KR20210155309A - Dry foot bath - Google Patents

Abstract

The present invention relates to a dry-type foot bathing device which uses DC power as a supply source to variably output a high-frequency signal with a high output voltage, and is implemented by using resistive electric transfer (RET) monopolar type deep heat. The present invention is advantageous in that DC power is used as a power supply source to be supplied to a high-frequency generator circuit so as to eliminate the risk of electric shock, caused by the supply of AC power, and thus, a safe high-frequency generator can be provided, in that an RET monopolar method is adopted to generate maximum deep heat in the vicinity of a user's calf so that the body temperature increases by the deep heat that is quick and efficient, thereby enabling the user to have metabolism activating and immunity enhancing effects, in that a user can adjust the high-frequency output intensity according to whether the body temperature rises or not by directly manipulating a proximity switch so that convenience of use can be provided, and in that a grounding method by grounding resistance is adopted so that a sufficient high-frequency current is applied to a high-frequency electrode while a high-frequency is output without separate insulation so that deterioration of functions of the high-frequency generator can be prevented.

Description

Dry foot bath

The present invention relates to a dry foot bath, and more particularly, to a dry foot bath using a RET (resistive electric transfer) monopolar type deep heat by variably outputting a high frequency signal with a high output voltage using a DC power source as a source.

As is known, a dry foot bath using a flat heating element for smooth metabolism and immunity enhancement has been widely introduced. It is pointed out that it is not only greatly reduced, but is always exposed to the risk of electric shock by using AC power as the supply source.

In order to solve this problem, in recent years, a dry foot bath by a high frequency method has appeared.

The characteristic of high-frequency electrotherapy is that when a high-frequency current passes through the body, the muscles do not contract and feel the warmth, and the deep heat is generated inside the human body.

Taking advantage of the characteristics of this high-frequency therapy, measure the humidity or temperature of the user's sole or set a timer to adjust the intensity of the high-frequency output according to the measured value by the humidity sensor or temperature sensor, or adjust the high-frequency output voltage during the timer setting time Prior technologies for dry foot baths are being introduced.

In particular, according to Korean Patent Laid-Open No. 10-2019-0072400, the high frequency generator is controlled according to a user's command input through the user input unit, and the user's body temperature detected by the body temperature sensor exceeds a predetermined target elevated body temperature. A deep heat generator is introduced, characterized in that it includes a control unit for controlling the output voltage supply unit to lower the high frequency output voltage of the high frequency generator to a predetermined falling output value. In order to increase the temperature, AC power is used as the source, but since a bipolar (or multi-polar) deep heat generator is applied, there is a risk that the user may be exposed to the risk of electric shock and burns due to a short circuit caused by AC voltage inside the dry footbath. , to solve this problem by insulating between the high-frequency electrode (porcelain) and the high-frequency electrode or by coating an insulator on the surface of the high-frequency electrode, but the insulation increases the resistance, so high high-frequency current cannot be transmitted to the user's sole. Inevitably, the function of generating deep heat due to high frequency is greatly reduced, and for this reason, the power supply for high frequency generation is inevitably adopted as an AC power source.

In addition, since the dry foot bath according to the prior art bipolar method is used by applying the user's sole to each of the two high-frequency electrodes, the distance between the electric current and the electric current reflux is short, so that heat is mainly generated in the sole of the foot, which is sufficient deep heat for the user's body As this does not occur, a problem is pointed out that the function as a dry foot bath is not properly performed.

An object of the present invention is to eliminate the risk of electric shock or burns by using a DC power supply as a power supply for driving the dry foot bath, and to improve the function of the dry foot bath using high frequency.

In addition, the present invention provides not only high-frequency generation but also a low-frequency generation circuit to perform a function as a low-frequency stimulator, as well as adding an ultraviolet sterilization LED circuit to antibacterially treat the user's toes. Make it a technical task to provide

The present invention includes a high-frequency electrode and a high-frequency plate installed on each of the bottom surfaces of both sides of the central diaphragm of the enclosure to be interviewed by putting the user's sole; a set time display unit and an output intensity display unit installed on each of the operation and display units installed outside the center of the upper rear cover of the enclosure; and a proximity operation switch unit; UV sterilization LEDs installed on both ends of the rear inner wall of the housing; A low-frequency stimulator jack inserted into a socket on one side of the housing is included to configure the dry foot bath housing, and DC power is used as a source to supply DC power to each circuit mounted on a circuit board installed inside the housing. The high frequency generating circuit includes: a variable output voltage controller for changing the input DC power to a voltage of a predetermined range and outputting a variable voltage according to a control program of the microprocessor unit; a proximity operation switch unit comprising a proximity sensor IC and a proximity switch installed at the front end of the microprocessor unit; A high-frequency modulation circuit and a high-frequency transformer for generating a high-frequency output voltage by processing a fixed frequency output signal and a set voltage output by the control program of the microprocessor unit by adjusting the operation set time and high-frequency output intensity according to the operation of the proximity operation switch unit , a high-frequency generator for generating a pulsating current including a high-frequency output terminal; The microprocessor unit output terminal includes a UV sterilization LED driving circuit and a low-frequency generator, wherein the high-frequency output terminal of the high-frequency generator includes a high-frequency electrode and a high-frequency plate, and a grounding resistance between the high-frequency electrode and the secondary side of the high-frequency transformer installed to bypass the current applied to the high-frequency electrode so that the output voltage of a sudden high-level high-current does not flow to the high-frequency electrode. It is characterized in that it is configured to be continuously supplied to the secondary side of the high-frequency transformer.

The present invention provides a safe high-frequency generator by excluding the risk of electric shock due to AC power supply by using DC power as the power supply source for the high-frequency generator circuit, and adopts the RET monopolar method to maximize the maximum value near the user's calf By generating deep heat, the body temperature due to deep heat is raised quickly and efficiently, so that you can enjoy the effects of activating metabolism and enhancing immunity. It provides convenience of use by adjusting it, and adopts a grounding method by grounding resistance to output high-frequency without separate insulation, while allowing sufficient high-frequency current to be applied to the high-frequency electrode to prevent deterioration of the function of the high-frequency generator.

In addition, the present invention is a dry foot bath device having a complex function by adding a low-frequency generator circuit to the high-frequency generator circuit to perform a function as a low-frequency stimulator, as well as adding an ultraviolet sterilization LED circuit to antibacterially treat the user's toes. It has the effect of providing a general-purpose dry foot bath that can broaden the range of users by providing

1 is a perspective view of the entire configuration of a dry foot bath according to an exemplary embodiment of the present invention.
2 is a circuit block diagram of a dry foot bath according to the present invention.
3 is a circuit diagram of a DC power supply circuit, a proximity operation switch circuit and a microprocessor unit of the dry foot bath according to the present invention.
4 is a circuit diagram of a high-frequency generator of the dry foot bath according to the present invention.
5 is a circuit diagram of a low-frequency generator of the dry foot bath according to the present invention.
6 is a circuit diagram of the UV sterilization LED driving circuit of the dry foot bath according to the present invention.
7 is a circuit diagram of the display unit of the dry foot bath according to the present invention.

The present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of the entire configuration of a dry foot bath according to an exemplary embodiment of the present invention.

According to this, the high-frequency electrode 53A and the high-frequency plate 53B installed on each of the bottom surfaces 111 and 112 on both sides of the central diaphragm 110 of the housing 100 to put the user's foot in an interview; a set time display unit 20A-1 and an output intensity display unit 20A-2 installed on each of the switch operation and display units 20A installed outside the center of the housing 100 upper rear cover 113; and a proximity operation switch unit 20A-3; UV sterilization LEDs (31, 32) installed on both ends of the rear inner wall of the housing 100; and a low-frequency stimulator jack 40-1 inserted into the socket 114 on one side of the housing 100; Including; The dry foot bath housing 100 may be configured.

2 is a circuit block diagram of a dry foot bath according to the present invention, FIG. 3 is a circuit diagram of a DC power supply circuit, a proximity operation switch circuit and a microprocessor unit of the dry foot bath according to the present invention, and FIG. 4 is a dry foot bath according to the present invention. of the high frequency generator circuit diagram, FIG. 5 is a circuit configuration diagram of a low frequency generator of the dry foot bath according to the present invention, FIG. 6 is a circuit diagram of the UV sterilization LED driving circuit of the dry foot bath according to the present invention, and FIG. 7 is a circuit diagram of the dry foot bath according to the present invention It is a circuit configuration diagram of the operation and display part of the dry foot bath.

According to this, the high frequency generator circuit 210, which is made by supplying DC power to each circuit unit mounted on the circuit board installed inside the housing 100 by using the DC power as a supply source, converts the input DC power to a voltage within a certain range. a variable output voltage controller (U4) which changes to (eg: 0 to 52V) and outputs a variable voltage according to a control program of the microprocessor unit (U1); a proximity operation switch unit (20A-3) comprising a proximity sensor IC (U3) and a proximity switch (SW) installed at the front end of the microprocessor unit (U1); The fixed frequency (eg 500KHZ) output signal and set voltage output by the control program of the microprocessor unit U1 by adjusting the operation set time and high frequency output intensity according to the operation of the proximity operation switch unit 20A-3 It consists of a high-frequency generator (50) for generating a pulsating current including a high-frequency modulation circuit (51), a high-frequency transformer (52), and a high-frequency output terminal (53) for generating a high-frequency output voltage by processing, the high-frequency output of the high-frequency generator (50) The terminal 53 is composed of a high-frequency electrode 53A and a high-frequency plate 53B, and a grounding resistor R39 is provided between the high-frequency electrode 53A and the secondary side of the high-frequency transformer 52 to form the high-frequency electrode 53A. By bypassing the current applied to the high-level high current, the output voltage of a sudden high level high current does not flow to the high frequency electrode 53A, and a current limiting capacitor ( C32) is installed so that a low-level current is continuously supplied to the secondary side of the high-frequency transformer 52, and waveform shaping by the resistor R41 and the capacitor C17 in parallel to the secondary side of the high-frequency transformer 52 The circuit is configured to supply a constant pulsating voltage to the high-frequency electrode 53A, so that a stable high-frequency output can be obtained. (40) can be included.

A set time display unit 20A-1 and an output intensity display unit 20A-2 are connected to the output terminal of the microprocessor unit U1.

The variable output voltage controller (U4) is driven by using a DC power source (eg, DC 24V) as an input source, and a proximity operation switch unit ( 20A-3), a constant voltage and a variable voltage are stably supplied to each circuit part of the UV sterilization LED driving circuit unit 30 and the low frequency generator 40 and the high frequency generator 50, and the output voltage of the variable output voltage controller U4 (0 ~ 52V) can be designed so that the variable voltage (0 ~ 52V) according to the operation of the proximity switch (SW) is supplied to the primary side of the high frequency transformer 52 of the high frequency generator circuit 210 shown in FIG. As a result, each circuit is driven by DC power without external AC power supply, so it is possible to provide a safe dry foot bath by fundamentally excluding the risk of electric shock.

The proximity switch SW constituting the operation switch installed outside the center of the upper rear cover 113 of the housing 100 and the proximity operation switch portion 20A-3 of the display portion 20A is a start switch STRT and a stop switch (STOP), time setting up (T-UP)/down switch (T-DOWN) and output intensity up (1-UP)/down switch (1-DOWN), and power switch (POWER) , the high-frequency modulation circuit 51 of the high-frequency generator circuit 210 is composed of an FET Q6 for high-frequency modulation and a driver IC U2 for driving the FET Q6, and is used for operation of the proximity operation switch unit 20A-3. Accordingly, as the FET (Q6) is turned on, the primary side current of the high-frequency transformer 52 is induced in the secondary side, and the variable voltage (0 ~ 52V) selected by the user is a high voltage at the secondary side, and the high frequency is output as a pulsating waveform, At this time, a grounding resistor R39 is installed between the high-frequency electrode 53A and the secondary side of the high-frequency transformer 52 to bypass the current applied to the high-frequency electrode 53A, so that the output voltage of the high-level high current is suddenly changed to the high-frequency electrode. By allowing a stable high-frequency current to be applied to the high-frequency electrode 53A while not flowing to 53A, a short circuit with the high-frequency plate 53B can be excluded. A flow is generated, and as a result, a high-frequency current flows smoothly through the user's body between the high-frequency electrode 53A and the high-frequency plate 53B, thereby preventing safety accidents due to burns, etc. in advance, and the high-frequency plate 53B and Since a low-level current is continuously supplied to the secondary side of the high-frequency transformer 52 by installing a current limiting capacitor C32 between the secondary sides of the high-frequency transformer 52, damage or damage to the high-frequency transformer 52 can be prevented. be able to

The present invention is provided by adopting a RET monopolar method using a high-frequency electrode 53A and a high-frequency plate 53B, and in use, for example, the left sole is placed on the upper surface of the high-frequency electrode 53A, and the right sole is a high-frequency plate. When the corresponding switch of the proximity switch (SW) is operated while the upper surface of (53B) is placed and the corresponding high-frequency intensity is output for the set time, the high-frequency current is generated by the high-frequency electrode (53A) - the user's left sole - the user's left calf - The user's body - the user's right calf - the right foot - refluxes to the high-frequency plate (53B) and generates deep heat in the user's body. As this is the most smooth, the soles are not hot and the occurrence of deep heat increases in the vicinity of the calves, and as the deep heat is transferred to the entire user's body, rapid heat is generated. Since the occurrence is relatively less than that of the calf, the user's sense of psychological risk can be greatly reduced.

The present invention can control the degree of deep heat generation by operating the output intensity up (1-UP)/down switch (1-DOWN) of the proximity switch (SW) while sensory sensing the deep heat felt by the user in the calf. It is possible to conveniently manipulate the high frequency output intensity suitable for the aptitude.

And, according to the present invention, the UV sterilization LED driving circuit unit 30 and the low frequency generator 40 are installed in each of the output terminals of the microprocessor unit U1, and the UV sterilization LED of the UV sterilization LED driving circuit unit 30 (31) ) (32) is turned on as the power switch of the proximity switch (SW) is selected and operated, in particular, installed on both ends of the rear inner wall of the housing 100, but the UV sterilization LEDs (31) and (32) are inclined upward As the irradiated ultraviolet light is reflected on the upper inner side of the upper rear cover 113, it is possible to sterilize the bacteria on the user's toes and feet put in the housing 100, and the low-frequency generator 40 is shown in Figs. 5, a low-frequency modulation circuit 41 composed of a modulation transistor Q8, a modulation transistor Q8, and a driver transistor Q7, and a low-frequency transformer 42 that generates a low frequency according to the frequency program of the microprocessor unit U1 ), but by inserting a low-frequency stimulator jack 40-1 that is inserted into the socket 114 on one side of the housing 100, and using the low-frequency output electrode 43 to strengthen the user's muscles and relieve pain, etc. can

Therefore, the present invention can be used for both the generation of deep heat by high frequency and the smooth metabolism and immunity enhancement through double word low frequency stimulation, and at the same time, it is possible to sterilize bacteria that can be propagated on the user's feet with UV sterilization LED. It has complex functions.

In the above, the embodiment has been mainly described, but this is only an example and does not limit the present invention. It can be seen that various modifications and applications are possible.

And differences related to such modifications and applications should be construed as being included in the scope of the present invention defined in the appended claims.

20A: Switch operation and display unit SW: Proximity switch
20A-1: Set time display unit 20A-2: Output strength display unit
20A-3: proximity operation switch unit 30: UV sterilization LED driving circuit unit
31, 32: UV sterilization LED 40: low frequency generator
51: high-frequency modulation circuit 52: high-frequency transformer
53: high-frequency output terminal 53A: high-frequency electrode
53B: high-frequency plate 100: enclosure
113: rear cover 210: high frequency generator
U1 : Microprocessor unit U4 : Variable output voltage controller

Claims (1)

a high-frequency electrode 53A and a high-frequency plate 53B installed on each of the bottom surfaces 111 and 112 on both sides of the central diaphragm 110 of the housing 100 to be interviewed by putting the user's sole; a set time display unit 20A-1 and an output intensity display unit 20A-2 installed on each of the switch operation and display units 20A installed outside the center of the housing 100 upper rear cover 113; and a proximity operation switch unit 20A-3; UV sterilization LEDs (31, 32) installed on both ends of the rear inner wall of the housing 100; and a low-frequency stimulator jack 40-1 inserted into the socket 114 on one side of the housing 100; Including; The high-frequency generator circuit 210 constitutes the dry foot bath housing 100 and supplies DC power to each circuit mounted on the circuit board installed inside the housing 100 using a DC power source (DC) as a supply source. A variable output voltage controller (U4) that changes the DC power supply to a certain range of voltage and outputs a variable voltage according to a control program of the microprocessor unit (U1), and a proximity sensor installed at the front end of the microprocessor unit (U1) A proximity operation switch unit 20A-3 composed of an IC (U3) and a proximity switch SW; For generating a pulsating current including a high-frequency modulation circuit 51 and a high-frequency transformer 52 and a high-frequency output terminal 53 for generating a high-frequency output voltage by processing a fixed frequency output signal and a set voltage output by the control program of (U1) It consists of a high-frequency generator 50, but the high-frequency output terminal 53 of the high-frequency generator 50 is composed of a high-frequency electrode 53A and a high-frequency plate 53B, and the high-frequency electrode 53A and the high-frequency transformer 52 A grounding resistor (R39) is installed between the secondary sides of 53B) and a capacitor C32 for limiting current is installed between the secondary side of the high-frequency transformer 52 so that a low-level current is continuously supplied to the secondary side of the high-frequency transformer 52, and the A waveform shaping circuit by a resistor R41 and a capacitor C17 is configured in parallel on the secondary side so that a constant pulsating voltage is supplied to the high frequency electrode 53A, while The microprocessor unit (U1) is configured to include a UV sterilization LED driving circuit unit 30 and a low frequency generator 40 at the output terminal, and the UV sterilization LED (31) (32) of the UV sterilization LED driving circuit unit 30 is enclosed. (100) Installed on both ends of the rear inner wall surface, but irradiated with an inclined upward direction to sterilize bacteria on the user's toes and feet put in the housing 100 while the irradiated ultraviolet rays are reflected on the upper inner side of the upper rear cover 113. Dry foot bath, characterized in that it is configured to be able to

Images