KR20130102176A - Laser handpiece - Google Patents

Abstract

PURPOSE: A side radial type laser hand piece is provided to implement efficiency and lost cost by removing the transmission loss of a laser beam with the direction connection of a laser resonator to the hand piece and eliminating the need to use an extra reflector or a specific twist for the side emission of the laser beam. CONSTITUTION: A side radial type laser hand piece includes a housing (31) and a laser tip (39) connected with the housing. A convergent lens (38) collecting a laser beam in the rear of the laser tip is included in the inner front of the housing and a reflector reflecting the laser beam is included in the inner front of the housing.

Description

Lateral radial laser handpiece {Laser handpiece}

The present invention relates to a handpiece used in a medical laser device, and more particularly to a side-radiation laser handpiece which can be safely and purposely operated on the treatment site by irradiating the laser beam to the side rather than the front of the laser tip. It is about.

The advantages of lasers have increased the demand for the use and application of lasers in the medical field. Therefore, the range of use has become more diversified and wider, and according to the procedure, more detailed light (laser beam) control is required.

The laser beam is radiated through the laser tip mounted on the handpiece held by the user (operator) and irradiated to the treatment site.

For stable and efficient laser treatment, the laser beam should be irradiated in a limited and narrow space in the direction desired by the operator without disturbing the surroundings. By the way, the prior art has a limit to the laser beam to be irradiated in the direction desired by the operator as follows.

The laser tip 3b for irradiating the laser beam to the outside is generally mounted in a straight shape on the front surface of the housing 3a of the handpiece or 'a' shaped on the side of the housing 3a, as shown in FIG. Consisting of a long cylindrical shape, the rear side receives the laser beam from the inside of the housing of the handpiece and the front side irradiates the laser beam incident inside.

Laser tip (3b) according to the prior art for irradiating the laser beam to the front is limited to use in a place where the treatment space is narrow or the structure of the treatment site is complex. For example, in the dental procedure, the conventional laser tip that irradiates the laser beam to the front can irradiate the laser beam to the inner bottom surface of the deep wound hole in the gum during periodontal treatment, but irradiate the laser to the side of the wound life. Difficult to do

Therefore, some laser tips give a physical bending at the front end, but due to the bending occurs a surgical site limited access to the laser tip, there is a problem that the bending processing of the laser tip is difficult and expensive.

As shown in FIG. 2, a laser apparatus used for medical purposes is generally equipped with a laser resonator 2 that generates and outputs a laser beam on a main body 1, and is held by a user (usually a doctor) and sends a laser beam to a patient. The handpiece 3 to be irradiated has a structure connected to the laser resonator 2 through the optical fiber 4.

At this time, the optical fiber 4 for transmitting the laser beam can be bent with a length of about 2m to facilitate the position adjustment of the handpiece (3).

However, the problem in the laser device according to the prior art as described above is that the transmission loss ratio of the laser beam in the optical fiber (4) is considerable.

For example, a transmission loss of 30% or more occurs in the process of transmitting a laser beam having a wavelength range of 2900 nm to 3000 nm through the optical fiber 4, and a laser beam having a wavelength of 2940 nm, which is mainly used in dentistry, is used in the optical fiber 4 The transmission loss is 60% ~ 70%.

When the transmission loss of the laser beam is generated in the optical fiber 4, the capacity of the power supply device 5 and the cooling device 6 provided in the main body must be large in order to compensate for this and to cool the heat generated by the loss.

In addition, the optical fiber that can be used in the laser beam in the wavelength range of 2900nm-3000nm is not an ordinary fiber made of silica but currently three kinds of sapphire, fluoride, and hollow wave guide, all of which are prone to mechanical shock.

And because the optical fiber is very vulnerable to external moisture, impurities or moisture can be adsorbed onto the optical fiber by exposing it to the outside during tip replacement. In addition, contaminants on the tip may be adsorbed onto the surface of the optical fiber by generating fine impurities such as smoke while being hit by the laser.

Such adsorbed impurities must immediately replace the optical fiber when the laser is generated and it can no longer be used. In medical laser devices, there are tubes for spraying water and air for spraying to the handpiece around the optical fiber. Replacing fiber optics can be a daunting task because all of these must be replaced together. In other words, there is a problem that must be visited by a professional mechanic every time, because the user can not easily work.

The present invention is a laser tip provided on the handpiece of the medical laser device according to the prior art as described above to irradiate the laser beam to the front to produce a region that is difficult to irradiate the laser beam or structurally irradiated according to the surgical site Invented to solve the problem of the limitation of the procedure, the laser beam is irradiated to the side of the laser tip to enable a stable and purposeful laser procedure, and special bending or separate reflector for the side irradiation of the laser beam This eliminates the need to provide an inexpensive side radial laser handpiece.

In addition, the invention was devised to solve various problems caused by connecting the laser resonator and the handpiece with an optical fiber. The laser beam is transmitted by removing the optical fiber and directly connecting the laser resonator to the handpiece using a connecting member. It is an object of the present invention to provide a laser resonator-coupled laser handpiece that is cost-effective and convenient for maintenance work because there is no loss, and thus the capacity of the power supply device and the cooling device is minimized.

Laser resonator coupled handpiece device according to the present invention for achieving the above object

A housing held by the user;

Is coupled to the housing, the laser tip for irradiating the incident laser beam to the outside;

The laser tip is a straight line, characterized in that the front side is formed with a side surface treatment to reflect the incident laser beam to the side to emit.

And the laser tip is characterized in that made of crystal or quartz or sapphire material,

A laser resonator for generating a laser beam;

And a connection member having a joint arm connecting the laser resonator to the housing so that the angle of the housing can be adjusted with respect to the laser resonator.

The side-radiation laser handpiece according to the present invention having such a configuration can irradiate a laser beam stably to a purpose even in a region where the treatment space is narrow such as a deep wound hole because the laser beam is irradiated to the side of the laser tip. The machining of the machining surface for irradiating the laser beam to the side is simple and inexpensive.

In addition, in the prior art, there is no transmission loss of the laser beam transmitted from the optical fiber by not using the optical fiber connecting the laser resonator and the handpiece, and accordingly, a power supply device and a cooling device may have a small capacity. It is also possible to use a small one, it can significantly reduce the manufacturing cost of the laser device.

1 is a cross-sectional view of a handpiece using a laser tip according to the prior art.
2 is a block diagram of a medical laser device according to the prior art.
3 is a cross-sectional view of a handpiece having a side radial laser tip according to the present invention.
4 is a schematic configuration diagram of a laser device using a side radial laser handpiece device according to the present invention;
5 is a block diagram of a handpiece coupled laser resonator according to the present invention.
Figure 6 is an example of a connecting member used in the laser resonator coupled handpiece according to the present invention.

Hereinafter, with reference to the drawings will be described in more detail with respect to the side radial laser handpiece according to the present invention.

As shown in FIG. 3, the side radial laser handpiece 30 according to the present invention includes a housing 31 held by a user and a laser tip 39 connected to the front or front side of the housing 31. Is done.

In addition, a converging lens 38 for converging the laser beam to the rear of the laser tip 39 is provided at the front of the housing 31 in which the laser tip 39 is connected to the front surface, and the laser tip 39 is provided at the front side. In front of the inside of the housing 31 to be connected is provided a reflector 39 for reflecting the laser beam to enter the laser tip 39 back.

The laser tip 39 is made of a transparent material having a large refractive index, such as crystals, sapphires, and quartz.

The laser beam incident on the rear surface of the transparent and high refractive index laser tip 39 is totally reflected inside the laser tip 39 and proceeds forward without being emitted to the outside in the middle.

At this time, the laser beam which is totally reflected and proceeds forward is irradiated to the outside through the front surface in the cylindrical laser tip according to the prior art, the laser tip 39 of the present invention is formed with a side-radiation processing surface (39a) in front The laser beam is reflected at the machining surface 39a and irradiated to the outside through the side surface.

Therefore, the present invention can stably irradiate the laser beam to all the treatment area such as a deep hole as long as the laser tip 39 can enter.

For reference, since the laser tip 39 is replaceably coupled to the housing 31, the cylindrical laser tip according to the prior art is applied to the surgical site where the laser beam needs to be irradiated to the front of the laser tip such as the bottom of the hole. What is necessary is just to irradiate a laser beam by mounting to a housing, and to irradiate a laser beam by mounting the laser tip 39 which concerns on this invention to the housing 31 on the side surface of a life preserver.

The laser tip 39 of the present invention has a straight structure and is simple in shape. The laser tip 39 is cut in an oblique line at the front to easily form the side-radiation processing surface 39a, and the manufacturing cost is low.

As shown in FIG. 4, the medical laser apparatus to which the laser handpiece according to the present invention is applied includes a power supply device 50, a cooling device 60, a controller 70, and a touch panel monitor for a user's operation. 80 and the like, the laser beam resonator 20 is coupled to the handpiece 30 is coupled to the handpiece 30 to the handpiece 30 that the user grips and irradiates the laser beam to the patient. The laser resonator 20 receives power for generating a laser beam from the power supply device 50 through a power cable.

According to the present invention, since the transmission loss of the laser beam is reduced as the optical fiber used to connect the laser resonator and the handpiece for a long time is reduced, the user feels even when the laser resonator 20 is miniaturized and directly connected to the handpiece 30. The weight does not increase significantly.

When the optical fiber is used, when the optical fiber is removed at the same intensity when comparing the laser intensities of the final stage, the capacity of the laser resonator 20 is reduced and the size is also reduced because the optical fiber is compensated for the transmission loss. It becomes the size which is fully operable.

As shown in FIGS. 5 and 6, the connecting member 40 connects the laser resonator 20 and the handpiece 30, so that there is no inconvenience in treating the patient, that is, for the laser resonator 20. The angle of the handpiece 30 is free to allow the user to arbitrarily change the direction of irradiation of the laser beam freely. It includes reflectors 45, 47 for changing the optical path so that the laser beam transmitted from the laser resonator 20 is transmitted to the handpiece 30 in response to the angle change.

One side of the first joint 41 is rotatably connected to the laser resonator 20, and one side of the second joint 43 is rotatably connected to the other side of the first joint 41, and the other side of the first joint 41 is rotatable. Connected to the laser resonator 20, the handpiece 30 is free to adjust the angle in any direction with respect to the laser resonator 20.

The reflectors 45 and 47 are embedded in the joint arms 41 and 47, and the laser beam transmitted from the laser resonator 20 is transmitted to the handpiece 30 even when the angle of the handpiece 30 is changed. Let's do it.

As shown in FIG. 5, the handpiece 30 outputs a laser beam transmitted from the laser resonator 20 to the outside through the joint arm 40 to be irradiated to the patient.

The handpiece 30

A housing 31 held by a user;

A laser tip 39 provided at an end to irradiate the laser beam to the outside;

A lens 33 for collecting a laser beam incident through the reflectors 45 and 47 of the articulation arm 40 to make a small spot;

An optical fiber 35 for receiving and transmitting a laser beam having a small spot passing through the lens 33;

It includes a spherical mirror (37) for focusing the laser beam output from the optical fiber 35 to transmit to the tip (39).

Without the lens 33 and the optical fiber 35, the laser beam reflected from the reflector 45, 47 of the connecting member 40 may be directly incident on the spherical mirror 37 of the handpiece 30, In accordance with the change of the angle of the joint arm (41, 43) of the connecting member 40, a minute mechanical error is generated, the minute error is at a certain position of the spherical mirror that is a few cm to several tens of centimeters behind the reflector (45, 47) This hinders the laser beam to always enter correctly.

Therefore, a lens 33 having a short focal length is provided at the rear end of the second joint 43 of the connecting member 40 so that the laser beam incident from the reflector 47 is focused while passing through the lens 33 to form a small spot. One end of the optical fiber 35 is disposed at the point where the laser beam passing through the lens 33 is focused so that the optical fiber 35 receives the laser beam without loss, and the incident laser beam enters the correct position of the spherical mirror 37. Be sure to

At this time, the shorter the focal length, the smaller the focal spot can be made, so that the laser beam focused on the small spot through the lens 33 can be incident without loss to the hundreds of um of the thin optical fiber 35. In addition, the optical fiber 35 is only about 10 cm in length, so the transmission loss of the laser beam is only negligible.

Frequent damage to the handpiece 30 during use is the optical fiber 35, spherical mirror 37, and tip 39, so that the optical fiber 35 and spherical mirror 37 can be easily replaced by a user without being an expert. ), The tip 39 preferably has a structure that is attached to the housing 31.

In the above description of the present invention has been described with respect to the side-radiation laser handpiece having a specific shape and structure with reference to the accompanying drawings, the present invention can be variously modified and changed by those skilled in the art, such variations and modifications are the present invention It should be interpreted as falling within the protection scope of.

10 main body 20 laser resonator
30: handpiece
31 housing 33 lens
35 optical fiber 37 spherical mirror
39: tip 39a: side surface finish
40:
41, 43: articular cancer 43, 45: reflector

Claims (3)

A housing held by the user;
Is coupled to the housing, the laser tip for irradiating the incident laser beam to the outside;
The laser tip is a straight line, the front side radiation type laser handpiece, characterized in that the front side is formed with a side surface radiation processing to reflect the incident laser beam to the side. The method of claim 1,
The laser tip is a side radial laser handpiece, characterized in that made of a crystal or quartz or sapphire material. 3. The method according to claim 1 or 2,
A laser resonator for generating a laser beam;
And a connecting member having a joint arm connecting the laser resonator and the housing to enable angle adjustment of the housing with respect to the laser resonator.

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