SU766579A1 - Acoustic probe - Google Patents

Description

The invention relates to medical technology, and imenno, to audio probes.

A known acoustic probe containing a series-connected 5 autonomous power source, a switch, an electric frequency oscillator, a mechanical-to-mechanical oscillation transducer, and a working tip of the zones are Q and 1.

A disadvantage of the known device is the inability to simultaneously control the amplitude and frequency of oscillations of the generator, which significantly reduces its diagnostic capabilities, especially in terms of the middle ear diagnostics performed under conditions of a limited operating field, often under a microscope. 2p At the same time, the surgeon should feel all the manipulations, without detachment from the surgical floor.

The device does not allow to determine the optimal location and position of the color of the 25-mell in the process of conducting reconstructive mud-improving operations.

In addition, the device does not allow for voltage monitoring.

power source and, therefore, the oscillation amplitude of the generator, which can lead to distortion of the diagnostic picture, especially in the case of battery power.

The chain of the invention is to determine the optimal location and position of the rigid columella immediately during the reconstructive hearing-improving operations: as well as ensuring the monitoring of the state of the autonomous power source and the amplitude level of the mechanical oscillations of the working tip of the probe.

The goal is achieved by the fact that in an acoustic probe the switch is made in the form of a number of contacts according to the number of fixed frequencies of the generator and a number of contacts according to the number of fixed levels r1 of the mechanical vibration oscillations, and a calibrated resistor is installed between the output of the autonomous power source and the generator input.

In addition, in the acoustic probe there is a control unit, made in the form of a series-connected Schlsdt trigger and an LED indicator.

In addition, the generator of electrical oscillations is performed on a symmetrical multivibrator, the number of frequency setting circuits of which is equal to the number of fixed frequencies.

The drawing shows a structural QXCiVia acoustic probe.

The acoustic probe contains an autonomous power source 1, an oscillator 2 electrical audio frequency oscillations, a tattooed resistor 3 and a switch made on change-over disconnecting contacts 4 and 5 and make contacts 6 and 7. Moreover, the number of contacts in one row is equal to the number of fixed frequencies of the generator, and the number The contacts of the other row are equal to the number of fixed levels of the amplitudes of mechanical vibrations.

A resistor 3 is installed between the output of the power source 1 and the input of the generator 2.

The generator 2 is made on a symmetrical multivibrator using a bridge circuit on complementary transistors and connected to a resistor 3 and to series-connected disconnecting contacts 4 and 5. With its frequency-setting circuits 8 and 9, designed for frequencies F and F2, the generator 2 is connected to contacts 4 , b and 5, 7 respectively. The number of frequency chains of the generator is equal to the number of fixed frequencies.

An autonomous power supply state monitoring node, executed on Schmidt trigger 10 and LED indicator 11, is also connected to pins 5 and 7,

The output of the generator 2 is connected to a transducer 12 of electrical signals into mechanical oscillations connected to the sound of the conductor working tip 13 of the probe.

The study of the acoustic system of the middle ear using a probe is carried out as follows.

The end of the probe 13 is brought into contact with various parts of the middle ear of the patient. The researcher holds the body in his hand and, by manipulating the contacts 4-7, controls the probe tip oscillations simultaneously in amplitude A | and A and frequency. 5-) and F.

Thus, in order to excite the oscillations of the probe tip 13 with parameters, it is necessary to press the contact 4 of the switch. At the same time, the voltage of source 1 is supplied through a resistor 3 and frequency-setting circuit 8 to start up a generator 2, which begins to generate oscillations with given amplitude and frequency.

To excite oscillations with parameters, it is necessary to press contact 5. At the same time, the voltage of source 1 is applied to the generator start

2 through a resistor 3 and a frequency-decoupling circuit 9.

To excite oscillations with parameters, it is necessary to press kongakt 6. In this case, when pins 4 and 5 are not closed, resistor 3 is shorted and current consumption by generator 2 and converter 12 connected to it is increased, which leads to a proportional increase in the amplitude of oscillations of the probe tip. The voltage source 1 is fed to the start of the generator 2 through the frequency-setting circuit 8.

In order to excite the oscillations of the probe with the parameters, it is necessary to press the contact 7. In this case, similarly to the one described above, the resistor 3 is shorted, and the start of the generator 2 occurs via the frequency-setting circuit 9.

In the probe, the Schmidt trigger 10 of the control node is tuned to a certain voltage level. In case the voltage of source 1 is lower than the trigger setting level, when contacts 5 or 7 are pressed, the trigger activates and turns on the LED indicator 11, indicating that the source 1 needs to be changed. L.

Thus, the design of the probe allows the determination of the optimal location and position of the rigid columella directly in the process of performing reconstructive hearing-improving operations.

In addition, monitoring the discharge of a battery and indicating it with an LED ensures that the diagnostic readings are stable.

Claims (3)

1. An acoustic probe containing a series-connected self-contained power source, a switch, an electric frequency oscillator, a mechanical-to-mechanical oscillator, and a working tip of the probe, characterized in that in order to determine the optimal location and position of the rigid Cumulalla directly during re-constructive: hearing-improving operations, the switch is made in the form of a number of contacts according to the number of fixed frequencies of the generator and a number of contacts according to the number of fixed levels of the amplitudes of mechanical oscillations and a gated resistor is installed at the generator input. 2. The probe according to claim 1, characterized in that, in order to monitor the state of the autonomous source of the pit and the amplitude level of the mechanical oscillations of the probe tip. it has a control node, made in the form of serially connected flip-flop trigger and LED indicator. 3. Zovd according to claim 1, about tl and h ayusch and the fact that the generator of electrical oscillations is made on symmetric multivibrator, the number of frequency and supply circuits is equal to the number of fixed frequencies. Sources of information Bo received attention in the examination 1, Patent of Great Britain No. 1146261, cl. A 5 K, published. 1971.