KR101862047B1 - Apparatus for treating medical using laser - Google Patents

Abstract

A medical laser treatment apparatus is provided by an embodiment of the present invention. A medical laser treatment apparatus according to an embodiment of the present invention comprises: a main body accommodating a laser oscillation device for generating a laser beam therein; an optical fiber cable extending from the main body to guide the laser beam; a handpiece connected to the optical fiber cable for receiving the laser bean from the main body and emitting the laser beam to an affected part; and a support unit having at least a part formed of an elastic body and coupled to be refractable to the main body and supporting the optical fiber cable.

Description

[0001] APPARATUS FOR TREATING MEDICAL USING LASER [0002]

The present invention relates to a medical laser treatment apparatus, and more particularly, to a medical laser treatment apparatus capable of minimizing damage to an optical fiber cable for guiding a laser beam.

Generally, lasers use amplification of light by induction and emission of radiation. Unlike ordinary natural light and light emitted from a lamp, there are three types of monochromatic, coherence, and collimation It has special properties. The laser is excellent in monochromaticity, coherence, and straightness, and is widely used in the medical industry where precision is required.

Lasers used for medical use are used to convert light energy into heat energy to destroy specific tissue, or to transfer light energy into specific skin to regenerate skin. For example, a laser of a specific wavelength selected according to purpose can be irradiated to a target area of the skin to remove tattoos, acne, dots, tumors, and the like, or to treat damaged tissue and blood vessels. The laser is generated from a medical laser oscillator and is provided as a handpiece through a fiber optic cable (fiber) to illuminate the target area of the skin.

Meanwhile, the optical fiber cable connecting the laser oscillator and the handpiece is elongated for convenience of operation. Therefore, there is a problem that a part is placed in a state of being attracted to the floor, which causes the chair or the user to be stepped on or bent and easily damaged.

Korea Registered Utility Model No. 20-0214023 Nov. 2000

SUMMARY OF THE INVENTION The present invention provides a medical laser treatment apparatus capable of minimizing damage to an optical fiber cable for guiding a laser beam.

The technical objects of the present invention are not limited to the technical matters mentioned above, and other technical subjects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a medical laser treatment apparatus comprising: a main body accommodating a laser oscillation device for generating a laser beam therein; an optical fiber extending from the main body to guide the laser beam; A hand piece connected to the optical fiber cable for receiving the laser beam from the main body and irradiating the laser beam to the affected part, and at least a part of the hand piece is formed of an elastic body and is refractively coupled to the main body part, And a support unit for supporting the cable.

The support unit includes a support rod coupled to the main body and at least partially formed of a coil spring, a cylinder rotatably coupled to an upper end of the support rod in a circumferential direction of the support rod, And may include a holder portion for gripping.

The medical laser treatment apparatus according to claim 1, wherein at least a part of the cylinder is exposed to the outside of the slit and is connected to the holder part, And a piston unit moving in the longitudinal direction along the inside of the piston unit.

The medical laser treatment apparatus may further include an elastic member accommodated in the cylinder and elastically supporting the support rod and the piston unit.

The elasticity modulus of the elastic member may be greater than the elastic modulus of the support rod.

The holder unit may be rotatably coupled to the piston unit.

The support unit may be installed at an upper end of the main body, and may extend upward so that the holder is positioned at the upper end.

According to the present invention, it is possible to support one side of an optical fiber cable that is flexibly deflected, and to prevent the optical fiber cable from being damaged by bending or treading. Therefore, it is possible to minimize the use of the apparatus due to the replacement of the optical fiber cable, and the life of the optical fiber cable can be extended, thereby reducing the cost due to the replacement of the consumable.

1 is a perspective view showing a medical laser treatment apparatus according to an embodiment of the present invention.
Fig. 2 is an enlarged front view of the support unit of Fig. 1; Fig.
Figure 3 is a cross-sectional view of the support unit of Figure 2;
Figs. 4 to 7 are operation diagrams for explaining the operation of the medical laser treatment apparatus. Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Hereinafter, a medical laser treatment apparatus according to an embodiment of the present invention will be described in detail with reference to Figs. 1 to 7. Fig.

The medical laser treatment apparatus according to an embodiment of the present invention irradiates a lesion portion with a laser beam having a specific wavelength selected according to the purpose to destroy or regenerate the skin tissue. For example, it removes tattoo, acne, , Can be used to treat blood vessels.

The medical laser treatment apparatus can support one side of the flexibly deflected optical fiber cable to prevent the optical fiber cable from being damaged by bending or treading. Accordingly, it is possible to minimize the use of the apparatus due to the replacement of the optical fiber cable, and the life of the optical fiber cable can be extended, thereby reducing the cost due to the replacement of the consumable.

Hereinafter, the medical laser treatment apparatus 1 will be described in detail with reference to Figs. 1 to 3. Fig.

FIG. 1 is a perspective view showing a medical laser treatment apparatus according to an embodiment of the present invention, FIG. 2 is an enlarged front view of the support unit of FIG. 1, 3 (b) is a cross-sectional view taken along the line BB 'in Fig. 2. As shown in Fig.

A medical laser treatment apparatus 1 according to the present invention includes a main body 10, an optical fiber cable 20, a handpiece 30, and a support unit 40. [

The main body 10 is a housing in which a hollow space is formed, and accommodates a laser oscillator (not shown) for generating a laser beam. An operation panel 11 for controlling the operation of the medical laser treatment apparatus 1 may be formed on one side of the main body 10 and specifically on a front surface thereof and a plurality of wheels 12, So that it can be easily moved to a desired position. The main body portion 10 has a mounting groove 13 formed in one side thereof, for example, on the front surface on which the operation panel 11 is formed or on the side close to the operation panel 11, ). The optical fiber cable 20 is connected to the laser oscillator.

The optical fiber cable 20 guides the laser beam generated from the laser oscillation device to the outside, and one end may be connected to the laser oscillator and the other end may extend from the main body 10 through the main body 10. Since the optical fiber cable 20 is formed in the form of a thin glass fiber or another transparent material enclosing a metal hose, the optical fiber cable 20 can be flexibly bent. A handpiece (30) is connected to the optical fiber cable (20).

The handpiece 30 may be connected to the end of the optical fiber cable 20 extending to the outside of the main body 10 by receiving a laser beam from the laser oscillator of the main body 10 and irradiating the laser beam to the affected part have. An operation unit 31 separately operating from the operation panel 11 may be formed on one side of the handpiece 30 and the operation unit 31 can manipulate the intensity and wavelength of the laser beam irradiated to the affected part. That is, the operation panel 11 can be used to drive the laser oscillation apparatus by applying power, and the operation unit 31 can be used to precisely control the laser beam irradiated on the affected part. However, the present invention is not limited to precise control of the laser beam irradiated on the affected part by forming the operating part 31 on the handpiece 30, and the laser beam may be precisely controlled through the operation panel 11, for example .

On the other hand, the optical fiber cable 20 is supported by the support unit 40. The supporting unit 40 is a part of the optical fiber cable 20 which is refractively coupled to the main body part 10 to lift up a part of the optical fiber cable 20, and at least a part thereof may be formed of an elastic body. As described above, the optical fiber cable 20 is formed such that the thin glass fiber is wrapped around the metal hose. When the fiber glass 20 is bent or bent excessively, the glass fiber is damaged and the laser beam can not be guided to the outside. The medical laser treatment apparatus 1 according to the present invention is a medical laser treatment apparatus 1 according to the present invention in which the support unit 40 which is refractingly coupled to the main body 10 supports the optical fiber cable 20 while lifting up the optical fiber cable 20, It is possible to minimize the damage of the optical fiber cable 20 due to bending or trampling. Therefore, it is possible to reduce the space for using the apparatus due to the replacement of the optical fiber cable 20 and extend the service life of the optical fiber cable 20, thereby reducing the cost due to the replacement of consumables.

The support unit 40 is installed at the upper end of the main body 10 and includes a support rod 41, a cylinder 42, and a holder 43.

The support rod 41 is joined to the main body 10 by a rod or rod-shaped member at least partly formed by a coil spring 41a. Specifically, the support rod 41 may be vertically coupled to the upper end of the main body 10, and one side where the coil spring 41a is formed may be coupled to the main body 10 in close proximity. The supporting rod 41 can be flexibly bent along the moving direction of the optical fiber cable 20 by forming at least a part of the supporting rod 41 in the shape of a rod or rod formed by a coil spring 41a, The cable 20 can be stably supported. Further, even if the optical fiber cable 20 is refracted along the moving direction, it is easy to return to the original position, and the impact applied to the support unit 40 or the optical fiber cable 20 can be absorbed to prolong the life of the device. A cylinder 42 is coupled to the upper end of the support rod 41.

The cylinder 42 is hollow hollow pipe-shaped member whose inside is rotatably engaged with the upper end of the support rod 41 in the circumferential direction of the support rod 41. In other words, the cylinder 42 can rotate in the circumferential direction of the support rod 41 from the support rod 41. The cylinder 42 and the holder 43 described later can be integrally rotated in correspondence with the moving direction of the optical fiber cable 20 by the cylinder 42 being rotatably coupled to the support rod 41, , The breakage of the optical fiber cable 20 can be minimized. On one side of the cylinder 42, a holder 43 is fixed.

The holder portion 43 may be formed of a plate-shaped member that is formed by being bent in the longitudinal direction of the optical fiber cable 20 by holding a part of the optical fiber cable 20. [ The holder part 43 is formed in a curved surface in contact with the optical fiber cable 20 and can be in close contact with the outer circumferential surface of the optical fiber cable 20 and is formed to surround both sides of the optical fiber cable 20 seated at the center The optical fiber cable 20 can be stably held. The support unit 40 can extend to the upper portion of the main body portion 10 so that the holder portion 43 is positioned at the upper end to prevent the optical fiber cable 20 from being trampled on the floor.

As described above, the cylinder 42 is formed in a hollow hollow pipe shape, and a slit 42a is formed on one side in the longitudinal direction. The cylinder 42 has a piston unit 44 and an elastic member 45 housed therein.

The piston unit 44 moves in the longitudinal direction along the inside of the cylinder 42 and slides the holder unit 43 so that at least one end of the piston unit 44 is exposed to the outside of the slit 42a and is connected to the holder unit 43 . That is, when the piston unit 44 moves in the longitudinal direction inside the cylinder 42, the holder 43 slides in the longitudinal direction outside the cylinder 42. The holder portion 43 is formed to be slidable from the cylinder 42 so that the holder portion 43 can move in the longitudinal direction corresponding to the pulling force of the optical fiber cable 20, The optical fiber cable 20 can be stably supported. The holder portion 43 can be pivotally coupled to the piston unit 44. [ Therefore, when the optical fiber cable 20 is pulled, the holder 43 rotates from the piston unit 44, and the optical fiber cable 20 can be prevented from being bent. The piston unit (44) can be moved by the elastic member (45).

The elastic member 45 elastically supports between the support rod 41 and the piston unit 44 and can be formed in the form of a compression coil spring. The elastic member 45 is formed in the form of a compression coil spring so as to elastically support between the support rod 41 and the piston unit 44 so that the holder unit 43 and the piston unit 44 are pressed by the optical fiber cable 20 , The elastic member 45 is compressed and the piston unit 44 and the holder portion 43 can be moved downward. Therefore, the impact applied to the support unit 40 or the optical fiber cable 20 can be effectively mitigated. The elasticity of the elastic member 45 can be made larger than the elastic modulus of the support rod 41. The elastic coefficient of the elastic member 45 is formed to be larger than the elastic modulus of the support rod 41 so that when the user pulls the optical fiber cable 20 to pull it, the support rod 41 is first refracted and applied to the optical fiber cable 20 After the impact is primarily absorbed, the elastic member 45 is compressed and can absorb the impact applied to the optical fiber cable 20 secondarily.

Hereinafter, with reference to Figs. 4 to 7, the operation of the medical laser treatment apparatus 1 will be described in more detail.

Figs. 4 to 7 are operation diagrams for explaining the operation of the medical laser treatment apparatus. Fig.

The medical laser treatment apparatus 1 according to the embodiment of the present invention supports the one side of the optical fiber cable 20 in which the support unit 40 flexibly deflects and prevents the optical fiber cable 20 from being damaged by bending or treading can do. Accordingly, it is possible to minimize the use of the apparatus due to the replacement of the optical fiber cable 20, and the lifetime of the optical fiber cable 20 is extended, thereby reducing the cost due to the replacement of consumables.

4 is a view showing the operation of the support unit by the support rods.

At least a part of the support rod 41 is formed as a coil spring 41a, and one end thereof is coupled to the upper end of the body portion 10 and the cylinder 42 is coupled to the other end thereof. The cylinder 42 has therein a piston unit 44 and an elastic member 45 for elastically supporting the support rod 41 and the piston unit 44. The piston unit 44 is supported by the slit 42a And is exposed to the outside and connected to the holder portion 43. When the holder 43 grips one side of the optical fiber cable 20, the holder 43 and the piston unit 44 are pressed by the weight of the optical fiber cable 20. At this time, the elastic member 45 is partially compressed and can support the piston unit 44.

The coil spring 41a formed on the support rod 41 is partially loosened and the support rod 41 and the cylinder 42 are fixed to each other by pulling the optical fiber cable 20 to one side in a state where the holder 43 holds the optical fiber cable 20. [ And the holder portion 43 in the moving direction of the optical fiber cable 20. [ The optical fiber cable 20 can be pulled smoothly with a small force by moving the support rod 41, the cylinder 42 and the holder 43 in the moving direction of the optical fiber cable 20, Can be supported while maintaining the pulled state. It is also possible to alleviate the impact applied to the support unit 40 or the optical fiber cable 20 when the optical fiber cable 20 is pulled.

When the pulling force of the optical fiber cable 20 is removed, the coil spring 41a formed on the support rod 41 is again compressed and the support rod 41, the cylinder 42, and the holder 43 return to their original positions .

5 is a view showing the operation of the support unit by the cylinder.

The cylinder 42 is rotatably coupled to the upper end of the support rod 41 in the circumferential direction of the support rod 41. The cylinder 42 is rotatably coupled to the support rod 41 so that the cylinder 42 and the holder 43 can rotate in accordance with the pulling direction of the optical fiber cable 20, The bending of the optical fiber cable 20 can be minimized regardless of the direction in which the optical fiber cable 20 is pulled. Further, there is no restriction on the direction in which the optical fiber cable 20 is pulled, so that it can be used more easily.

6 is a view showing the operation of the support unit by the elastic member.

The elastic member 45 is received in the cylinder 42 and elastically supports between the support rod 41 and the piston unit 44. The elastic member 45 is interposed between the support rod 41 and the piston unit 44 so that the piston unit 44 and the holder unit 43 can move in the length of the cylinder 42 in response to the pulling force of the optical fiber cable 20. [ So that the optical fiber cable 20 can be supported more stably. Particularly, since the impact applied when the optical fiber cable 20 is pulled is dispersed in the support rod 41 and the elastic member 45, the impact can be effectively mitigated.

7 is a view showing the operation of the support unit by the holder portion.

The holder portion 43 is rotatably coupled to the piston unit 44. [ The holders 43 are rotatably coupled to the piston unit 44, so that breaks occurring when the optical fiber cable 20 is pulled can be minimized.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

1: medical laser treatment apparatus 10:
11: Operation panel 12:
13: mounting groove 20: optical fiber cable
30: Handpiece 31:
40: support unit 41: support rod
42: cylinder 42a: slit
43: holder part 44: piston unit
45: elastic member

Claims (7)

A main body accommodating a laser oscillator for generating a laser beam therein;
An optical fiber cable extending from the main body to guide the laser beam;
A handpiece connected to the optical fiber cable for receiving the laser beam from the main body and irradiating the laser beam to the affected part; And
At least a part of which is formed of an elastic body and is refractorily coupled to the main body part, for supporting the optical fiber cable,
The support unit includes:
A support rod coupled to the body and formed at least partially by a coil spring,
A cylinder rotatably coupled to the upper end of the support rod in a circumferential direction of the support rod,
And a holder part fixed to the cylinder side and holding the optical fiber cable. delete The method according to claim 1,
The cylinder has a hollow pipe shape with an internal hollow, a slit is formed on one side in the longitudinal direction,
Further comprising a piston unit at least partially exposed to the outside of the slit and connected to the holder unit and moving in the longitudinal direction along the inside of the cylinder. The method of claim 3,
And an elastic member accommodated in the cylinder and elastically supporting the support rod and the piston unit. 5. The method of claim 4,
Wherein the elastic member has a modulus of elasticity greater than an elastic modulus of the support bar. The method of claim 3,
And the holder portion is rotatably coupled to the piston unit. The method according to claim 1,
Wherein the support unit is installed at an upper end of the main body part and extends upward so that the holder part is positioned at an upper end.

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