JP4444839B2 - Electronic treatment device - Google Patents

Description

  The present invention relates to an electronic treatment apparatus that performs an electronic treatment for improving the state of a treatment site such as skin (skin).

Conventionally, iontophoresis has been used as an electronic beauty method.
The iontophoresis method is intended to efficiently obtain the beauty effect of a beauty lotion or lotion by allowing a water-soluble active ingredient contained in the lotion or lotion to permeate the skin while applying a weak current. .
As this type of prior art, by introducing a DC alternating voltage to the ion electrode and introducing the active ingredient into the skin while ultrasonically vibrating the electrode, the introduction of the active ingredient into the skin causes skin troubles. There is a technique that can be performed in a short time (see, for example, Japanese Patent Laid-Open No. 2001-259045).
In addition, as a comprehensive beauty technique for the skin, current is supplied sequentially in four stages: cleansing stage, massage stage, nutrition supply stage, and lifting stage. There is also known a technique for using these in combination (for example, see Japanese Patent Application Laid-Open No. 2000-210385).
That is, the technique of this latter patent document repeatedly supplies a positive galvanic current having a frequency of about 2 to 10 Hz and a continuous positive galvanic current in the cleansing stage. In the massage stage, positive and negative galvanic current having a frequency of about 2 to 10 Hz is supplied. In the nutrient supply stage, a negative galvanic current having a frequency of about 2 to 10 Hz and a continuous negative galvanic current are repeatedly supplied. Further, in the lifting stage, an alternating current having a frequency of about 0.5 to 5 Hz variable in positive and negative is supplied.
Here, since the technique of the former patent document mentioned above presupposes that it does not raise | generate the trouble of skin, it can be said that it is what was mainly aimed at the care with respect to epidermis among skin.
Moreover, although the technique of the latter patent document can perform comprehensive beauty of the skin by changing the way of supplying current to the electrodes in various ways, in particular, regarding the technique of ion introduction for supplying nutrients to the skin, A negative alternating current and a negative continuous current are repeatedly supplied.
That is, since the technique of the latter patent document supplies the currents of the two patterns while being shifted in time, if the current supply moment of each pattern is captured, the ion introduction force obtained at this time is sufficient. However, as with the former technique, it is not possible to expect the effect of penetration of active ingredients deep into the skin.

The present invention has been made to solve such problems, and an object of the present invention is to provide an electronic treatment device that can penetrate an active ingredient deep into the skin.
In order to achieve the above object, an electronic treatment device according to the present invention includes a casing, an electrode portion provided in the casing for introducing ions into the skin, and a negative DC voltage and a negative alternating current on the electrode portion. And a voltage supply means for applying the voltage in a superimposed manner.
Moreover, the electronic treatment apparatus of the present invention is characterized in that the voltage supply means applies a positive DC voltage and a positive alternating voltage superimposed on the electrode portion.
Furthermore, the electronic treatment device of the present invention is characterized in that the voltage supply means applies a negative DC voltage and an alternating voltage alternating in positive and negative directions to the electrode part in a superimposed manner.
Further, the electronic treatment device of the present invention is provided with a casing, an electrode portion provided in the casing for introducing ions into the skin, and a positive DC voltage and a positive alternating voltage applied to the electrode portion in a superimposed manner. First voltage supply means for applying, second voltage supply means for applying an alternating voltage that alternates positive and negative to the electrode section, and a third application for applying a negative DC voltage and a negative alternating voltage superimposed on the electrode section. It is characterized by comprising voltage supply means and switching means for selecting any one of these first to third voltage supply means or operating them in order.
Furthermore, the electronic treatment device of the present invention is characterized in that a medium containing a water-soluble active ingredient is interposed between the electrode part and the skin.
Further, the electronic treatment device of the present invention is an iontophoretic electrode provided so that the electrode portion protrudes from the casing so as to contact the skin surface, and a grip electrode disposed at a grip portion of the casing; The information processing device further comprises notification means for performing notification by detecting non-contact between the grip electrode and the skin.
Here, for example, the grip electrode is disposed on the rear surface (back surface relative to the surface on which the iontophoretic electrode is disposed) or the side surface of the grip portion of the casing.
That is, according to the present invention, for example, the first to third voltage supply means for applying different voltages to the electrode portions can be selected or operated one by one in order. Can be done effectively.
Further, in the present invention, particularly at the time of ion introduction, a negative DC voltage and a negative alternating voltage are applied to the electrode portion so that the active component impregnated in the medium by applying the negative DC voltage is applied. The active ingredient can be penetrated into a wide range of the skin, and the active ingredient can be penetrated deep into the skin by a negative alternating voltage superimposed on the skin.

FIG. 1A is a front view of an electronic treatment apparatus according to an embodiment of the present invention.
FIG. 1B is a back view (back view) of the electronic treatment device shown in FIG. 1A.
FIG. 2 is a side view of the electronic treatment apparatus shown in FIG. 1A.
FIG. 3 is a functional block diagram of the electronic treatment apparatus shown in FIG. 1A.
FIG. 4 is a waveform diagram showing an applied voltage in the plus mode applied to the head portion of the electronic treatment apparatus shown in FIG. 1A.
FIG. 5 is a waveform diagram showing an applied voltage in the massage mode applied to the head portion of the electronic treatment device shown in FIG. 1A.
FIG. 6 is a waveform diagram showing an applied voltage in the negative mode applied to the head portion of the electronic treatment device shown in FIG. 1A.
FIG. 7 is a diagram showing the principle of penetration of an active ingredient into the skin in the iontophoresis mode.
FIG. 8 is a waveform diagram showing a voltage applied to the head portion in another treatment mode different from the modes shown in FIGS.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.
FIG. 1A is a front view showing an electronic treatment device according to one embodiment of the present invention, FIG. 1B is a back view (back view) of the electronic treatment device, and FIG. 2 is a side view of the electronic treatment device. FIG. 3 is a functional block diagram of the electronic treatment apparatus.
As shown in FIG. 1A and FIG. 1B, the electronic treatment device 1 of this embodiment is a handy type beauty device that allows a user to perform skin beautification by himself / herself. The electronic treatment device 1 includes a casing (housing) 11 that forms an outer shell of the device body in a shape in which a cylindrical shape is flattened in a radial direction, a head portion 12 as an iontophoretic electrode, and a battery housing case 13, for example. ing. The head portion 12 is provided so as to protrude from one end portion of the casing 11 in a direction substantially orthogonal to the longitudinal direction of the casing 11. Moreover, the head part 12 is formed in the truncated cone shape with a flat front-end | tip part so that it may contact | abut to the skin (treatment site | part) of treatment object by a surface.
The battery housing case 13 is a case for housing a battery which is a power source of the apparatus in the casing 11. Note that an AC (alternating current) adapter, a rechargeable battery, or the like may be used as the power supply means of the electronic treatment apparatus 1. On the rear surface of the casing 11, a power / mode switch 14, a power / mode display LED 15, a strength changeover switch 16, a strength display LED 17, a grip electrode 18, and the like are disposed.
The power / mode switch 14 is a switch for the user to switch the main power on / off (ON / OFF) and the treatment mode. The power / mode switch 14 is, for example, a power switch that turns on / off the power when pressed for 1 second or longer, and a multifunction switch that operates as a mode change switch when pressed for 0.5 seconds or shorter. The strength changeover switch 16 is a switch for the user to select the time / level (strength) of each treatment. The power / mode display LED 15 is turned on when the main power is turned on, and is turned off when the main power is turned off. The power / mode display LED 15 changes its emission color to red, yellow, green or the like by a treatment mode switching operation. The intensity display LED 17 is turned on at a portion corresponding to the mark divided into three levels such as large, medium, and small. That is, these LEDs 15 and 17 are display means for displaying various statuses and displaying selection / setting contents by the user when each treatment mode is selected.
As shown in FIG. 2, a grip electrode 18 is provided on the side surface of the casing 11. In the casing 11, a DC voltage is supplied so as to maintain a positive (positive) potential and / or a negative (negative) potential between the head portion 12 and the grip electrode 18, or an alternating voltage alternating between positive and negative (positive and negative) is supplied. A printed circuit board (not shown) on which a control system 28 (see FIG. 3) to be supplied is mounted is accommodated.
As shown in FIG. 3, the control system 28 includes a control unit 21, an operation input unit 22, a notification unit 23, a massage voltage supply circuit 24, an iontophoresis voltage supply circuit 25, a cleansing voltage supply circuit 26, a switching circuit 27, and the like. is doing.
The control unit 21 includes a processor that performs overall control of the electronic treatment apparatus and various calculations, a RAM (Random Access Memory), and a ROM (Read Only Memory). The ROM stores software for control and computation to be executed and software such as various parameters. The processor reads the software from the ROM, interprets the command statement, and executes the command using the memory space of the RAM. To do. As one function of the software of the control unit 21, a timer function for automatically terminating the treatment is provided. The treatment mode time can be changed by performing a setting operation in this timer function. By default, it is set to about 5 minutes, for example.
The operation input unit 22 monitors the operation state of the power / mode switch 14 and the strength changeover switch 16 provided in the casing 11 and notifies the control unit 21 of an input command from the user as a monitoring result. The switching circuit 27 and the control unit 21 are connected to the electrode unit (the head unit 12 and the grip electrode 18), the massage voltage supply circuit 24, and the cleansing voltage supply circuit 26 in the casing 11 according to the mode switching operation of the power / mode switch 14 by the user. The switching means for switching the connection state with the iontophoresis voltage supply circuit 25 and selecting one voltage supply circuit whose connection state has been switched or operating the voltage supply circuits one by one.
The notification unit 23 is a display means such as the LEDs 15 and 17 and a buzzer (not shown) voice notification means for performing warning and guidance for the user. As an example of a warning for the user, for example, a warning sound is emitted when the user releases his / her hand from the grip electrode 18. As an example of guidance for the user, for example, a buzzer sound is emitted at the time of ion introduction to signal a treatment.
The notification unit 23 is generated when the grip electrode 18 comes into contact with the skin so as to detect whether or not the user's skin is in contact with the grip electrode 18, that is, non-contact between the skin and the grip electrode 18. It consists of a circuit that detects a weak alternating voltage. In addition to the contact type, the notification unit 23 may be a unit that detects a change in impedance such as capacitance or resistance, or a unit that detects a pressure change using a piezoelectric element.
Under the control of the control unit 21, the cleansing voltage supply circuit 26 sets a positive DC voltage and a positive alternating voltage to the head unit 12 with the head unit 12 side being positive (positive electrode) and the grip electrode 18 being negative (negative electrode). It functions as a first voltage supply means for applying the superimposed voltage.
The massage voltage supply circuit 24 is a second voltage supply unit that applies an alternating voltage (alternating current pulse voltage) that alternates positively and negatively to the electrode part (the head part 12 and the grip electrode 18) under the control of the control part 21.
The ion introduction voltage supply circuit 25 introduces ions into the electrode portions (the head portion 12 and the grip electrode 18) under the control of the control portion 21, with the head portion 12 side being negative (negative electrode) and the grip electrode 18 being positive (positive electrode). It functions as a third voltage applying means for applying a voltage for.
Ion introduction by the electronic treatment device 1 applies a lotion or cosmetic liquid to the skin treatment site, for example, the skin of the face, and presses the head portion 12 from above to apply a voltage. This is done by generating a voltage difference that makes the electrode 18 a positive potential. Thereby, a weak electric current can be passed through the skin through the skin lotion or the cosmetic liquid, and the ionized water-soluble active ingredient contained in the skin lotion or the cosmetic liquid can be efficiently penetrated into the skin (skin). . Examples of active ingredients include vitamins C and E.
As a method for supplying the ion introduction voltage, there are continuous DC voltage supply, pulse DC voltage supply, pulse depolarization DC voltage supply, AC voltage supply (alternating voltage supply), and the like.
In addition, in the minus mode of the present apparatus, the superimposed supply of the minus DC voltage and the minus DC pulse voltage is performed to the head unit 12. Further, in the plus mode, a plus DC voltage and a plus DC pulse voltage are superimposed and supplied to the head unit 12, and in the massage mode, plus / minus AC voltage is supplied to the head unit 12.
The method of superimposing the negative DC voltage and the negative DC pulse voltage in the negative mode continuously applies a negative (negative) DC voltage to the head unit 12 (applies a constant voltage), and this negative (negative). This is a method of superimposing and supplying a DC pulse voltage alternating on the side. The pulse voltage is a rectangular wave that alternates between 0 V and −8 V at a frequency of, for example, 50 Hz. The frequency of the pulse voltage is preferably in the range of 1 to 200 Hz, for example.
The user can adjust the level of ion introduction, that is, the voltage applied between the grip electrode 18 and the head unit 12 in three stages of large, medium, and small by operating the strength changeover switch 16 on the casing 11. For example, the level can be adjusted in three steps between -8V and -36V. Here, for example, the level adjustment between -8V and -36V may be performed in a plurality of stages exceeding three stages such as five stages and seven stages.
Hereinafter, the operation of the electronic treatment apparatus will be described.
First, the plus mode will be described.
In this case, when the power source / mode changeover switch 14 is pressed and turned on to turn on the power source and the operation mode is switched to the plus mode, the control unit 21 controls the switching circuit 27 to connect the cleansing voltage supply circuit 26 to the electrode unit ( The power source / mode display LED 15 emits green light while being connected to the head portion 12 and the grip electrode 18).
In this plus mode, the head portion 12 is positive and the grip electrode 18 is negative. As shown in FIG. 4, the head portion 12 has a positive pulse voltage S2 with a frequency of 50 Hz superimposed on a positive DC voltage S1. Applied state.
When the head portion 12 is brought into contact with the treatment site while holding the casing 11 in the plus mode state, dirt in a wide range of skin is adsorbed to the head portion 12 by application of the positive DC voltage S1. Further, dirt deep in the skin is knocked out by stimulation of the pulse voltage S2 superimposed on the DC voltage S1. That is, due to the synergistic effect of the DC voltage S1 and the pulse voltage S2, the negatively charged dirt component is knocked out from deep inside the skin and is adsorbed by the head portion 12, so that skin cleansing can be performed efficiently. Further, by performing treatment in this mode, an effect of tightening the pores and adjusting the texture of the skin can be obtained.
Next, the massage mode will be described.
When the power supply / mode switch 14 is pressed shortly with the power supply of the apparatus turned on to switch the operation mode to the massage mode, the control unit 21 controls the switching circuit 27 to switch the massage voltage supply circuit 24. While connecting to the electrode part (head part 12 and grip electrode 18), LED 15 for power / mode display is made to light yellow.
In this massage mode state, as shown in FIG. 5, an alternating pulse voltage S3 having a frequency of 50 Hz and a frequency of 10 Hz, for example, alternately applied to the electrode portions (the head portion 12 and the grip electrode 18) is alternately applied to the electrodes. The polarity of the parts (the head part 12 and the grip electrode 18) is instantaneously changed between plus and minus.
When the head portion 12 is brought into contact with the treatment site while holding the casing 11 in this massage mode, the ions in the skin move up and down, and the skin is activated. Easy to install.
An AC pulse voltage with a frequency of 10 Hz deeply activates skin tissue, and an AC pulse voltage with a frequency of 50 Hz widely activates skin tissue. Such low frequency stimulation can ease muscles and open pores.
Next, the minus mode will be described.
When the operation mode is switched to the minus mode while the power supply of the apparatus is turned on, the control unit 21 controls the switching circuit 27 so that the ion introduction voltage supply circuit 25 is connected to the electrode unit (the head unit 12 and the grip electrode 18). And the power / mode display LED 15 emits red light.
In the minus mode state, a buzzer sound is generated from the notification unit 23 to signal the treatment. Further, the head portion 12 is negative and the grip electrode 18 is positive. As shown in FIG. 6, the head portion 12 is applied with a negative pulse voltage S5 having a frequency of 50 Hz superimposed on a negative DC voltage S4. become.
In this minus mode state, as shown in FIG. 7, cotton 30 (medium) impregnated (impregnated) with a cosmetic treatment agent such as a skin lotion or a cosmetic liquid is applied to the treatment site of the skin surface H1 such as the face. As a result, the user holds the casing 11 by hand and presses the head portion 12 onto the cotton 30. As a result, negative ions are generated by the application of the negative DC voltage S4, and the active ingredient of the skin lotion or cosmetic liquid of the cotton 30 penetrates into a wide range of the skin (skin H2) as shown by the arrow K1. In addition, pores are opened by the action of negative ions. Here, when the hand holding the casing 11 moves away from the grip electrode 18 so that the user can grasp that ion introduction (voltage application) is performed correctly, this is detected by the notification unit 23 and an alarm sound is generated. generate.
Further, the electrical stimulation (repulsive force) of the negative pulse voltage S5 superimposed on the negative DC voltage S4 causes the active ingredient of the skin lotion or the cosmetic liquid to move deep into the skin (dermis H3 as indicated by an arrow K2). ).
In addition, the above-described minus mode (ion introduction) is performed after applying a solution containing a water-soluble active ingredient, that is, a skin lotion or a cosmetic liquid, to the skin surface such as the face without using the cotton or the like. May be.
Here, as the cosmetic treatment agent soaked into the cotton 30, specifically, various vitamins and ceramides, cosmetic ingredients such as collagen (including collagen beads) and whitening agents, and various cosmetics are used. Those containing cosmetic ingredients, ultraviolet absorbing (or reflecting) agents (sunburn suppression), moisturizers, oil replenishers, skin protecting components such as inflammation inhibitors, and in some cases those containing facial cleansing ingredients are used. Each of these components can be used as one kind or a mixture of two or more kinds. Furthermore, in addition to the main purpose component of these cosmetic treatment agents, a component having an anti-inflammatory action or an antioxidant action may be blended, or a fragrance or a pigment may be added as a sub-component.
Vitamin A oil (vitamin A palmitate), vitamin E oil (d1-α-tocopherol), vitamin C (ascorbyl tetra-2-hexyldecanoate) and the like are effectively used as vitamins as the main purpose ingredients of the beauty treatment agent. . For example, vitamin A softens keratinized skin, softens thickened skin and pore walls, and is effective in eliminating oil-spilled keratinized skin that is easily acne and the like. Vitamin E has a function of maintaining the youth of cells, and is effective in improving the turnover that causes rough skin and wrinkles, and further suppresses the deposition of brown pigments that cause spots. Vitamin C inhibits the formation of melanin, which causes the generation of spots and freckles, and also has an antioxidant action that inhibits the active oxygen that causes the spots. In addition, ceramide made by biotechnology has effects such as enhancing the skin moisturizing function.
As described above, according to the electronic treatment apparatus 1 of this embodiment, the massage voltage supply circuit 24, the cleansing voltage supply circuit 26, and the iontophoresis voltage supply circuit 25 are provided, and these circuits are switched to perform the massage mode, the plus mode, and the minus mode. The skin treatment can be effectively performed by performing the treatment in the three operation modes.
Further, in the negative mode, the negative DC voltage S4 and the negative pulse voltage S5 are superimposed and applied to the head unit 12, so that a wide range of penetration of the active component by the negative DC voltage S4 and the negative pulse voltage S5 are applied. Since the active ingredient is beaten at the same time, the active ingredient can be penetrated deep into the skin.
Further, according to the electronic treatment device 1, an alarm buzzer sound is generated when the hand holding the casing 11 is separated from the grip electrode 18, so that the user can grasp whether or not the device is operated correctly. Become. In addition, when ions are introduced, the start of treatment is signaled by a buzzer sound, so that the user can grasp the operation status of the apparatus.
The present invention has been specifically described with the above embodiment, but the present invention is not limited to this embodiment, and various modifications can be made without departing from the scope of the present invention.
In the above-described embodiment, cleansing, massage, and iontophoresis operation modes have been described. In addition, a “tightening mode”, a “squeeze / wrinkle mode”, and the like are prepared for this apparatus.
In the “tightening mode”, a composite wave in which a pulse with a frequency of about 10 Hz to 50 Hz is superimposed on a pulse with a frequency of about 1 Hz to 10 Hz is applied to the electrode part. On the other hand, in the “texture / wrinkle mode”, a composite wave obtained by superimposing a pulse with a frequency of about 20 Hz to 100 Hz on a pulse with a frequency of about 1 Hz to 10 Hz is applied to the head unit 12 and the grip electrode 18.
In the above embodiment, the strength is 3 levels, but it may be further divided into 6 levels and 10 levels.
Further, the treatment effect can be further enhanced by continuously using some of the three operation modes. For example, by continuously performing from the massage mode to the minus mode, ions can be introduced in a state where the pores of the skin are opened and the active ingredient is easily infiltrated, so that the active ingredient can be more effectively permeated into the skin.
In the above embodiment, the contact surface of the head portion 12 to the skin is a flat surface. However, considering the shape of the skin surface to be treated, the shape of the contact surface of the head portion 12 is a spherical shape having a curvature. Or the like. Alternatively, the cotton 30 may be applied to the skin after being applied to the head portion 12.
In the plus mode, minus mode, etc. of the above embodiment, a positive pulse voltage is superimposed on a positive DC voltage, or a negative pulse voltage is superimposed on a negative DC voltage and applied to the head unit 12. However, for example, as shown in FIG. 8, a treatment mode in which an alternating pulse voltage S7 alternating between plus and minus is superimposed on a minus DC voltage S6 and applied to the head unit 12 may be added.
Furthermore, a treatment mode in which an alternating pulse voltage alternating between plus and minus is superimposed on a plus DC voltage or 0 V DC voltage and applied to the head unit 12 may be added. Further, for example, the electronic treatment device 1 may be configured by adding a mechanism for holding the cotton 30 or the like to the tip portion of the head portion 12.

  As described above, the present invention can treat not only facial treatments, but also all skin surfaces of the body, such as neck and limbs.

Claims (3)

A casing,
An electrode head portion provided in the casing and used in direct or indirect contact with the skin surface to be treated ;
By applying to the electrode head by superimposing a pulse voltage and a positive DC voltage that varies within the voltage range of plus free of 0V, and executable cleansing voltage supply means positive mode for cleansing the skin ,
Plus, by the alternating voltage alternating negatively applied to the electrode head, and executable massage voltage supply means massage mode to activate the skin tissue,
By applying to the electrode head by superimposing a pulse voltage and a negative DC voltage that varies in a negative voltage range without the 0V, viable iontophoresis voltage negative mode for performing iontophoresis Supply means;
An electronic treatment device comprising: a cleansing voltage supply means, a massage voltage supply means, and a switching means for selecting and operating each of the iontophoresis voltage supply means one by one . Between the electrodes head portion and the treatment subject's skin surface, the electronic treatment device according to claim 1, wherein the solution or the solution, characterized in that the impregnated medium is interposed containing a water-soluble active ingredient . Disposed grip portion of the front Symbol casing, a grip electrode used in the electrode head and the pair,
The electronic treatment device according to claim 1 , further comprising: an informing unit configured to detect and notify non-contact between the grip electrode and the skin.

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