KR101530076B1 - handpiece and laser laser therapy system using it - Google Patents

Abstract

The present invention relates to a handpiece and a laser treatment apparatus using the same. The handpiece comprises a laser connecting portion where laser light is injected; a cylindrical body extended to the laser connecting portion; a microlens portion installed inside the body and where a plurality of microlenses having an embossing structure of a stripe pattern are nearly arranged; an object lens portion installed inside the body, having two lenses perpendicular to a laser light route with a constant interval from the microlens portion; an emission portion having a groove in an end portion of the body, and radiating the laser light to the outside; and a protective lens portion installed between the emission portion and an object lens, and blocking a foreign material entered from the groove. One of the microlenses is rotated around a light shaft, and changes a pattern of the emitted laser light. Since a manufacturing is easy with a simple composition and manufacturing costs are low as well as easily changing various light radiating patterns for a laser treatment without exchanging or replacing different microlenses, the present invention enables to reduce procedure and treatment time.

Description

Technical Field [0001] The present invention relates to a handpiece for a laser treatment apparatus and a laser treatment apparatus using the same,

The present invention relates to a handpiece for a laser treatment apparatus and a laser treatment apparatus using the same, and more particularly, to a handpiece capable of easily changing and manipulating various light irradiation patterns for laser treatment, And to a laser treatment apparatus using the same.

BACKGROUND ART Electro-Magnetic Radiation (hereinafter referred to as EMR) has been applied to a variety of cosmetic and medical applications including dental, ophthalmology, gynecology, otorhinolaryngology and internal medicine in the form of laser light.

For most dermatological applications, EMR therapy is performed using a device that delivers EMR to the surface of the tissue of interest. In internal medicine applications, EMR therapy is typically performed using devices that are driven in conjunction with an endoscope or catheter to deliver EMR to the surface and tissue in the body.

In general, conventional EMR therapies require at least one specific wavelength (or one particular wavelength range or multiple wavelength ranges) of EMR (e.g., one specific wavelength range or multiple wavelength range) in a tissue to generate a specific chemical reaction, such as skin remodeling, Or (b) deliver EMR energy to tissue to increase temperature, or (c) deliver EMR energy to damage or destroy cells or extracellular structures.

As described above, an electromagnetic wave irradiation type therapeutic apparatus for treating the tissue by irradiating electromagnetic waves to the biological tissues such as skin has been conventionally known. For example, by irradiating the skin with RF waves, the skin is heated to regenerate the epidermis There is known a device for promoting the regeneration or proliferation of collagen by promoting or warming the dermis.

The treatment apparatus of the electromagnetic wave irradiation type includes a power supply apparatus provided with an electromagnetic wave source or a power supply and a treatment jig called a handpiece connected to the power supply apparatus. In the handpiece, an electromagnetic wave is irradiated Is installed. For example, when an RF wave is used as an electromagnetic wave, a pair of electrodes is attached to the irradiation portion. After the pair of electrodes are brought into contact with the skin, an electromagnetic wave such as an RF wave is transmitted from the electrode. Electromagnetic waves radiated from one electrode reach the other electrode through the skin. In this process, the skin tissue on the path through which electromagnetic waves are transmitted is heated.

At this time, even if the area of the target site to be treated originally is smaller than the area where the electromagnetic wave flows, basically, the entire path is heated to the same as the target area. Here, the patient may feel pain due to the temperature rise of the living tissue. Although this pain is painful enough to withstand anesthesia, there is a demand to reduce the area where pain is felt in consideration of the patient's burden.

In order to solve the above inconveniences, many treatment apparatuses using laser have been introduced. A hand piece of a laser treatment apparatus is disclosed in Korean Patent Laid-Open Publication No. 10-2013-0099330, and has a first outer barrel and a second outer barrel rotatably coupled to the first outer barrel, A body for scanning the beam to the outside; The distance between the variable lens and the stationary lens is changed as the second outer cylinder rotates, and the distance between the variable lens and the stationary lens is changed, Optical means for adjusting the focus of the laser beam; And an encoder mounted on the first outer barrel and in contact with the second outer barrel to generate an electric signal corresponding to the rotation of the second outer barrel and to output the electric signal to the outside, And the laser generating device can generate laser energy corresponding to the size of the adjusted laser beam.

Conventionally, the handpiece of the laser treatment apparatus simply includes a means for adjusting the size of the laser beam and adjusting the focal distance. However, for various lesions and the like, it is necessary to change the laser irradiation pattern for effective treatment. The lens is fixedly installed, so that it is not easy to replace and replace it, and it takes a lot of time and requires a lot of manufacturing cost for forming each pattern.

Korean Patent Publication No. 10-2013-0099330 (public date: September 06, 2013)

A problem to be solved by the present invention is to provide a handpiece for a laser treatment apparatus capable of easily changing and manipulating various light irradiation patterns for laser treatment and shortening a treatment time and a treatment time, And to provide a therapeutic device.

According to a first aspect of the present invention, there is provided a handpiece for a laser treatment apparatus, comprising: a laser connection portion into which laser light is injected; A cylindrical body extending with the laser connection; A microlens part mounted inside the body, the microlens part having a plurality of microlenses having an embossed structure of a stripe pattern on the surface, the microlenses being arranged adjacent to each other; An objective lens unit mounted inside the body and provided with two lenses arranged in parallel to the laser light path at regular intervals from the microlens unit to adjust a beam size of the laser light; An emitting unit having a hole formed at an end of the body for emitting laser light to the outside; And a protective lens installed between the emitting part and the objective lens to cut off foreign matter introduced from the hole, wherein one of the microlenses is rotated by an optical axis to change a laser beam pattern to be emitted.

The light guide further includes a spacing rod extending from the two ends of the emitting portion symmetrically to the holes and a contact portion connecting the spacing rods to each other by forming a semicircular ring vertically at the end of the spacing rod Preferably, the laser connection part is removably attachable by screwing with a laser connection arm of the laser treatment apparatus.

Preferably, the microlens portion includes: a fixed microlens that is fixed in either direction and is mounted in the body; and a fixed microlens that is rotated by an optical axis to change the direction of the stripe pattern, And a ring-shaped operating part extending from the rim of the rotating microlens and exposed to the outside of the body to rotate the rotating microlens.

In addition, it is preferable that the ring-shaped operating portion is formed with a locking structure which is rotatable up to 90 degrees in any one direction at a reference point, and can be selectively fixed to the body at 0 °, 45 ° and 90 °, It is preferable that the ring-shaped operating portion is formed with protrusions at the positions of 0 deg., 45 deg., And 90 deg.

According to a second aspect of the present invention, there is provided a laser treatment apparatus comprising: a laser light source system for generating laser light for skin treatment; A connection arm which transmits laser light and is connected to at least one connection joint to selectively adjust an irradiation position of the laser light; And a laser connection part coupled to the connection arm; A cylindrical body extending from the laser connection part; A microlens part mounted inside the body, the microlens part having a plurality of microlenses having an embossed structure of a stripe pattern, the microlenses being arranged adjacent to each other; An objective lens unit mounted inside the body, the objective lens unit being provided with two lenses arranged in parallel to the laser light path at regular intervals from the microlens unit and adjusting a beam size of the laser light; An exit part having a hole formed in an end of the body and irradiating the laser light to the outside; And a protective lens installed between the emitting part and the objective lens for shielding foreign substances entering from the hole, wherein one of the microlenses is rotated by the optical axis to change the laser beam pattern to be emitted.

The light guide further includes a spacing rod extending from the two ends of the emitting portion symmetrically to the holes and a contact portion connecting the spacing rods to each other by forming a semicircular ring vertically at the end of the spacing rod Wherein the microlens portion includes a fixed microlens fixed in one direction and fixed inside the body, and a fixed microlens rotated by an optical axis to change the direction of the triangle pattern, And a ring-shaped operating portion extending from the rim of the rotating microlens and exposed to the outside of the body to rotate the rotating microlens.

Preferably, the ring-shaped operating portion is formed with a locking structure capable of being rotated up to 90 DEG in any one direction at a reference point, and selectively fixed to the body at positions of 0 DEG, 45 DEG and 90 DEG, It is preferable that the ring-shaped operating portion is formed with protrusions at the positions of 0 deg., 45 deg., And 90 deg.

It is an object of the present invention to provide an apparatus and a method for manufacturing the same, which can easily manufacture various light irradiation patterns for laser treatment without replacement or replacement of other microlenses, The present invention provides a handpiece for a laser treatment apparatus and a laser treatment apparatus using the same.

In addition, it is possible to accurately locate the irradiation point of the laser beam, to clearly monitor the irradiation position by the user, to improve the durability of the handpiece, to irradiate laser beam of good quality, .

1 is a side view of a handpiece for a laser treatment apparatus according to an embodiment of the present invention,
2 is a schematic view showing the arrangement of microlenses of a handpiece for a laser treatment apparatus according to an embodiment of the present invention,
3 is a view illustrating a separation structure of a microlens portion in a handpiece for a laser treatment apparatus according to an embodiment of the present invention,
4 is a diagram illustrating a system configuration of a laser treatment apparatus using a handpiece for a laser treatment apparatus according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish it, will be described with reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. The embodiments are provided so that those skilled in the art can easily carry out the technical idea of the present invention to those skilled in the art.

In the drawings, embodiments of the present invention are not limited to the specific forms shown and are exaggerated for clarity. Also, the same reference numerals denote the same components throughout the specification.

The expression "and / or" is used herein to mean including at least one of the elements listed before and after. Also, singular forms include plural forms unless the context clearly dictates otherwise. Also, components, steps, operations and elements referred to in the specification as " comprises "or" comprising " refer to the presence or addition of one or more other components, steps, operations, elements, and / or devices.

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

1 is a side view of a handpiece for a laser treatment apparatus according to an embodiment of the present invention. As shown in FIG. 1, a handpiece according to an embodiment of the present invention includes a laser connection part 10 into which laser light is injected; A cylindrical body 20 extending from the laser connection part 10; A microlens part (30) mounted inside the body (20) and having a plurality of microlenses having an embossed structure of a stripe pattern on the surface, arranged adjacently and side by side; The objective lens unit 40 is provided inside the body 20 and has two lenses arranged in parallel to the laser light path at regular intervals from the microlens unit 30 to adjust the beam size of the laser light. ); An output unit 60 having a hole formed at an end of the body 20 to irradiate the laser light to the outside; And a protective lens (50) provided between the emitting part (60) and the objective lens to cut off foreign matter introduced from the hole, wherein one of the microlenses is rotated by an optical axis to emit a laser beam pattern And the like.

Here, the laser connection unit 10 is connected to the connection arm of the laser treatment apparatus. In order to transfer the laser beam from the laser source to the handpiece, it is preferable that the optical axis of the connection arm and the optical axis of the handpiece coincide with each other Do. It is preferable to form a structure in which screw grooves are formed on the inner side or outer side of the laser connecting portion 10 or the connecting arm to form a screwed structure so as to form a structure that can be accurately and reliably connected.

The cylindrical body 20 is a body of the handpiece according to an embodiment of the present invention and is preferably cylindrical in the path of the laser light. The cylindrical body 20 is disposed as an optical element inside the body 20 to adjust the focus or beam size and pattern of the laser light. There is an advantage that it is easy to do. Since the material of the handpiece body 20 is preferably made of a durable material and a lightweight material, it is preferable to use a lightweight metal material or a plastic material.

As shown in FIG. 1, the objective lens unit 40 is an optical element mounted inside the body 20 and provided in parallel with the laser light path to adjust the beam size of the laser light. In order to treat by irradiating light, it is necessary to adjust the beam size according to the size and type of various lesions. Therefore, in the embodiment of the present invention, the beam size of the irradiated laser light can be adjusted by adjusting the interval of the plurality of objective lenses provided parallel to the optical axis before the laser light is irradiated through the handpiece.

That is, the objective lens unit 40 includes two lenses arranged in parallel with the optical axis between the microlens unit 30 and the exit unit 60 inside the cylindrical body 20, and the distance between the lenses is adjusted And adjusts the beam size of the laser beam. Here, the beam size of the laser beam is adjusted by rotating the outer surface of the body 20 where the lens is located, thereby adjusting the distance between the lenses. Thus, the objective lens unit 40 can adjust the beam size by adjusting the distance between the lenses while maintaining the focal point of the laser beam constantly, thereby easily controlling the beam size of the laser beam appropriately irradiated to various lesions and the like There is an advantage that it can be.

The emitting unit 60 refers to a portion of the handpiece according to the embodiment of the present invention in which the laser light is emitted to the outside, and a hole is formed at the center of the end of the cylindrical body 20 so that the laser light escapes to the outside. The irradiating unit 60 is a part where the laser beam exits to the outside, and it is possible to accurately examine the lesion to be treated by adjusting the lateral position of the irradiating unit 60.

However, since the hole of the emitting unit 60 is smaller than the size and thickness of the handpiece, it is not easy for the user to align the hole with the treatment target and accurately irradiate the laser light. Therefore, A spacing rod extending from two points of the ends of the emitting portion 60 symmetrical with the holes and a contact portion connecting the spacing rods by forming a semicircular ring vertically at the end of the spacing rod, 65) are formed.

The irradiation guide 65 is provided at a certain distance from the hole with the spacing bar so that when the hole is too close to a lesion to be irradiated with laser light or the like, treatment can not be performed while observing the lesion due to the size or thickness of the handpiece , It is impossible to accurately examine them, and the use inconvenience is increased.

Therefore, in the embodiment of the present invention, two spacing bars each having a large gap at a predetermined interval are formed at the ends of the outgoing portion 60 having holes formed at positions symmetrical with the holes, and two spacing rods are bent It is preferable to form a semicircular ring having a surface perpendicular to the optical axis to form a contact portion for connection.

The contact portion extends the two spacing rods into a semicircular ring shape, which is a semicircle connecting both ends of a spaced apart rod positioned symmetrically with respect to the hole, passing through the center of the semicircle on a line extending from the hole Thus, there is an advantage in that the irradiation point of the laser beam can be accurately detected, and the semicircular ring-shaped contact portion at the irradiation point comes into contact with the skin, so that it is easy for the user to clearly monitor the irradiation position.

1, a protective lens 50 is mounted between the objective lens unit 40 and the output unit 60. This protects the diaphragm 60 from various foreign substances introduced into the hole of the emitting unit 60, It is possible not only to enhance the durability of the handpiece but also to increase the treatment efficiency by irradiating the laser beam of good quality.

The microlens unit 30 is a lens for forming an irradiation pattern of a laser beam. In the embodiment of the present invention, a structure in which microlenses having two stripe patterns are adjacently arranged is proposed. 2 is a schematic view showing the arrangement of microlenses of a handpiece for a laser treatment apparatus according to an embodiment of the present invention.

1 and 2, the irradiation pattern of the handpiece according to the embodiment of the present invention is determined by the microlens portion 30 provided inside the cylindrical body 20. The irradiation pattern of the handpiece 2 having the embossed structure of the stripe pattern A plurality of microlenses are arranged adjacent to each other, and another microlens rotatable relative to one fixed microlens is arranged.

As described above, conventionally, a laser light pattern is formed by simply applying a pattern of one microlens to a handpiece. In order to form another laser light irradiation pattern, it is necessary to replace the microlens in the handpiece, In order to solve the problem in which a plurality of other microlenses must be prepared in advance, in the embodiment of the present invention, a structure in which microlenses rotatable with respect to fixed microlenses are arranged adjacent to each other, And a new laser light irradiation pattern in which two patterns are combined with each other while passing therethrough can be variously and easily formed.

As shown in Fig. 2, when microlenses having two stripe patterns are arranged adjacently and another microlens is arranged to rotate perpendicularly to the stripe pattern with respect to one fixed microlens, In the case of forming a pattern having a quadrangle of a square and arranging the same in the same direction with respect to the stripe pattern of the fixed microlens, it is possible to form a stripe pattern, So that it is possible to easily form various patterns without the hassle of exchanging various patterns.

In addition, if another microlens is rotated at an angle of 45 degrees with respect to the stripe pattern of the fixed microlens, a 'diamond-like' pattern can be formed by combining two microlenses. As described above, the structure of the microlens unit 30 according to the embodiment of the present invention is not limited to the structure in which various patterns can be easily formed by external manipulation and can be changed, And the time required for the treatment and treatment can be shortened.

The use of a microlens having an embossed structure having a stripe pattern is advantageous in that the pattern is simple and easy to manufacture and the unit cost can be lowered, and a simple and various combination pattern can be formed by combining two stripe patterns This is because there are advantages.

3 is a view showing a separation structure of the microlens unit 30 in a handpiece for a laser treatment apparatus according to an embodiment of the present invention. 3, the microlens portion 30 of the handpiece according to the embodiment of the present invention is mounted inside the body 20, and a plurality of microlenses having an embossed structure of a stripe pattern on the surface are adjacent A fixed microlens (33) fixed to the body (20) in such a manner that the stripe pattern is fixed in either direction, and a fixed microlens (33) rotated by an optical axis to change the direction of the stripe pattern, A rotating microlens 35 mounted adjacent to the microlens 33 and a ring-shaped operating portion 38 extending from the rotating microlens rim and exposed to the outside of the body 20.

That is, in the embodiment of the present invention, one microlens having a stripe pattern is fixedly mounted inside the body 20, and the other microns having the same stripe pattern are arranged adjacent to each other, It is possible to form a laser beam irradiation pattern in various ways by a combination of two micro lens patterns. As shown in Fig. 3, the rotation of the rotating microlens 35 is a structure that extends from the rim of the rotating microlens 35 and rotates through a ring-shaped operating portion 38 exposed to the outside of the body 20.

In this manner, by exposing the ring-shaped operating portion 38 to the outside of the body 20, the user can conveniently rotate the projecting portion 37 to rotate the rotating microlens 35, thereby improving convenience for the user, It is possible to speed up the change of the pattern and shorten the procedure or treatment time.

It is preferable that the ring-shaped operating portion 38 is made of a rubber material pad so that the user can easily perform a rotating operation without slipping. The rotation angle is displayed at the reference point outside the pad, and the projection portion 37 is formed at the point It is desirable that the user rotates at a desired angle according to need and can easily recognize the change of the pattern in accordance with the rotation. For example, in the case of 0 ° at which rotation is not performed, the laser light irradiation pattern becomes a stripe pattern with a structure in which patterns are arranged in the same manner as the fixed microlens 33, and when the light is rotated by 45 degrees, And when it rotates 90 degrees, a quadrangular light irradiation pattern is formed.

Further, the ring-shaped operating portion 38 can be temporarily fixed at the rotational positions of 0 °, 45 °, and 90 ° so that the user can accurately and constantly change and manipulate the pattern. It is preferable that an engaging structure capable of selectively fixing is formed. Such an engaging structure can not only accurately set the rotational position of each pattern but also prevent the pattern from being changed at a pattern position set by another external environment, thereby enabling stable operation and treatment.

4 is a diagram illustrating a system configuration of a laser treatment apparatus using a handpiece for a laser treatment apparatus according to an embodiment of the present invention. As shown in FIG. 4, the laser treatment apparatus according to the embodiment of the present invention includes a laser light source system 300 for generating laser light for skin treatment; A connection arm 200 for transmitting laser light, connected by at least one connection joint and selectively adjusting an irradiation position of the laser light; And a laser connection part (10) attached to the connection arm (200); A cylindrical body 20 extending from the laser connection part 10; A microlens portion 30 mounted inside the body 20 and having a plurality of microlenses having an embossed structure of a stripe pattern on the surface thereof arranged adjacently and side by side; The objective lens unit 40 is provided inside the body 20 and has two lenses arranged in parallel to the laser light path at regular intervals from the microlens unit 30 to adjust the beam size of the laser light. )Wow; An output unit 60 having a hole formed at an end of the body 20 to irradiate the laser light to the outside; And a protective lens (50) provided between the emitting part (60) and the objective lens to cut off foreign substances introduced into the hole, wherein one of the microlenses rotates on the optical axis to change the laser light pattern The handpiece according to claim 1, Here, the handpiece is a handpiece illustrated in Figs. 1 to 3.

As described above, the present invention is not only easy to manufacture with a simple structure, low manufacturing cost, and easy to change various light irradiation patterns for laser treatment without replacement or replacement of other microlenses, The present invention provides a handpiece for a laser treatment apparatus and a laser treatment apparatus using the handpiece.

While the invention has been shown and described with respect to the specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone with it will know easily.

10: laser connection part, 20: cylindrical body, 30: microlens part,
33: fixed microlens, 35: rotating microlens, 40: objective lens part,
50: Protective lens, 60: Outgoing section, 65: Inspection guide

Claims (11)

A laser connection portion into which laser light is injected;
A cylindrical body extending with the laser connection;
A microlens part mounted inside the body, the microlens part having a plurality of microlenses having an embossed structure of a stripe pattern on the surface, the microlenses being arranged adjacent to each other;
An objective lens unit mounted inside the body and provided with two lenses arranged in parallel to the laser light path at regular intervals from the microlens unit to adjust a beam size of the laser light;
An emitting unit having a hole formed at an end of the body for emitting laser light to the outside; And
And a protective lens installed between the emitting portion and the objective lens for shielding foreign substances introduced from the hole,
Wherein a laser beam pattern emitted from one of the microlenses is rotated by an optical axis to change a laser beam pattern.
The method according to claim 1,
Further comprising a spacing rod extending from two points of the emission end portion symmetrically formed with the holes and a contact portion formed by vertically forming a semicircular ring at the end of the spacing rod to connect the spacing rods together Handpiece for laser treatment device characterized by.
The method according to claim 1,
Wherein the laser connection part is removably attachable by screwing with a laser connection arm of the laser treatment device.
4. The method according to any one of claims 1 to 3,
The micro-
A fixed microlens fixed in one direction and mounted inside the body,
A rotating microlens mounted adjacent to the stationary microlens, the rotating microlens rotating in an optical axis to change the direction of the trip pattern,
And a ring-shaped operating part extending from the rim of the rotating microlens and exposed to the outside of the body to rotate the rotating microlens.
5. The method of claim 4,
Wherein the ring-shaped operating portion is rotatable up to 90 DEG in any one direction at a reference point,
And a latching structure capable of being selectively fixed to the body at positions of 0 °, 45 °, and 90 °.
6. The method of claim 5,
Wherein the ring-shaped operating portion is formed with protrusions which indicate the positions at 0 °, 45 °, and 90 ° positions on the outer side surface.
A laser light source system for generating laser light for skin treatment;
A connection arm which transmits laser light and is connected to at least one connection joint to selectively adjust an irradiation position of the laser light; And
A laser connection part coupled to the connection arm; A cylindrical body extending from the laser connection part; A microlens part mounted inside the body, the microlens part having a plurality of microlenses having an embossed structure of a stripe pattern, the microlenses being arranged adjacent to each other; An objective lens unit mounted inside the body, the objective lens unit being provided with two lenses arranged in parallel to the laser light path at regular intervals from the microlens unit and adjusting a beam size of the laser light; An exit part having a hole formed in an end of the body and irradiating the laser light to the outside; And a protective lens installed between the emitting portion and the objective lens to cut off foreign matter introduced from the hole, wherein one of the microlenses is rotated by the optical axis to change a laser beam pattern to be emitted. And a handpiece for performing laser treatment.
8. The method of claim 7,
Further comprising a spacing rod extending from two points of the emission end portion symmetrically formed with the holes and a contact portion formed by vertically forming a semicircular ring at the end of the spacing rod to connect the spacing rods together Characterized by a laser treatment device.
9. The method according to claim 7 or 8,
The micro-
A fixed microlens fixed in one direction to be stuck inside the body,
A rotating microlens mounted adjacent to the stationary microlens, the rotating microlens rotating in an optical axis to change the direction of the trip pattern,
And a ring-shaped operating part extending from the rim of the rotating microlens and exposed to the outside of the body to rotate the rotating microlens.
10. The method of claim 9,
Wherein the ring-shaped operating portion is rotatable up to 90 DEG in any one direction at a reference point,
And a latching structure capable of selectively fixing to the body at positions of 0 °, 45 °, and 90 °.
11. The method of claim 10,
Characterized in that the ring-shaped operating portion is formed with protrusions which indicate the positions at 0 °, 45 °, and 90 ° positions on the outer surface.

Images