JPH03277383A - Low-frequency treatment equipment system - Google Patents

Abstract

PURPOSE:To prevent a person to be treated receiving incongruity when plural low-frequency treatment equipment are used synchronously by generating a synchronizing signal at the synchronizing signal generation circuit of low-frequency treatment equipment, fetching the synchronizing signal at another low-frequency treatment equipment, discriminating the synchronizing signal by a synchronizing signal discrimination circuit, and taking synchronism between the plural low-frequency treatment equipment. CONSTITUTION:When data corresponding to a desired treatment pattern is sent out from the low-frequency treatment equipment (a) by operating a switch part 1, a control part 2 sends a control signal for the generation of the synchronizing signal to the synchronizing signal generation circuit 6 so as to generate a low-frequency pulse in accordance with a treatment pattern. The low-frequency treatment equipment (b) fetches the synchronizing signal transmitted through a human body from electrodes 9, 10 loaded on the human body, and discriminates whether or not a fetched signal is the synchronizing signal by a synchronizing signal discrimination circuit 11, and outputs a correspondent pulse when it is the synchronizing signal. A control part 2' outputs the control signal so as to generate the low-frequency pulse at a time of 1/2 the time from the leading edge of the pulse to that of the next pulse.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a low-frequency treatment device that applies electrical stimulation to the human body using low-frequency, high-voltage pulses.

[Conventional technology]

Conventionally, low-frequency treatment devices have been designed to electrically stimulate the human body and obtain therapeutic effects by bringing a pair of conductors into contact with the surface of the human body and applying low-frequency, high-voltage pulses between the conductors. is widely used.

A block diagram of such a low frequency treatment device is shown in FIG.

Data input from the switch unit 1 is input to the control unit 2, and is discriminated into treatment patterns such as on/off of treatment, treatment mode (kneading, tapping, vibration, etc.), intensity of treatment, speed of treatment, etc. The control unit 2 causes the booster circuit 3 to boost the voltage until it reaches a constant voltage according to the treatment pattern, and when the voltage reaches the constant voltage, discharges from the pulse discharge circuit 4 to the conductors A and B. let Conductors A and B are attached to the skin surface of the human body, and treatment is performed by electrically stimulating nerves and muscles with pulsed current. Note that 5 is a power supply circuit that supplies power to the control section 2 and the booster circuit 3.

Here, the treatment pattern has been controlled by a person himself operating the switch section 1.

[Problem to be solved by the invention]

However, as shown in Figure 6, when multiple low-frequency treatment devices with integrated conductors A and B are used, each treatment device is not synchronized at all, so each low-frequency treatment device is There is a problem in that low-frequency pulses are generated automatically, causing discomfort to the therapist.

In addition, in order to synchronize each treatment device, there are devices that electrically connect each treatment device with conductive wires, but the wiring gets in the way, making it difficult to use and causing discomfort to the therapist. There was a problem.

The present invention has been made in view of the above points, and its purpose is to easily achieve synchronization when using a plurality of low-frequency treatment devices in synchronization, and to provide a system that does not require the therapist to use the devices in a synchronized manner. The purpose is to provide a low frequency treatment device that does not give pleasure.

[Means to solve the problem]

In claim 1, the low frequency treatment device of the present invention includes a control section that outputs a control signal corresponding to a treatment pattern, and a pair of conductors that are attached to a human body and apply a voltage to the human body according to the control signal. A low frequency treatment device system in which a plurality of low frequency treatment devices are used and each of the low frequency treatment devices is used synchronously, wherein one of the plurality of low frequency treatment devices is used. is equipped with a synchronization signal generation circuit that outputs a synchronization signal for synchronizing with the control signal, and a pair of electrodes that output the synchronization signal, and the other low frequency treatment device includes a synchronization signal generating circuit for outputting a synchronization signal for synchronizing with the control signal, and another low frequency treatment device includes a synchronization signal generation circuit for outputting a synchronization signal for synchronizing with the control signal, and a pair of electrodes for outputting the synchronization signal. It is characterized by comprising a pair of electrodes and a synchronization signal discrimination circuit that discriminates the captured synchronization signal.

A second aspect of the present invention is further characterized in that the conductor is used as an electrode for outputting the synchronizing signal to the outside and an electrode for taking in the synchronizing signal.

[Effect]

The present invention is a system in which a plurality of low frequency treatment devices are used synchronously, and in claim 1, a synchronization signal generation circuit of one low frequency treatment device generates a synchronization signal, and the synchronization signal is transmitted through electrodes and the human body, and in another low frequency treatment device, the synchronous signal is captured by an electrode attached to the human body, the synchronous signal is discriminated from noise etc. by a synchronous signal discrimination circuit, and based on this synchronous signal. , which synchronizes multiple low-frequency treatment devices.

Furthermore, in a second aspect of the present invention, a conductor of a treatment element is used as the electrode, and a capacitor for cutting a low frequency component is used in order to distinguish between a low frequency pulse for treatment and a synchronization signal.

[Example] Hereinafter, an example of the present invention will be described based on the drawings. 1st
The figure is a block diagram showing one embodiment of the present invention. Since the parts related to the basic operation of this embodiment are the same as those of the conventional example shown in FIG. 5, the same parts are given the same numbers and the explanation will be omitted.

This embodiment consists of two low frequency treatment devices a and b, and the low frequency treatment device a has a synchronization signal generation circuit 6 that generates a synchronization signal for synchronizing the low frequency treatment devices a and b. Electrodes 7 and 8 are added for applying the synchronization signal to the human body, and the low frequency treatment device has a synchronization signal discriminating circuit 11 for discriminating the synchronization signal from noise etc., and the synchronization signal is transmitted through the human body. Electrodes 9 and 10 are added for capturing the synchronization signal.

The synchronization signal generation circuit 6 generates a synchronization signal having a frequency component (for example, 100 KHz) suitable for human body impedance transmission when the control section 2 sends a discharge pulse signal to the pulse discharge circuit 4.

For example, the electrodes 7.8 and 9.10 are installed in parallel to the conductors A and B on the surface, etc., when the conductors A and B of the treatment element are attached.
When the treatment element is attached to the human body, it comes into contact with the human body together with the guides A and B.

The synchronous signal discrimination circuit 11 is composed of a PLL, a filter, etc., and the signal taken in by the electrode 9.10 is 10.
It is determined whether it is a 0 KHz synchronization signal or not, and if it is a synchronization signal, this synchronization signal is sent to the control circuit 2'. Control unit 2"
Then, in accordance with the timing of this synchronization signal, a control signal is sent to the booster circuit 3'' and the pulse discharge circuit 4'.

Next, the operation of this embodiment will be explained. Low frequency treatment device a, b
As shown in FIG. 3, the therapeutic device a is attached to both shoulders of the human body M, for example, like a shoulder tap.

Consider the case where b is operated alternately.

First, in the low frequency treatment device a, by operating the switch part 1, the desired treatment pattern such as on/off of treatment, treatment mode (kneading, tapping, vibration, etc.), strength of treatment, speed of treatment, etc. Once the data is sent out, the control section 2 determines a treatment pattern from the data and controls the booster circuit 3 and pulse discharge circuit 4 so that low frequency pulses are generated according to the treatment pattern. Furthermore, the control unit 2
A control signal for generating a synchronization signal is sent to the synchronization signal generation circuit 6. For example, if the low frequency pulse waveform corresponding to the treatment pattern is as shown in FIG. 2(a), then the waveform as shown in FIG. 2(b) corresponds to the low frequency pulse P. , 1 only during the time when the low frequency pulse P is generated.
A synchronizing signal C of 00 KHz is generated and applied to the human body M via electrodes 7 and 8.

In the low frequency treatment device, the synchronization signal C transmitted through the human body M is transmitted to an electrode 9 attached to the human body M. Taken from lO,
The synchronization signal discrimination circuit 11 determines whether the captured signal is 100
It is determined whether or not it is a KHz synchronization signal C. If it is a synchronization signal, a pulse P corresponding to the synchronization signal as shown in FIG. 2(C) is generated.

Output. The control unit 2° counts the time from the falling edge of the pulse P to the rising edge of the next pulse Ps, and at 1/2 of that time, the time shown in FIG.
), a control signal for controlling the booster circuit 31 and the pulse discharge circuit 4'' is output so as to generate the low frequency pulse P1.

Therefore, according to this embodiment, synchronized low-frequency pulses are generated alternately from the low-frequency treatment device a and the low-frequency treatment device 2, and the effect of shoulder tapping is produced.

In this embodiment, the case where there are two low frequency treatment devices has been described, but there may be three or more. In that case, in order to synchronize each low frequency treatment device, at least l low frequency treatment devices are equipped with a carrier generation circuit 6, and the other low frequency treatment devices are equipped with a carrier discrimination circuit. need to be.

FIG. 4 is a block diagram showing another embodiment of the invention. In this embodiment, in the low frequency treatment device a, the synchronization signal generated by the synchronization signal generation circuit 5 is transmitted to the conductors A and B via the capacitor 12 for cutting low frequency components.
and apply it from conductors A and B to the human body M.
In the low frequency treatment device, the synchronizing signal taken in by the conductors A" and Bo is input to the synchronizing signal discriminating circuit 11 via a capacitor 12° for cutting low frequency components. In other words, the capacitor 12 .12'' distinguishes the synchronization signal from the low frequency pulse signal.

According to this embodiment, compared to the previous embodiment, the electrodes 7.8 for applying a synchronizing signal and the electrodes 9, 1 for receiving a synchronizing signal.
0 becomes unnecessary.

〔Effect of the invention〕

As described above, according to the present invention, there is provided a system in which a plurality of low frequency treatment devices are used synchronously, and in claim 1,
A synchronization signal generation circuit of one low frequency treatment device generates a synchronization signal, transmits this synchronization signal via an electrode and the human body, and transmits the synchronization signal by an electrode attached to the human body in another low frequency treatment device. , the synchronization signal is discriminated from noise etc. by a synchronization signal discrimination circuit, and multiple low frequency treatment devices are synchronized using this synchronization signal, so when multiple low frequency treatment devices are used. In addition, we were able to provide a low-frequency treatment device that can be easily synchronized and does not cause discomfort to the therapist.

Furthermore, in claim 2, the conductor of the treatment element is used as the electrode, and a capacitor for cutting low frequency components is used in order to distinguish between the low frequency pulse for treatment and the synchronization signal. , is more effective than the first aspect in that extra electrodes for applying a synchronizing signal and taking in a synchronizing signal are not required.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing one embodiment of the present invention, FIG. 2 is a waveform diagram related to the same, FIG. 3 is an explanatory diagram of the same operation, and FIG. 4 is another embodiment of the present invention. FIG. 5 is a block diagram showing a conventional example, and FIG. 6 is a side view and a bottom view showing an external view of the same. 1.19...-Switch section 2.2'--Control section 3.
3°-boosting circuit 4.4”-m-pulse discharge circuit 5.5°power supply circuit 6-synchronous signal generation circuit 7.7,
9.10-m-electrode 11--Synchronization signal discrimination circuit A. B. Deiko a. low frequency treatment device

Claims (2)

[Claims] (1) Each device uses a plurality of low-frequency treatment devices each including a control unit that outputs a control signal corresponding to a treatment pattern and a pair of conductors that are attached to the human body and apply a voltage to the human body according to the control signal. A low-frequency treatment device system that uses a plurality of low-frequency treatment devices synchronously, the low-frequency treatment devices including:
One low-frequency treatment device is equipped with a synchronization signal generation circuit that outputs a synchronization signal for synchronizing with the control signal, and a pair of electrodes that output the synchronization signal. A low frequency treatment device system comprising: a pair of electrodes for capturing the synchronization signal; and a synchronization signal discrimination circuit for discriminating the captured synchronization signal. (2) The low frequency therapeutic device system according to claim 1, wherein the conductor is used as an electrode for outputting the synchronization signal to the outside and an electrode for taking in the synchronization signal.