KR102094456B1 - Medical handpiece - Google Patents

Abstract

The present invention relates to a medical handpiece, and is used in a laser procedure or the like and relates to a medical handpiece capable of outputting various laser beam patterns. Medical handpiece for forming and irradiating a laser beam pattern according to an embodiment of the present invention, the body is provided with an internal space through which the laser passes; A lens structure including a pattern lens in which a plurality of individual patterns having a predetermined transmittance are arranged; And a lens holder coupled with the body, provided with a space for accommodating the lens structure, and detachable from the lens structure through the accommodation space. The laser transmitted through the pattern lens generates a predetermined laser beam pattern by the plurality of individual patterns.

Description

Medical handpiece

The present invention relates to a medical handpiece, and is used in a laser procedure or the like and relates to a medical handpiece capable of outputting various laser beam patterns.

Recently, dermatologists and surgeons have performed various procedures such as incision of skin tissue, hemostasis, pain relief, tattoo removal, and skin peeling using a laser. The laser beam used in medical procedures is a high-power laser and is generated through a laser generating device. In addition, the laser generated by the laser generating device is irradiated to the skin by forming a beam pattern in which one or more spots are arranged.

In order to form such a beam pattern, a medical handpiece has been developed and used. The following patent document discloses a medical laser handpiece.

However, the conventional medical handpiece has two lenses inside the handpiece, and through adjusting the distance of the lens, forms a laser beam pattern irradiated to the skin and controls the laser intensity.

In order to adjust the distance between the two lenses, the medical handpiece should be designed with a structure in which one or more lenses can be moved among the plurality of lenses. However, the structure of the medical handpiece increases the manufacturing cost of the medical handpiece, and there is a problem in that the deviation of the procedure according to the skill level in the medical field.

In addition, when the laser beam pattern formed according to the distance between the lenses is formed of a plurality of spots of relatively small size, there is a problem in that energy loss occurs due to interference and scattering. In addition, the conventional medical handpiece has a problem that can form only a simple pattern in a circular shape.

Korea Patent Publication No. 10-2013-0099330 (2013.09.06 published)

The present invention has been proposed to solve this conventional problem, it is possible to minimize the energy loss and form a variety of beam patterns, the object is to provide a simple medical handpiece structure.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by examples of the present invention. In addition, it will be readily appreciated that the objects and advantages of the present invention can be realized by means of the appended claims and combinations thereof.

According to the present invention for achieving the above object, a medical handpiece for forming and irradiating a laser beam pattern includes: a body provided with an inner space through which a laser passes; A lens structure including a pattern lens in which a plurality of individual patterns having a predetermined transmittance are arranged; And a lens holder coupled to the body, provided with a space for accommodating the lens structure, and detachable from the lens structure through the accommodating space, wherein the laser transmitted through the pattern lens is formed by the plurality of individual patterns. A predetermined laser beam pattern is generated.

The outer region of each individual pattern may have a relatively low transmittance compared to the non-outer region.

The individual patterns may have a circular shape or a polygonal shape, and the laser beam pattern may be a circular pattern or a polygonal pattern.

The medical handpiece may further include a probe in contact with the skin and coupled with the lens holder.

The body includes a fixed lens that focuses a laser and provides the pattern lens, and the laser passes through the fixed lens and the pattern lens to generate the laser beam pattern.

The lens structure includes a lens frame that protects the pattern lens, a flange is formed on a part of the outer periphery of the lens frame, and the flange is seated on a seating surface provided in an accommodation space of the lens holder, and the lens structure The lens holder may be coupled to each other.

Magnetic material is formed at both ends of the flange, and a magnetic material is formed on a seating surface of the lens holder, so that the magnetic material formed on the flange and the magnetic material formed on the seating surface are magnetically coupled to the lens structure and the lens holder. You can combine with each other.

The pattern lens may include a blocking area blocking the transmission of the laser and a pattern area in which the individual patterns are arranged.

The present invention has an advantage of simplifying the internal structure of the medical handpiece and lowering the manufacturing cost of the medical handpiece by generating a laser beam using a pattern lens on which a beam pattern is formed, rather than a distance between lenses.

In addition, the medical handpiece according to the present invention has a structure in which a pattern lens is detachably attached to a lens holder, and thus various beam patterns can be easily generated through replacement of the pattern lens.

In addition, the medical handpiece according to the present invention, by treating the outer region of the individual pattern to have a relatively low transmittance, the effect of removing the energy excess phenomenon (ie, laser double irradiation phenomenon) generated in the overlapping portion of the individual pattern There is.

In addition, the medical handpiece according to the present invention has the advantage of being able to form various laser beam patterns such as a circular pattern, a polygonal pattern, and a geometric pattern through various types of pattern lenses.

In addition, the present invention generates a laser of a constant wavelength, and through the pattern lens transmittance and pattern, it is possible to control the energy intensity substantially irradiated to the skin, the amount of laser output to the skin through the replacement of the pattern lens (that is, Even the amount of energy) has an effect that can be easily controlled.

In addition, the medical handpiece according to the present invention has an advantage of minimizing interference and scattering phenomena occurring in individual patterns by outputting a final laser beam pattern using a pattern lens.

The following drawings attached to this specification are intended to illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with specific details for carrying out the invention, and thus the present invention is described in such drawings. It should not be interpreted as being limited to the matter.
1 is a view showing a perspective view of a medical handpiece according to an embodiment of the present invention.
2 is an exploded perspective view of a medical handpiece according to an embodiment of the present invention.
3 is a view showing a state in which the lens structure is disassembled in the lens holder according to an embodiment of the present invention.
4 is a view showing a top view of a lens holder according to an embodiment of the present invention.
5 is a perspective view of a lens structure according to an embodiment of the present invention.
6 is a front view of a lens structure, according to an embodiment of the present invention.
7 is a diagram illustrating various pattern lenses.
8 is a view illustrating an enlarged state in which individual patterns overlap in a laser beam pattern.
9 is a view illustrating an individual pattern having a different transmittance of an outer portion according to an embodiment of the present invention.

The above objects, features, and advantages will become more apparent through the following detailed description in connection with the accompanying drawings, and accordingly, those skilled in the art to which the present invention pertains can easily implement the technical spirit of the present invention. There will be. In addition, in the description of the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a perspective view of a medical handpiece according to an embodiment of the present invention.

2 is an exploded perspective view of a medical handpiece according to an embodiment of the present invention.

1 and 2, according to an embodiment of the present invention, the medical handpiece 100 is a cable 110, the body 120, the lens holder 130, the lens structure 140 and the probe 150 ).

The cable 110 connects an external control system (not shown in the drawing) and the medical handpiece 100 by wire. The control system may adjust the size (ie, the amount of energy) of the laser supplied to the medical handpiece 100 step by step, and may control the laser wavelength.

The cable 110 is electrically connected to the electronic device of the body 120 through a connection terminal (not shown in the figure) provided inside the body 120. The medical handpiece 100 may be supplied with power through the cable 110 and receive a control signal or a laser generation signal from a control system.

The body 120 is cylindrical, and is configured to have a certain space through which the laser can pass. In the inner space of the body 120, a fixed lens 121 is included. A fixing member for fixing the fixing lens 121 is formed on the inner circumferential surface of the body 120, and the fixing lens 121 is coupled to the inner circumferential surface of the body 120 through the fixing member. The fixed lens 121 is a lens for focusing, and the laser is focused to supply the lens structure 140.

The lens holder 130 is formed with a receiving space in which the lens structure 140 can be accommodated and a seating surface on which the lens structure 140 is seated, and can be combined with the lens structure 140 through the receiving space and the seating surface. have. In addition, the lens structure 140 may be separated from the lens holder 130.

In addition, the body 120 and the lens holder 130 are removable from each other. One end of the body 120 and the other end of the lens holder 130 may be coupled to each other by being coupled by screwing. That is, a screw portion is formed on one outer periphery of the body 120, and a screw portion is formed on the inner periphery of the other end of the lens holder 130, and the two screw portions are screwed together, so that the body 120 and the lens holder 130 may be combined.

The body 120 may include a laser generator (not shown in the drawing) that generates a laser having a constant wavelength. That is, a laser generator that generates a certain wavelength under the control of the control system may be included in the body 120. As another embodiment, the body 120 may be supplied with a laser from an external control system without generating the laser itself, and in this case, one or more reflectors (shown in the drawing) for reflecting the laser flowing from the outside in a certain direction. May not include).

According to this structure, the laser having a predetermined wavelength in the interior space of the body 120 passes through the fixed lens 121 and the pattern lens 141, and the intended laser beam pattern is output.

The probe 150 has a shape in which the outer diameter gradually decreases, and a space through which a laser beam pattern passes is formed inside. The probe 150 includes a contact member 151 that is in contact with the skin during treatment or procedure.

The probe 150 and the lens holder 130 may be coupled to each other, or may be separated. That is, the other end of the probe 150 and one end of the lens holder 130 have a structure that can be coupled to or separated from each other. When a coupling ring (for example, a rubber ring) having a constant elastic force and frictional force is formed on one outer circumferential surface of the probe 150, and the outer circumferential surface of the probe 150 is inserted into the inner circumferential surface of the lens holder 130 through pressing, The probe 150 may be coupled to and fixed to the lens holder 130 through the coupling ring. In addition, the probe 150 and the lens holder 130 may be coupled through a screw connection.

The lens holder 130 performs a function of maintaining and supporting the pattern lens 141 of the lens structure 140 to be parallel to the fixed lens 121.

3 is a view showing a state in which the lens structure is disassembled in the lens holder according to an embodiment of the present invention.

4 is a view showing a top view of a lens holder according to an embodiment of the present invention.

5 is a perspective view of a lens structure according to an embodiment of the present invention, and FIG. 6 is a front view of a lens structure according to an embodiment of the present invention.

3 to 6, the lens holder 130 is formed with a receiving space and a seating surface on which the lens structure 140 can be accommodated, and one or more magnetic materials 131a and 131b are formed on the seating surface. . The magnetic materials 131a and 131b formed on the seating surface of the lens holder 130 are magnetically coupled with the magnetic materials 143a and 143b formed at both ends of the flange 143 of the lens structure 140.

The lens structure 140 surrounds the outer periphery of the pattern lens 141 and the pattern lens 141 that has a constant beam pattern and performs an aperture function, and includes a lens frame 142.

In the pattern lens 141, a plurality of individual patterns P having a predetermined transmittance are arranged on one surface of the pattern lens 141, so that the pattern 141b is formed on the pattern lens 141.

The pattern lens 141 includes a blocking area 141a that blocks transmission of the laser and a pattern area 141b that passes a laser according to a predetermined transmittance and forms a constant laser beam pattern. 3 to 7, the blocking area 141a is represented by black. A metal film (or coating material) that blocks the transmission of the laser may be formed on the pattern lens 141 at the position of the blocking area 141a. Further, in the pattern area 141b, the individual pattern P transmits the laser according to a predetermined transmittance, but the area where the individual pattern P is not located in the pattern area 141b is lower than the individual pattern P. It can have a transmittance, thus allowing the laser to transmit at a lower rate. Alternatively, an area in which the individual pattern P is not positioned in the pattern area 141b may block transmission of the laser.

The size of the blocking area 141a and the size of the pattern area 141b (especially, the size of the individual patterns) may be changed according to the use, and accordingly, the pattern lens 141 may control the amount of laser transmission. It performs a kind of aperture function. Incidentally, even if a laser of a constant wavelength is generated, the energy intensity (ie, the amount of laser) that is substantially irradiated to the skin can be adjusted through the transmittance and pattern of the pattern lens 141, so that the pattern lens 141 can be replaced. Through this, it is possible to easily control even the amount of laser output (that is, the amount of energy) injected into the skin.

Each individual pattern P has a predetermined transmittance, and the individual pattern P is formed in the pattern region 141b in an array form, and the laser passing through the individual pattern P in the array form The skin is irradiated with a predetermined laser beam pattern. The individual patterns p may be formed in the pattern regions 141b to be spaced apart from each other at regular intervals.

In the production of the pattern lens 141, a metal film having a pattern according to the blocking region 141a and a pattern according to the pattern region 141b is combined with the lens, so that the pattern lens 141 can be manufactured.

Meanwhile, a plurality of pattern lenses 141 may be manufactured in various shapes to have different sizes and patterns.

7 is a view illustrating various pattern lenses, as shown in (a) of FIG. 7, a pattern lens in which a plurality of circular individual patterns are arranged to form a square pattern may be manufactured, and FIG. 7 (b) and Likewise, a plurality of square-shaped individual patterns may be arranged to form a pattern lens to form a square pattern. In addition, a pattern lens in which individual patterns in a circular shape are arranged to form individual patterns in a cross shape may be manufactured as shown in FIG. 7C.

In addition, various pattern lenses may be manufactured by arranging individual patterns in the form of polygons or circles according to the use purpose to form a circle pattern, a polygon pattern, or a geometric pattern. In addition, the size of the individual patterns included in the pattern lens 141 may also be variously changed according to the procedure / medical use.

The lens structure 140 including the pattern lens 141 manufactured in various patterns is used in combination with the lens holder 130 according to medical / procedure use.

The lens structure 140 includes a lens frame 142 for protecting the pattern lens 141 from external impact and attaching the pattern lens 141 to the medical handpiece 100.

The lens frame 142 is provided with a through space in which the pattern lens 141 is accommodated, and the pattern lens 141 is received and fixed in the through space. In addition, the lens frame 142 may be formed of a metal material to protect the pattern lens 141 from external impact, and the shape of the lens frame 142 is seated in the receiving space of the lens holder 130 It is manufactured in an acceptable form.

A semi-circular flange 143 is formed on a part of the outer periphery of the lens frame 142, and looking at the overall shape of the lens frame 142, the diameter of the first semicircle in which the flange 143 is not formed The diameter of the second semicircle on which the flange 143 is formed is relatively short. When the lens structure 140 is coupled to the lens holder 130, the outer surface of the flange 143 protrudes outward from the lens holder 130, so that it is easy to separate the lens structure 140 from the lens holder 130. To do.

In addition, magnetic materials 143a and 143b are formed at both bottoms of the flange 143. In the state in which the lens structure 140 is seated in the vertical direction to the lens holder 130, the lens is coupled to the magnetic material (131a, 131b) formed on the seating surface of the lens holder 130 to be magnetically coupled, the lens The magnetic materials 143a and 143b formed on the flange 143 of the frame 142 are formed at positions corresponding to the magnetic materials 131a and 131b of the lens holder 130.

The lens structure 140 having such a structure is detachable from the lens holder 130. Incidentally, when the lens structure 140 is seated in the vertical direction in the receiving space of the lens holder 130, magnetic materials 143a and 143b formed on the flange 142 are attached to the seating surface of the lens holder 130. The lens holder 130 and the lens structure 140 may be magnetically coupled to each other by magnetically coupling with the formed magnetic materials 131a and 131b. Accordingly, the pattern lens 141 is positioned on the medical handpiece 100 in parallel with the fixed lens 121.

Meanwhile, the outer region of each individual pattern P may be processed with a low tone so that the outer region of the individual pattern P has a relatively low transmittance compared to the non-outer region. Incidentally, in the laser beam pattern formed through the pattern lens 141 of the lens structure 140, the outer portions of each individual pattern may overlap each other. In this case, a problem in which energy is excessively irradiated to the skin may occur in a region where individual patterns overlap.

FIG. 8 is a diagram illustrating an enlarged state in which individual patterns overlap in a laser beam pattern. As illustrated in FIG. 8, a state in which the outer portions of each individual pattern overlap each other may occur. In this case, excessive laser is irradiated in an area where the individual patterns overlap (the black part in FIG. 8), which may cause skin side effects.

In order to prevent such double irradiation, in another embodiment of the present invention, the outer region of each individual pattern is treated to have a relatively low transmittance. That is, the pattern is processed with a low tone so that the outer region (ie, edge region) of each pattern is set to a preset transmittance (for example, 50%) compared to the transmittance of other regions (ie, non-outer region), so It may be formed on the lens 141.

9 is a view illustrating an individual pattern having a different transmittance of an outer portion, according to an embodiment of the present invention.

9 (a) and 9 (b), the outer regions 91a and 91b (represented by diagonal lines in FIG. 9) among the individual patterns of the circular shape are relatively low compared to the non-outer regions 92a and 92b. Transmittance (eg, 50%). Depending on the size and shape of the individual patterns, the widths of the outer regions 91a and 91b may be set to be different from each other to be manufactured. In this way, due to individual patterns having different transmittances between the outer regions 91a and 91b and the non-outer regions 92a and 92b, even if an overlapped region occurs between individual patterns in the finally output laser beam pattern, the overlapped region The amount of energy generated (that is, the amount of laser irradiation) becomes uniform with the amount of laser irradiation in the non-overlapping region.

As described above, the medical handpiece 100 according to the present invention does not manipulate the distance between the lenses, but generates a laser beam pattern using the patterned lens 141 to simplify the medical handpiece structure. . In addition, the medical handpiece 100 has a structure in which the lens structure 140 is detachably attached to the lens holder 130, and thus various beam patterns through replacement of the lens structure 140 having different pattern lenses 141. Can be easily formed. In addition, the medical handpiece 100 according to the present invention, by treating the outer region of each individual pattern to have a relatively low transmittance, the excessive energy generated in the portion where the individual patterns overlap (ie, laser double irradiation phenomenon) Remove it. In addition, through the pattern and transmittance of the pattern lens included in the medical handpiece 100, it is possible to control the energy intensity substantially irradiated to the skin, and the amount of laser output (ie, the amount of energy) irradiated to the skin through replacement of the pattern lens ) To provide a medical environment that can be easily controlled. In addition, the medical handpiece 100 according to the present invention minimizes interference / scattering phenomena occurring in individual patterns by outputting a final laser beam pattern using a pattern lens.

The present invention described above, since it is possible for a person of ordinary skill in the art to which the present invention pertains, various substitutions, modifications, and changes are possible within the scope of the technical spirit of the present invention, and the above-described embodiments and attached It is not limited by the drawings.

100: medical handpiece
110: cable
120: body
121: fixed lens
130: lens holder
131a, 131b: magnetic material
140: lens structure
141: pattern lens
142: lens frame
143: flange
150: Brobu
151: contact member

Claims (8)

In the medical handpiece to form a laser beam pattern for irradiation,
A body provided with an internal space through which the laser passes;
A lens structure including a pattern lens in which a plurality of individual patterns having a predetermined transmittance are arranged and performing an aperture function; And
Includes a lens holder coupled to the body, a space for accommodating the lens structure is provided, and the lens holder is detachable from the lens structure through the accommodation space.
The body includes a fixed lens that provides the pattern lens by focusing the laser,
The laser transmitted through the pattern lens generates a predetermined laser beam pattern by the plurality of individual patterns,
The outer region of the individual pattern corresponding to the region overlapping between the individual patterns in the laser beam pattern has a relatively low transmittance compared to the non-outer region corresponding to the region not overlapping between the individual patterns in the laser beam pattern. ,
The distance between the fixed lens and the pattern lens is kept constant, and when the lens structure coupled to the lens holder is replaced, the laser beam pattern is also changed by the pattern lens included in the replaced laser structure. Handpiece. delete According to claim 1,
The individual patterns are circular or polygonal, and the laser beam pattern is a circular or polygonal pattern. According to claim 1,
A medical handpiece, further comprising a probe in contact with the skin and coupled with the lens holder. delete According to claim 1,
The lens structure includes a lens frame protecting the pattern lens,
A flange is formed on a part of the outer periphery of the lens frame, and the flange is seated on a seating surface provided in an accommodation space of the lens holder, so that the lens structure and the lens holder are mutually coupled. The method of claim 6,
Magnetic materials are formed on both ends of the flange, and magnetic materials are formed on the seating surface of the lens holder.
A magnetic handpiece for medical treatment, characterized in that the magnetic material formed on the flange and the magnetic material formed on the seating surface are magnetically coupled so that the lens structure and the lens holder are mutually coupled. According to claim 1,
The pattern lens,
Medical handpiece, characterized in that it comprises a blocking area for blocking the transmission of the laser and a pattern area in which the individual patterns are arranged.

Images