JPH09135910A - Low-frequency treatment device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a low-frequency treatment device whose power is turned off at a proper timing so as not to give anxiety and danger to the user. SOLUTION: In a case such as (a) where an analog signal is inputted and a power source is turned off during the inputting operation of the analog signal, either one of the following measures is taken. The power source is turned off before or after the display of the turn-off of the power source at time t2 (c); the power source is turned off before or after the display of the turn-off of the power source when there is no more input (d); or the turn-off of the power source is displayed during the inputting operation and the power source is turned off when there is no more input (e).

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a low frequency treatment device which outputs a stimulation waveform corresponding to an input waveform.

[0002]

[Prior art]

<Prior Art 1> In this type of conventional low-frequency therapy device, generally, for example, a pressure-sensitive element as an analog signal input means for inputting a waveform is pressed to input the waveform, and the input waveform (that is, pressing force) is applied. The stimulus waveform is output accordingly. <Prior Art 2> A low-frequency treatment device for adjusting the output state (strength, speed, etc.) of the stimulation waveform (treatment pulse) and displaying the adjustment state is as follows. There is. Adjusting the strength (pulse voltage) of a fixed low-frequency treatment pulse made by a CPU, etc. with a variable resistor.

In this low-frequency treatment device, as shown in FIG. 14, a pulse generator 100 generates a ROM (read-only memory element) or a pulse having a specific cycle in advance, and this pulse is displayed on the display unit 101 in a pattern. Accordingly, a single display element (LED or the like) is displayed based on the brightness, lighting time, and the like. Further, the pulse adjusts the variable resistor 103 in the gain adjusting unit 102.
At a voltage determined by the low frequency output 104. The output voltage is controlled by an analog signal corresponding to the pressing force of a pressure sensor, etc., and the voltage is also controlled by a variable resistor.

In this low frequency treatment device, as shown in FIG. 15, a pulse generator 110 generates a pulse having a constant cycle and a constant pulse width, and an analog input unit 111 changes a pressure of an operation of an operation switch, for example. Is output as an analog signal. The analog signal obtained by the analog input unit 111 is displayed on the display unit 112 based on the brightness, lighting time, etc. of a single display element (LED or the like) according to the pattern. The amplitude modulation unit 113 changes the pulse amplitude (voltage) according to the analog signal, and the changed pulse train is amplified or attenuated by the gain adjustment unit 114 so that the maximum voltage becomes the voltage determined by the variable resistor 115. The low frequency output 116 is obtained. This maximum voltage is determined by the variable resistor 115. In addition,
In FIG. 15, the display unit 112, the amplitude modulation unit 113, and the gain adjustment unit 114 form a voltage control unit 117. A device that lights a display element such as an LED for a period of time according to the intensity of a low-frequency treatment pulse. A device that turns on a display element such as an LED with brightness according to the intensity of a low-frequency treatment pulse. <Prior Art 3> There is a low-frequency treatment device that corrects a waveform input by an analog signal input means by a correction circuit and outputs the corrected waveform.

For example, in the low-frequency treatment device shown in FIG. 16 (a), the operation of the operator is converted into an electric signal by the analog input means (pressure sensor etc.) 120, and the electric signal is converted into a numerical value by the stimulation waveform output means 121. And a pulse having a shape corresponding to this numerical value is output. The stimulus waveform output means 121 is specifically configured by a microcomputer including an A / D converter or a comparator, a gate array, or the like.

In the low frequency treatment device shown in FIG. 16 (b),
The operation of the operator is converted into an electric signal by the analog signal input means 120, the electric signal is corrected by the correction circuit 122 having a specific characteristic, and the corrected electric signal is converted into a numerical value by the stimulation waveform output means 121. A pulse having a shape corresponding to this numerical value is output.

[0007]

[Problems to be solved by the invention]

<Problem 1> In a low frequency treatment device such as <Prior Art 1>,
There are the following problems. If the power is turned off due to a decrease in the timer or the power supply voltage during the operation of the analog signal input means, the analog waveform input will not be recorded correctly. If the input of the analog waveform continues for some reason, the stimulation waveform also continues to be output, which may be dangerous to the living body in some cases. If the power is turned off due to a decrease in the timer or the power supply voltage during the operation of the analog signal input means, the operator may be uncertain as to the cause of the power off. <Problem 2> In the low frequency treatment device such as <Prior Art 2>,
Not only a complicated circuit is required to control the voltage of a high voltage pulse such as a low frequency pulse according to the analog signal input, but also the stability of the pulse voltage control is poor and the cost is high. is there. In addition, usually, one LED is used as the display element, and the state of the treatment pulse is displayed by the lighting time and the brightness of this one LED. There is also a problem that it is difficult to distinguish, and especially when the low frequency treatment pulse is weak, it is difficult to know whether the LED is lit. <Problem 3> The low-frequency treatment device of <Prior Art 3> has the following problems. Depending on the characteristics of the analog signal input means (pressure sensitive element, etc.), it is difficult to make correction in the circuit. Depending on the characteristics of the analog signal input means, it is possible to correct with a circuit, but the correction circuit becomes complicated,
The cost is high. Even if the stimulus waveform corresponding to the operation is output, the characteristics of the analog signal input means and the sense of the operator are deviated, and a sense of discomfort is felt between the operation and the sense of stimulation, that is, between the input waveform and the output waveform. Sometimes.

Therefore, the present invention has the above-mentioned problems 1 to 3.
In view of the problem 1, the first purpose thereof is to provide a low-frequency treatment device capable of appropriately performing the power-off timing so as not to give the user anxiety and danger. It is to be. In view of the problem 2, a second object of the present invention is to provide a low frequency treatment device capable of adjusting the intensity of a treatment signal with a simple structure and at low cost, and yet making the output state of the treatment pulse easy to understand. .

In view of the problem 3, a third object of the present invention is to provide a low frequency therapeutic device which corrects an input waveform at low cost and which does not give a feeling of strangeness between the input waveform and the output waveform. That is.

[0010]

In order to achieve the first object, a low frequency treatment device according to claim 1 of the present invention is an analog signal input means for inputting an analog signal, and the analog signal input means. A stimulus signal output means for outputting a stimulus signal in accordance with the analog signal input by the power supply, when the power is turned off during the input of the analog signal, the power is turned off after or before the display indicating that the power is turned off. Either turn off the power after the input is gone or after the power-off is displayed or before it is displayed, or if the power-off is displayed during the input and the power is turned off after there is no input. It is characterized in that it is adapted to take such measures.

According to this low frequency treatment device, the power is not suddenly turned off during the input unlike the conventional case. For example, by turning off the power after the analog signal is not input during the input of the analog signal (while the stimulus signal is being output), either before or before the display indicating that the power is turned off, that is, during input The analog signal is accurately input by not turning off the power supply due to a voltage drop or the like and turning off the power supply after the input of the analog signal is lost or after a certain time has passed. Further, for example, when the analog signal is continuously input for a certain period of time, the safety of the living body is ensured by turning off the power after or before the display indicating that the power is turned off during the input. Furthermore, for example, when the power is turned off while an analog signal is being input, the power is turned off after or before the display indicating that the power is turned off, so that the operator recognizes the cause of the power off and eliminates anxiety. .

In order to achieve the second object, a low frequency treatment device according to claim 2 of the present invention is an analog signal input means for inputting an analog signal, and an analog signal input by the analog signal input means. A stimulus signal output means for outputting a stimulus signal according to, a stimulus signal adjusting means for adjusting the output state of the stimulus signal, and a display means for displaying the output state of the stimulus signal, wherein the stimulus signal adjusting means is The intensity of the stimulation signal is adjusted by changing the pulse width while keeping the pulse voltage constant, and the display means comprises a plurality of display elements, and a plurality of display elements according to the output state of the stimulation signal. It is characterized in that the display form by is changed.

According to this low frequency treatment device, for example, the maximum value of the intensity of the treatment pulse (that is, the pulse voltage) is adjusted by a variable resistor or the like, and the intensity adjustment according to the analog signal is performed while keeping the pulse voltage constant. Since the pulse width is changed, the strength of the treatment pulse corresponding to the analog signal can be adjusted with a simple and low-cost circuit. Further, since the display means changes the display form by the plurality of display elements according to the output state of the stimulation signal,
The output state (strength, speed, etc.) of the treatment pulse can be easily displayed, and the strength can be easily distinguished.

In order to achieve the third object, a low frequency treatment device according to claim 3 of the present invention is an analog signal input means for inputting an analog signal, and an analog signal input by the analog signal input means. A stimulus signal output means for outputting a stimulus signal corresponding to the stimulus signal, the input signal correction means for correcting a signal input by the analog signal input means based on a preset correction table, The signal output means outputs a stimulus signal according to the corrected input signal.

According to this low frequency treatment device, since the input signal is corrected by the input signal correction means based on the correction table, a correction circuit having a specific characteristic is unnecessary, and the input signal correction is simple and low cost. In addition to configuring the means, it is possible to eliminate discomfort between the input waveform and the output waveform.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below based on embodiments. First, an embodiment of the low frequency treatment device according to claim 1 will be described. FIG. 1 shows various examples of power-off timings in the low-frequency treatment device according to the embodiment.
In FIG. 1, (a) is an analog signal (input waveform) input by an analog signal input means (for example, a pressure sensitive element).
At time t ₀ when the power is turned on or when the timer operates (starts), and at time t ₁ when the waveform input is started,
The time t ₂ is the time when the timer has finished counting, the time when the power supply voltage has dropped, the time when the analog signal input has continued for a certain period of time, or the time when another abnormality or the like occurs.

Here, as shown in (b), when the input waveform as shown in (a) is applied to the conventional low frequency output,
When the timer finishes timing or the power supply voltage drops at time t _2, the power is suddenly turned off and the output of the low-frequency pulse is stopped. At this time, there is no display and the output suddenly disappears, which makes the operator uneasy. In contrast,
In the first embodiment shown in (c), when time counting of the timer ends or the power supply voltage drops at the time t ₂ , a “timer is displayed on the display unit (for example, LED) provided on the main body of the low frequency treatment device. After the cause such as "Operated" or "Power supply voltage has dropped" is displayed, the power is turned off and the output of the low frequency pulse is stopped. However, the display may be performed after the output of the low frequency pulse is stopped.

In the second embodiment shown in (d), at the time t ₂ during the input of the analog signal, the power is not turned off immediately and the output is continued while the input of the analog signal is continued. At time t ₃ when there is no time, or at time t ₃
After a certain time has passed (* 1 in the figure), the power-off message is displayed on the display and the power is turned off. As a result, the power is not turned off during the operation of the analog signal input means, and the operation is not disturbed, and the cause of the power off can be clearly recognized. Of course, the display may be performed after the power is turned off at time t ₃ .

In the third embodiment shown in (e), at time t ₂ during the input of the analog signal, other operations continue as they are, “the timer has operated”, and “the power supply voltage has dropped”.
Only the cause of such as is displayed. Then, at the point of time t _2, without the power-off, continued to output while the input of the analog signal is continued, at the time of input is exhausted time t _3, or a predetermined time has elapsed from the time t ₃ Then turn off the power. Accordingly, if a display is displayed on the display unit during the operation, it is known in advance that the power will be turned off later, and the operator can perform the operation according to the information.

FIG. 2 shows the fourth embodiment, and in (a),
When an analog signal is input at time t _1, from the time t ₁ t ₂
If the input is continued for more than the fixed time T up to, the power off is displayed on the display unit at time t ₂ when the input for the fixed time T or more is detected, the waveform output is stopped, and the power is turned off [( See b)]. Here again, the display may be made after the power is turned off at time t ₂ .

Next, an embodiment of the low frequency treatment device according to claim 2 will be described. FIG. 3 is a block diagram showing the configuration of the low frequency treatment device according to the embodiment. This low frequency treatment device generates, for example, an analog input section (analog signal input means) 10 for inputting a pressure change of an operation on an operation switch as an analog signal, and a pulse train having a pulse width and a cycle corresponding to the input analog signal. Pulse generator 11
A display unit 12 for displaying a pulse train or the like obtained by the pulse generator 11, a gain adjusting unit 13 for amplifying or attenuating the pulse train to a voltage determined by the variable resistor 14,
Stimulation signal output means (not shown, see low-frequency output 15) for outputting the stimulation waveform (low-frequency pulse) obtained by the gain adjustment unit 13 is provided.

As is apparent by comparing the block diagram of FIG. 3 with the block diagrams of FIGS. 14 and 15, the maximum value of the intensity (ie, pulse voltage) of the treatment pulse is adjusted by the variable resistor 14, The intensity of the treatment pulse according to the signal is adjusted by changing the pulse width while keeping the pulse voltage constant. This makes the circuit configuration for adjusting the intensity of the treatment pulse simple and low in cost.

The display unit 12 is composed of a plurality of display elements, and changes the display form of the plurality of display elements according to the output state of the stimulation signal. That is, the display unit 12
Is a state of an analog signal (that is, a stimulus signal of a stimulus signal) according to the number of display elements corresponding to the pulse output from the pulse generating section 11 or the analog signal from the analog input section 10 or the pattern formed by a plurality of display elements. Output status) is displayed.

Various examples of the display form of the display unit 12 are shown in FIG.
To FIG. First, in the display form shown on the left side of FIG.
A plurality of display elements (LEDs) are arranged in the lateral direction. For example, when the intensity of the treatment pulse is weak, one display element on the left side lights up. When the intensity is maximum (or close to maximum), all display elements are lit. Further, in the example on the right side, when the strength is weak, only one display element on the left side lights up, and as the strength increases, the display elements that sequentially light up are moved from the left side to the right side one by one. Only one display element on the right side lights up. However, when the strength is low, the display element may not be turned on at all.

In the display form of FIG. 5, a plurality of display elements are arranged in a triangular shape, and when the strength is weak, only the lower display element is turned on, and the display is gradually turned on step by step according to the strength. When the number of elements is increased and the intensity is maximum, the display elements of all the stages are turned on. In the display form of FIG. 6, a plurality of display elements are arranged in a rectangular shape, and when the intensity is weak, only the display element in the central portion is turned on, and the display elements in the periphery are gradually turned on as the intensity is increased. However, when the intensity is maximum, all the display elements are turned on. Further, in the display form of FIG. 7, when the strength is weak, only the display element in the central portion is lit, the display elements that are lit according to the strength spread in a ring shape in the peripheral portion, and the display elements on the outer periphery are lit when the strength is maximum. .

In the display form of FIG. 8A, a plurality of display elements are arranged and a bar-shaped intensity level meter 20 is also shown. The number of display elements that light up as the intensity increases is from left to right. The number increases one by one. In the display form of (b), a plurality of display elements are arranged in a triangular shape, and an intensity level meter 20 is also shown. When the intensity is weak, the lower display element lights up with low brightness and the intensity increases. The display elements on the upper side gradually light up with high brightness, and at the maximum intensity, all the display elements gradually light up with higher intensity from the lower row to the upper row.

Further, in the display form of FIG. 9, a plurality of display elements are arranged in a quadrangular shape, and when the intensity is weak, only the central display element is lit with a low luminance, and the peripheral portion is gradually displayed according to the intensity. The elements are lit with high brightness, and when the intensity is maximum, all the display elements are lit gradually with high brightness in a ring shape from the central part to the outer periphery. Next, an embodiment of the low frequency treatment device according to claim 3 will be described. FIG. 10 shows a schematic block diagram of the configuration. In the low frequency treatment device of FIG. 10, the operation of the operator is converted into an electric signal by the analog input means (pressure sensor etc.) 30, and this electric signal is converted into a numerical value. A software-based correction table (input signal correction means) 31 such as a microcomputer is prepared in advance, the converted numerical values are corrected based on the correction table 31, and the stimulation waveform output means (stimulation signal output means) 32 is a correction value. The stimulus waveform corresponding to is output. The correction table 31
May be corrected by performing a certain process with a microcomputer or the like.

In the low frequency treatment device of FIG. 11, the operation of the operator is converted into an electric signal by the analog input means 30, and this electric signal is converted into a digital value by the A / D converter 33. The correction table 31 includes a gate array and a ROM
This correction table 31 is configured by hardware such as
Based on the above, the conversion value is corrected. After that, the stimulation waveform output means 32 outputs a stimulation waveform having a shape corresponding to the correction value.

In the low frequency treatment device of FIG. 12, the operation of the operator is converted into an electric signal by the analog input means 30, and this electric signal is converted into a numerical value. The stimulation pattern generation means 34 generates a pulse having a shape corresponding to the converted numerical value, and this pulse is based on the correction table 31 in software such as a microcomputer or in hardware such as a gate array or ROM. The stimulus waveform output means (not shown) outputs a stimulus waveform having a shape corresponding to the correction value. Also in this case, the correction table 31 may be a table that performs a certain process by a microcomputer or the like to perform the correction.

In the low frequency treatment device of FIG. 13, the operation of the operator is converted into an electric signal by the analog input means 30, and this electric signal is converted into a numerical value by an A / D converter or the like (not shown). This converted numerical value is used as software such as a microcomputer, or a gate array, RO
It is corrected by a hardware correction table (1) 31a such as M. The stimulation pattern generation means 34 generates a pulse having a shape corresponding to the correction value, and the pulse is further corrected by software such as a microcomputer or by a hardware such as a gate array or ROM 31 (b) 31b. Is corrected by the stimulus waveform output means 35.
Outputs a stimulus waveform corresponding to the correction value. even here,
The correction tables 31a and 31b may be those which perform a certain process and correction by a microcomputer or the like.

[0031]

【The invention's effect】

(1) As described above, in the low frequency treatment device according to claim 1 of the present invention, when the power is turned off during the input of the analog signal, the fact that the power is turned off is displayed. The cause of power off can be recognized, and the user's anxiety is eliminated. In addition, the following effects can be obtained by appropriately turning off the power. The power supply is not suddenly turned off at the time of analog input, that is, the input waveform is not interrupted on the way, and the input waveform as intended by the operator can be recorded. When the analog input is in a state where it lasts for a certain period of time,
It is possible to prevent the stimulus waveform from being output, prevent an abnormal output from being given to the operator, and do not consume electric energy unnecessarily. (2) The low-frequency therapeutic device according to claim 2 has the following effects because the intensity of the stimulation signal is adjusted by changing the pulse width while keeping the pulse voltage constant. The strength of the stimulus signal can be adjusted according to the analog signal input with a simple and low-cost circuit. Since the maximum value of the output voltage (pulse voltage) can be set in advance by a variable resistor or the like, safety is high.

Further, since the display form by the plurality of display elements is changed according to the output state of the stimulus signal, the following effects,
Having. A number of display elements (for example, LEDs) corresponding to the state of the treatment pulse (pulse voltage, pulse width, etc.) are turned on, or a pattern formed by a plurality of display elements according to the state of the treatment pulse (LED brightness, For example, the output state of the treatment pulse can be easily understood by turning on the lighting time, the blinking time, the number of lightings, etc.). It is possible to display in conjunction with analog signal input,
Accordingly, it can be used as a monitor at the time of input. (3) The low frequency treatment device according to claim 3 corrects the input signal using the correction table, and therefore has the following effects. The characteristics of the analog signal input means can be easily corrected. Since the characteristics of the circuit can be corrected in addition to the analog signal input means, the circuit can be simplified and the cost can be suppressed. It is possible to correct the stimulus sensation due to the stimulus waveform so that it is close to the input waveform, and there is no discomfort between the input waveform and the output waveform. It is possible to obtain a plurality of effects of the above-mentioned to at the same time with a simple configuration. Special corrections such as non-linearity and discontinuity, which are difficult with ordinary circuits, are also possible.

[Brief description of the drawings]

FIG. 1 is a diagram for explaining an operation of a low frequency treatment device according to an embodiment of claim 1 together with a conventional device.

FIG. 2 is a diagram for explaining another operation of the low frequency treatment device according to the embodiment of claim 1.

FIG. 3 is a schematic configuration block diagram of a low frequency treatment device according to an embodiment of claim 2.

FIG. 4 is a diagram showing an example of a display form of a display unit of the low frequency treatment device.

FIG. 5 is a diagram showing another example of the display form of the display unit of the low frequency treatment device.

FIG. 6 is a diagram showing still another example of the display form of the display unit of the low frequency treatment device.

FIG. 7 is a view showing still another example of the display form of the display unit of the low frequency treatment device.

FIG. 8 is a diagram showing still another example of the display form of the display unit of the low frequency treatment device.

FIG. 9 is a diagram showing still another example of the display form of the display unit of the low frequency treatment device.

FIG. 10 is a schematic block diagram showing an example of a low frequency treatment device according to an embodiment of claim 3.

FIG. 11 is a schematic block diagram showing another example of the low-frequency treatment device according to the embodiment of claim 3.

FIG. 12 is a schematic configuration block diagram showing still another example of the low-frequency treatment device according to the embodiment of claim 3.

FIG. 13 is a schematic configuration block diagram showing still another example of the low-frequency treatment device according to the embodiment of claim 3.

FIG. 14 is a schematic block diagram showing an example of a low-frequency treatment device according to a conventional example.

FIG. 15 is a schematic block diagram showing another example of the low-frequency treatment device according to the conventional example.

FIG. 16 is a schematic block diagram showing still another example of the low-frequency treatment device according to the conventional example.

[Explanation of symbols]

 10 analog input section (analog signal input means) 12 display section (display means) 30 analog input means (analog signal input means) 31 correction table (input signal correction means) 35 stimulation waveform output means (stimulation signal output means)

Claims (3)

[Claims] 1. A low-frequency treatment device comprising: an analog signal input means for inputting an analog signal; and a stimulation signal output means for outputting a stimulation signal according to the analog signal input by the analog signal input means. If the power is turned off during the input of,
Or, the power is turned off after or before the display indicating that the power is turned off after there is no input, or the power is turned off during the input and the power is turned off after there is no input,
A low-frequency therapeutic device characterized by being adapted to take any of the above. 2. An analog signal input means for inputting an analog signal, a stimulation signal output means for outputting a stimulation signal according to the analog signal input by the analog signal input means, and a stimulation for adjusting an output state of the stimulation signal. In a low-frequency therapeutic device comprising a signal adjusting means and a display means for displaying the output state of the stimulation signal, the stimulation signal adjusting means changes the pulse width while keeping the pulse voltage constant, thereby increasing the strength of the stimulation signal. Adjust
The low-frequency therapeutic device, wherein the display means comprises a plurality of display elements, and the display form of the plurality of display elements is changed according to the output state of the stimulation signal. 3. A low-frequency therapeutic device comprising: an analog signal input means for inputting an analog signal; and a stimulation signal output means for outputting a stimulation signal according to the analog signal input by the analog signal input means, wherein the analog The signal input by the signal input means
A low-frequency treatment device comprising: an input signal correction means for making a correction based on a preset correction table, wherein the stimulation signal output means outputs a stimulation signal according to the corrected input signal.