KR101348426B1 - Fractional laser treatment apparatus using solid fiber glass for reduction of burn effect - Google Patents

Abstract

The present invention relates to a fractional laser treatment apparatus and, more specifically, to a fractional laser treatment apparatus comprising: a laser oscillation module which includes solid-fiber glass and outputs laser specific to the solid-fiber glass by generating the laser; a laser transmission module which delivers the laser outputted from the laser oscillation module; a scanner which radiates the laser delivered through the laser transmission module to the skin of a user; a controller which controls the operation of the laser oscillation module and the scanner; and a power module which applies the driving power of the fractional laser treatment apparatus. The fractional laser treatment apparatus using the solid-fiber glass for reducing burn side effects according to the present invention is able to increase frequency up to 500kHz by using the solid-fiber glass as a medium in the laser oscillation module and narrowing the pulse width of laser, produces similar effects to existing fractional laser treatment effects by irradiating laser for 0.00002 seconds and is able to reduce burn side effects. The present invention increases water sorption by using the laser wavelength of about 1470 nm, solves problems of existing laser which mainly effects corium by producing penetration effects on epidermis and is able to be used in various skin cosmetic procedures. [Reference numerals] (110) Flash lamp; (120a,120b) Reflector; (130) Laser guide module; (140) Medium solid - fiberglass; (200) Laser transmission module

Description

FRACTIONAL LASER TREATMENT APPARATUS USING SOLID FIBER GLASS FOR REDUCTION OF BURN EFFECT}

The present invention relates to a fractional laser treatment apparatus, and more particularly, to a fractional laser treatment apparatus using solid fiber glass with reduced burn side effects.

Fractional laser treatment device is a single wavelength of light that is suitable for the treatment of skin diseases for medical purposes. It penetrates numerous laser pillars into the microthermal treatment zone (MTZ) into the skin to prevent damage to normal tissues. It is a next generation laser treatment device that drastically shortens the down time. As such, fractional lasers are used for various skin cosmetic purposes such as skin regeneration, wrinkle removal, or whitening.

On the other hand, a laser medium is required to oscillate the laser. The laser medium can be separated into four types: liquid, gas, solid, and semiconductor. To have a neon gas atoms, argon, krypton, the gaseous molecules of carbon dioxide, hydrogen fluoride, nitrogen, etc., in the case of a solid is a kind of impurities in the matrix, such as CaWO _4, Y ₂ O, SrMoO _4, LaF, YAG, glass the ³⁺ Nd, Er ^{+ 3,} Ho ^{+ 3,} Gd ^{+ 3,} Tm ^{+ 3,} Pr ^{+ 3} and so on serves as a laser medium. Semiconductors and liquids can also act as laser media. In fractional laser treatment, CO ₂ , Er-glass, Nd-Yag, Er-Yag, Diode, YSGG, RF, or the like is used.

The CO ₂ fractional laser has a wavelength of 10600 nm and has the deepest penetration depth of the laser. However, the CO ₂ fractional laser damages surrounding tissues and has a high possibility of pigmentation due to thermal penetration. Erbium fractional lasers, which have a wavelength of 1540 or 1550 nm, have a greater effect on the dermis than on the epidermis and may cause pigmentation in Asians. The Nd-Yag fractional laser has a wavelength of 1064 nm and has the advantage of low pain and small skin damage due to low energy treatment, but has a problem in that the use range is narrow in response to a specific pigment. . Er-Yag fractional laser, which has a wavelength of 2940 nm, has a disadvantage of low heat transfer but strong mechanical properties and bleeding.

Such a fractional laser treatment apparatus using conventional media, in general, the laser irradiation in 0.001 seconds at a frequency of 1 to 2 kHz to see the cosmetic effect through the laser, it should be exposed to the laser for a relatively long time, There is a serious problem that burn side effects occur depending on the skin of the user. In addition, depending on the beam density and intensity, pigmentation may occur in Asians, and it takes a long time for the pigmentation to disappear, and there are problems such as long-lasting red erythema appearing after the procedure. Accordingly, the present inventors have attempted to develop an effective fractional laser treatment device while minimizing side effects.

The present invention has been proposed to solve the above problems of the conventionally proposed methods, by using solid-fiber glass as a medium in the laser oscillation module, by narrowing the pulse width of the laser to the frequency 500 In addition to the effect of the fractional laser treatment with only about 0.0002 seconds of irradiation, it is possible to increase the temperature, and it is possible to reduce the burn side effects. It is an object of the present invention to provide a fractional laser treatment apparatus.

In addition, the present invention, by the laser wavelength of about 1470nm, the water absorption is high, can exhibit a laser penetration effect on the epidermis, solve the problem that the conventional laser mainly affects only the dermis, and in various skin cosmetic procedures It is another object to provide a fractional laser treatment device using solid fiber glass that has reduced burn side effects available.

Fractional laser treatment apparatus using a solid fiber glass that reduces the side effects of the characteristics of the present invention for achieving the above object,

A laser oscillation module including solid-fiber glass and generating and outputting a laser specific to the solid-fiber glass;

A laser delivery module for delivering a laser output from the laser oscillation module;

A scanner for irradiating a laser beam transmitted through the laser delivery module to a skin of a user;

A controller for controlling the operation of the laser oscillation module and the scanner; And

And a power supply module for applying a driving power to the fractional laser treatment device.

Preferably, the fractional laser treatment device,

It can be used for any one or more skin cosmetics selected from the group including skin regeneration, whitening, and wrinkle improvement.

Preferably, the laser oscillation module,

Flash lamps; Reflector; And a laser guidance module.

Preferably, the controller,

The frequency of the laser can be controlled to 1 to 500 kHz.

Preferably, the laser,

The same portion of the user's skin can be implemented to be irradiated for only 0.0001 to 0.0003 seconds.

Preferably,

The frequency of the laser generated by the laser oscillation module is 450 to 550 kHz,

The fractional laser treatment device can be used for lipolysis.

Preferably, the wavelength of the laser generated in the laser oscillation module,

1450 to 1500 nm.

Preferably, the controller,

One or more selected from the group including pulse width, laser irradiation time, and wavelength can be controlled.

According to the fractional laser treatment apparatus using the solid fiber glass which reduces the burn side effects proposed by the present invention, the pulse width of the laser is narrowed by using the solid fiber glass as the medium in the laser oscillation module. The frequency can be increased up to 500 kHz, so that only about 0.0002 seconds of irradiation can produce effects similar to those of conventional fractional laser treatments, and burn side effects can be greatly reduced.

In addition, according to the present invention, by the laser wavelength of about 1470nm, the water absorption is high, it can exhibit a laser penetration effect on the epidermis, solving the problem that the conventional laser mainly affects only the dermis, and various skin cosmetic procedures Available for

1 is a diagram illustrating a process in which a fractional laser is irradiated and penetrated into the skin.
Figure 2 is a schematic diagram of a fractional laser treatment apparatus using a solid fiber glass with reduced burn side effects according to an embodiment of the present invention.
3 is a diagram illustrating a laser oscillation module and a laser delivery module in a fractional laser treatment apparatus using solid fiber glass having reduced burn side effects according to an embodiment of the present invention.
4 is a view showing a classification table for each wavelength of a laser;
FIG. 5 is a schematic diagram of a fractional laser treatment apparatus using solid fiber glass having reduced burn side effects according to another embodiment of the present invention. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The same or similar reference numerals are used throughout the drawings for portions having similar functions and functions.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

1 is a diagram illustrating a process in which a fractional laser is irradiated and penetrated into the skin. As shown in FIG. 1, a fractional laser device irradiates a fine laser beam in a fractional form (multiple pillars) to penetrate the epidermis and generate a therapeutic effect from the lateral tissue into which the laser penetrates. In general, fractional laser devices allow the thickened beam to be divided into multiple fine beams due to the configuration of the handpiece.

FIG. 2 is a schematic diagram of a fractional laser treatment apparatus using solid fiber glass having reduced burn side effects according to an embodiment of the present invention. As shown in FIG. 2, the fractional laser treatment apparatus using solid fiber glass having reduced burn side effects according to an embodiment of the present invention includes a laser oscillation module 100, a laser delivery module 200, and a scanner 300. ), A controller 400, and a power module 500. In addition, the fractional laser treatment device according to the present invention can be used for any one or more skin cosmetics selected from the group including skin regeneration, whitening, and wrinkle improvement.

The laser oscillation module 100 includes a solid fiber glass 140 as a main component of the present invention, and generates and outputs a laser specific to the solid fiber glass 140. In order to generate a laser oscillation action, a causative agent is required, which is called a laser medium. As described above, the conventional fractional laser treatment apparatus uses Co ₂ , Er-glass, Nd-Yag, Er-Yag as the laser medium, and is specified in the laser medium for 0.001 seconds at a frequency of 1 to 2 kHz. According to the method of irradiating the laser on the skin, there was a problem that a burn (burn) side effect occurs. However, according to the present invention, by using the solid fiber glass 140 as a laser medium, it is possible to increase the frequency up to 500 kHz, it can exhibit an effect similar to existing devices with only 0.0002 seconds of irradiation. Therefore, the laser irradiated according to an embodiment of the present invention can be implemented to be irradiated for only 0.0001 to 0.0003 seconds to the same portion of the skin 10 of the user. In normal skin regeneration and whitening procedures, you can increase the frequency up to 5㎑. According to the embodiment, the fractional laser treatment apparatus may be used for lipolysis by setting the frequency of the laser generated in the laser oscillation module 100 to 450 to 550 kHz. In particular, it can be used for the treatment of varicose veins.

3 is a diagram illustrating a laser oscillation module and a laser delivery module in a fractional laser treatment apparatus using solid fiber glass which reduces side effects of burn in accordance with an embodiment of the present invention. As shown in FIG. 3, the laser oscillation module 100 may include a flash lamp 110, reflectors 120a and 120b, a laser guide module 130, and a solid fiber glass 140. .

The flash lamp 110 is a component for generating a laser and is a kind of excitation medium for oscillating a laser. 4 is a diagram illustrating a classification table for each wavelength of a laser. As shown in FIG. 4, the Co ₂ laser has the highest wavelength of 10600 nm, the Er-Ya laser has a wavelength of 2940 nm, and the Nd-Yag laser has a wavelength of 1064 nm. In addition, the diode has a wavelength of 800 to 900nm, the ER-Glass laser most commonly used in the conventional laser for regenerating skin (Fraxel) has a wavelength of 1540nm. On the other hand, according to the present invention, the light emitted from the flash lamp 110 may be converted into a laser beam having a wavelength of 1450 to 1500nm while passing through the solid fiber glass medium 140.

That is, the wavelength of the laser generated in the laser oscillation module 100 of the fractional laser treatment apparatus using the solid fiber glass 140 with reduced burn side effects according to an embodiment of the present invention can be 1450 to 1500nm. have. In the conventional laser device for skin regeneration, a wavelength of 1500 to 1600 nm is mainly used. On the other hand, a wavelength of about 1470 nm is 2 to 3 times higher in water absorption. Water absorption is inversely proportional to penetration depth when the laser beam is irradiated with the same energy, and penetration depth determines the location of the laser skin reaction in the skin, which affects the epidermis when using wavelengths around 1470 nm with high water absorption. Procedures, that is, microdermabrasion procedures and the like are possible. According to the embodiment, the depth of penetration can be adjusted by adjusting the pulse width, laser irradiation time, wavelength, and the like of the laser beam.

The reflectors 120a and 120b may be attached to both ends of the laser medium (solid fiber glass 140), and the laser guidance module 130 may serve to guide the generated laser to the laser delivery module 200. Lens, etc. may be used.

The laser delivery module 200 may serve to deliver a laser specified in the solid fiber glass 140 output from the laser oscillation module 100 to the scanner. Various known devices capable of delivering a laser beam, such as an optical fiber, can be used.

The scanner 300 may serve to irradiate the skin 10 of the user with the laser beam transmitted through the laser delivery module 200. That is, the laser beam may be irradiated at a predetermined interval within the predetermined scan area of the skin 10 by the scanner 300. According to an embodiment, a laser beam including a plurality of lenses may be passed through a plurality of lenses to be transformed into fine pixels having a diameter of several hundreds of micrometers and irradiated to the skin. In addition, two prime movers may be attached so as to irradiate a laser beam to an arbitrary two-dimensional position and may be driven to irradiate a laser to a predetermined position of the skin.

The controller 400 may serve to control integral driving of the fractional laser treatment apparatus including the laser oscillation module 100 and the scanner 300. That is, the pulse width, wavelength, etc. of the laser generated and output by the laser oscillation module 100 may be controlled, and the irradiation time of the laser may be controlled. In other words, it can be adjusted to various pulse widths according to the purpose and effect of the procedure.As the pulse width is large, the thermal damage is increased, so if the deliberate thermal damage of the deep dermal area is required, the pulse width is increased but the pulse is reduced to reduce the thermal damage. The width can be reduced. In the present invention, by using the solid fiber glass 140, it is possible to further narrow the pulse width, there is an advantage that can dramatically reduce the burn side effects. In addition, the controller can control the frequency of the laser to 1 to 500 kHz. By controlling the frequency at such a wide range, the controller can be used for fat dissolution beyond simple skin beauty, and can be used in the present invention.

The power supply module 500 applies the driving power of the fractional laser treatment device according to the present invention, and may generate and supply power for driving the device, including light emission of the flash lamp 110.

FIG. 5 is a diagram illustrating a fractional laser treatment apparatus using solid fiber glass having reduced burn side effects according to another embodiment of the present invention. As shown in FIG. 5, the fractional laser treatment apparatus using solid fiber glass having reduced burn side effects according to another embodiment of the present invention may supply power through an A / C power supply, and may provide a PFC / SMPS circuit. It can then exchange power or data with other additional devices or controllers (FET controllers or main controllers). The FET controller can control a laser oscillation module 100 that outputs a wavelength of 1470 nm, and the main controller can control the scanner controller. The scanner may be an X / Y scanner that irradiates a laser beam to a two-dimensional position corresponding to the X axis and the Y axis. The scanner is controlled by a scanner controller and outputs a laser beam transmitted from the laser oscillation module 100 to face the skin. ) Can be irradiated with a laser. According to an exemplary embodiment, the LCD operator may further include an LCD window controlled by the main controller to implement the laser operator to check the output state.

On the other hand, according to the embodiment, in order to solve the heat problem caused by the generation and output of the laser may further include a variety of heat dissipation module, such as a cooling device. In addition, in order to prevent overheating may further include an automatic safety module to turn off the power when a certain temperature or more.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics of the invention.

10: skin 100: laser oscillation module
110: flash lamp 120a, 120b: reflector
130: laser guide module 140: medium solid-fiber glass
200: laser delivery module 300: scanner
400: controller 500: power module

Claims (8)

As a fractional laser treatment device,
A laser oscillation module including solid-fiber glass and generating and outputting a laser specific to the solid-fiber glass;
A laser delivery module for delivering a laser output from the laser oscillation module;
A scanner for irradiating a laser beam transmitted through the laser delivery module to a skin of a user;
A controller for controlling the operation of the laser oscillation module and the scanner; And
And a power supply module for applying a driving power to the fractional laser treatment device. 4.
According to claim 1, The fractional laser treatment device,
A fractional laser treatment apparatus using solid fiber glass with reduced burn side effects, which is used for any one or more skin cosmetics selected from the group including skin regeneration, whitening, and wrinkle improvement.
The method of claim 1, wherein the laser oscillation module,
Flash lamps; Reflector; And a laser guiding module, wherein the fractional laser treatment apparatus using solid fiber glass having reduced burn side effects.
2. The apparatus of claim 1,
Fractional laser treatment apparatus using a solid fiber glass with reduced side effects, characterized in that to control the frequency of the laser to 1 to 500kHz.
The method of claim 1, wherein the laser,
Fractional laser treatment apparatus using a solid fiber glass with reduced burn side effects, characterized in that irradiated for 0.0001 to 0.0003 seconds to the same site of the user's skin only.
The method of claim 1,
The frequency of the laser generated by the laser oscillation module is 450 to 550 kHz,
The fractional laser treatment device is a fractional laser treatment device using a solid fiber glass with reduced side effects, characterized in that used for lipolysis.
The wavelength of the laser generated by the laser oscillation module,
Fractional laser treatment apparatus using a solid fiber glass with reduced burn side effects, characterized in that 1450 ~ 1500nm.
2. The apparatus of claim 1,
A fractional laser treatment apparatus using solid fiber glass with reduced burn side effects, which is characterized by controlling at least one selected from the group including pulse width, laser irradiation time, and wavelength.

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