chamber 11, which are usually surrounded by a textile covering 12, which is only indicated by dashed lines. The supply line 13 leads to a known pump, not shown. The smaller chamber 11, which as a rule, like the chamber 10, is made of rubber, is located approximately in the region of the lower end of the chamber 10, or a little higher. It is preferably spatially separated from the other chamber by layered material that can be a plate 14 made of rubber or the like, but by the plate or the like. 14 firmly connected to the chamber 10 and is wound together with her onto the patient's arm. This arrangement ensures, among other things, in an advantageous manner that the chamber 11 is not pinched off or deformed in an undesirable manner. The ropes 10, 14 »11 can be attached to one another using a suitable adhesive. It can also be seen that a signal pressure line 15 leads to the sound transducer 16 only from the smaller chamber 11. In this case, the signal line 15, which is preferably a hose, runs out into a tube 17, which air-circulates via the connector 18 of the sound transducer 16; is turned up tightly. In the housing of the transducer 16 befin- \ det a hermetically connected to the line 15 smaller [chamber which is bounded on one side by a membrane 19th j. This membrane, for example made of metal or plastic, is mechanically connected via a holder, in particular a ring holder 20, to an electrically excitable coil 21 which is wound onto the ring holder 20 and whose ends are connected to a power source. A yoke-shaped magnet 22, e.g. P in the form of an E, is present and arranged in such a way that the holder and coil are inserted into the ί S column, so that the magnetic field of the iron 22 intersects the magnetic field of the coil

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In operation, the cuff with the chambers 10, 11 is e.g. wrapped the patient's arm and then inflated the chamber 10 via line 13. The acoustic frequency transmits to itself Via the plate 14, the low pulse frequency is dampened, onto the chamber 11 and the column of air in this chamber is set in vibrations offset. By winding the air in the smaller chamber 11 is compressed, so that a strong air oscillation over the tube 15 is placed on the membrane 19, which is set in vibration. The vibration is transmitted via the Holder 20 on coil or winding 21, so that a magnetic alternating field is generated in it, reinforced by magnet 22, which is used in individually known manner for the measurement display.

The invention is not restricted to these exemplary embodiments. Depending on the individual case, a suitable material can be exchanged or the components can be offset ₉ without deviating from the principle of the invention. It should also be noted that the smaller chamber 11 comes to lie at the top when the cuff is rolled up, and a permanent magnet can also be used instead of the core 22.

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Claims (7)

ELAG, Irih. J. Klein claims for protection 1. Device for measuring pulse blood pressure, in particular the sound of Korottkoff, with a compressed air cuff that is connected via an acoustic coupling part to a component which converts the sound pressure, characterized in that a second chamber which is smaller relative to the first "chamber of the cuff the compressed air cuff is present, arranged laterally next to the first chamber, as well as with this via a wall or a component is acoustically coupled. 2. Device, in particular according to claim 1, characterized in that that the second chamber is attached adjacent to the end of the first chamber. 3. Device, in particular according to claim 1 or 2, characterized in that that the second chamber is about five times smaller than the first chamber. 4. Apparatus according to claim 1 or 2, characterized in that both chambers have a component made of acoustically damping Material are connected to each other. 5. Device, in particular according to claim 4, characterized in that that this component consists of at least one plate, a board or the like, the material of which has rubber-elastic properties having. »Rc c ·« n et «· ••• ti III |> ■ 1 it 6. The device, in particular according to claim 1, ύ. & Φιτοίι gökenn * indicates that the transducer component has an electrical i ψψ magnetic structural unit such as a coil that is flexible; Has a bearing or is adjustable or mounted in a swinging manner · j 7. Apparatus according to claim 6, characterized in that the-? This component is a coil provided with an iron core, which is connected to a transmitter component such as a diaphragm of an air pressure chamber connected is. : t 5931508