KR101229111B1 - Multi-laser generating system - Google Patents

Abstract

PURPOSE: A multi-laser oscillating system is provided to output multi-lasers by using a resonator and an optical fiber waveguide. CONSTITUTION: A multi-laser oscillating system comprises a resonator(100) which oscillates a laser, and a power supply unit which supplies power to the resonator. The resonator comprises an assembly unit(110) which comprises a Long pulsed Nd:YAG laser, a Q-switched Nd:YAG laser, an alexandrite laser, and a mirror unit which efficiently uses the characters of a rod, reflector, and a lamp.

Description

Multi-laser generating system

The present invention utilizes an integrated power supply modularization with a resonator composed of a long pulsed Nd: YAG laser, a Q-Switched Nd: YAG laser, and an Alexandrite laser. It relates to a multi-laser oscillation system that can be used to selectively oscillate the laser in the system of.

In 1960, the first laser, ruby laser, was developed and introduced to the medical profession. Endiyag lasers, helium neon lasers, and pigment lasers have been developed and have been shown to be effective in treating skin diseases.

The basic principle of such a laser is inherent in the frequency of the target such as water, melanin, oxyhemoglobin and the like is the principle that causes a response to a specific target when irradiating a laser of a similar frequency. This is the laser's greatest feature of its ability to selectively target targets, which is related to the absorbance of each target, but the biggest difference is that normal light has many wavelengths, but lasers always have only one wavelength.

Due to the difference in wavelengths, various laser materials have their own specific wavelengths, and the types of lasers may be divided into excimer, diode, CO 2, and Nd: YAG depending on the medium. Depending on the scope of application, there are lasers used in general hospitals for incisions, ulcers, tattoo removal, and disinfection at the surgical site of soft tissues, and at the dentist, lasers used for hard and soft tissues for caries removal, implant surgery, and hypersensitivity, respectively. There are also various types depending on the application.

According to the times, ruby and argon lasers were first attempted to treat flaming nevus in 1963, and since the mid-1970s, argon and carbon dioxide lasers began to be used in the treatment of vascular lesions, pigmentary diseases and tumors. Various lasers have been developed and used in the treatment of various skin diseases that were previously impossible or difficult to treat.

Lasers currently used in dermatology can be broadly classified into lasers used to treat various skin tumors, scars, lasers for treating vascular diseases, and lasers for tattoo treatment. Recently, interest in skin aging and skin regeneration has increased. As a result, the functions of conventional laser equipment, which have been commonly used for the purpose of vascular lesions, pigmentation lesions, and hair removal, are being widely expanded as demand increases to skin lifting, elasticity, and regeneration functions.

An object of the present invention is to develop a multi-laser by using a device for generating multiple wavelengths in one system, that is, a resonator capable of generating multiple lasers, an integrated power supply for it, and an optical waveguide capable of high-power mid-infrared laser waveguide. To provide a multi-laser oscillation system that can be.

The multi-laser oscillation system of the present invention for achieving the above object is a multi-laser oscillation system consisting of a resonator for oscillating a laser, and a power supply device for supplying power to the resonator, wherein the resonator is a long pulse endiyag laser (Long) an assembly unit including a pulsed Nd: YAG laser, a Q-Switched Nd: YAG laser, and an Alexandrite laser assembly; Located in the front and rear of the assembly portion, the first half (HR) mirror and the output mirror (OC) mirror for efficient use of the characteristics of the rod (ROD), reflector (Lamp); It is characterized by.

The power supply device may include: first and second lamp simmer boards 1,2 connected to the assembly unit; An output IGBT (Insulated Gate bipolar Transistor) for shot control of the long pulse endiyag laser, the cuswitch endiyag laser, and the alexandrite laser; A condenser bank for accommodating the long pulse endiyag laser, the q-switch endiyag laser, and the alexandrite laser; A capacitor charging dedicated power for charging and discharging the capacitor bank; A shimmer power board capable of receiving the first and second lamp shimmer boards; And a main controller for controlling the capacitor bank and the shimmer power board.

And, it is characterized in that it further comprises an optical fiber waveguide capable of waveguide of the high-infrared laser output from the resonator.

In addition, it characterized in that it further comprises a seven-articulated arm (Articulated arm) capable of guiding the high-infrared laser output from the resonator.

The waveguides of the long pulsed Nd: YAG laser and the Alexandrite laser use an optical fiber waveguide, and the waveguide of the Q-Switched Nd: YAG laser is 7 A waveguide of an articulated arm is used.

As described above, the present invention is economical in terms of cost because it requires the use of several types of laser equipment to treat various skin diseases and the disadvantage of providing only a very limited procedure with a single laser equipment in an existing system. There are some problems. Therefore, the present invention has the effect of satisfying the user's convenience and needs by integrating lasers of various wavelengths into one system and improving performance, and thus, through equipment for selectively oscillating multiple wavelengths in one system. It is possible to treat a wide range of skin diseases at the same time, and also to reduce costs in economic terms.

In addition, the present invention can replace the expensive market by developing and supplying alexandrite lasers, which have a special need and demand for Asian pigment pigmental diseases at the present time, when there are no companies manufacturing alexandrite lasers in Asia, and can be widely used. Can increase demand

In addition, the present invention is to configure the long-pulse endiyag laser equipment similar to the power source power can be used with the Alexandrite equipment by integrating high-cost equipment that demands a lot of demand in dermatology in one system to selectively generate multiple lasers Therefore, it can be widely used in the treatment of pigmented diseases such as blemishes, blotch, freckles, vasodilatation diseases such as vasodilation, and general skin diseases such as hirsutism and pores expansion. The area can be extended by improving aging.

1 is a schematic overall configuration diagram of a multi-laser oscillation system.
2 is an integrated power supply for multi-laser oscillation.

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

First, the laser used in the present invention is a long-pulse endyag, Q-switch endyag, alexandrite laser, the long-pulse endyag laser is made of a medium Nd: YAG (Yttrium Aluminum Garnate (YAG) with Neodymuim (Nd)) It is a laser with a wavelength of 1,064nm that can change the pulse width from 0.3 ms to about 300 ms. This laser is most widely used for the treatment of telangiectasia, which is caused by vasodilation, vascular lesions less than 4 mm in diameter, especially leg veins, and the main advantage of long pulse endiyag laser over other short wavelength lasers is It has a low absorption of melanin and a deep penetration depth. In addition, the absorption coefficients of methemoglobin and deoxyhemoglobin, the major pigments of blue vascular lesions, are high at 1,064 nm, which is most useful for the treatment of blue vascular lesions.

The prior art has frequently used Q-Switched laser as a laser device for treating pigment diseases. If a pigment disease refers to freckles, blemishes, pigmentation, otaban spots, etc. This pigment disease is a phenomenon that appears to increase the melanin pigment. In order to treat these pigment diseases, the melanin pigment, which is composed of very small particles, must be fired for a very short time so that the melanin is destroyed, so the Q-switched laser refrains from firing the laser. It allows the laser to be released in a very short time, effectively destroying melanin. In other words, when the light is reflected and amplified between both mirrors while the cue switch is turned on, the laser is prevented from being fired, and when the cue switch is turned off, it acts as a gateway for the strong laser to be fired in a short time.

Q-Switch Endiyag laser using this characteristic is a laser of 1,064nm wavelength consisting of Nd: YAG (Yttrium Aluminum Garnate (YAG) with Neodymuim (Nd)), and the pulse width is about 5 ~ 12ns and penetration depth at 1,064nm wavelength. Because it is the deepest among the lasers used in medical applications, it is used to treat pigmented lesions deep in the dermis such as Ota nevus, and it uses the wavelength conversion method by harmonic generation using nonlinear crystals such as KTP. It can be used to treat pigmented lesions in the epidermis layer with a small penetration depth by making it 532 nm wavelength, which is half of 1,064 nm. Therefore, the endijag laser capable of oscillating two wavelengths in the treatment of pigmented lesions caused by melanin in the endothelium and dermis is most frequently used, and the therapeutic effect is also excellent.

Alexandrite laser is a 755 nm wavelength medium consisting of Chrysoberyl Crystal (Cr3 + BeAl2O4) with Chromium. It has a pulse width of about 5 to 40 ms and is the best hair removal laser suitable for Asian skin. Alexandrite laser is a hair removal laser developed by the Selective Thermal Destruction Theory.The laser energy concentrated in the melanin pigment of hair follicles, which emits a long-wavelength laser to produce hair, is converted into thermal energy, causing hair to be destroyed and surrounding hair root cells damaged by heat. You can use this principle to get the effect of hair removal.

1 is a schematic overall configuration diagram of a multi-laser oscillation system, and FIG. 2 is an integrated power supply for multi-laser oscillation.

As shown in FIGS. 1 and 2, the multi-laser oscillation system according to an exemplary embodiment of the present invention includes a resonator 100 for oscillating a laser and a power supply 200 for supplying power to the resonator 100. .

Here, the resonator 100 includes an assembly including a long pulsed Nd: YAG laser, a Q-Switched Nd: YAG laser, and an Alexandrite laser assembly. 110 and located in front of and behind the assembly 110, the first half (HR) mirror and the output mirror (OC) to efficiently use the characteristics of the rod (ROD), reflector (Lamp) ) Mirror unit 120.

The power supply 200 includes first and second lamp simmer boards 1 and 2 connected to the assembly unit 110, a shot control of a long pulse endiyag laser, a cue switch endiyag laser, and an alexandrite laser. Output Insulated Gate Bipolar Transistor (IGBT) for Shot Control, Long Pulse Endiyag Laser, QSwitch Endiyag Laser, Capacitor Bank to accept Alexandrite Laser, Capacitor Charging for Charge / Discharge Capacitor Bank It consists of a dedicated power, a shimmer power board that can accommodate the first and second lamp shimmer boards, and a main conteroller that controls the capacitor bank and the shimmer power board.

In addition, the waveguide of the mid-infrared laser output from the resonator 100, that is, the waveguide of the long pulsed Nd (YAG laser) and the Alexandrite laser (Alexandrite laser), uses an optical fiber waveguide, and a Q-switch endiyag laser. The waveguide of (Q-Switched Nd: YAG laser) uses a waveguide of an articulated arm.

As described above, the multi-laser oscillation system of the present invention can only provide a very limited procedure with a single laser equipment in the existing system and the cost because it requires the use of several types of laser equipment to treat various skin diseases There are also problems that are not economical. Therefore, the present invention has the effect of satisfying the user's convenience and needs by integrating lasers of various wavelengths into one system and improving performance, and thus, through equipment for selectively oscillating multiple wavelengths in one system. It is possible to treat a wide range of skin diseases at the same time, and also to reduce costs in economic terms.

In addition, the present invention can replace the expensive market by developing and supplying alexandrite lasers, which have a special need and demand for Asian pigment pigmental diseases at the present time, when there are no companies manufacturing alexandrite lasers in Asia, and can be widely used. Can increase demand

In addition, the present invention is to configure the long-pulse endiyag laser equipment similar to the power source power can be used with the Alexandrite equipment by integrating high-cost equipment that demands a lot of demand in dermatology in one system to selectively generate multiple lasers Therefore, it can be widely used in the treatment of pigmented diseases such as blemishes, blotch, freckles and vasodilatation diseases such as vasodilation and overall skin diseases such as hirsutism and pore expansion, and furthermore, wrinkle improvement, skin lifting and elasticity, regeneration, etc. The area can be extended by improving aging.

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of course, this is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the equivalents as well as the claims that follow.

100: resonator 110: assembly portion
120: HR mirror part and output mirror part (OC)
200: power supply

Claims (5)

In a multi-laser oscillation system comprising a resonator for oscillating a laser and a power supply unit for supplying power to the resonator,
The resonator,
An assembly including a long pulsed Nd: YAG laser, a Q-Switched Nd: YAG laser, and an Alexandrite laser assembly;
Located in the front and rear of the assembly portion, the first half (HR) mirror and the output mirror (OC) mirror for efficient use of the characteristics of the rod (ROD), reflector (Lamp); Multi-laser oscillation system, characterized in that.
The method of claim 1,
The power supply unit,
First and second lamp simmer boards 1,2 connected to the assembly unit;
An output IGBT (Insulated Gate bipolar Transistor) for shot control of the long pulse endiyag laser, the cuswitch endiyag laser, and the alexandrite laser;
A condenser bank for accommodating the long pulse endiyag laser, Q-switch endiyag laser, and alexandrite laser;
A capacitor charging dedicated power for charging and discharging the capacitor bank;
A shimmer power board capable of receiving the first and second lamp shimmer boards; And
And a main controller for controlling the condenser bank and the shear power board.
3. The method according to claim 1 or 2,
And an optical fiber waveguide capable of guiding a high-infrared laser output from the resonator.
3. The method according to claim 1 or 2,
And a seven-joint articulated arm capable of guiding a high-infrared laser output from the resonator.
3. The method according to claim 1 or 2,
The waveguide of the long pulsed Nd: YAG laser and the Alexandrite laser uses an optical fiber waveguide, and the waveguide of the Q-Switched Nd: YAG laser is a seven-joint arty. A multi-laser oscillation system using a waveguide of an articulated arm.

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