KR20140014445A - Apparatus for outputting dual laser - Google Patents

Abstract

The present invention relates to a dual laser outputting device which comprises: a first laser generating unit which irradiates a first laser of first wavelength; a second laser generating unit which irradiates a second laser of second wavelength which is different to the first wavelength; a mirror unit which reflects the rest laser after outputting the part of the first and the second laser which are irradiated from the first and the second laser generating units to a desired location; a reflected amount detecting unit which outputs a signal of the relevant size by detecting the amount of the first and the second laser which are reflected from the mirror unit; a controlling unit which is connected to the reflected amount detecting unit, determines the amount of light which is outputted from the first and the second laser generating units by using the signal which is outputted from the reflected amount detecting unit, and outputs a warning signal in case the determined amount of light is less than predetermined value; a warning display unit which indicates the abnormal status of the first and the second laser generating units by operating in accordance with the warning signal which is outputted from the controlling unit. Accordingly, the user can recognize whether the amount of laser which is outputted is normal status or abnormal status, and selectively use a laser which has different wavelength according to the selective motion of the user, thereby improving the satisfaction of user and reliability about the product. [Reference numerals] (11) A first wavelength lasing unit; (12) A first total reflection mirror unit; (13) A first patial reflection mirror unit; (21) A second wavelength lasing unit; (22) A second total reflection mirror unit; (23) A second patial reflection mirror unit; (40) A reflecting amount detecting unit; (50) A controlling unit; (60) A laser selecting unit; (70) A warning display unit

Description

Dual laser output device {APPARATUS FOR OUTPUTTING DUAL LASER}

The present invention relates to a dual laser output device.

Since the development of the ruby laser, the first laser in 1960, and its introduction to the medical profession, Nd: YAG laser, helium neon laser and pigment laser have been developed to show excellent effects in treating skin diseases.

The basic principle of the laser is that targets such as water, melanin, and oxyhemoglobin have inherent vibration frequencies, and when irradiating a laser with a vibration frequency similar to that of the target, the reaction with the desired target occurs. The reaction between the target and the laser produces a skin disease effect.

Therefore, a desired procedure is performed by irradiating a laser having a corresponding wavelength that generates a reaction with a desired target.

Therefore, various lasers having different wavelengths of light to be output may be divided into excimer lasers, diode lasers, CO ₂ lasers, and endagazine lasers.

Depending on the scope of application, such lasers are used for incisions in surgical sites, treatment of vascular diseases, removal of ulcers or tattoos (or scars), etc., and also for removal of tooth decay or implant surgery.

In addition, such a laser treatment is applied to the dermatology field, and the laser is used not only for vascular lesions, pigmentation lesions and hair removal, but also for skin elasticity and regeneration treatment, which is excellent in preventing skin aging and skin regeneration.

Therefore, the technical problem to be achieved by the present invention is to improve the convenience of the user by selectively using lasers having different wavelengths.

Another technical problem to be achieved by the present invention is to accurately determine the output state of the laser.

A dual laser output device according to an aspect of the present invention includes a first laser generator for irradiating a first laser of a first wavelength, a second laser generator for irradiating a second laser of a second wavelength different from the first wavelength; A mirror unit that transmits a portion of the first or second laser emitted from the first or second laser generator to a desired position and reflects the rest, the first or second laser reflected by the mirror unit A reflection amount sensing unit for detecting a quantity of and outputting a signal having a corresponding size, and the light output from the first or second laser generator using the signal output from the reflection amount sensing unit and connected to the reflection amount sensing unit. A control unit that outputs a warning signal when the amount of light determined is smaller than a set value, and operates according to the warning signal output from the control unit. It includes a warning display for informing the abnormal state of the first or second laser generating unit.

The dual laser output apparatus according to the above feature may further include a laser selector configured to output a selection signal for driving one of the first laser generator and the second laser generator.

According to this feature, the user may selectively use lasers having different wavelengths by the user's selection operation, and the user may know whether the amount of laser output is normal or abnormal. This improves user satisfaction and product reliability.

1 is a schematic block diagram of a dual laser output device according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Next, a dual laser output apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

First, a structure of a dual laser output device according to an exemplary embodiment of the present invention will be described with reference to FIG. 1.

Referring to FIG. 1, a dual laser output device according to an exemplary embodiment of the present invention may include a first laser generator 10, a second laser generator 20, a first laser generator 10, and a second laser. Reflector detecting unit for detecting the amount of light output through the mirror unit 30, the mirror unit 30 for outputting the laser output from the generator 20 in a desired direction ( 40), the operation of the first and second laser generators 10, 20 by controlling the operation of the first and second laser generators 10, 20 and using the detection signal output from the reflectance detector 40. The control unit 50 for determining the state, the laser selection unit 60 is connected to the control unit 50, the operation state is changed by the user to control the state of the output signal, and the warning display unit connected to the control unit 50 70 is provided.

The first laser generator 10 may generate a first laser having a wavelength of about 755 nm, which is a first wavelength, wherein the first laser may be a long-pulse alexandrite laser.

The second laser generator 20 generates a second laser having a wavelength of about 1064 nm, which is a second wavelength, wherein the second laser may be a long-pulsed ND (YAG laser) laser. have.

In this embodiment, the structures of the first and second laser generators 10 and 20 have the same structure except for the wavelength of the generated laser.

Therefore, in this specification, only the structure of the first laser generator 10 will be described.

Referring to FIG. 1, the first wavelength oscillation part 11, the first total reflection mirror part 12 located in front of the first wavelength oscillation part 11, and the first partial reflection mirror part located at the rear end of the first wavelength oscillation part 11. (13) is provided.

The first wavelength oscillator 11 is a laser that is about 755 nm wavelength oscillated and outputs a flash lamp such as a xenon lamp and a crystal that collects and outputs light emitted from the flash lamp. The laser rod is formed to surround the laser rod, and reflects the light emitted from the flash lamp toward the laser rod.

Therefore, under the control of the controller 50, when a high power of about 500 to 700 V is charged in the power supply unit (not shown) connected to both terminals of the flash lamp and then discharged momentarily, the flash lamp is turned on, and Light energy is supplied to the laser rods to cause induced emission of light.

The light emitted from the induced emission is laser oscillated by the operation of the first partial mirror unit 13 of the first total reflection mirror unit 12, and the intensity and amount of the induced emission light are amplified and output to the mirror unit 30. . Through this process, only side-by-side light having the same phase, wavelength, and direction is output, and the wavelength of the light may be determined by the size of a pump wavelength, which is a natural vibration frequency of the laser rod.

By operation of the first wavelength oscillator 11, the first total reflection mirror 12, and the second partial reflection mirror 13, light having a desired wavelength, that is, 755 nm wavelength, is selected from the light output from the flash lamp. It is output to the mirror part 30 side.

In this case, the first total reflection mirror portion 12 and the first partial reflection mirror portion 13 are respectively located at positions coinciding with the extension lines of both terminals of the laser rod, so that the first total reflection mirror portion 12 and the first partial reflection mirror portion (13) faces each terminal of the laser rod.

Therefore, the light output from one terminal of the laser rod toward the first total reflection mirror portion 12 is reflected by the first total reflection mirror portion 12 and flows back into the laser rod, and at the other terminal of the laser rod, the first partial reflection mirror portion Light outputted toward (13) passes through the first partial reflection mirror 13 and is output toward the mirror 30.

In this case, the first total reflection mirror 12 and the first partial reflection mirror 13 are each composed of at least one mirror.

The repetitive reflection operation by the first total reflection mirror portion 12 and the first partial reflection mirror portion 13 increases the amount of light having the first wavelength (eg, about 755 nm), and the desired amount of first Light having a wavelength is transmitted through the first partial reflection mirror 13 and outputted toward the mirror 30.

As described above, since the second laser generator 20 also has the same structure as the first laser generator 10 except for the magnitude of the wavelength of the light to be output, the second wavelength oscillator 21 and the second total reflection The mirror part 22 and the 2nd partial reflection mirror part 23 are provided.

Therefore, in order to output the laser of the second wavelength (about 1064 nm), the natural frequency of the laser rod of the second wavelength oscillation portion 21 is different from the natural vibration frequency of the laser rod of the first wavelength oscillation portion 11, and thus light of about 1064 nm. Is selected, and the second total reflection mirror portion 22 also has the property of totally reflecting only light of 1064 nm.

The second total reflection mirror 22 also totally reflects only light having a second wavelength (about 1064 nm) and transmits light having the remaining wavelength.

The structure and operation of the second partial reflection mirror 23 are the same as those of the first partial reflection mirror 13, respectively.

The mirror unit 30 is positioned in front of the first laser generator 10 and positioned in front of the first mirror 31 and the second laser generator 20 that totally reflect the light output from the first laser generator 10. A second mirror that transmits a part of the light of the first wavelength transferred by the mirror 31 or the light of the second wavelength output from the second laser generator 20 and reflects the remainder toward the reflectance sensing unit 40 ( 32).

At this time, the first mirror 31 is a total reflection mirror, and the second mirror 32 is a partial reflection mirror having a reflectance of about 70% and a transmittance of about 30%.

The reflection detector 40 detects an amount of light reflected by the second mirror 32 of the mirror unit 30 and outputs a signal having a corresponding magnitude to the controller 50 according to the detected amount of light.

The laser selection unit 60 is operated by a user, and is a selection switch in which a selection signal is output when the first laser generator 10 is selected and the second laser generator 20 is selected. The controller 50 determines whether the wavelength of the laser selected by the user is 755 nm or 1064 nm using the signal applied from the laser selector 60.

The controller 50 operates the first or second laser generators 10 and 20 to output the laser of the wavelength selected by the user, and is driven by using the signal output from the reflectance detector 40. It is determined whether the state of the laser output from the first or second laser generators 10 and 20 is a normal state or an abnormal state.

The warning display unit 70 includes a display device such as a warning light or a liquid crystal display, and displays an abnormal state of the first or second laser generators 10 and 20 selected by the user to inform the user.

The operation of the dual laser output device having such a structure will be described.

First, the controller 50 reads a signal applied from the laser selector 60, and determines whether the laser selected by the user is a laser of 755 nm wavelength or a laser of 1064 nm wavelength.

When the user's selected laser is a laser of 755 nm wavelength, the controller 50 outputs a driving signal for driving the first laser generator 10 to the first laser generator 10 and the user's selected laser is 1064 nm. In the case of a laser having a wavelength, the controller 50 outputs a driving signal for driving the second laser generator 20 to the second laser generator 20.

When the first laser generator 10 is operated by the operation of the controller 50, a laser of 755 nm wavelength is output from the first laser generator 10 to the mirror unit 30 to the first mirror 31. After the total reflection is reflected to the second mirror 32, when the second laser generator 20 is operated by the operation of the controller 50, 1064 from the second laser generator 20 to the mirror 30 A laser having a wavelength of nm is output and output directly toward the second mirror 32.

The second mirror 32 transmits about 70% of the light transferred by the first mirror 31 or the light output from the second laser generator 20, and passes the remaining about 30% toward the reflection sensor 40. Reflect.

The reflection detector 40 detects an amount of light reflected by the second mirror 32 and outputs a signal having a corresponding magnitude to the controller 50.

The controller 50 determines whether the amount of laser output from the driving first or second laser generators 10 and 20 is in a normal state by using a signal applied from the reflection amount detector 40.

Since the controller 50 already knows information about the reflectance and the transmittance of the second mirror 32, the controller 50 calculates the amount of laser output from the first or second laser generators 10 and 20 using the incident reflection amount. Done.

Therefore, when the calculated amount of laser is smaller than the set value, the operating state of the driving first or second laser generators 10 and 20 is determined to be an abnormal state, and the warning display unit 70 warns of the corresponding state. Outputs

For this reason, the warning display unit 70 changes the operation state according to the warning signal output from the control unit 50, thereby displaying the abnormal operation state of the first or second laser generation units 10 and 20.

For this reason, the user checks the operation state of the warning display unit 70, recognizes the abnormal state of the first or 32nd laser generation units 10 and 20, and takes necessary measures.

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, It belongs to the scope of right.

10: first laser generator 20: second laser generator
11: first wavelength oscillator 21: second wavelength oscillator
12: first total reflection mirror 22: second total reflection mirror
13: first partial reflective mirror 23: second partial reflective mirror
30: mirror part 31, 32: mirror
40: reflection amount detection unit 50: control unit
60: laser selection section 70: warning display section

Claims (2)

A first laser generator for irradiating a first laser of a first wavelength,
A second laser generator for irradiating a second laser having a second wavelength different from the first wavelength,
A mirror unit for transmitting a portion of the first or second laser beam emitted from the first or second laser generator to output to a desired position and reflecting the rest;
A reflection amount sensing unit for sensing an amount of the first or second laser reflected by the mirror unit and outputting a signal having a corresponding magnitude;
The amount of light output from the first or second laser generation unit is determined using the signal output from the reflectance detection unit, and the determined amount of light is greater than a predetermined value. A control unit for outputting a warning signal if small; and
A warning display unit which reports an abnormal state of the first or second laser generator by operating according to the warning signal output from the controller;
Dual laser output device comprising a. In claim 1,
And a laser selector configured to output a selection signal for driving one of the first laser generator and the second laser generator.

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