JPH0392176A - Low frequency treatment device - Google Patents

Abstract

PURPOSE:To achieve miniaturization and cost reduction and to enlarge treatment effect or a volume control range by constituting a low frequency pulse generating means by mounting a memory means, a control means and a digital/ analogue converting means converting a control signal to a fundamental waveform. CONSTITUTION:A memory 5 storing the programs corresponding to a plurality of fundamental waveforms is mounted and the program corresponding to the fundamental waveform selected and indicated from the programs is read by a CPU 4 to form a control signal corresponding to said program and the control signal formed by the CPU 4 is converted to a fundamental waveform by a D/A converter circuit 6 to form a low frequency pulse. Therefore, the fundamental waveform of the low frequency pulse can be changed without providing a plurality of fundamental waveform output circuits and miniaturization and cost reduction are achieved by simplifying constitution and treatment effect or a volume control range can be enlarged by changing a fundamental waveform.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a low frequency treatment device that can change the basic waveform of a low frequency pulse that is applied to a living body with a simple configuration.

(Prior art) A low-frequency treatment device applies low-frequency pulses to a living body through a needle electrode inserted into the living body or a surface electrode affixed to the skin surface.
It is used to treat nerve and muscle pain and paralysis.

The basic waveforms of low-frequency pulses that energize living bodies include the commonly used square wave, the whale-like wave that is effective in treating nerve paralysis, and the trapezoidal wave that is effective in treating muscle paralysis. As a low-frequency treatment device that can change the basic waveform of a low-frequency pulse, the device described in Japanese Patent Publication No. 57-57148 is known.

This low frequency treatment device is equipped with a plurality of basic waveform output circuits, the plurality of basic waveform output circuits and an amplifier circuit are connected via a changeover switch, and the low frequency of the basic waveform selected by the operation of the changeover switch is It is configured to output pulses.

Further, pulse width control for controlling the pulse width of a low frequency pulse or voltage control for controlling the voltage of a low frequency pulse is known as volume control for a low frequency treatment device.

(Problem to be Solved by the Invention) However, in the conventional low-frequency treatment device described above, a basic waveform output circuit is required for each type of basic waveform, which makes the configuration of the low-frequency treatment device complicated and increases the cost. There was a problem with the price becoming high.

Furthermore, with regard to volume control, only the pulse width or voltage is variable, so there is no degree of freedom in the waveform of the low frequency pulse.

Therefore, this invention was devised in consideration of the above-mentioned circumstances, and by changing the basic waveform of the low-frequency pulse with a simple configuration, it is possible to expand the therapeutic effect and the range of volume control. The purpose is to provide low frequency treatment equipment.

(Means for Solving the Problems) In order to solve the above-mentioned problems, the present invention provides a low-frequency treatment device that energizes a living body with low-frequency pulses output from a low-frequency pulse generating means, in which the low-frequency pulse generating means , a storage means for storing programs corresponding to a plurality of basic waveforms of the low frequency pulse, and a control for reading out a program corresponding to a selected basic waveform from among the programs and outputting a control signal corresponding to this program. and digital-to-analog conversion means for converting the control signal into the basic waveform.

(Function) In this low frequency treatment device, a program corresponding to a selected fundamental waveform is read out by the control means from among programs corresponding to a plurality of fundamental waveforms stored in the storage means, and the program is based on this program. A control signal is generated,
Further, an optimal fundamental waveform is determined based on the set volume value and the selected fundamental waveform, and then the control signal is converted into the fundamental waveform by the digital-to-analog conversion means.

Here, for example, if you select and specify a low-frequency pulse whose basic waveform is a trapezoidal wave, a whale-like wave, or a rectangular wave, as shown in Fig. 4(a),
Low frequency pulses with basic waveforms shown in (b) and (c) are output. In addition, Fig. 4 (a) is an output waveform diagram when a trapezoidal wave is selected and specified, Fig. 4 (b) is an output waveform diagram when a whale-shaped wave is selected and specified, and Fig. 4 (C) is a rectangular wave. It is an output waveform diagram when selecting and specifying.

(Example) Hereinafter, an example of the present invention will be described based on the accompanying drawings.

FIG. 1 is a block diagram of a low-frequency treatment device according to an embodiment of the present invention, FIG. 2 is a waveform diagram showing an example of the basic waveform output from the low-frequency treatment device, and FIG. It is a waveform diagram of the low frequency pulse output from a frequency treatment device.

In Fig. 1, 1 is a basic waveform selection switch, 2 is a function selection switch, 3 is an output adjustment switch, 4 is a CPU, 5 is a
6 is a memory, 6 is a DA conversion circuit, 7 is an amplifier circuit, and 8 is an output terminal.

The basic waveform selection switch 1 selects and specifies a program corresponding to a desired basic waveform from among the programs corresponding to basic waveforms such as rectangular waves, whale-shaped waves, trapezoidal waves, etc. stored in the memory 5, and selects and specifies the program corresponding to the desired basic waveform, This selects the basic waveform of the low frequency pulse output from the .

The function selector switch 2 selects and specifies the frequency of the low-frequency pulse output from the output terminal 8 or the envelope of the group waveform of the low-frequency pulse, thereby allowing "kneading" and "pounding" to be performed.
, "vibe", and other functions.

The output adjustment switch 3 has two operation buttons (not shown) for increasing the output and decreasing the output, and increases the voltage of the low-frequency pulse output from the output terminal 8 at a constant rate while the output increase button is pressed. At the same time, the pulse width of the low frequency pulse is increased, and while the output reduction button is pressed, the voltage of the low frequency pulse output from the output terminal 8 is decreased at a constant rate, and the pulse width of the low frequency pulse is decreased. It is something.

The CPU 4 is an information processing device equipped with a control section, an arithmetic section, an internal memory, etc., and selects and selects a specified basic waveform and settings based on the operations of the basic waveform selection switch 1, function changeover switch 2, and output adjustment switch 3. After determining the optimum basic waveform based on the output values obtained, the address signal corresponding to this optimum basic waveform is outputted to the memory 5.

The memory 5 stores a program corresponding to an arbitrary combination of the fundamental waveform, voltage, pulse width, frequency, and envelope of the group waveform of the low-frequency pulse outputted from the output terminal 8. Based on the address signal output by the CPU, the program at the address corresponding to this address signal is read out.

Further, the CPU 4 interprets the contents of the program read from the memory 5 in the arithmetic unit, and outputs a control signal (low frequency pulse generation signal) corresponding to the program to the DA conversion circuit 6 in the control unit. .

The D-A converter circuit 6 converts the digital control signal outputted by the CPU 4 into a low-frequency R)less analog signal, and the amplifier circuit 7 converts the low-frequency pulse outputted by the D-A converter circuit 6 into an analog signal. It is amplified to a predetermined voltage and output to the output terminal 8, and then a low frequency signal is applied to the living body from the output terminal 8 via an electrode (not shown).

In the above configuration, the basic waveform when the whale-shaped wave is selected and specified as the basic waveform by the basic waveform selection switch 1 and the output is adjusted by the output adjustment switch 3 is shown in FIG. 2(a).
(b). Shown in (c). Note that FIG. 2(a) shows the case when the volume is small, FIG. 2(b) shows the case when the volume is medium, and FIG. 2(C) shows the case when the volume is large.

As shown in FIG. 2, by adjusting the output with the output adjustment switch 3, both the voltage and pulse width of the basic waveform (here, the whale-shaped wave) can be made variable.

Next, FIG. 3 shows an example of a low frequency pulse output from the output terminal 8 based on the operation of the basic waveform selection switch 1 and the function changeover switch 2.

In addition, in FIGS. 3(a) to (C), the basic waveform selection switch 1 is used to select and specify a rectangular wave that is generally used as the basic waveform. Waveform diagram when output voltage is controlled by selection, (b)
(C) is the waveform diagram when “Tapping” is selected and specified.
FIG. 4 is a waveform diagram when "vibrator" is selected and specified.

In addition, in FIGS. 3(d) to 3(f), a whale-like wave, which is effective in treating nerve paralysis, is selected as the basic waveform with the basic waveform selection switch 1, and (d) is selected with the basic waveform selection switch 1.
(e) is a waveform diagram when selecting and specifying "kneading" and controlling the output voltage, (e) is a waveform diagram when selecting and specifying "knock", (
f) is a waveform diagram when "vibe" is selected and specified.

Furthermore, in FIGS. 3(g) to (i), the basic waveform selection switch 1 is used to select and designate a trapezoidal wave that is effective in treating muscle paralysis, and among these, (g) is selected using the function selector switch 2 to select " (h) is a waveform diagram when “kneading” is selected and specified and the output voltage is controlled; (h) is a waveform diagram when “knock” is selected and specified; (i) is a waveform diagram when “vibration” is selected and specified. be.

As explained above, the low frequency treatment device of this embodiment includes the memory 5 that stores programs corresponding to a plurality of basic waveforms, and the low frequency treatment device that corresponds to the basic waveform selected and designated from among the programs by the CPU 4. Reads a program, generates a control signal corresponding to this program, and
- Since the control signal generated by the CPU 4 is converted into a basic waveform by the A conversion circuit 6 to prevent low-frequency pulses, the basic waveform of the low-frequency pulse can be changed without providing a plurality of basic waveform output circuits. As a result, it is possible to achieve miniaturization and cost reduction by simplifying the configuration, and by changing the basic waveform, it is possible to expand the range of therapeutic effects and volume control.

(Effects of the Invention) As explained above, according to the low frequency treatment device of the present invention, the basic waveform of the low frequency pulse can be changed without providing a plurality of basic waveform output circuits, thereby simplifying the configuration. It is possible to achieve miniaturization and cost reduction through miniaturization, and by changing the basic waveform, it is possible to expand the range of therapeutic effects and volume control.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a low-frequency treatment device according to an embodiment of the present invention, FIG. 2 is a waveform diagram showing an example of the basic waveform output from the same low-frequency treatment device, and FIG. FIG. 4 is a waveform diagram of the low frequency pulse output from the low frequency treatment device, and is a waveform diagram showing the basic waveform of the low frequency pulse. In the drawing, 4 is a CPU (!IJ control means), 5 is a memory (storage means), and 6 is a DA conversion circuit (digital-to-analog conversion means).

Claims (1)

[Claims] In a low-frequency treatment device that energizes a living body with low-frequency pulses output from a low-frequency pulse generating means, the low-frequency pulse generating means includes a storage means for storing programs corresponding to a plurality of basic waveforms of the low-frequency pulses. , a control means for reading a program corresponding to a selected basic waveform from among the programs and outputting a control signal corresponding to the program, and a digital-to-analog conversion means for converting the control signal into the basic waveform. A low frequency treatment device characterized by comprising: