KR20160122036A - Portable beauty culture vibrator - Google Patents

Abstract

A case which is provided with a case and which can be carried by a user, which massage the face and the body by generating ultrasound, near-infrared rays, red light and blue light according to the user's need, A first flexible substrate mounted on the first flexible substrate and having a plurality of near infrared light emitting diodes, a plurality of red light emitting diodes, and a plurality of blue light emitting diodes arranged on an inner surface of the case, And a control unit for selectively driving the plurality of near-infrared light emitting diodes, the plurality of red light emitting diodes, and the plurality of blue light emitting diodes according to the setting of the control unit, and controlling the driving of the ultrasonic waves. Portable beauty massager and The present invention relates to a control method.

Description

Portable Beauty Massager {PORTABLE BEAUTY CULTURE VIBRATOR}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for massaging a face and a whole body using ultrasound and light, and more particularly, to a method for massaging a face and a body by generating ultrasound, near infrared rays, red light, and blue light.

As the standard of living has improved, many changes have been made to the patterns of life and the number of people who are interested in their appearance in real life is increasing day by day. This is because the changes in cultural trends make the lives of modern people richer in terms of time and economy, and they start to change their appearance as the leisure activities are relatively increased. As a result, public interest in cosmetics is growing more than ever. Especially, for the beautiful skin care for the woman, the beauty of the man for the appearance of her own has been interested in the present tendency which regards appearance and health as important. Skin care should be performed in a way that is appropriate to the constitution of the person. Most people follow the success stories introduced through their neighbors, friends, or broadcast media, and often perform skin care. At this time, if the skin management is performed in a way that is not suitable for oneself, it can cause many side effects such as harming the skin and health of the parties and getting various diseases. In particular, skin care has to deal with expensive equipment and a lot of cosmetics, and it has been a long and troublesome problem for non-experts. The number of people seeking skin clinics or skincare companies is increasing day by day as a way to solve this problem, but the cost is very high, which causes a huge burden on the family. On the other hand, the Near Infrared Ray having a wavelength of 0.8 to 1.4 nm has no reported side effects due to excessive use, and has no chemical change or respiratory disorder, can pass through a transparent object, It is possible to supply oxygen, effective use time of the skin is about 30 minutes, and the body fat decomposition rate is about 90%.

The near-infrared rays penetrate deeply into the subcutaneous layer of the skin, having a wavelength penetration depth of about 6 mm, and have a thermal effect of about 1.2 times as much as far infrared rays.

In addition, the near-infrared rays promote blood circulation in the human body, warm the human body to maintain an optimal body temperature state, discharge heavy metals in the body, promote pain, deodorization, purification, detoxification, The effect is known.

In addition, red light is effective to remove the wrinkles of facial skin by activating the skin, and is effective for skin whitening. Blue light can improve the redness and inflammation through the photochemical mechanism of destroying the bacteria, and has anti-inflammatory effect of bacteria. And a beauty machine for skin beauty by ultrasonic vibration has been developed and used. The skin-beauty machine using the ultrasonic waves stimulates the nerves of the human body by simply vibrating by the ultrasonic waves and relieves fatigue of the muscles.

SUMMARY OF THE INVENTION The present invention provides a control device and method for a portable beauty massager that manages skin using near-infrared rays and ultrasonic waves.

In addition, the present invention provides a skin management control apparatus and method for managing skin using red light providing skin activation function.

Another object of the present invention is to provide a portable beauty massager and a control method thereof for a user to perform skin care by selectively using ultrasound, near infrared rays, red light, and blue light.

Another object of the present invention is to provide a portable beauty massager and a control method thereof for a user to easily carry the face and body skin while carrying the portable beauty massage device.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. There will be.

A portable beauty massager according to the present invention comprises: an ultrasonic part for mounting an ultrasonic wave on a front portion; a first flexible substrate on which a plurality of near-infrared light emitting diodes, a plurality of red light emitting diodes and a plurality of blue light emitting diodes are arranged, A second and a third flexible substrate attached to the inside of the portable beauty massager and having a plurality of near infrared ray emitting diodes, a plurality of red light emitting diodes and a plurality of blue light emitting diodes arranged, And a controller for selectively controlling the light emitting diodes, the plurality of red light emitting diodes, and the plurality of blue light emitting diodes.

The portable beauty massager according to the present invention may further include a near infrared ray LED driving unit for driving the plurality of near infrared ray emitting diodes under the control of the control unit and a red LED driving unit for driving the plurality of red LEDs, A blue light emitting diode driver for turning on the plurality of blue light emitting diodes under the control of the controller, and an ultrasonic driver for generating the ultrasonic waves under the control of the controller.

The second and third flexible substrates may be detachably attached to the portable beauty massager case with a fastening member, and may be electrically connected to the case through a connector.

The fastening member may be an electric wire and a connecting cable.

Further, the portable beauty massager of the present invention may further include a function selection key for setting an operation function according to an operation of a user, and the control unit controls the operation of the plurality of near-infrared light emitting diodes, The plurality of red light emitting diodes and the plurality of blue light emitting diodes can be selectively turned on and the ultrasonic wave can be driven.

The operation function includes a first function for lighting only a plurality of red light emitting diodes, a second function for lighting only a plurality of blue light emitting diodes, a third function for lighting only a plurality of near infrared light emitting diodes, A fifth function of turning on the plurality of blue light emitting diodes and the plurality of near infrared light emitting diodes, and a fourth function of turning on the plurality of red light emitting diodes, the plurality of blue light emitting diodes, A sixth function for lighting all of the plurality of near-infrared light emitting diodes, and a seventh function for driving the ultrasonic wave.

The portable beauty massager according to the present invention further includes a charge amount detector for detecting a power charge amount of the battery, and a controller for selectively displaying a plurality of charge indicator lamps according to the charge amount detected by the charge detector, And a charging amount display lamp driving unit.

According to another aspect of the present invention, there is provided a control method for a portable beauty massager, comprising: a control unit sequentially setting a plurality of operation functions according to a signal of a function selection key; The control unit may selectively turn on the plurality of near infrared light emitting diodes, the plurality of red light emitting diodes, and the plurality of blue light emitting diodes, and the ultrasonic driving according to the set operation function for one operation time.

According to another aspect of the present invention, there is provided a control method for a portable beauty massager, comprising: a step of detecting a charged amount of a battery by a charged amount detecting unit; and a step of selectively turning on a plurality of charged amount indicating lamps, And a step of displaying an image.

The plurality of operation functions include a first function for lighting only a plurality of red light emitting diodes, a second function for lighting only a plurality of blue light emitting diodes, a third function for lighting only a plurality of near infrared light emitting diodes, A fourth function for turning on a red light emitting diode and a plurality of near infrared light emitting diodes, a fifth function for turning on a plurality of blue light emitting diodes and a plurality of near infrared light emitting diodes, a plurality of red light emitting diodes, A sixth function for lighting both the diode and the plurality of near-infrared light emitting diodes, and a seventh function for driving the ultrasonic wave.

According to another aspect of the present invention, there is provided a method for controlling a portable beauty massager, comprising: displaying a selected operation function by selectively turning on a plurality of function display lamps according to a control of the controller;

According to the portable beauty massager of the present invention and the control method thereof, the skin and the body part of the user are managed using the near infrared rays, the red light, the blue light, and the ultrasonic waves.

In addition, the user can perform skin management by selectively using near-infrared rays, red light, blue light, and ultrasonic waves according to his / her state.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, in which like reference numerals refer to like elements throughout.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a rear side of a portable beauty massager in contact with a user's body,
FIGS. 2A to 2F are views showing various embodiments in which light emitting diodes are arranged in the portable beauty massager of the present invention.
FIG. 2G is a diagram illustrating an embodiment of an ultrasonic driving unit in the portable beauty massager of the present invention,
FIG. 3 is a view showing a control panel attached to the front surface of the portable beauty massager of the present invention,
Fig. 4 is a control block diagram of the portable beauty massager of the present invention, and Fig.
5 is a signal flow chart showing the operation of the control unit in the portable beauty massager of the present invention.

The following detailed description is merely an example, and is merely an example of the present invention. Further, the principles and concepts of the present invention are provided for the purpose of being most useful and readily explaining.

Accordingly, it is not intended to provide a more detailed structure than is necessary for a basic understanding of the present invention, but it should be understood by those skilled in the art that various forms that can be practiced in the present invention are illustrated in the drawings.

FIG. 1 is a rear view of a portable beauty massager of the present invention in contact with a user's body. Here, reference numeral 100 denotes a case portion. A first flexible substrate 110 surrounding the ultrasonic wave driving part 120 and the ultrasonic wave driving part is separated from the upper part of the case part 100. The stationary case part 121 for fixing the ultrasonic wave driving part 120 to the outside of the ultrasonic wave driving part 120 may be made of a material such as an ultrasonic driving part, Can be mounted on the site. The first flexible substrate 110 on which a plurality of light emitting diodes 111 are mounted is fixed to the inside of the case part 100 corresponding to the skin area of the user when the first flexible substrate 110 is mounted.

The first flexible substrate 110 may include a second flexible substrate 100 and a third flexible substrate 100 having a plurality of light emitting diodes 111 attached to the inside of the case 100, The flexible substrate 100, the fifth flexible substrate 100, and the sixth flexible substrate 100 are detachably attached. For example, the second flexible substrate 100 is provided inside the case 100 as a fastening member so that the second flexible substrate 100 is detachably attached, and the second flexible substrate 100 is connected to the connector And is electrically connected to the case unit 100 through a through-hole.

The plurality of light emitting diodes 111 respectively provided in the first flexible substrate 100 include a near infrared ray diode for generating near infrared rays having a wavelength of 870 to 890 nm, a light emitting diode for generating red light having a wavelength of 650 to 670 nm, Emitting diodes emitting blue light having a wavelength of ~ 425 nm, can be arranged in various ways.

For example, as shown in FIG. 2A, a near-infrared light emitting diode 200 for generating near-infrared rays having wavelengths of 870 to 890 nm in three clockwise directions, a red light emitting diode 210 for generating red light having a wavelength of 650 to 670 nm And blue light emitting diodes 220 for emitting blue light having a wavelength of 405 to 425 nm.

As shown in FIG. 2B, the near-infrared light emitting diode 200 generates near infrared rays having a wavelength of 870 to 890 nm, the red light emitting diode 210 generates red light having a wavelength of 650 to 670 nm, The blue light emitting diodes 220 for generating blue light of the blue light emitting diode are sequentially arranged and repeated.

As shown in FIG. 2C, the near-infrared light emitting diode 200 generates near infrared rays having wavelengths of 870 to 890 nm in seven counterclockwise directions, a red light emitting diode 210 that generates red light having a wavelength of 650 to 670 nm, The blue light emitting diodes 220 for emitting blue light having a wavelength of 405 to 425 nm can be sequentially arranged.

As shown in FIG. 2 (d), near-infrared light emitting diodes 200 generating near-infrared rays having wavelengths of 870 to 890 nm are arranged in ten counterclockwise directions, and red light emitting diodes having a wavelength of 650 to 670 nm The light emitting diodes 210 may be arranged and the blue light emitting diodes 220 emitting blue light having a wavelength of 405 to 425 nm may be arranged at a rear portion.

As shown in FIG. 2E, the near-infrared light emitting diode 200 for generating the near-infrared light having the wavelength of 870 to 890 nm can be arranged, and then the red light emitting diode 210 for generating the red light having the wavelength of 650 to 670 nm And then blue light emitting diodes 220 for emitting blue light having a wavelength of 405 to 425 nm may be arranged one by one.

Further, as shown in FIG. 2F, all of the red light emitting diodes 200 generating red light having a wavelength of 650 to 670 nm are arranged, and the near infrared light emitting diodes 200 generating near infrared rays having a wavelength of 870 to 890 nm are all arranged And all of the blue light emitting diodes 200 generating blue light having a wavelength of 405 to 425 nm can be arranged.

In implementing the present invention, the near-infrared light emitting diode 200 for generating near-infrared rays having a wavelength of 870 to 890 nm by various methods other than the arranging method exemplified in FIGS. 2A to 2F, A red light emitting diode 210 for emitting red light and a blue light emitting diode 220 for emitting blue light having a wavelength of 405 to 425 nm can be arranged.

2G, the ultrasonic wave driving unit 126 uses an ultrasonic sensor 1Mhz and the ultrasonic wave fixing unit 125 for fixing the ultrasonic wave driving unit uses a stainless steel material, an aluminum material, or a plastic material. The ultrasonic wave driving unit 125, The portion 126 may be fixed with an adhesive or silicone.

3 is a view showing a control panel attached to the front surface of the portable beauty massager of the present invention. Here, reference numeral 300 denotes a control panel. A power key 350, a power indicator lamp 351 and function selection keys 310 and 320 are disposed above and below the power key 350 in the middle of the control panel 300, And a display lamp 330 for indicating the charging state 330 and the charging completion 340 of the battery 320 are disposed on both sides of the function selection key 320 at the lower side, ) 340 are sequentially arranged.

4 is a control block diagram of the portable beauty massager of the present invention. 4, the present invention includes a control unit 400, a key signal input unit 410, a charge amount detection unit 420, a charge amount display lamp drive unit 430, a power lamp drive unit 440, And may include a driving unit 450, a start lamp driving unit 460, a red light emitting diode driving unit 470, a blue light emitting diode driving unit 480, a near infrared light emitting diode driving unit 490, and an ultrasonic driving unit 495 have.

The control unit 400 controls the operation of the portable beauty massager according to a user's operation command.

The key signal input unit 410 generates a signal of the corresponding key as the user selectively operates the power key 310, the time setting key 320 and the function selection key 330 and inputs the signal to the control unit 400 .

The charged amount detecting unit 420 detects the amount of power charged in the battery and inputs the detected amount of charged power to the control unit 400.

The charge display lamp driver 430 displays the charge amount of the battery by lighting the charge indicator lamp 340 under the control of the controller 400. [

The power lamp driving unit 440 turns on or off the power lamp 370 according to the control of the controller 400 to display the on or off state of the power.

The function indicator lamp driving unit 450 selectively illuminates the function indicator lamps 350 according to the control of the controller 400 to display the currently selected operation function.

The start lamp driver 460 turns on the start lamp 360 under the control of the controller 400 to indicate that the operation of the portable beauty massager is started.

The red LED driving unit 470 turns on the red LED 210 under the control of the controller 400 to generate red light having a wavelength of 650 to 670 nm.

The blue light emitting diode driver 480 turns on the blue light emitting diode 220 according to the control of the controller 400 to generate blue light having a wavelength of 405 to 425 nm.

The near-infrared light-emitting diode driver 490 turns on the near-infrared light-emitting diode 200 under the control of the controller 400 to generate near-infrared rays having a wavelength of 870 to 890 nm.

5, the control unit 400 determines whether a signal of the power key 310 is input from the key signal input unit 410 at step S500.

When the signal of the power key 310 is input from the key signal input unit 410, the control unit 400 turns on the portable beauty massager to supply the charging power of the battery as the operating power (S502) The driving unit 440 controls the power lamp 370 to light up to indicate that the power is turned on (S504).

The controller 400 controls the function indicator lamp driver 450 to turn on the function indicator lamp 350 of the currently selected function (S506). Here, it is assumed that the first function (the operation of the first function will be described later) is set by default at the initial stage of the power-on, and the control unit 400 determines that the function display lamp driver 450 displays the first function And controls the lamp 350 to light up to indicate that the first function is set.

In this state, the charged amount detecting unit 420 detects the amount of charged power of the battery and inputs the detected charged amount to the control unit 400. [

The controller 400 determines the charge amount detected by the charge amount detector 420 in step S508 and selectively turns on the charge indicator lamp 340 according to the determined charge amount (S510).

In this state, the controller 400 determines whether a signal of the function selection key 320 is input from the key signal input unit 410. If the signal of the function selection key 320 is not input, It is determined whether the signal of the time setting key 330 is inputted from the signal input unit 410 (S516).

When the signal of the function selection key 320 is input from the key signal input unit 410, the controller 400 sequentially selects the first function to the sixth function according to the signal of the function selection key 320 S516).

That is, the operations according to the first to sixth functions of the present invention are as follows.

First function: Red light emitting diode 210 is turned on and ultrasonic driving

Second function: the blue light emitting diode 220 is turned on and the ultrasonic wave is driven

Third function: The near-infrared light emitting diode 200 is turned on and the ultrasonic wave driving

The fourth function: the red light and the near-infrared light emitting diodes 210 and 200 are turned on and ultrasonic-

Fifth function: blue light and near-infrared light emitting diodes 220 and 200 are turned on and ultrasonic-driven

Sixth function: Red light, blue light, and near-infrared light emitting diodes (210, 220, 200) are all turned on and ultrasonic-

The controller 400 controls the function indicator lamp driver 450 to turn on one function indicator lamp 350 according to the currently selected operation function in step S518 and returns to step S512 to select a function selection key And sequentially selects the first function to the sixth function in response to the input of the signal of the first function (320).

The order of selecting the first function to the sixth function in response to the input of the function selection key 320 is, for example, a first function → a second function → a third function → a fourth function → a fifth function → a sixth function Function → first function.

When the key signal input unit 410 is input in the step S514, the controller 400 sets the time according to the signal of the time setting key 220 (S520). For example, the operation time of the key signal input unit 410 may be increased in increments of 10 minutes, 20 minutes, or 30 minutes, It can be increased again from 0 minutes to 10 minutes, 20 minutes or 30 minutes.

When the operation time is set, the controller 400 controls the start lamp driver 460 to display that the operation is started by turning on the start lamp 360 (S522) The blue light emitting diode driver 470 and the near infrared light emitting diode driver 490 control the light emitting diodes 200 210 and 220 and the ultrasonic driver 495 to be selectively turned on in step S524.

For example, when the first function is currently set, the controller 400 controls the red light emitting diode driver 470 to turn on the red light emitting diode 210 and control the operation of the ultrasound driving unit 495, The controller 400 turns on the blue light emitting diode 220 and controls the operation of the ultrasonic driver 495 so that the third function is set The controller 400 controls the operation of the ultrasound driving unit 495 by turning on the near infrared ray emitting diode 200 and the near infrared ray emitting diode driving unit 490.

When the fourth function is currently set, the controller 400 controls the red LED driver 470 and the near-infrared LED driver 490 to turn on the red light emitting diode 210 and the near-infrared light emitting diode 200, The controller 400 controls the blue light emitting diode driver 480 and the near infrared light emitting diode driver 490 to control the operation of the blue light emitting diode 220 And the near infrared ray emitting diodes 210 and 200 and controls the operation of the ultrasonic driver 495. When the sixth function is currently set, the controller 400 controls the red light emitting diode driver 470, The light emitting diode driver 480 and the near infrared light emitting diode driver 490 are connected to the red light emitting diode 210, the blue light emitting diode 220 and the near infrared light emitting diode 200 And controls the operation of the ultrasound driver 495.

In this state, the controller 400 determines whether the set time has elapsed (S526). That is, the controller 400 determines whether the time set by the user by the time setting key 220 has elapsed.

If it is determined that the set time has not elapsed, the controller 400 returns to step S512.

Therefore, according to the present invention, it is possible to change the selected operation function even when the red light emitting diode 210, the blue light emitting diode 220, or the near-infrared light emitting diode 200 is selectively turned on, .

If the set time has elapsed in step S526, the controller 400 turns off the power (S528) and ends the operation.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, I will understand.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by equivalents to the appended claims, as well as the appended claims.

100: case part 110: first flexible substrate
120: Ultrasonic wave driving part 121: Ultrasonic wave fixing part
125: Ultrasonic wave fixing unit 126: Ultrasonic wave driving unit
130: control unit 200: near-infrared light emitting diode
210: red light emitting diode 220: blue light emitting diode
300: control panel 310: function selection key
311: Function indicator lamp 320: Time setting key
321: time display lamp 330: charging display lamp
340: Charging complete display lamp 350: Power key
351: Power indicator lamp
400: control unit 410: key signal input unit
420: charge amount detector 430: charge amount display lamp driver
440: Power Lamp Drive Unit 450: Function Display Lamp Drive Unit
460: Start lamp driver 470: Red LED driver
480: a blue light emitting diode driver 490: a near infrared light emitting diode driver
495: Ultrasonic driving part

Claims (11)

A case part having a fastening member at an upper upper side to massage the user's face and skin part;
A first flexible substrate on which a plurality of near-infrared light emitting diodes, a plurality of red light emitting diodes, and a plurality of blue light emitting diodes are arranged and a second, third, fourth, fifth, and sixth flexible substrates ; And a controller for controlling operation of the ultrasonic wave driving according to a setting of the user, The method according to claim 1,
A near-infrared LED driving unit for driving the plurality of near-infrared LEDs according to a control of the controller;
A red light emitting diode driver for driving the plurality of red light emitting diodes under the control of the controller; And
A blue light emitting diode driving unit for turning on the plurality of blue light emitting diodes under the control of the control unit, and driving the ultrasonic wave under the control of the control unit. The plasma display apparatus of claim 1, wherein the second and third and fourth and fifth and sixth flexible substrates comprise:
And is electrically connected to the case through a connector, the case being detachably attached to the case with a fastening member. The connector according to claim 1 or 3, wherein the fastening member comprises:
Connectors and wires, portable beauty massagers. The method according to claim 1,
Further comprising a function selection key for setting an operation function according to an operation of a user,
Wherein the control unit comprises:
Wherein the plurality of near infrared ray emitting diodes, the plurality of red light emitting diodes, and the plurality of blue light emitting diodes are selectively turned on and the ultrasonic driving is operated according to an operation function set in accordance with a signal of the function selecting key. 6. The method of claim 5, wherein the operational function comprises:
A first function of turning on only a plurality of red light emitting diodes and driving an ultrasonic wave, a second function of turning on only a plurality of blue light emitting diodes and driving an ultrasonic wave, and a second function of turning on only a plurality of near- A fourth function for turning on the plurality of red light emitting diodes and the plurality of near infrared ray emitting diodes and driving the ultrasonic waves, and a third function for turning on the plurality of blue light emitting diodes and the plurality of near infrared ray emitting diodes, And a sixth function for turning on all of the plurality of red light emitting diodes, the plurality of blue light emitting diodes, and the plurality of near infrared ray emitting diodes and driving the ultrasonic wave. The method according to claim 1,
A charged amount detecting unit for detecting a charged amount of the battery; And
And a charge level indicator lamp driving unit for selectively lighting the charge level indicator lamp according to the power charge level detected by the charge level detector to display a power charge level under the control of the controller. The control unit sequentially setting a plurality of operation functions according to a signal of the function selection key; And
The control unit sets the operation time according to the signal of the time setting key, and the control unit controls the plurality of near-infrared light emitting diodes, the plurality of red light emitting diodes, and the plurality of blue light emitting And selectively lighting the diode. 9. The method of claim 8,
Detecting a charged amount of the battery by the charged amount detecting unit;
And controlling the charge amount indicator lamp driving unit to display the charge amount by turning on the charge amount indicator lamp according to the control of the control unit. 9. The apparatus of claim 8, wherein the plurality of operational functions comprises:
A second function for lighting only a plurality of blue light emitting diodes, a third function for lighting only a plurality of near-infrared light emitting diodes, a plurality of red light emitting diodes, and a plurality of red light emitting diodes A fourth function of turning on the near infrared ray emitting diode, a fifth function of turning on the plurality of blue light emitting diodes and the plurality of near infrared ray emitting diodes, and a fourth function of turning on the plurality of blue light emitting diodes and the plurality of near infrared ray emitting diodes And a sixth function for turning on all of the first function and the second function. 9. The method of claim 8,
And controlling the function indicator lamp driving unit to selectively illuminate the plurality of function indicator lamps according to the control of the controller to display the selected operation function.

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