KR101459368B1 - Pulsed beam irradiation device - Google Patents

Abstract

The present invention relates to a method and apparatus for automatically converting a connection state of a plurality of energy tanks into serial, parallel, or series and parallel, and to perform pulsed light irradiation such that laser light such as a laser beam, A touch screen type operation panel 5 for setting the irradiation time and intensity of a light beam and displaying the number of irradiation times of the light beam, a serial, parallel, Or a plurality of light energy tanks selectively connected in series and in parallel, the light energy tank unit 9 for converting a direct current high voltage power supplied from the power supply unit 1 into a pulsed current for optical energy output, A light energy output control unit 6 that receives a pulse-like current from the light energy tank unit 9 and controls the light energy output, the light energy output control unit 6, A light energy output unit 7 that receives a pulse-like current from the light energy tank unit 9 under the control of the light energy tank unit 9 and outputs light energy, a simmer that preliminarily excites the lamps constituting the light energy output unit 7, A cooling unit 8 for emitting heat generated in the light energy output unit 7 and a control unit 8 for controlling the operation of the operation panel 5 and the light output monitoring unit 9a, A light energy tank unit 9, and a main control unit 3 for controlling the operation of the simmer and the tree rejection unit 4. [

Description

[0001] Pulsed beam irradiation device [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pulse light irradiation apparatus used in a medical or industrial field, and more particularly, to a pulse light irradiation apparatus which is connected to a plurality of energy tanks such as a capacitor in series, parallel, The present invention relates to a pulsed light irradiation apparatus capable of controlling irradiation time and intensity of a light beam (energy) irradiated in a pulse shape.

In other words, the present invention automatically converts the connection states of a plurality of energy tanks to serial, parallel, or series and parallel so that irradiation ranges and densities of light such as laser beams used in medical and industrial applications can be made different .

A laser therapy device widely used for medical and industrial purposes refers to a device that produces a strong light called a laser beam and destroys diseased tissues such as hemangiomas and pigment spots on the skin. At this time, the laser beam is selectively absorbed only to blood vessels or pigment existing in the skin due to its characteristics, and is not absorbed into surrounding normal tissues. The laser light absorbed by blood vessels or pigments generates heat, which selectively destroys blood vessels and pigment. Theoretically, it has little effect on the upper skin and the surrounding normal tissue through which the laser passes, so there are few side effects such as the chest remaining after the procedure.

As a result, lasers have been extensively used in the treatment of skin diseases at present, and specific examples thereof include vascular diseases such as flame nevus, capillary vasculopathy, arachnoid hemangioma, senile hemangioma, dots, otalgia, tattoos, melanin pigment spots, freckles, , Pigmentary skin diseases such as squamous cell carcinoma, angiofibroma, pigmentary nevus, epidermal nevus.

However, since the wavelengths of the laser beams effective for such diseases are different from each other, the conventional laser therapy apparatus uses only light of a specific wavelength emitted from a specific medium, so that it can be used only for a specific disease that has a therapeutic effect on the light of that wavelength. Therefore, in order to treat various kinds of skin diseases, it was necessary to use a separate laser therapy machine depending on the diseases. In addition, if a skin disease is treated using a general laser treatment apparatus, it is inevitable that some part of skin damage is accompanied by side effects such as scab and flushing after treatment.

The IPL (Intense Pulsed Light) beam was developed to solve these problems. Unlike conventional single-wavelength laser therapy that treats only one kind of skin disease with a short wavelength, it generates light with a wide and strong wavelength periodically, Spots, freckles, dullness, and other pigment diseases or vascular diseases. Unlike conventional short wavelength lasers, such an IPL beam irradiator can emit light of various wavelengths in the form of strong pulse (Intense pulse), so that it is possible to simultaneously treat completely different diseases such as capillary vessel expansion, pigmentation, , There is little side effect after treatment.

For example, in the presence of vascular disease and pigment disease, the two diseases must be irradiated with different laser beams because they have different therapeutic effects on light of different wavelengths. However, When irradiated to the skin, IPL is absorbed at the site of vascular disease and pigment disease at the same time. After treatment, the diseased tissue that absorbs IPL is disintegrated into fine particles and absorbed into the body. In addition, when IPL laser treatment is performed, the surrounding tissue of the disease is not damaged by the irradiation of light, and the treatment area is softened and the elasticity is increased by the influence of the long wavelength IPL absorbed into the dermis after treatment.

Thus, the IPL laser treatment apparatus can simultaneously treat skin aging diseases such as pigmentation, skin sagging, pore enlargement, and vascular diseases such as facial flushing. It can also be treated by eliminating acne bacteria without medication, and can be used for permanent hair removal. In addition, it is possible to treat deep veins that have been difficult to treat in the past, such as capillary vasodilatation, injection, hemangioma, grapevine nevus, and it does not involve side effects such as bruising or epidermal damage.

Generally, a handset of an IPL light irradiator for irradiating an IPL (Intensity Pulse Light) at a skin specific position for various types of skin treatment is provided with a transparent glass light guide which emits light received from a light receiving unit through a light emitting unit, On the front face of the light emitting portion of the light guide, a light wavelength selective filter for varying the wavelength of light irradiated according to the use of the light beam irradiator is detachably installed.

However, the light wavelength selection filter attached to the front surface of the light emitting unit of the light guide unit of the handset is mainly a fitting member of a force fitting type for the handset, so that it is very difficult to attach and detach the filter unit. The coupling force of the coupling portion is loosened and the service life is shortened.

On the other hand, as a prior art, there has been disclosed a design of a name 'handset for a light beam irradiator which can easily attach and detach a light wavelength selection filter' in Korean Utility Model Application No. 20-2008-0005677 (published on November 26, 2008) Will be described in detail with reference to Figs. 1 and 2. Fig.

1 and 2, a light beam irradiator 10 capable of attaching and detaching a light wavelength selection filter according to a conventional technique includes a light beam irradiator 11, a display panel 12, a connecting member 13, 14).

1 and 2, a light beam irradiator 10 capable of attaching and detaching a light wavelength selection filter according to the related art includes a light beam irradiator 11 used for treatment of a disease expressed at a skin specific position, The light emitting portion 17 of the light guide 16 is provided at the center of the handset body 14 constituting the handset 15 so that only the light emitting portion 17 at the front end is exposed, A plurality of magnets are buried at positions corresponding to the magnets of the light wavelength selection filter at regular intervals around the periphery.

The light beam irradiator 10 can be easily attached to and detached from the front surface of the light emitting portion 17 of the light guide 16 constituting the handset by the magnetic force, Thereby increasing the usability of the handset.

As another prior art, the name 'multi-wavelength IPL laser therapy device' is disclosed in Korean Patent Laid-Open No. 10-2004-0018590 (published on Mar. 04, 2004, 2004) The present invention relates to a multi-wavelength IPL laser therapy apparatus capable of treating various skin diseases at the same time periodically, and will be described in detail with reference to FIG.

3 is a block diagram of a conventional multi-wavelength IPL laser therapy apparatus.

3, the multi-wavelength IPL laser therapy apparatus according to the related art includes a main body 20 (30) for supplying power and controlling pulses, a main body 20 (30) for oscillating a laser beam and irradiating the lesion And a handpiece 40 connected to the handpiece 30. The main body 20 and the main body 20 further include a main body 20 including a fuse 21, a main switch 22, a power supply 23, a main board 24, a cooling fan 25, And the handpiece 40 includes a reflector 41, a flash lamp 42, and a filter 43. [

The power supply unit 23 of the main body rectifies power supplied from the outside to a DC high voltage, and supplies power to each component of the treatment device. Particularly, the components supplied with power from the power supply unit 23 are the flash lamp 42 of the handpiece 40, the main board 24, the cooling fan 25, and the like. And is rectified to DC 8 V to 10 V by the switching power at the supply unit 23.

The power supplied from the outside to the power supply 23 for driving the multi-wavelength IPL laser therapy apparatus may be an AC 220V power supply that is normally supplied to a home or a hospital. Therefore, when the main switch 22 is turned on, an AC 220 V power supply is supplied to the power supply unit 23. At this time, the fuse 21 may be installed in the external power connection part to prevent the over current. For example, the fuse 21 may be 10A.

The main board 24 functions to control the laser therapy apparatus so that the laser is oscillated according to the pulse time, the pulse cycle, and the pulse width input from the display panel 30. The display panel 30 may be a touch screen type LCD display and the display panel 30 may include a pulse width display unit 31, a pulse cycle display unit 32, a power display unit 33, and a time display unit 34 do.

Further, the flash lamp 42 of the handpiece 40 is a xenon lamp made of quartz, which becomes a medium of a laser beam. At this time, the light beam generated from the flash lamp 42 is reflected through the reflecting mirror 41 and is emitted to the outside through the filter 43. If the filter 43 is changed, the wavelength of the emitted laser beam can be adjusted.

However, in the prior art as described above, energy tanks such as capacitors are fixedly connected in series with the parallel and connected in series or parallel, and the energy density is high. In this case, however, It can not be extended. When energy tanks are connected in parallel, it is possible to extend the energy irradiation time, but there is a limit to increase the energy density. When energy tanks are connected in series, the density of energy can be increased, but there is a limit to prolonging the irradiation time of energy.

Korean Registered Utility Model No. 20-0360150 (Registration Notice on Aug. 26, 2004) Korean Patent Laid-Open No. 10-2012-0024495 (published on Mar. 14, 2012) Korean Patent Laid-Open No. 10-2010-0010799 (published on Feb. 02, 2010) Domestic Registration No. 10-1083061 (Registration Notice of November 16, 2011)

In order to solve the problems of the prior art as described above, a plurality of energy tanks, such as capacitors, are connected in series, parallel, or in series and in parallel to form light beams irradiated in a pulsed manner from lamps such as clip tones, xenon, (Energy) and the time and intensity of the irradiation can be adjusted.

That is, the present invention automatically converts the connection states of a plurality of energy tanks in series, parallel, or series and parallel so that the irradiation range and density of light such as a laser beam used for medical or industrial purposes can be made different .

According to an aspect of the present invention, there is provided a power supply apparatus including: a power supply unit supplying a power rectified to a DC high voltage; A touch screen type operation panel for setting the irradiation time and intensity of the light beam and displaying the number of irradiation times of the light beam; A light energy tank unit including a plurality of light energy tanks selectively connected in series, parallel, or series and parallel, and converting a DC high voltage power supplied from the power supply unit into a pulsed current for optical energy output; A light energy output control unit which receives a pulse-like current from the light energy tank unit and controls a light energy output; A light energy output unit that receives a pulse-like current from the light energy tank unit and outputs light energy under the control of the light energy output control unit; A shimmer and a tree rejecting the lamps constituting the light energy output unit; A cooling unit for emitting heat generated by the light energy output unit; And a main control unit for controlling operations of the light energy tank unit, the simmer and the tree rejection in accordance with the operation of the operation panel and the monitoring signal of the optical output monitoring unit .

According to an embodiment of the present invention, the light energy tank unit may include an energy tank, one end of which is connected to the output terminal (+) of the power supply unit and the input terminal (+) of the light energy output control unit; A switching device having one end connected to the other end of the energy tank and the other end connected to an output end of the power supply unit, an input end of the optical energy output control unit, and one end of the energy tank; And an other end connected to an output terminal (-) of the power supply unit and an input terminal (-) of the optical energy output control unit; And a switching element having one end connected to the input terminal (+) of the light energy output control part and the other end connected to one end of the energy tank.

According to one embodiment of the present invention, the light energy tank unit includes: an energy tank connected in parallel and having one end connected to the output (+) of the power supply unit and the input (+) of the optical energy output control unit; A switching element whose one end is connected to the other end of the energy tank; An energy tank having one end connected in parallel to the other end of the switching element and the other end connected to an output terminal (-) of the power supply unit and an input terminal (-) of the optical energy output control unit; And a switching element having one end connected to the output terminal (+) of the power supply part and the other end connected to one end of the energy tank.

According to an embodiment of the present invention, the switching element is driven by a control signal (S) of the main control unit.

Wherein the energy tank is a large-capacity electrolytic capacitor or a coil-type capacitor.

Therefore, according to the present invention, by connecting a plurality of energy tanks such as a capacitor or the like in series, in parallel, or in series and in parallel, it is possible to reduce the irradiation time of light rays (energy) irradiated from a lamp such as clip tones, xenon, There is an effect that the intensity can be adjusted.

That is, according to the present invention, the connection state of a plurality of energy tanks can be automatically changed in series, parallel, or in series and in parallel so that irradiation ranges and densities of light such as laser beams used in medical and industrial applications can be made different.

1 and 2 are views illustrating a handpiece of a light beam irradiator capable of attaching and detaching a light wavelength selection filter according to the related art.
3 is a block diagram of a conventional multi-wavelength IPL laser therapy apparatus.
4 is a configuration diagram of a pulse type light irradiation device according to the present invention.
FIGS. 5 and 6 are views showing examples of the light energy tank portion shown in FIG.

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

4 is a configuration diagram of a pulse type light irradiation device according to the present invention.

4, the pulse type light irradiation apparatus according to the present invention includes a power supply unit 1, an operation panel 5, a light energy tank unit 9, a light energy output control unit 6, A cooling unit 8, a main control unit 3, a power control unit 2, an optical output monitoring unit 9a, and the like.

The power supply unit 1 serves to supply a power rectified with a DC high voltage and rectifies AC power of AC 220V as an external power source. Particularly, the power supply unit 1 maintains the DC high voltage required at the subsequent stage by the power control unit 2 under the control of the main control unit 3.

The operation panel 5 is used as input and output means such as a touch screen to set the irradiation time and intensity of the light beam output from the light energy output unit 7 or to display the number of irradiation times of the light beam. The operation panel 5 also sets various pulse modes or displays used shots.

A plurality of energy tanks, such as a large-capacity electrolytic capacitor or a coil type capacitor, are selectively connected in series, in parallel, or in series and in parallel, and the power supply unit 1 supplies the DC high- And converts it into a pulsed current for light energy output.

5, one end of the light energy tank unit 9 is connected to the output terminal (+) of the power supply unit 1 and the input terminal (+) of the light energy output control unit 6 One end of the energy tank C11 is connected to the other end of the energy tank C11 and the other end of the energy tank C11 is connected to the output end of the power supply unit 1 and the input end of the light energy output control unit 6, An energy tank C12 whose other end is connected to the output terminal (-) of the power supply unit 1 and the input terminal (-) of the light energy output control unit 6, And a switching element SW11 connected to the input terminal (+) of the energy output control part 6 and the other end connected to one end of the energy tank C12.

6, one end is connected to the output terminal (+) of the power supply unit 1 and the input terminal (+) of the light energy output control unit 6. The other end of the light energy tank unit 9 is connected in parallel, A switching element SW21 whose one end is connected to the other end of the energy tanks C21 and C22 and which is connected in parallel and has one end connected to the other end of the switching element SW21, An energy tank C23 and C24 connected to the output terminal (-) of the power supply unit 1 and the input terminal (-) of the light energy output control unit 6 and one end connected to the output terminal (+) of the power supply unit 1 And the other end thereof is connected to one end of the energy storage tank C23 or C24.

In addition, a plurality of energy tanks may be connected in series, parallel, or in series and in parallel, or may be connected to a plurality of energy tanks so as to be selectively connected in series, parallel, or series and in parallel using a switching device 9).

The light energy output control unit 6 receives the pulsed current whose irradiation time and intensity are controlled by the light energy tank unit 9 and controls the light energy output from the light energy output unit 7.

The light energy output unit 7 includes a lamp such as a clip tone for outputting light energy or a lamp such as xenon or xenon and is controlled by the light energy output control unit 6 so that the irradiation time of the light ray from the light energy tank unit 9 And outputs a light ray, that is, light energy, in response to a pulsed current for controlling the intensity.

The symbol and tree rejection unit 4 preliminarily excites a lamp such as a clip tone or a xenon or xenon constituting the light energy output unit 7 or the light energy output unit 7 to generate a pulse from the light energy tank unit 9 Type current is maintained, it is possible to irradiate light rays, that is, light energy immediately.

The cooling unit 8 is a cooling means such as a cooling fan or the like. The cooling unit 8 may be configured to cool the heat generated by the light energy output unit 7, such as a clip tone or a lamp such as xenon or xenon, Thereby inducing stable output of light energy.

The light energy tank unit 9, the shimmer, and the tree rejection unit 9a in accordance with the operation state of the operation panel 5 and the monitoring signal of the light output monitoring unit 9a that monitors the light energy output of the light energy output unit 7, 4) and the like.

Hereinafter, an operation of selectively driving the switching elements SW11, SW12, S21, and S22 to adjust the irradiation time and intensity of the light beam will be described.

5, when the switching element SW11 is maintained in the OFF state and the switching element SW12 is connected to the input terminal (-) of the power supply unit 1 in the light energy tank unit 9 as shown in FIG. 5 The light energy output unit 7 outputs light energy having a short irradiation time and weak intensity by the pulsed current formed only by the energy tank C11.

5, when the switching element SW11 maintains the OFF state and the switching element SW12 is connected to one end of the energy tank C12, The pulsed current generated by the connected energy tanks C11 and C12 outputs light energy having a short irradiation time and strong intensity in the light energy output section 7. [

5, when the switching element SW11 maintains the ON state and the switching element SW12 is connected to the input terminal (-) of the power supply unit 1 , Light energy having a long irradiation time and strong intensity is output from the light energy output unit 7 by the pulse-like current formed by the energy tanks C11 and C12 connected in parallel.

Finally, in the light energy tank unit 9 as shown in Fig. 5, when the switching element SW11 maintains the ON state and the switching element SW12 is connected to one end of the energy tank C12, The pulsed current formed only by the energy tank C12 outputs light energy having a short irradiation time and weak intensity in the light energy output section 7. [

Here, when the capacity of the energy tanks C11, C12 is different, the light energy tank unit 9 can control the irradiation time and intensity of the light energy output from the light energy output unit 7 more variously.

Next, in the light energy tank unit 9 as shown in Fig. 6, when the switching elements SW21 and SW22 are maintained in the ON state, the energy tanks C23 and C24 connected in parallel A light energy having a long irradiation time and weak intensity is output from the light energy output section 7. [

When the switching element SW21 maintains the ON state and the switching element SW22 maintains the OFF state in the light energy tank unit 9 as shown in Fig. 6, Four energy tanks C21, C22, C23 and C24 are connected in series with the tanks C21 and C22 connected in parallel to the energy tanks C23 and C24, A light energy having a long irradiation time and strong intensity is output from the output section 7.

When the switching element SW21 maintains the OFF state and the switching element SW22 maintains the ON state in the light energy tank section 9 as shown in Fig. 6, Light energy having a long irradiation time and weak intensity is output from the light energy output section 7 by the pulsed current formed by the tanks C23 and C24.

Here, when the capacity of the energy tanks C21, C22, C23, and C24 is different, the light energy tank unit 9 is configured to determine the irradiation time and intensity of the light energy output from the light energy output unit 7 It can be adjusted in various ways.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

1: Power supply unit 2: Power control unit
3: Main control part 4: Simmer and tree reject
5: operation panel 6: light energy output control section
7: light energy output section 8: cooling section
9: Light energy tank section 9a: Optical power monitoring section
C11, C12, C21, C22, C23, C24: Energy tank
R11, R12, R21, R22, R23, R24: Resistance
SW11, SW12, SW21, SW22: switching elements

Claims (5)

A power supply unit 1 for supplying a power rectified with a DC high voltage;
A touch screen type operation panel 5 for setting the irradiation time and intensity of the light beam and displaying the number of irradiation times of the light beam;
And a plurality of light energy tanks selectively connected in series, parallel, or series and in parallel, for converting a DC high voltage power supplied from the power supply unit (1) into a pulsed current for optical energy output (9);
A light energy output control unit (6) for receiving a pulsed current from the light energy tank unit (9) and controlling the light energy output;
A light energy output unit 7 for receiving a pulsed current from the light energy tank unit 9 under the control of the light energy output control unit 6 and outputting light energy;
A simmer and tree rejection unit 4 for preliminarily exciting the lamps constituting the light energy output unit 7;
A cooling unit 8 for emitting heat generated in the light energy output unit 7; And
A main control unit 3 for controlling operations of the light energy tank unit 9, the simmer and the tree rejection unit 4 in accordance with the operation of the operation panel 5 and the monitoring signal of the light output monitoring unit 9a,
Wherein the pulse-type light beam irradiating device comprises: The method according to claim 1,
The light energy tank unit 9 includes an energy tank C11 having one end connected to the output terminal (+) of the power supply unit 1 and the input terminal (+) of the light energy output control unit 6;
One end is connected to the other end of the energy tank C11 and the other end is connected to the output end of the power supply unit 1 and the input end of the light energy output control unit 6 and one end of the energy tank C12 A switching element SW12 connected to each of them;
An energy tank C12 whose other end is connected to the output terminal (-) of the power supply unit 1 and the input terminal (-) of the light energy output control unit 6; And
A switching element SW11 whose one end is connected to the input terminal (+) of the light energy output control part 6 and the other end is connected to one end of the energy tank C12,
Wherein the pulse-type light beam irradiating device comprises: The method according to claim 1,
The light energy tank unit 9 is connected in parallel to an energy tank C21 (C22) having one end connected to the output terminal (+) of the power supply unit 1 and the input terminal (+ );
A switching element SW21 whose one end is connected to the other end of the energy tanks C21 and C22;
An energy tank C23 having one end connected in parallel to the other end of the switching device SW21 and the other end connected to the output terminal (-) of the power supply unit 1 and the input terminal (-) of the light energy output control unit 6, ) (C24); And
A switching element SW22 whose one end is connected to the output terminal (+) of the power supply unit 1 and the other end is connected to one end of the energy tanks C23 and C24,
Wherein the pulse-type light beam irradiating device comprises: The method according to claim 2 or 3,
Wherein the switching elements SW11, SW12, S21, and S22 are driven by a control signal S of the main control unit 3. The pulse- The method according to claim 2 or 3,
Wherein the energy tanks C11, C12, C21, C22, C23, and C24 are large-capacity electrolytic capacitors or coil capacitors.

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