JPS63296771A - Low frequency generator - Google Patents

Abstract

PURPOSE:To generate a low frequency signal from a low frequency generator itself and to directly bring said generator into contact with an effective spot to sue the same in treatment, by mounting a battery and an oscillation circuit in a card- or disc-shaped member. CONSTITUTION:A card-shaped low frequency generator 1 is formed by bonding a front case part 1a and a back case part 1b. The first electrode 2 protrudes from the central opening part 1c of said generator 1 on the side of the front surface part thereof and has the circular projection 2a inserted in the opening 7a of a substrate 7 on the rear part side thereof. A flexible substrate 12 is provided between the substrate 7 and the back surface of the back case part 1b and various wirings are applied to the flexible substrate 12 while the spacer corresponding to the size of the substrate 7 and a layer of a sheet switch part 15 composed of a sheet are inserted. In a use state, the low frequency generator 1 is brought into contact with an effective spot on the side of the first electrode. In this case, the first electrode 2 is certainly brought into contact with the skin since protruded from the second electrodes 3 and pressing force is applied to the first electrode 2 to make it possible to perform effective treatment.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a low frequency generator, and more specifically, a card-shaped low frequency generator that can be used in a low frequency treatment device, a low frequency generator for preventing motion sickness, etc. Regarding low frequency generators.

[Conventional technology] Conventional low-frequency treatment devices for home use, etc. have two conductive rubber electrodes.
The device has two individual devices, each of which is fixed by applying it to an acupuncture point using a rubber band or the like, and low-frequency treatment is performed. There are also treatments in which the magnetic electrode is fixed to the acupuncture point using a special seal. Furthermore, there is also a device in which the electrode is a small-sized low-frequency generator main body, and two electrodes are arranged concentrically on the surface of the main body.

[Problem to be solved] In the former case, where the electrode is fixed to the pot with a rubber band or a seal, handling is difficult because the electrode is connected to the main body by a cord. is troublesome. Also, the latter's small size, its size! −
However, it cannot be used by placing it on the pot using a rubber band, etc., and has the disadvantage that the low-frequency generator must be placed near the pot and held in place. Moreover, in the case of low-frequency treatment, one treatment usually lasts for one to several minutes to several tens of minutes.

This invention solves the problems of the prior art, and allows the electrode itself to be attached to a low-frequency generator whose size is almost the same as that of an ordinary low-frequency treatment device, without the need for a cord. Treatment or sickness by generating a signal 11: Prevention 11
- It is an object of the present invention to provide a low-frequency generator that can be used as a low-frequency pulse generator for -.

[Means for Solving the Problems] The configuration of the low frequency generator of the present invention for achieving the above-mentioned "1 objective" is such that a thin case such as a card-shaped or disc-shaped case has a A first electrode is arranged, a second electrode is arranged on at least one side of its periphery or on a band that presses the case, and a battery and a low frequency generation circuit are built inside the case, and the output of this low frequency generation circuit is Increase the pressure to the first
and the second electrode.

[Operation] In this way, the first electrode is placed approximately in the center of one side of a card-shaped or disc-shaped member, and the second electrode is placed on at least one side or band of the periphery of the first electrode. By incorporating a battery and an oscillation circuit, it can generate a low frequency signal by itself, and can be brought into direct contact with an acupuncture point or the like to be useful for treatment.

[Example] Hereinafter, an example of the present invention will be described in detail with reference to the drawings.

Fig. 1 is a front view of a card-type low frequency treatment device to which the low frequency generator of the present invention is applied, Fig. 2 is its circuit diagram, and Fig. 3 is its II sectional view. Figure 4 shows the ■−■
The sectional view, Figure 5, is an explanatory diagram of the sheet switch, Figure 6.
The figure is an explanatory view of another embodiment with an attachment band attached.

In FIG. 1, reference numeral 1 denotes a card-shaped low frequency generator, and a first electrode 2 is exposed at the center of the surface of the front case portion 1a, protruding from a circular opening IC at the center. In the figure, two second electrodes 3.degree. 3 are similarly exposed and provided on the 7th F of the front case portion 1a.

The first electrode 2 has a cylindrical shape and is made of conductive rubber with a cylindrical magnet 4 embedded in its center. The second electrode 3 is also made of a similar conductive rubber and serves as a rod.

5 is a voltage adjusting R+J resistor that adjusts the output voltage with a knob, and is located on the back case part 1a (see Figures 3 and 4).
is fixed inside. 6 is a micro battery, so-called button 19! Use two silver oxide batteries, alkaline manganese oil, lithium batteries, etc. on the other hand,
Reference numeral 7 denotes a rectangular substrate on which electronic components constituting a low frequency oscillation circuit 8 (see FIG. 2) are mounted, and has a circular open portion 7a in the center. 9 is a shift voltage transformer, and as shown in FIG. 2, its output side is connected to the first electrode 2 and the second electrode 3 through a voltage adjusting variable resistor 5, respectively. ing.

FIG. 2 is a circuit diagram showing this connection state. A switch 10 is inserted between the low frequency oscillation circuit 8 and the battery 6, and this switch 10 is pressed by the first electrode 2. When the low frequency oscillation circuit 8 is activated, power is supplied from the battery 6 to the low frequency oscillation circuit 8.

And step-up transformer 9. 50V to 150V is applied between the first electrode and the second electrode 3 via the variable resistor 5 for voltage adjustment.
Generates a low frequency pulse of about .

In other words, the voltage of two batteries 6 connected in series is approximately 2
．． It is about 4V to 6V (for eV, for example, two 3V lithium batteries are connected in series), and with this voltage, a low frequency pulse of around 1 to 3Hz is generated in the low frequency oscillation circuit 8, and the output is The voltage is input to the primary side of the step-up transformer 9, and a pulse waveform having a peak value of around 150V is generated on the secondary side.

This voltage is adjusted by the voltage adjusting variable resistor 5, and the first
and applied to the second electrode. In practical use, the frequency in this case should be around 10 Hz or higher at maximum.
- Must be cheap. Limiting the frequency to this level reduces power consumption in low-frequency oscillation circuits that flow a large current only during the period when the amplification element is "ON", such as blocking oscillation circuits, RC and RCL oscillation circuits using transistors, etc. You can save money.

Incidentally, it is said that the frequency that has a therapeutic effect is approximately 10 Hz or less. Furthermore, the reason why the first electrode 2 has a built-in magnet is to increase the penetrating force of the current into the pot. In FIG. 2, 11 is a diode that cuts backflow.

Next, the relationship between the first electrode and the switch 10 will be explained together with the internal structure of the card-shaped low frequency generator 1.

As shown in FIGS. 3 and 4, the card-shaped low frequency generator 1 is constructed by bonding a front case part 1a and a back case part 1b, and the first electrode 2 is Its front side protrudes from the central opening 1c, and its rear side has a circular protrusion 2a that fits into the opening II 7a of the substrate 7. A flexible board 12 is provided between the board 7 and the back surface of the back case part 1b, and the flexible board 12 is provided with Meishin wiring and, as shown in FIG. 5, corresponds to the size of the board 7. A layer of a sheet switch section 15 consisting of a spacer and a sheet is inserted.

As shown in FIG. 5, which shows the details of this relationship, a spacer 1) is provided in the 11th part of the flexible substrate 12.
Further, a flexible substrate 14 is stacked on the -11 portion. These two flexible substrates 12 and 14 are provided with contact terminals 1) a and 1) b, which constitute one contact terminal of the switch, respectively, and face each other across the opening 14 a of the spacer 14 . Normally, contact terminal 1) a
and 1)b are separated by a predetermined gap by a spacer 14 and are maintained in a state of not contacting each other. These pressed contact terminals 1)a, 1) then come into contact. The switch 10 is configured with such a configuration. The contact terminals 1) a and 13 b are circular axes having a diameter larger than that of the protruding portion 2 a, and are formed as electrodes using, for example, silver powder.

Further, 17 is a protrusion for fixing the transformer 9 provided on the back side of the front case portion 1a, and 18 is a similar electric l1lI! This is a protrusion for fixing the flexible substrate 6 , and also serves to fix a metal substrate (not shown) that ensures electrical contact between the wiring on the flexible substrate side 12 and the battery 6 .

Now, when a certain pressure is applied to some of the flexible substrates 14, they come into contact and become in the "ON" state. In order to make perfect contact with this switch, as shown in FIG.
A circular protrusion 16 with a diameter is formed. Therefore, the first
Power is supplied to the low frequency oscillation circuit 8 and output is generated only when a predetermined amount of pressure 1- is applied to the electrode 2, that is, when the low frequency oscillation circuit 8 is in use.

Furthermore, in order to ensure the operation of this switch section 15, it can be understood by comparing the heights of the first electrode +Ii2 and the second electrode 3, as shown in FIGS. 3 and 4. To,
The first electrode 2 is designed to protrude more outward than the second electrode 3.

Note that, as shown in FIG. 4, the substrate 7 is pressed and fixed inside the back case part 1b on the rear side of the second electrode 3.

Now, in the use state, the first electrode side comes into contact with the pot. In this case, by protruding from the second electrode 3, it can be brought into reliable contact with the skin side, and a pressing force is applied to the first electrode 2.゛With this configuration, the switch IO is turned on only when the device is in use, reducing power consumption. It is also possible to eliminate parts such as a lamp display that indicates , and power consumption can be reduced accordingly. It should be noted that this card-shaped low-frequency treatment device 1 is operating, but it is possible to determine whether it is because if its output is maximized, it will cause a tingling stimulus to the skin.

Further, when a lamp is provided, if a discharge lamp is provided on the output side of the transformer 9, power consumption can be reduced.

Since the circuit of the switch 10 has a circuit configuration, electrodes 1) a and 1) b are connected with high resistance even in the "OFF" state in order to operate the switch, and the power is Since there are also problems such as leakage and discharge, depending on the structure, there is no hindrance to separately inserting a main switch in series with the switch IO in the electric oil 6.

Figure 6 shows that the band 20 can be attached to both the left and right ends of the case and used by wrapping it around the arm or leg like a watch.
It was designed as a Noh. In this case, the second electrode 3 is provided not on the front case 1a but on the back case lb side so that the band 20
and is connected to the third electrode 21 at the end of the band 20 through internal wiring. Note that 22 is a magic fastener provided at both ends of the band 21, and in this case, the third electrode serves as the second electrode.

As explained above, the battery is an alkaline battery.

The battery is not limited to button type or capacitor type batteries such as alkaline manganese batteries, lithium batteries, etc., but it is also possible to use ordinary small manganese batteries of size 5 or larger.

In the embodiment, a sheet switch is used, but this can be done by installing a conductive rubber switch below the first electrode 2 and insulating it from it, or by attaching it to the F side with insulation so that it protrudes. In addition, various switches such as microswitches can be used.

Furthermore, when the oscillation circuit is a blocking oscillation circuit, a block oscillation transformer is used as the transformer, and in this case, the number of amplifying elements used can be reduced.

In addition, as an oscillation circuit, a multivibrator etc. can also be used. For example, a low frequency oscillation circuit can be constructed by connecting an IC operational amplifier or four IC NAN I) circuits. good.

Further, the booster circuit does not necessarily need to be a transformer if an LSI circuit such as a strobe circuit is used. Of course, the entire circuit including the oscillation circuit may be integrated into an IC.

In the embodiment, a card-shaped material is used, but a thin case such as a disc-shaped material may be used, similar to the pad of a low-frequency treatment device, and the electrodes are not limited to conductive rubber.

The variable resistor for voltage adjustment may be omitted, and a lithium battery may be built in as a fixed device so that the entire device can be thrown away after being used for a certain period of time.

In the embodiment, the present invention is explained as a low frequency treatment device, but it is also possible to apply low frequency pulses to the ``sickness market'' as a low frequency pulse generator for preventing ``sickness''. In this case, it is possible to further lower the frequency. It can be used for various other things.

[Effects of the Invention] As can be understood from the following explanation, in the present invention, the first electrode is disposed approximately at the center of one surface of a card-shaped or disc-shaped member, and By arranging a second electrode on at least one side or band and incorporating a battery and an oscillation circuit inside, it is possible to generate a low frequency signal by itself, and it can be brought into direct contact with an acupuncture point, etc. for treatment, etc. It can be useful.

[Brief explanation of the drawing]

Fig. 1 shows an IE diagram of a card-type low-frequency treatment device to which the low-frequency generator of the present invention is applied, Fig. 2 shows its circuit diagram, Fig. 3 shows its I-I sectional view, and Fig. 4 shows its I-I sectional view. The figure is a sectional view taken along the line ■-■, FIG. 5 is an explanatory diagram of the seat switch, and FIG. 6 is an explanatory diagram of another embodiment with a mounting band attached. 1... Card-shaped low frequency generator, la... Front case part, 1b... Back case part, 2...
・First electrode, 3... Second electrode, 4... Magnet, 5
...Variable resistor for voltage adjustment, 6...Battery, 7...
Substrate, 7a... Opening, 8... Low frequency oscillation circuit, 9
...step-up transformer, 10...switch.

Claims (4)

[Claims] (1) A first electrode is arranged approximately in the center of one side of a thin case such as a card-shaped or disk-shaped case, and a second electrode is arranged on at least one side of the periphery or on a band that presses the case, A battery and a low frequency generation circuit are built inside the case, and the output of this low frequency generation circuit is boosted to generate the first
and a second electrode. (2) The low frequency generator according to claim 1, wherein the first electrode protrudes more than the second electrode. (3) A sheet-like switch circuit is arranged at the rear of the first electrode, and when the first electrode is pressed, the switch is turned on and power is supplied from the battery. A low frequency generator according to range 2. (4) The first electrode is a cylindrical conductive rubber electrode,
A magnet is buried in the center, the second electrode is a linear conductive rubber electrode, the battery is a lithium battery, and the output signal of the low frequency generator circuit is boosted through a transformer. 4. The low frequency generator according to claim 3, wherein the low frequency generator is outputted as follows.