KR200488956Y1 - Light emitter for skin having xenon lamp - Google Patents

Abstract

The present invention relates to an elevator for a vehicle, comprising a pair of second heeling units symmetrically formed to emit light in opposite directions and a pair of second heeling units respectively connected to the upper ends of the pair of second heeling units, And a first heeling unit that emits light toward the skin light irradiator.

Description

Technical Field [0001] The present invention relates to a skin light irradiator having a xenon lamp,

The present invention relates to a skin light irradiator, and more particularly, to a device manufactured by combining conventional LED and IPL technology, and it is possible to combine Xenon wavelengths with red, blue, green and yellow LED wavelengths, To a light irradiator provided with a xenon lamp that can easily perform a skin care by selecting light and can easily replace a consumable light source.

(Hereinafter referred to as "cosmetics") is applied to the skin in order to improve various skin diseases such as acne, black spots, stain, pigmented lesions and the like which are beyond problematic skin elasticity management.

However, since a protective barrier is formed as a thick protein protective layer below the epidermis constituting the human skin, and the epidermis and dermis of the skin are separated from each other by the protein protective layer, even if the cosmetic is continuously applied to the skin, Because it is common that it can not penetrate deep into the cosmetics, there is a limit to the skin care treatment using cosmetics. In order to overcome this problem, various skin care therapies using skin care devices that generate microcurrent, light, and vibration have been widely known.

In addition, recently, it is a tendency not only to manage and treat only the skin of the face but also to spend a lot of time and effort on the body parts such as the chest and the lower body which are directly exposed.

On the other hand, since most of the conventional skin care devices are used only by a professional manager in a manner of intensively stimulating only the local lesion using a handpiece, the efficacy of the treatment is lowered and a lot of skin care such as legs, Time and money are invested.

In the case of a skin beauty device using light, if a certain amount of used cosmetic device is exceeded, a consumable item, for example, a light source lamp must be periodically replaced. However, since the structure of the skin beauty device is complicated, the replacement of the light source lamp can not be easily performed .

In addition, in the case of a skin beauty device using conventional light, a light of a wavelength range corresponding to the indication is required to be output according to the indication. However, since the light source includes a light source that outputs only a certain wavelength band without covering all of them,

Published patent publication No. 10-2009-0055891

It is an object of the present invention to provide a skin light irradiator provided with a xenon lamp which can be widely applied to an entire body without limitation to a specific body part, .

In addition, it is possible to select and operate the optimal light wavelength band used for treatment of various skin diseases such as vitiligo, atopy, wounds, acne, skin pain, hair follicle reduction and scalp blood flow, Which is provided with a xenon lamp having a wide treatment area band.

Another object of the present invention is to provide a light irradiator provided with a xenon lamp which can easily replace a light source, which is a consumable item, by a non-specialist, thereby improving ease of maintenance and repair of the light irradiator.

As a means for achieving the above object, the present invention provides a device for connecting a pair of second heeling units symmetrically formed to emit light in opposite directions and upper ends of the pair of second healing units, A first aspect of the present invention provides a skin light irradiation apparatus including a first heeling unit, which is detachably attached to a healing unit and includes a first heeling unit that emits light toward a downward direction, the first heeling unit comprising: a first housing defining an inner space; A first cover detachably coupled to the first housing to open and close the inner space of the first housing; A first seat mounted on the first cover and having a first mounting pin protruded therefrom; A first cartridge detachably coupled to the first seat and emitting light generated from the xenon lamp; A first cooling fan attached to the first cover so as to be spaced apart from the first mounting table to provide a vortex toward the first cartridge to cool the first cartridge; A first passage hole for passing the xenon light emitted from the first cartridge is passed through a substrate supporting a plurality of LED terminals emitting light and a first exhaust hole is passed through at a position spaced apart from the first passage hole A first light source module mounted on an opening of the first housing; And a first exhaust fan attached to the first cover and varying the path of the vortex so as to exhaust the vortex that has risen to a high temperature via the first cartridge to the first exhaust port side.

The first cartridge further includes: a first body having an inner space which receives the xenon lamp therein and has an inner space passed through in one direction so that the vortex provided in the first cooling fan passes through the xenon lamp; And a first mounting pipe exposed to the outer surface of the first body and interconnecting with the first mounting pin at a position corresponding to the first mounting pin.

The first seat is provided with a pair of arc-shaped bent portions for holding both sides of the first cartridge and forming an insertion space into which a finger can be inserted to detach the first cartridge mounted on the first seat And the first clamp is attached.

Further, the first heeling unit may further include a pair of coupling members bent in a "? &Quot; shape and mounted on both sides of the first housing to couple mutually adjacent pair of second heeling units .

Each of the pair of second healing units includes a second housing defining an inner space and having an opening penetrated therethrough; A second cover detachably coupled to the second housing to open and close the inner space of the second housing; A second seat mounted on the second cover and having a second mounting pin protruding therefrom; A second cartridge detachably coupled to the second seat and emitting light generated by the xenon lamp; A second cooling fan attached to the second cover so as to be spaced apart from the second mounting table to provide a vortex toward the second cartridge to cool the second cartridge; And a second light source module mounted on an opening of the second housing in a state in which a second through hole for allowing the xenon light emitted from the second cartridge to pass therethrough is mounted on a substrate supporting a plurality of LED terminals emitting light, .

The effects of the present invention are as follows.

First, if the first heeling unit and the second healing unit are mutually detachable and have a plurality of first heeling units and second healing units of different sizes, There is an effect that can be applied.

Second, since it is possible to select and operate the optimal light wavelength band used for treatment of various skin diseases such as vitiligo, atopy, wounds, acne, skin pain, hair follicle reduction, scalp blood flow reduction, etc., And thus can be used as a skin light irradiator having a wide treatment area band.

Thirdly, when the first cartridge mounted on the first seat is to be replaced, the first cartridge can be moved in and out through the first passage hole, so that the first cartridge can be replaced quickly and easily.

Fourth, the problem that the first cartridge rotates or changes its position on the first mounting table due to the pair of first clamps bent in an arc shape to form the insertion space can be suppressed, and also the insertion space of the first clamp There is an effect that the first cartridge mounted on the first seat can be easily and quickly removed by inserting a finger or the like.

Fifth, the heat of the first cartridge can be minimized by the interaction of the first cooling fan and the first exhaust fan, and the additional heat Action can be expected.

1 is a perspective view showing the overall appearance of a skin light irradiator according to the present invention;
FIG. 2 is a bottom perspective view showing the overall appearance of a skin light irradiation device according to the present invention. FIG.
3 is a schematic exploded perspective view of a skin light irradiator according to the present invention.
4 is a conceptual diagram for explaining the concept of a skin light irradiator according to the present invention.
5 is a bottom view of the first heeling unit according to the present invention;
6 is a schematic exploded perspective view of a first heeling unit according to the present invention;
7 is an exploded perspective view for explaining an engagement relationship between the first seat and the first cartridge according to the present invention;
8 is a schematic exploded perspective view of the first cartridge according to the present invention;
FIG. 9A is a bottom view of the seating table according to the present invention, and FIG. 9B is a schematic sectional view of the seating table with reference to the BB line shown in FIG. 9A.
FIG. 10A is a bottom view of the first casing according to the present invention, and FIG. 10B is a schematic sectional view of the first casing with reference to the CC line shown in FIG. 10A.
FIG. 11A is a bottom view of the second casing according to the present invention, and FIG. 11B is a schematic sectional view of the second casing with reference to the DD line shown in FIG. 11A.
12 is a cross-sectional view schematically showing the internal configuration of the first heeling unit with reference to the line AA shown in Fig. 5;
13 is a schematic exploded perspective view of the second heeling unit according to the present invention;
14 is a conceptual diagram for explaining an input unit according to the present invention;

In order to fully understand the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of known functions and configurations that may be unnecessarily obscured by the gist of the present invention are omitted.

FIG. 1 is a perspective view showing the overall appearance of the skin light irradiator according to the present invention, FIG. 2 is a bottom perspective view showing the overall appearance of the skin light irradiator according to the present invention, and FIG. 3 is a cross- 4 is a conceptual view for explaining the concept of a skin light irradiator according to the present invention, FIG. 5 is a bottom view of the first healing unit according to the present invention, and FIG. 6 is a schematic view of a first heeling unit according to the present invention FIG. 7 is an exploded perspective view for explaining an engagement relationship between the first seat and the first cartridge according to the present invention, FIG. 8 is a schematic exploded perspective view of the first cartridge according to the present invention, and FIG. Fig. 9B is a schematic cross-sectional view of a seat cushion with reference to the BB line shown in Fig. 9A. Fig. 10A is a bottom view of the seat cushion according to the present invention, 10A is a schematic cross-sectional view of the first casing with reference to the CC line shown in FIG. 10A, FIG. 11A is a bottom view of the second casing according to the present invention, and FIG. 11B is a view showing the DD line shown in FIG. Fig. 12 is a cross-sectional view schematically showing the internal configuration of the first healing unit with reference to the line AA shown in Fig. 5, and Fig. 13 is a schematic view of the second healing unit according to the present invention Fig. 14 is a conceptual diagram for explaining an input unit according to the present invention. Fig.

The skin light irradiator according to the present invention can be operated by selecting an optimal light wavelength band used for treatment of various skin diseases such as vitiligo, atopy, wounds, acne, skin pain, hair follicle reduction, , There is a feature that it can be used as a skin light irradiator having a wide treatment area band beyond the management of simple skin trouble.

In addition, according to the present invention, a light source capable of emitting xenon light in addition to an LED, which is a general light source, can be used to provide a high output pulse light to the skin.

Xenon light has a characteristic of generating wavelength similar to general sunlight and is a light ray of about 450 ~ 1050nm wavelength range, which is suitable for the treatment of acne particularly because it can sterilize the surface of the skin.

Meanwhile, red LED, blue LED, green LED, and yellow LED may be mixed in the LED light source, the red LED has a wavelength of 640 nm, the blue LED has a wavelength of 423 nm, the green LED has a pulse of 532 nm and the yellow LED has a pulse of 583 nm. In other words, the skin light irradiator according to the present invention can start the operation by selecting a light source that matches the therapeutic purpose by using the light emitted from the four LED light sources and the Xenon light source.

At this time, red LED treats acne and whitening, blue LED treats atopy and skin calm, green LED improves scalp blood flow, and yellow LED is suitable for cell regeneration and athlete's foot treatment.

In order to realize the above feature, the skin light irradiator according to the present invention comprises a pair of second healing units 2HU formed symmetrically with respect to each other and emitting light in opposite directions as shown in Figs. 1 to 3, And a first heeling unit 1HU detachably connected to the pair of second healing units 2HU and connected to upper ends of the pair of second healing units 2HU and emitting light downward.

The first healing unit 1HU and the second healing unit 2HU are coupled to each other,

And a ring portion is disposed between the second healing units 2HU facing each other, so that the treatment of the skin can be started while the light emitted from the first and second healing units 1UU and 2HU is irradiated.

At this time, the patient is lying on the floor or in the treatment bed to place a part of the body in the treatment space S shown in FIG. 4 to start the treatment. In the case of treating a relatively large chest or lower body, The first and second heeling units 1HU and 2HU of different standards can be selected and installed so as to appropriately expand the movable unit S. [

In other words, the first healing unit 1HU and the second healing unit 2HU are mutually detachable, and the first healing unit 1HU and the second healing unit 2HU of different sizes are applicable to the entire body, (2HU), it is possible to perform the treatment without difficulty over the entire body part.

6, the first heeling unit 1HU includes a first housing 100 forming an inner space and having an opening penetrated therethrough, a second housing 100 having a first housing 100 for opening and closing an inner space of the first housing 100, A first cover 200 detachably coupled to the housing 100, a first seating part 300 attached to the first cover 200 and having a first mounting pin 310 protruded thereon, A first cartridge 400 detachably coupled to the first mount 300 to emit light generated by the xenon lamp 420 and a second cartridge 400 mounted on the first cover 200 to be spaced apart from the first mount 300, A first cooling fan 500 for providing a vortex toward the first cartridge 400 to cool the first cartridge 400 and a second cooling fan 500 for cooling the first cartridge 400 on the substrate 610 supporting a plurality of LED terminals 620 for emitting light, (611) for passing the xenon light emitted from the first exhaust hole (400) through the first exhaust hole (611) and the first exhaust hole A first light source module 600 attached to the opening of the first housing 100 in a state in which the first cover 100 and the second cover 100 are inserted into the first cover 200 and the first cover 400, And a first exhaust fan 700 for varying the path of the vortex so as to be exhausted to the first exhaust hole 612 side.

The first housing 100 accommodates various electric devices therein, and a first coupling hole 110 through which a coupling member 900, which will be described later, is inserted is passed through both sides of the first housing 100. The opening formed in the first housing 100 may penetrate the lower surface of the first housing 100 with reference to FIG. 6, and the upper portion of the first housing 100 may be completely opened. Inside the first housing 100, a main PCB (not shown) may be provided to electrically connect each electric device and supply power to each member.

The first wiring hole 120 may penetrate the first housing 100 at a position spaced apart from the first fastening hole 110 and may be connected to the adjacent second healing unit 2HU) can be passed through.

The first cover 200 is mounted on the first housing 100 with a predetermined spacing therebetween such that the first seat 300, the first cooling fan 500, the first exhaust fan 700, To cover the open top of the first housing 100. As shown in Fig. At this time, the first housing 100 and the first cover 200 may be coupled by a fastening member such as a bolt, or the first housing 100 and the first cover 200 may be integrally formed .

3, an input unit 210 may be formed on the upper surface of the first cover 200 to receive a treatment mode or the like of the skin light irradiator according to the present invention. The operation of the input unit 210 will be described later.

The first seat 300 is a member for separating the first cartridge 400 from the first cover 200 by a predetermined distance and is disposed between the first cartridge 400 and the main The PCBs form a height difference with each other, and heat emitted from the first cartridge 400 is not applied to the main PCB due to the height difference. Although not shown, a connection terminal for electrical connection between the first cartridge 400 and the main PCB may be formed in the first seating part 300. [

7, in order to detach the first cartridge 400 mounted on the first mounting table 300 while grasping both sides of the first cartridge 400, the first mounting table 300 is mounted on the first mounting table 300, A pair of first clamps 320 bent in an arc shape may be installed to form an insertion space T into which a finger can be inserted.

When the first cartridge 400 is mounted between the pair of first clamps 320, it is possible to suppress the problem that the first cartridge 400 rotates or changes its position on the first mounting table 300, The first cartridge 400 mounted on the first mounting table 300 can be easily removed by inserting a finger or the like into the space T. [

Next, the first cartridge 400 is detachably installed in the first seat 300, and the first housing 100 and the first cover 200 can be replaced without disassembling the first housing 100 and the first cover 200 Respectively.

That is, when the first cartridge 400 mounted on the first mounting table 300 is to be replaced, the first cartridge 400 can be moved in and out through the first passage hole 611, 400 can be quickly and easily replaced.

The first passage hole 611 is formed to be wider than the area of the first cartridge 400 so that the first cartridge 400 can be moved in and out without interference. T of the first mounting table 300 may be completely exposed by the first clamp 320 of the first mounting table 300.

8, the first cartridge 400 may be configured to receive the xenon lamp 420 internally and allow the vortex provided by the first cooling fan 500 to pass through the xenon lamp 420 A first body 410 having an inner space penetrating in one direction and a first mounting pin 310 exposed at an outer surface of the first body 410 and corresponding to the first mounting pin 310, And a first mounting pipe 450 for connecting the first mounting pipe 450 and the second mounting pipe 450 to each other.

At this time, the first body 410 may be divided into a first casing 411 and a second casing 412 that are detachably attached to each other.

In the case of the first casing 411, a filter 430 for ringing the light of a specific wavelength band of the xenon light emitted from the xenon lamp 420 may be mounted.

In addition, a reflective member 440 for converging the xenon light emitted from the xenon lamp 420 toward the filter 430 may be provided in the first body 410. At this time, it is preferable that the reflective member 440 is formed to be bent in a substantially U-shape to surround the xenon lamp 420 to emit the xenon light in one direction.

At this time, the xenon lamp 420 may be supported by the support plate 421. At this time, the first mounting tube 450 may be formed on the support plate 421, And may be exposed to the outside of the first body 410 through the second body 412.

The first mounting tube 450 exposed to the outside of the first body 410 is connected to the first mounting pin 310 formed on the first mounting base 300 so that the first cartridge 400 is coupled to the first mounting base 310, And can be maintained without departing from the stand 300.

Next, the first light source module 600 emits LED light toward the ring portion, wherein the plurality of LED terminals 620 emit light having wavelengths of 650 nm, 423 nm, 590 nm, and 530 nm, respectively, Gt; 610 < / RTI > For example, the LED may be a blue LED, a yellow LED, a red LED, or a green LED.

 The first exhaust hole 612 formed in the substrate 610 is a passage for discharging the heat generated in the xenon lamp 420 of the first cartridge 400. The first exhaust hole 612 formed in the substrate 610, Is discharged to the first exhaust hole (612) after passing through the first cartridge (400).

12, the first cooling fan 500 is preferably disposed adjacent to the first seat 300 so as to provide a vortex toward the first cartridge 400, The first cartridge 700 is provided with a vortex in the vertical direction with respect to the first cooling fan 500 so that the vortex passing through the first cartridge 400 can be discharged toward the first exhaust hole 612. [ As a result, the vortex having a relatively high temperature in the first exhaust hole 612 can be exhausted. The vortex discharged into the first exhaust hole 612 is exhausted toward the affected part of the subject and directly contacts the affected part. Here, the two-dot chain line shown in Fig. 12 is a part showing the path of the vortex to be exhausted.

The instantaneous temperature of the xenon light emitted from the first cartridge 400 is very high, and when it is repeatedly used, the ambient temperature is rapidly increased. Accordingly, the peripheral members are thermally deformed to shorten the lifetime of the members, or reduce the therapeutic effect, and severely result in the image of the subject. In the first cooling fan 500 and the first exhaust fan 700 The heat generation of the first cartridge 400 can be minimized by the interaction and the thermal treatment can be performed on the affected part of the subject using the thermal energy emitted from the first cartridge 400. [ A known heat treatment is a technique for treating skin inflammation, itching, and other skin diseases by applying heat of a predetermined temperature to the skin.

Meanwhile, as shown in FIG. 6, the first heeling unit 1HU may further include a first reflection plate 800. The first reflective plate 800 has a shape similar to that of the substrate 610 of the first light source module 600 and includes a first through hole 611 formed in the substrate 610 and a first through hole 612 communicated with the first exhaust hole 612, The first exhaust hole 820 and the first LED insertion hole 830 into which the plurality of LED terminals 620 are inserted are inserted through the first through hole 810,

At this time, the first heeling unit 1HU is made of a reflective material and overlaps with the first light source module 600, so that the light emitted from the LED terminal 620 is reflected toward the affected part.

3 and 6, the first healing unit 1HU is bent in a '' shape to bind the adjacent pair of second healing units 2HU to the first housing 100 And a pair of coupling members 900 mounted on both sides of the coupling member 900.

The other side of the coupling member 900 is connected to the second healing unit 2HU in a state where one side of the keeper member is inserted into the first coupling hole 110 of the first housing 100, The shape of the irradiation device can be maintained. Although not shown, a bolt or the like may be further coupled to the coupling member 900 for coupling the first and second healing units 1UU and 2HU to each other to provide mutual coupling force.

Each of the pair of second healing units 2HU includes a second housing 100 'forming an inner space and having an opening penetrated therethrough, a second housing 100' for opening and closing the inner space of the second housing 100 ' A second seat 200 'detachably coupled to the second seat 200', a second seat 300 'mounted on the second cover 200' and having a second mounting pin protruding therefrom, A second cartridge 400 'detachably coupled to the first mount 300' and emitting light generated from the xenon lamp, a second cartridge 400 'mounted on the second cover 200' to be spaced apart from the second mount 300 ' A second cooling fan 500 'for providing a vortex toward the first cartridge 400' to cool the second cartridge 400 ', a substrate 610' for supporting a plurality of LED terminals 620 ' A second light source module 600 'mounted on an opening of the second housing 100' with a second passage hole 611 'for passing the xenon light emitted from the second cartridge 400' ) And 2 includes a light source module 600 'overlaps the second reflecting plate (800 disposed ").

At this time, the second housing 100 'accommodates various electric devices therein, and a second fastening hole 110' to which the other side of the coupling member 900 is fastened is formed at a portion adjacent to the first housing 100 . The opening formed in the second housing 100 'may pass through one side of the second housing 100' with reference to FIG. 13, and the other side of the second housing 100 'may be completely opened .

Also, the second wiring hole 120 'may be passed through the second housing 100' at a position spaced apart from the second fastening hole 110 ', and the second wiring hole 120' The electric wires which are electrically connected to the one heeling unit 1HU can be passed.

Next, the second cover 200 'is mounted such that the members are spaced apart from each other such as the second mounting table 300', the second cooling fan 500 ', and the second housing 200' And is detachably coupled to the second housing 100 'to cover the other side. At this time, although the second housing 100 'and the second cover 200' are coupled by a fastening member such as a bolt, or the second housing 100 'and the second cover 200' ≪ / RTI >

The second seat 300 ', the second cartridge 400', the second cooling fan 500 ', the second light source module 600', and the second reflection plate 300 ', which constitute the second healing unit 2HU, The plate 800 'includes the first seat 300, the first cartridge 400, the first cooling fan 500, the first light source module 600, and the first light source module 600, which constitute the first heeling unit 1HU. 1 reflector plate 800, and thus a detailed description thereof will be omitted.

Next, the input unit 210 formed on the top surface of the first cover 200 will be described with reference to the accompanying drawings.

14, the input unit 210 includes a power button 211, a cooling button 212, a time adjusting button 213, a start button 214, a xenon lamp driving button 215, a dual button 216, A mode setting button and the like, and display means including a xenon lamp indicator L1, a xenon lamp time indicator L2, and a xenon lamp warning lamp L3.

At this time, the power button 211 is a button for turning on / off the power of the skin light irradiator, and the cooling button 212 is a button for turning on / off the skin light irradiator and the first cooling fan 500, the second cooling fan 500 ', the first exhaust fan 700, And the time adjusting button 213 is a button for operating the first light source module 600, the second light source module 600 ', the first cartridge 400 and the second cartridge 400' Button and the xenon lamp driving button 215 is a button for setting whether the first cartridge 400 and the xenon lamp 420 of the second cartridge 400 'are driven or not and the dual button 216 is a button for adjusting the time A button for simultaneously driving the xenon lamp of the cartridge 400 and the second cartridge 400 'and the LED terminals 620 and 620' of the first light source module 600 and the second light source module 600 ' For example, the RED button 217-1 constituting the mode setting button has a wavelength band of 650 nm, the BLUE button 217-2 corresponds to a wavelength band of 423 nm, GRE The EN button 217-3 is a button for controlling the LED terminal 620 to emit light in the 530nm wavelength band, and the YELLOW button 217-4 is for emitting light in the 590nm wavelength band.

That is, when the input button is operated, an input signal is transmitted to a control unit (not shown), and the control unit electrically controls each member corresponding to the input signal based on the input signal.

On the other hand, when the xenon lamp 420 is used for about 25,000 times at intervals of 5 minutes, the xenon lamp warning lamp L3 may be turned on, and in case of installing the additional horn, a warning sound may be output in addition to the warning lamp. In this case, since it is time to replace the first cartridge 400 and the second cartridge 400 ', it is possible to determine whether the first cartridge 400 and the second cartridge 400' are replaced or not.

The embodiments of the present invention described above are merely illustrative and those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Therefore, it is to be understood that the present invention is not limited to the form described in the foregoing description. Accordingly, the true scope of protection of the present invention should be determined by the technical idea of the appended claims. It is to be understood that the appended claims are intended to cover all such modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

1HU: First Healing Unit 2HU: Second Healing Unit
100: first housing 200: first cover
300: first seat base 400: first cartridge
500: first cooling fan 600: first light source module
700: first exhaust fan 800: first reflection plate

Claims (5)

A pair of second heeling units symmetrically formed to emit light in opposite directions and a pair of second heeling units respectively connected to the pair of second heeling units and detachably attached to the pair of second heeling units, And a first heeling unit which emits the light beam,
The first heeling unit includes:
A first housing forming an inner space and having an opening penetrated therethrough;
A first cover detachably coupled to the first housing to open and close the inner space of the first housing;
A first seat mounted on the first cover and having a first mounting pin protruded therefrom;
A first cartridge detachably coupled to the first seat and emitting light generated from the xenon lamp;
A first cooling fan attached to the first cover so as to be spaced apart from the first mounting table to provide a vortex toward the first cartridge to cool the first cartridge;
A first passage hole for passing the xenon light emitted from the first cartridge is passed through a substrate supporting a plurality of LED terminals emitting light and a first exhaust hole is passed through at a position spaced apart from the first passage hole A first light source module mounted on an opening of the first housing; And
And a first exhaust fan attached to the first cover to vary the path of the vortex so as to exhaust the vortex that has risen to a high temperature via the first cartridge toward the first exhaust hole,
The first cartridge includes:
A first body having an inner space which houses the xenon lamp therein and which has a through-hole penetrated in one direction to pass the vortex provided by the first cooling fan through the xenon lamp; And
And a first mounting pipe exposed to the outer surface of the first body and interconnecting with the first mounting pin at a position corresponding to the first mounting pin,
The first seat
A pair of arc-shaped first clamps are installed to grip both sides of the first cartridge and to form an insertion space into which a finger can be inserted to detach the first cartridge mounted on the first seat,
The first heeling unit includes:
Further comprising: a pair of coupling members bent in an " a " shape and mounted on both sides of the first housing to mutually couple a pair of adjacent second heeling units,
The first passage hole is formed so as to be wider than the area of the first cartridge so that the first cartridge can be inserted and removed without interference, and the area including the first clamp of the first seating part Respectively,
When the first cartridge mounted on the first seat is to be replaced, the first cartridge is inserted and removed through the first passage hole so that the first housing and the first cover can be replaced without having to disassemble each other.
Skin light irradiator with xenon lamp. delete delete delete The method according to claim 1,
Wherein each of the pair of second healing units comprises:
A second housing forming an inner space and having an opening penetrated therethrough;
A second cover detachably coupled to the second housing to open and close the inner space of the second housing;
A second seat mounted on the second cover and having a second mounting pin protruding therefrom;
A second cartridge detachably coupled to the second seat and emitting light generated by the xenon lamp;
A second cooling fan attached to the second cover so as to be spaced apart from the second mounting table to provide a vortex toward the second cartridge to cool the second cartridge; And
And a second light source module mounted on an opening of the second housing in a state in which a second through hole for allowing the xenon light emitted from the second cartridge to pass therethrough is mounted on a substrate supporting a plurality of LED terminals for emitting light Wherein the xenon lamps are irradiated with ultraviolet rays.

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