JPS5982832A - Treachea stroboscope apparatus - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] The present invention relates to a power source for a laryngeal stroboscope device.

The laryngeal stroboscope device is a device that performs examination 2 diagnosis of vocal cord polyps, laryngeal box, etc. by emitting light from a robot in synchronization with the vibration of the vocal cords. A flash lamp is usually used as a light source for a laryngeal stroboscope device. The flash lamp emits light by discharging the charge of a capacitor connected in parallel between its anode and cathode into the flash lamp in a short period of time in response to a trigger signal. That is, it is possible to cause the flash lamp to emit light using a trigger signal synchronized with the vibration of the vocal cords.

Now, the frequency of the vocal cords is f, the anode of the flash lamp,
If the capacitance of the capacitor connected between the cathodes is C and the voltage applied to the capacitor is ■, then the energy W input to the flash lamp per unit time is W = 'CV
2 i/2.

In the conventional laryngeal stroboscope device, the voltage V is always constant regardless of the frequency f of the vocal cords, so the energy W is proportional to the frequency f of the vocal cords. Also, the amount of light emitted from the flash lamp is proportional to the energy W. Since it is proportional to
There is a drawback that the amount of light decreases as the frequency f of the vocal cords decreases.

In recent years, examinations 9 and diagnoses by connecting a laryngeal stroboscope device with an optical fiber scope and an r-bar scope have become more frequent, so there is a strong desire to increase the amount of light from the light source of the laryngeal stroboscope device.

The present invention was made to improve the conventional drawbacks and meet recent demands, and by making the voltage applied to the capacitor proportional to the reciprocal 17 of the frequency f of the vocal cords raised to the 172nd power, To provide a laryngeal-straight boscoposcope device that maintains the light intensity of a flash lamp at a constant value of 9)i regardless of the frequency of the vocal cords, and does not reduce the amount of emitted light per unit time to 4 J when the frequency of the vocal cords is small. It is.

Below, according to the drawings, Western silk of 151 stone embodiments of the present invention is shown.

FIG. 1 is a block diagram of one embodiment of the laryngeal slohoscope device of the present invention. In the same figure, the voice part vibration signal is detected at 72rri1 and input to the waveform shaping circuit 2.

The waveform shaping circuit 2 converts the single wave motion signal of the vocal cords into pulses, and inputs the pulses to the integrating circuit 3. The pulse is input to the integrating circuit 3, ! increase its output in constant increments until j is reached, and when a pulse is input, its output is reset
-Set it to zero.

4 is a function generator, and the output value of the integrating circuit is -8 17
Convert to the square value. The output of the function generator 4 is increased [11 to a high voltage in the generator 5], and the high voltage is applied to the limiting capacitor 6.

On the other hand, the output of the shaping circuit 2 is manually input to the trigger circuit 7. 1-The charging energy of the capacitor 6 is input to the flash lamp 8 in a short time in synchronization with the output of the recharger circuit 7. As a result, the flash lamp emits light in synchronization with the vocal cord vibration signal.

Microphone 1 in Figure 1. Waveform shaping circuit 2. Integrating circuit 3
．． Each output of the add-on 111 circuit 5 is shown in Fig. 2a.

Shown in 6 + c + d.

The output signal of the microphone 1 in Fig. 2a corresponds to the vibration signal of the vocal cords (this corresponds to the vibration signal of the vocal cord IF.
These pulses are output in synchronization with the output signal of the centered microphone 1, and the pulse interval t is the reciprocal of the frequency f of the vocal cords, 1. /f
becomes. Next, the output signal of the integrating circuit 3 is shown in FIG.
ib, and the maximum level ■ of the output signal is proportional to the pulse interval t, that is, t/f. Next, since the output signal of the amplifying circuit 5 is the 172nd power of the output signal of the integrating circuit 3, the maximum value Vo of the level of the output signal of the amplifying circuit 5
is proportional to the 1/2 power of the above ■. Therefore, if K is a proportionality constant, then Vo=/JT. Further, the voltage applied to the capacitor 6 is 0 or 13, and the six-horn energy W to the flash lamp becomes a constant value as follows: W=CVo2 f/2=GK/2. Therefore, the light character of the flash lamp is human energy W
Since it is proportional to the flash lamp r7. ) ＞'4
M depends on the vibration frequency of the vocal cords.1. :,, becomes constant.

As described above, according to the present invention, the input key to the flash lamp is constant regardless of the frequency of vibration of the vocal cords, so it is possible to set the input key to the maximum rating of the flash lamp. In other words, it is possible to reduce the amount of light emitted by the flash lamp, which is proportional to the human energy of the flash lamp, to the maximum rating of the flash lamp.
Voice: Jl according to the frequency of 1.

It becomes possible to provide a laryngeal loboscopy device that emits a large amount of light without any problems.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 shows signals within the blocks of FIG. Tomic 2... Waveform shaping circuit 3 - Integrating circuit
4...Function generator 5...Amplifying circuit 7...1-return circuit 8 Fludge'co, Lumf0 Patent applicant Asahi Optical Co., Ltd., 6m'/+, i'':・Pa' Representative Matsumoto ti+ !+”::,=”.

Claims (1)

[Claims] A laryngeal stroboscope device using a flash lamp that emits light in synchronization with the vibration of the voice 71F, characterized in that the voltage between the anode and the cathode of the flash lamp is proportional to 1722, which is the reciprocal of the frequency of vibration of the vocal cords. Device.