KR101788725B1 - Noninvasive laser pain reliever - Google Patents

Abstract

The present invention relates to a non-invasive laser pain relief device.
The non-invasive laser pain relief apparatus according to the present invention comprises: a main body having a laser diode module, a laser port portion and a silver spike point (SSP) port portion; A laser irradiator detachably connected to the laser port and irradiating the skin with laser light provided from the body; An electroscope which is detachably connected to the SSP port and injects a current supplied from the main body into the skin; A display device for displaying a corresponding menu screen in accordance with the software program and a variety of information and status related to the treatment in association with the laser treatment and the electro acupuncture treatment; And a display fixing device that mechanically supports and fixes the main body and the display device, and electrically connects the main body and the display device.
According to the present invention as described above, a single laser irradiation device for treating by laser irradiation and an electric dipstick for treating by current injection are all provided in one device, and the treatment effect can be enhanced by selectively using the device according to the circumstances.

Description

[0001] The present invention relates to a noninvasive laser pain reliever,

The present invention relates to a non-invasive laser pain relieving apparatus, and more particularly, to a non-invasive laser pain relieving apparatus capable of selectively using electrowinning by current injection and treatment by low power laser irradiation.

The skin treatment device is a device for treating skin or promoting somatic cell growth by irradiating light to a skin disease location. Recently, a skin treatment apparatus is used which measures or diagnoses the state of the skin of a user in a cosmetic shop, a skin care center, a hospital dermatologist, etc. to select a cosmetic product suited to the skin condition of the user or to treat problems of the user's skin condition. In addition, a skin treatment apparatus for irradiating the skin with laser light to melt the sebum with heat in order to remove the sebum generated in the pores has been used.

In recent years, high-frequency energy and light energy such as a diode laser are used simultaneously, and collagen is efficiently produced by transferring high energy into the inside of the skin more than when each energy is separately used. Such a skin treatment apparatus is used for wrinkle removal, acne or acne scar removal, reduction of pores, improvement of skin color or skin texture such as black spot, and hair removal.

On the other hand, Japanese Patent Application Laid-Open No. 10-2010-0088240 (Patent Document 1) discloses a high-frequency generating means for generating high-frequency energy by a power source applied from a power supply unit, an LED light source for generating light energy by a power source And a controller for controlling on / off and output time of the high-frequency generating means and the LED light-emitting means, and a portable skin treatment Device "is disclosed.

In addition, in Japanese Patent Application Laid-Open No. 10-2011-0132058 (Patent Document 2), a needle unit is provided with light irradiation means, heat transfer means, vibration transmission means, energizing means and magnet member, "Electron needle" which applies stimulation, mechanical stimulation and electromagnetic stimulation is disclosed.

However, in the case of Patent Document 1, the skin treatment device is miniaturized, so that it is convenient to use without any place or time. However, there is a problem that the use of high frequency can cause other side effects to the human body. In addition, in the case of Patent Document 2, by applying alteration stimulation, mechanical stimulation and electromagnetic stimulation to the acupuncture site by a non-invasive method, it is possible to prevent the occurrence of pain and bleeding during the conventional acupuncture treatment, However, there is a problem in that the heater may be overheated to cause burns to the treatment site due to the use of the heater to give the irritation caused by the heat effect to the acupuncture site.

Published Patent Application No. 10-2010-0088240 (Aug. Japanese Patent Application Laid-Open No. 10-2011-0132058 (December 24, 2011)

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a laser irradiation apparatus for laser irradiation and an electric dipstick for treating by current injection, The present invention is directed to a non-invasive laser pain relief apparatus that can relieve pain and improve the therapeutic effect on a lesion.

In order to achieve the above object, a non-invasive laser pain relieving apparatus according to the present invention comprises:

A laser diode module for emitting a laser beam for laser treatment to a predetermined region of the body, a laser port portion for treatment of LLLT (Low-Level LASER Therapy) by laser irradiation to the skin, and an electric dipstick A main body having a silver spike point (SSP) port for treatment;

A laser irradiator detachably connected to the laser port and irradiating the skin with laser light provided from the main body;

An electroscope which is detachably connected to the SSP port and injects current supplied from the main body into the skin;

A display device for displaying a corresponding menu screen and various information and states related to the treatment according to a predefined software program in connection with the laser treatment and the electro acupuncture treatment; And

And a display fixing device for mechanically supporting and fixing the main body and the display device and electrically connecting the main body and the display device.

Here, preferably, a predetermined position of the main body may be provided with a moving knob for facilitating movement of the main body and for mounting the laser irradiation device and the electric dipstick.

The main body may further include a suction module for providing negative pressure to the surface of the skin to enhance penetration of the laser light energy into the skin during laser treatment by the laser irradiation machine.

The laser irradiator is connected to the laser suction cup, one end of which is connected to the laser suction cup, and the other end is connected to the laser port of the main body, and the negative pressure generated by the suction module of the main body And an air hose for delivering the laser to the laser suction cup.

Preferably, the air hose is provided with an optical cable for transmitting the laser light generated from the laser diode module of the main body to the laser suction cup.

At this time, the laser suction cup comprises a housing having a main body and a hole for connecting the air hose to one side of the body; A button installed inside the housing for exposing a part of the air to the outside of the housing and controlling the flow of the air pressure air supplied by the air hose in a forward or backward movement; An air flow opening / closing device installed inside the housing and opening or closing the flow path of the air pressure air according to the forward / backward movement of the button; And a laser reflecting mirror for reflecting the laser beam transmitted from the main body through the optical cable in the air hose and irradiating the laser beam onto the skin.

The electrodialysis device may further include a silicon cup which is attracted to the skin, a probe which is located at the center of the silicon cup and injects micro current supplied from the body into the skin, one end connected to the probe, And a cable having a connector (connection jack) at an end portion thereof and connected to the SSP port portion.

In addition, a plurality of SSP adjustment knobs for adjusting the operation value of the electro acupuncture treatment are installed at predetermined portions of the display device.

In addition, the display fixing device may be configured as a flexible arm to freely adjust the front-back distance and the height of the display device.

The flexible arm may include a plurality of connecting rods for mechanically connecting the main body and the display device and a connecting member for connecting the plurality of connecting rods to each other so that the connecting rods can be folded and unfolded .

The software program may also include a main menu that allows selection of a device booting screen, low-level laser therapy (LLLT) and silver spike point (SSP) therapy, a low power laser "LLLT Mode Waiting Menu" for setting operation value of treatment, "LLLT Mode Working Menu" for operation screen of low output laser treatment, "SSP Mode Waiting Menu" for setting operation value of electrodermal treatment, SSP Mode Working ", which is an operation screen, and an environment menu for setting the device, on the screen of the display device.

According to the present invention as described above, since the laser irradiation device for treatment by laser irradiation and the electric dipstick for treatment by current injection are both provided in one device, the device can be selectively used according to the situation, The therapeutic effect can be enhanced.

Unlike the conventional test equipment, the laser suction cup of the laser irradiator has a small size so that it can be attached to a local site, and can be freely attached to various parts of the body to perform laser treatment.

In addition, since the display fixing device can be freely controlled using a flexible arm, the convenience of use can be increased.

1 is a perspective view showing a configuration of a non-invasive laser pain relieving apparatus according to the present invention.
2 is a side view showing the configuration of a non-invasive laser pain relieving apparatus according to the present invention.
3A is a view showing a configuration of a laser irradiator of a non-invasive laser pain relieving apparatus according to the present invention.
FIG. 3B is a view showing another embodiment of the laser suction cup of the laser irradiator of the non-invasive laser pain relieving apparatus according to the present invention.
4 is a view showing an operation state of the laser irradiation apparatus of the non-invasive laser pain relieving apparatus according to the present invention.
FIG. 5 is a view showing a configuration of an electrospun mechanism of a non-invasive laser pain relieving apparatus according to the present invention.
6 is a view showing a main menu image displayed on a screen of a display device of a non-invasive laser pain relieving apparatus according to the present invention.
7 is a view illustrating an idle menu image of the LLLT mode displayed on the screen of the display device of the noninvasive laser pain relieving apparatus according to the present invention.
8 is a view showing an operation menu image in the LLLT mode displayed on the screen of the display device of the noninvasive laser pain relieving apparatus according to the present invention.
9 is a view showing an automatic mode image of an idle menu of the SSP mode displayed on the screen of the display device of the noninvasive laser pain relieving apparatus according to the present invention.
10 is a view showing an image of a passive mode of the standby menu of the SSP mode displayed on the screen of the display device of the noninvasive laser pain relieving apparatus according to the present invention.
11 and 12 are views showing an operation menu image in the SSP mode displayed on the screen of the display device of the noninvasive laser pain relieving apparatus according to the present invention.
13 is a view showing an image of a configuration menu displayed on the screen of the display device of the non-invasive laser pain relief apparatus according to the present invention.
FIG. 14 is a view showing a main PCB built in a main body of a non-invasive laser pain relieving apparatus according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor can properly define the concept of the term to describe its invention in the best way Should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise. Also, the terms " part, "" module, "and" device " Lt; / RTI >

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 show a configuration of a non-invasive laser pain relieving apparatus according to an embodiment of the present invention. FIG. 1 is a perspective view and FIG. 2 is a side view.

1 and 2, a non-invasive laser pain relieving apparatus 100 according to the present invention includes a body 110, a laser irradiator 200 (see FIGS. 3A and 4), an electric dipstick 500 5), a display device 120, and a display fixing device 130. [0031]

The main body 110 is a main body of the non-invasive laser pain relieving apparatus 100 of the present invention. The main body 110 includes a laser diode module (not shown) for emitting a laser beam for a low- (Not shown), a laser port for treatment of low-level laser therapy (LLLT) by low-power laser irradiation to the skin, and a silver spike point (SSP) port for electro- (114). Preferably, the main body 110 is provided with a moving handle (not shown) for easily moving the main body 110, and for holding the laser irradiation device 200 and the electric dipstick 500, (140) may be further installed. In addition, the laser port unit 112 is installed on the front surface of the apparatus of the present invention, and a laser diode module is built in the laser port unit 112, and is configured with a plurality of ports (for example, eight channel ports). In addition, preferably, a suction module (not shown) for providing a negative pressure to the surface of the skin is installed inside the main body 110 in order to increase the penetration of the laser light energy into the skin during laser treatment by the laser irradiator 200 Can be installed. The SSP port unit 114 is provided on each of left and right sides of the apparatus of the present invention and is configured with a plurality of ports (for example, three channel ports for left and right, respectively, with two sets of SSPs as one set).

3A and 4, the laser irradiator 200 is detachably connected to the laser port portion 112 by an air hose 220 having a connector (connection jack) at an end thereof, and the main body 110 To the skin. The laser irradiator 200 will be described later.

5, the electrodemulsion device 500 is detachably connected to the SSP port portion 114, and a micro current (for example, a low frequency current of 1000 Hz) provided from the main body 110 is applied to the skin . Such an electrodeposition tool 500 includes a silicon cup 510 which is adsorbed on the skin and a probe which is located at the center of the silicone cup 510 and injects a micro current supplied from the body 110 into the skin And a cable 530 connected at one end to the probe 520 and at the other end to a connector (connection jack) at the end thereof and connected to the SSP port portion 114.

As described above, the laser irradiation device 200 for performing treatment by laser irradiation and the electroscope 500 for treating by current injection are all provided in one device (non-invasion laser pain relieving device) It is possible to increase the therapeutic effect.

The display device 120 displays a corresponding menu screen and various information and states related to the treatment according to a predefined software program in conjunction with the low power laser treatment and the electro acupuncture treatment. Here, a plurality of (for example, six) SSP adjustment knobs 122 for adjusting the operation value of the electro-acupuncture treatment are provided at predetermined portions (for example, at the bottom of the screen) of the display device 120. As such a display device 120, an LCD panel, a PDP panel, or the like can be used.

The software program may also include a main menu that allows selection of a device booting screen, low-level laser therapy (LLLT) and silver spike point (SSP) therapy, a low power laser "LLLT Mode Waiting Menu" for setting operation value of treatment, "LLLT Mode Working Menu" for operation screen of low output laser treatment, "SSP Mode Waiting Menu" for setting operation value of electrodermal treatment, SSP Mode Working ", which is an operation screen, and an environment menu for setting other devices, on the screen of the display device. The above will be described later.

The display fixing device 130 mechanically supports and fixes the main body 110 and the display device 120, and electrically connects the main body 110 and the display device 120 together. The display fixing device 130 is preferably a flexible arm so as to freely adjust the front-rear distance and height of the display device 120. The flexible arm may include a plurality of connecting rods for mechanically connecting the main body 110 and the display device 120, and a plurality of connecting rods for connecting the plurality of connecting rods so that the connecting rods can be folded and unfolded And a connecting member.

As described above, since the display fixing device 130 can be freely controlled using a flexible arm, the convenience of use can be increased.

3A and FIG. 4 show a laser irradiation apparatus of a non-invasive laser pain relieving apparatus according to the present invention, wherein FIG. 3A is a diagram showing an internal configuration and FIG. 4 is a diagram showing an operation state.

3A and 4, the laser irradiator 200 includes a laser suction cup 210 for irradiating laser light with contact with the skin, one end connected to the laser suction cup 210 and the other end connected to the main body 110, And an air hose 220 connected to the laser port portion 112 of the main body 110 and transmitting the sound pressure generated by the suction module installed in the main body 110 to the laser suction cup 210.

Preferably, the air hose 220 is provided with an optical cable 221 for transmitting the laser light generated from the laser diode module installed in the main body 110 to the laser suction cup 210 .

The laser suction cup 210 includes a housing 211 having a hole for connecting the air hose 220 to one side of the body, which is a main body. A button 212 disposed inside the housing 211 so as to expose a part of the housing 211 to the outside of the housing 211 and to control the flow of the air pressure air supplied by the air hose 220 in a forward or backward movement; An air flow opening / closing device 213 installed inside the housing 211 to open or shut off the flow path of the negative pressure air according to the forward / backward movement of the button 212; And a laser reflection mirror 214 for reflecting the laser light transmitted from the main body 110 through the optical cable 221 inside the air hose 220 and irradiating the laser light to the skin. Unlike the conventional test equipment, the laser suction cup 210 is miniature sized to be attached to a local site. Therefore, laser treatment can be performed by attaching freely to various parts of the body.

3A, reference numeral 300 denotes a laser and an air suction connection module, which is installed inside the laser port portion 112 of the main body 110, 301 denotes a laser diode, and 302 denotes an air suction pipe. 4, reference numeral 410 denotes a laser output control PCB incorporated in the main body 110, and 420 denotes an air suction pump.

FIG. 3B is a view showing another embodiment of the laser suction cup of the laser irradiator of the non-invasive laser pain relieving apparatus according to the present invention.

3B shows another embodiment of the laser suction cup 210 of the laser irradiator 200 of FIG. 3A. The laser suction cup 310 according to another embodiment of the present invention includes a laser beam The laser absorbing cup 210 of the laser irradiator 200 shown in FIG. 3A is different in that the laser module 313 for directly emitting the laser beam is provided.

The laser suction cup 310 according to another embodiment of the present invention includes a housing 311 for providing a space therein and having a hole for connecting the air hose 320 to one side of the body; A suction unit 312 coupled to a lower end of the housing 311 and adapted to be in contact with the skin and to perform an adsorption function; A laser module 313 installed inside the housing 311 and driven according to a control command from a laser output control PCB 410 (see FIG. 4) installed in the main body 110 to emit laser light; A lens 314 for converging or diffusing the laser light emitted from the laser module 313 and irradiating the laser light to the skin; A laser housing 315 installed in the housing 311 to enclose the laser module 313 and protecting the laser module 313 from surrounding structures; The lens 314 is disposed between the lens 314 and the housing 311 and between the housing 311 and the adsorption unit 312. The lens 314 is heated by laser light emitted from the laser module 313, A heat insulating portion 316 for insulating the liver; And a heat dissipating unit 317 installed inside the housing 311 and transmitting heat generated by the driving of the laser module 313 to the housing 311 and emitting the heat to the outside. 3B, reference numeral 320 denotes an air hose for transmitting a sound pressure generated by a suction module installed in the main body 110 to the laser suction cup 310. A cable (not shown) for electrically connecting the laser module 313 and the main body 110 is installed inside the air hose 320.

Hereinafter, the operation of the laser irradiator 200 of FIG. 3A will be briefly described with reference to FIG.

4, the operation of the button 212 by the user causes the button 212 to move forward or backward so that the flow of the air pressure air supplied by the air hose 220 is interrupted. The lower end of the housing 211 is in close contact with the skin by suction of air and the laser light transmitted from the main body 110 through the optical cable 221 in the air hose 220 Output laser beam) is reflected by the laser reflecting mirror 214 and irradiated to the skin.

Unlike the conventional test equipment, the laser absorbing cup of the laser irradiator has a small size so that it can adhere to the local site, and can be freely attached to various parts of the body to perform the laser treatment.

6 is a view showing a main menu image displayed on a screen of a display device according to a software program employed in the noninvasive laser pain relieving apparatus according to the present invention. FIG. 7 is a view showing an idle menu image in the LLLT mode to be.

Referring to FIG. 6, it is a screen for selecting a low-level laser therapy (LLLT) mode 610 and a silver spike point (SSP) treatment mode 620 as a main menu.

Referring to FIG. 7, this is an idle menu in the LLLT mode. Each button or switch on the screen will be briefly described as follows.

(1) Frequency (Hz): This button is used to set the frequency from 1 to 10,000 Hz.

(2) Time: Set the total operation time (1 ~ 30 minutes).

(3) Intensity: Adjust the LASER output of 0 ~ 200 mW to each 10 steps. At this time, one channel or eight channels are activated and adjusted at the same time.

(4) Vacuum: It has on / off function of vacuum (negative pressure) for adsorption of suction cup. At this time, the suction pressure is adjustable in three steps of 150, 200, and 250 mmHg.

(5) Home: Moves to the main menu screen for selecting the LLLT and SSP modes.

(6) Configuration: It has a function to go to the configuration menu for configuration of the device.

(7) Start: Start operation with the set value.

8 is a diagram showing an operation menu image in the LLLT mode.

Referring to FIG. 8, this is an operation menu in the LLLT mode. Each button or switch on the screen will be briefly described as follows.

(1) Frequency (Hz): Indicates the currently operating frequency and can not be changed during operation.

(2) Time: Displays the remaining treatment time. You can change the treatment time using the bar on the right.

(3) Intensity: LASER output of 0 ~ 200 mW can be adjusted to each 10 steps. Activate one channel or eight channels and adjust them simultaneously.

(4) Vacuum: The suction pressure can be adjusted in three steps of 150, 200, and 250 mmHg.

(5) Stop: stops all operation and moves to the previous screen.

That is, the user (for example, doctor) performs the low power laser treatment to the patient (the person to be treated) by using the laser irradiator 200 shown in FIG. 3 and FIG. 4 together with the operation menu of the LLLT mode as described above, The subject's pain relieved.

9 and 10 are views showing automatic and manual mode images of the standby menu in the SSP mode, respectively.

9 and 10, this is an idle menu in the SSP mode. Each button or switch on the screen will be briefly described as follows.

(1) Auto Mode: It operates in Auto 1 ~ 4 Mode with built-in output frequency.

(2) Manual Mode: It operates by directly setting output frequency and frequency mode (Continue and Interval).

(3) Time: Set the total operation time (1 ~ 30 minutes).

(4) Frequency Mode: Set the mode of the output frequency (Continue and Interval).

(5) Vacuum: It has Vacuum On / Off function for suction cup suction. The suction pressure is adjustable in three steps of 150, 200, and 250 mmHg.

(6) Home: Go to main menu screen to select LLLT and SSP mode.

(7) Configuration: Go to configuration menu for configuration of the device.

(8) Start: Start operation with the set value.

11 and 12 are views showing an operation menu image in the SSP mode.

11 and 12, this is an operation menu in the SSP mode. Each button or switch on the screen will be briefly described as follows.

(1) Frequency (Hz): Indicates the currently operating frequency. It can not be changed during operation.

(2) Time: Displays the remaining treatment time. You can change the treatment time using the bar on the right.

(3) Intensity: Indicates the output of current low frequency stimulus. And controls six channels, respectively.

(4) Vacuum: The suction pressure can be adjusted in three steps of 150, 200, and 250 mmHg.

(5) Frequency Mode: Set the mode of the output frequency (Continue and Interval).

(6) Stop: stops all operation and moves to the previous screen.

That is, the user (for example, a doctor) performs the electroacupuncture treatment to the patient (the person to be treated) using the electrodermablet 500 of FIG. 5 together with the operation menu of the SSP mode as described above, It will relieve the pain.

13 is a diagram showing an environment setting menu image.

Referring to FIG. 13, each button or switch on the screen as a configuration menu will be briefly described as follows.

(1) Time Setting: Set the current time displayed on the device (device).

(2) Back Light: Set the power saving mode operation time of the device (device).

(3) Volume: Set the volume of output sound of the device (device).

14 is a view showing a main PCB built in a main body.

Referring to FIG. 14, this is a main PCB for supplying an input voltage to an 8-channel laser diode, and supplies AC voltage (for example, AC 220V) to a negative pressure generator (air suction pump) Mode power supply to the 8-channel laser diode through the transformer to the DC voltage. The main PCB is preferably provided with a withstand voltage prevention circuit and an emergency stop port. This is to increase the stability of the device (non-invasive laser pain relief device).

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 exemplary embodiments, but many variations and modifications may be made without departing from the spirit and scope of the invention. Be clear to the technician. Accordingly, the true scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of the same should be construed as being included in the scope of the present invention.

100: (invention) non-invasive laser pain relieving device
110: main body 112: laser port portion
114: SSP (Silver Spike Point)
120: display device 122: SSP adjustment knob
130: display fixing device 140: shift knob
200: laser irradiator 210: laser suction cup
211: housing 212: button
213: air flow opening / closing device 214: laser reflecting mirror
220: Air hose 221: Optical cable
300: Laser and air intake connection module
301: laser diode 302: air suction pipe
310: laser suction cup 311: housing
312: absorption part 313: laser module
314: Lens 315: Laser housing
316: Heat insulating portion 317: Heat dissipating portion
410: Laser output control PCB 420: Air suction pump
500: Electrodeposition tool 510: Silicone cup
520: probe 530: cable
610: Low power laser therapy (LLLT) mode
620: Silver Spike Point (SSP) treatment mode

Claims (15)

A laser diode module for emitting a laser beam for laser treatment to a predetermined region of the body, a laser port portion for treatment of LLLT (Low-Level LASER Therapy) by laser irradiation to the skin, and an electric dipstick A main body having a silver spike point (SSP) port for treatment;
A laser irradiator detachably connected to the laser port and irradiating the skin with laser light provided from the main body;
An electroscope which is detachably connected to the SSP port and injects current supplied from the main body into the skin;
A display device for displaying a corresponding menu screen and various information and states related to the treatment according to a predefined software program in connection with the laser treatment and the electro acupuncture treatment; And
And a display fixing device that mechanically supports and fixes and electrically connects the main body and the display device,
The main body is provided with a suction module for providing negative pressure to the surface of the skin in order to increase penetration of the laser light energy into the skin during laser treatment by the laser irradiation machine,
The laser irradiator is connected to the laser suction cup, one end of which is connected to the laser suction cup and the other end is connected to the laser port of the main body. The negative pressure generated by the suction module of the main body is transmitted to the laser And an air hose communicating with the suction cup,
The air hose is provided with an optical cable for transmitting laser light generated from the laser diode module of the main body to the laser suction cup Noninvasive laser pain relief device.
The method according to claim 1,
And a moving handle for moving the main body and for mounting the laser beam and the electrodeposition tool is further provided at a predetermined portion of the main body.
delete delete delete The method according to claim 1,
The laser suction cup
A housing having a main body formed with a hole for connecting the air hose to one side of the body;
A button installed inside the housing so that a part thereof is exposed to the outside of the housing and controlling the flow of the air pressure air supplied by the air hose in a forward or backward movement;
An air flow opening / closing device installed inside the housing and opening or closing the flow path of the air pressure air according to the forward / backward movement of the button; And
And a laser reflecting mirror for reflecting the laser light transmitted from the main body through the optical cable inside the air hose and irradiating the laser light to the skin.
The method according to claim 1,
The electrospun mechanism includes:
A silicone cup adsorbed on the skin;
A probe positioned at the center of the silicone cup for injecting an electric current supplied from the body into the skin; And
And a cable having one end connected to the probe and the other end having a connector (connection jack) at an end thereof and connected to the SSP port portion.
The method according to claim 1,
Wherein a plurality of SSP adjustment knobs for adjusting the operation value of the electro acupuncture treatment are provided at predetermined portions of the display device.
The method according to claim 1,
Wherein the display fixing device comprises a flexible arm for freely adjusting the front-back distance and the height of the display device.
10. The method of claim 9,
Wherein the flexible arm comprises:
A plurality of connecting rods for mechanically connecting the main body and the display device;
And a connecting member connecting the plurality of connecting rods to each other to connect the connecting rods so that folding and unfolding of the connecting rods are possible.
The method according to claim 1,
The software program includes a main menu that allows selection of a device booting screen, low-level laser therapy (LLLT) and silver spike point (SSP) therapy, low power laser therapy "LLLT Mode Waiting Menu" for setting the operation value, "LLLT Mode Working Menu" for operating the low power laser treatment, "SSP Mode Waiting Menu" for setting the operation value of the electro immersion treatment, SSP Mode Working ", and an Environment Menu for setting the device on the screen of the display device.
A laser port for treatment of LLLT (Low-Level LASER Therapy) by laser irradiation to the skin and an SSP (Silver Spike Point) port for electro-acupuncture treatment by injecting current into the skin are installed in a predetermined part of the body A body;
A laser irradiator detachably connected to the laser port unit and configured to transmit the sound pressure provided from the main body to the skin and emit the laser light to self-emit the laser light;
An electroscope which is detachably connected to the SSP port and injects current supplied from the main body into the skin;
A display device for displaying a corresponding menu screen according to a pre-set software program in connection with the laser treatment and the electro acupuncture treatment, and various information and conditions related to the treatment; And
And a display fixing device that mechanically supports and fixes and electrically connects the main body and the display device,
The laser irradiator
The laser irradiator is connected to the laser suction cup, one end of which is connected to the laser suction cup and the other end is connected to the laser port of the main body. The negative pressure generated by the suction module of the main body is transmitted to the laser And an air hose communicating with the suction cup,
The laser suction cup
A housing provided with a space for connecting the air hose to one side of the body;
A suction unit coupled to a lower end of the housing, the suction unit contacting and contacting the skin;
A laser module installed in the housing and driven according to a control command from a laser output control PCB installed in the main body to emit laser light;
A lens for converging or diffusing laser light emitted from the laser module and irradiating the laser light onto the skin;
A laser housing installed in the housing to enclose the laser module and protecting the laser module from surrounding structures;
A heat insulating part installed between the lens and the housing and the adsorption part and insulated between the lens and the adsorption part heated by the laser light emitted from the laser module; And
And a heat dissipating unit installed in the housing and transmitting heat generated by driving the laser module to the housing to be emitted to the outside.
delete delete 13. The method of claim 12,
And a cable for electrically connecting the laser module to the main body is provided inside the air hose.

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