JP3043909B2 - Laser therapy equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement in a laser fiber connecting mechanism for detachably connecting a light guiding laser fiber connected to a laser handpiece to a laser generator in a medical laser treatment apparatus.

[0002]

2. Description of the Related Art Conventionally, laser handpieces have been widely used for medical and dental purposes for the purpose of transpiration, incision, coagulation, hemostasis or warming of living tissues and pain relief.
It has improved medical effects. In these laser treatments, a soft living tissue is irradiated with a carbon dioxide laser or a Nd: YAG laser, and the tissue is heated, evaporated and coagulated.

In recent years, it has been known that an Er: YAG laser or an HF laser excites OH groups contained in hard tissues such as bones and teeth of a living body to evaporate the hard tissues. It is being used for treatment of teeth themselves using Er: YAG laser.

[0004] The present applicant has proposed a structure of a contact type laser handpiece body suitable for tooth formation treatment, such as tooth cavity formation, root canal formation treatment, calculus removal, etc., using an Er: YAG laser. Proposals have been made for a replaceable laser probe, a fiber protection tube provided with a water supply channel, and the like (Japanese Patent Application Nos. 3-211837 and 3-33976).

[0005] In general, a laser treatment apparatus has a required length of a laser oscillator and a laser handpiece operable to be gripped and operated, except for a laser handpiece that outputs a small amount of laser light. And the tip of the irradiation probe or tip connected to this laser fiber at the tip of the handpiece to irradiate the affected area, making the handpiece itself smaller and lighter, and more operable. It is planned.

Various improvements have been made to the connection structure for optically joining the light-guiding laser fiber and the irradiation probe fiber in the laser handpiece. On the other hand, as for the connection between the laser generator and the laser fiber, conventionally, an optical lens mechanism for focusing laser light from a laser oscillator provided in the laser generator is fixed to the laser generator, and the tip of the laser fiber is fixed. A connection mechanism has been adopted in which a connector for fixing the optical fiber is screwed into a jacket member of the optical lens mechanism, and the incident end face of the laser fiber is positioned at the focal position of the optical lens.

[0007]

At the connection portion between the laser oscillator and the laser fiber, the laser beam, which is focused and has a high energy density and is infrared light, is applied to the incident end face of the fiber. Is absorbed by the end face, and the end face is heated.

When solids such as dust and liquids such as water droplets adhere to the incident end face of the laser fiber, the solids on the end face are heated by the incidence of the laser beam. Particularly when a high-power laser is used, There was a risk that the end face of the solid material would be seized or the end face would be damaged by heating. Such dust and the like can be attached even when the laser fiber is detached from the laser generator and sterilized and washed when the laser fiber is replaced.

In particular, the aforementioned Er: YAG laser or HF
2.94 μm is used for a dental treatment device using a laser.
A laser glass fiber for guiding light of a fluoride glass having a small absorption coefficient with respect to light having a wavelength of m or 3 μm is preferably used. I do. for that reason,
The outer periphery of the light guiding fiber is protected by a light-shielding and moisture-proof covering material, but the exposed optical end surface absorbs the laser light easily in room air, and is easily damaged by heat generation. Resulting in.

The connecting mechanism of the fluoride glass light guiding laser fiber in the handpiece is disclosed in the earlier application (Japanese Patent Application No. Hei 3-211837).
The light guide path of the hollow portion provided between the emission end face of the light guide laser fiber and the incidence end face of the probe laser fiber attached to the tip of the handpiece is separated by a light-transmitting shielding plate. Air chambers are provided on both sides, and an air pipe is connected from the back of the handpiece to the air chamber on the emission end face side of the light guide laser fiber, and dry air is constantly supplied to the air chamber to dry the emission end face. By cooling, moisture absorption deterioration of the fluoride laser fiber was solved. However, moisture-proofing of the incident-side end face connected to the laser oscillator has not been solved yet.

SUMMARY OF THE INVENTION In view of the above problems, the present invention provides a method for connecting a light guide laser fiber to a laser oscillator, which is connected to a connector to which the light guide laser fiber is fixed, when removing and replacing the connector. Another object of the present invention is to provide a laser treatment apparatus having a detachable laser fiber connection mechanism that can prevent dust and can effectively prevent moisture and can effectively cool during laser irradiation.

[0012]

The laser treatment apparatus of the present invention has a laser fiber connection mechanism for optically connecting a light guide laser fiber connected to a laser treatment laser handpiece to a laser generator. In the laser treatment apparatus, the laser fiber connection mechanism includes a connector section through which the incident side end of the light-guiding laser fiber is inserted and fixed, and a socket section fixed to the laser generator, and a laser generated by the laser generator. A socket portion for detachably mounting a front portion of the connector portion in a receiving hole opened along an optical axis of light, the connector portion being open at the tip and having a concave hollow portion formed therein. A light-guiding laser fiber having a cylindrical closing portion and having an incident end face protruding in the hollow portion, is fixed to the cylindrical closing portion side, and the hollow portion serves as a laser light guide path. The gas flow is performed such that the hollow portion is partitioned by the light-transmitting separator, and the air-tight airtightness is obtained, and the hollow portion communicates with the air chamber of the light-guiding laser fiber on the inner side in the direction of the incident end face from the light-transmitting separator. It is characterized in that the supply line and the exhaust line each having a shut-off valve are connected as much as possible.

[0013] Further, an air supply pipe is provided through a gap between an inner circumference of a receiving hole of the socket and an outer circumference of a front part of the connector, and a ring-shaped valve body for closing the air supply pipe communicating with the air chamber of the connector is provided. Elastically urges and fits around the outer periphery of the connector part,
The annular valve is used as the shut-off valve, and the connector is attached to the socket so that the annular valve is pushed back against the elastic bias, and the annular valve is connected to the air supply line in the socket and the connector in the connector. A laser fiber connection mechanism adapted to open the air supply line is included.

Further, the laser treatment apparatus of the present invention is a laser treatment apparatus having a laser fiber connection mechanism for optically connecting a laser fiber for guiding light connected to a laser handpiece for laser treatment to a laser generator. ,
The laser fiber connection mechanism includes a connector portion into which the incident side end of the light-guiding laser fiber is inserted and fixed, and a socket portion to be fixed to the laser generator, the socket portion for detachably mounting the front portion of the connector portion. The connector portion has a cylindrical closing portion that is opened at the tip and has a concave hollow portion formed therein, and the light guiding laser fiber is formed into a cylindrical closing portion so that the hollow portion becomes a laser light guide path. Side, the hollow portion is partitioned by a light-transmitting separator, and the air-tightness is obtained, and the hollow portion communicates with the air chamber of the hollow portion on the inner side in the direction of the incident end face of the light-guiding laser fiber from the light-transmitting separator. Thus, an air supply line having a shut-off valve so as to allow gas flow and an exhaust line having a check valve are connected to each other, and the socket portion is opened to the air supply line of the connector portion in a state where the connector portion is mounted. Air supply pipe It has, is characterized by having a laser fiber connection mechanism air chamber of the connector portion the connector portion in a state removed from the socket part has to be cut off from the outside air.

Further, the light guide laser fiber is made of a fluoride glass, and the gas flowing through the air chamber of the connector is dry air.

[0016]

The socket portion is fixed to the laser generator, has a hollow portion opened in the direction of emission of the laser light of the laser oscillator of the device, and the connector portion in which the light-guiding laser fiber is internally fixed, It is mounted and connected to the socket portion so that its outer peripheral surface on the front side is engaged with the inner peripheral surface of the hollow portion of the socket portion.

The connector has an opening at the tip and an inside,
It has a cylindrical closed portion forming a concave hollow portion, the incident end face of the light guiding laser fiber fixed on the cylindrical closed portion side is exposed to the hollow portion, the hollow portion is a light guide path,
When the connector is inserted into the socket,
The laser light from the laser oscillator passes through the light guide path and is accurately incident on the incident end face of the light guide laser fiber.

A light-transmitting separator is partitioned into the concave hollow portion of the connector portion, and gas can flow through the air chamber between the light-transmitting separator and the cylindrical closing portion, where the light-guiding laser fiber incident end face is desired. Since the air supply line and the exhaust line having a shutoff valve are connected to each other, during laser irradiation, the incident end face of the light-guiding laser fiber is always cooled by the gas flow, so that even if heated, the temperature rise is small, and The end face can have a long life. Further, since the air chamber is airtight, even if the connector is removed from the socket, no dust or water drops adhere to the incident end face, the laser incidence is not hindered, and the cause of heating can be eliminated.

When the connector portion is mounted on the socket portion, the annular valve body opens the air supply line of the socket portion and the air supply line of the connector portion. When the connector portion is removed, the peripheral surface of the valve body is connected to the connector portion. Since the air supply line in the hollow portion is closed, the hollow portion is shut off from the outside air. If a check valve is connected to the exhaust line, the air supply and sealing of the hollow part will be automatically performed simply by attaching and detaching the connector part to and from the socket part. It is not necessary, and it is possible to reliably prevent the incident end face of the light guide laser fiber from coming into contact with the outside air.

In particular, when the light guiding laser fiber is a fluoride glass, dehumidified dry air can be used as a gas source. Therefore, the fiber end face is always kept in a dry state when the connector is connected, and when the connector is removed, the hollow portion is kept dry air and is isolated from the outside air. Therefore, the end face of the fiber can be prevented from deteriorating the light transmittance due to moisture absorption and from being damaged by heating when laser light is incident. Since the outer periphery of the laser fiber is protected by a moisture-proof and light-shielding covering material, only the incident end face may be protected from moisture by the dry air.

[0021]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a laser fiber connection mechanism according to the present invention will be described below with reference to the drawings. FIG. 1 is a front view of a dental laser treatment apparatus, and a laser generator 10.
Inside, a laser oscillator 11 is installed, and a socket 12 and a connector 3 constituting a laser fiber connection mechanism of the present invention are shown connected to a panel 12 of the apparatus 10. .

In the laser generator 10, Er:
A YAG rod is used, and a cooling water hose 1
It is cooled by cooling water circulated through 41.
The laser head 111 and the power supply unit 13 are controlled so that the control unit 15 generates a pulse of a maximum of 1 W / s at a constant repetition rate for the oscillation output of the laser light. The laser light oscillated by the laser head 111 is reflected by the return mirror 1
The light is folded back at 12, and the condensing lens 113 causes the incident end face 60 of the light guiding laser fiber 6 (see FIG. 2 described later).
Is collected.

A soft and flexible outer tube 92 containing the light guide laser fiber 6 is connected to the connector section 3, and the other end of the outer tube 92 has a probe 91 at the tip.
Is connected to the laser handpiece 9.

In this laser treatment apparatus, a single core fiber of a fluoride glass is used for the laser fiber 6 for guiding light, and the laser handpiece 9 is made as described previously (Japanese Patent Application No. 3-211837). A light-transmitting separator is interposed at the junction between the light-guiding laser fiber 6 and the probe 91 fiber, and the emission end face of the light-guiding laser fiber is arranged in an air chamber, and dry air is constantly supplied to the air chamber. Then, a dry structure is adopted, and the structure is such that water can be supplied from the probe 91 to the tip of the probe fiber.

The details of the laser fiber connection mechanism of the laser treatment apparatus of the present invention are shown in FIGS. 2, 3 and 4. FIG. 2 is a cross-sectional view showing a connection mechanism of the socket section 2 attached to the panel 12 of the laser generator 10 shown in FIG. 1 and the connector section 3 attached to the socket section 2.
4 is a cross-sectional view showing a state where the socket section 2 is attached to the panel 12, and FIG. 4 is a cross-sectional view showing a state where the connector section 3 is removed from the socket section 2. The socket part 2
The hollow portion is generated by the laser oscillator 11 and is arranged coaxially with the optical axis of the guided laser light. A pair of air supply conduits 51 and 51 ′ penetrating into the hollow portion are attached to the outer periphery of the socket portion 2.

A laser fiber 6 for guiding light is inserted through and fixed to a front portion 3a of the connector portion 3 through a ferrule 62. The ferrule 62 is connected to the cylindrical closing portion 3 of the cylindrical body 30.
It is mounted in one through hole and fixed with screws 63. A hollow portion 41 is formed at the front end of the light-guiding laser fiber 6 in front of the incident end face 60. The hollow portion 41 is separated from the hollow portion 41 by the light-transmitting separator 4. End face 60 of plate 4 and laser fiber 6 for guiding light
A space between the air chambers is defined as an air chamber 40.

In the present embodiment, the light-transmitting separating plate 4 includes a cylindrical tip fixing bracket 33 screwed to a cylindrical tip 32 located at an opening-side tip of the cylindrical body 30, and a cylinder of the cylindrical body 30. It is sandwiched between an inner cylindrical portion 34 fitted to the inner peripheral surface of the tip portion 32. The inner cylindrical portion 34 is formed in a tapered nozzle portion 4 in front of the incident end face 60 of the light-guiding laser fiber 6.
2 are formed.

The air chamber 40 is provided with an air supply conduit which penetrates through the inner cylindrical portion 34 and the cylindrical front end portion 32 and opens to the outer periphery, in this example, a pair of ventilation holes 53 and 53 '. The pores 53, 53 ′ are formed by the annular valve element 7 fitted in the cylindrical distal end portion 32.
Is closed by the inner peripheral surface of the cover.

The annular valve element 7 is fitted by being elastically urged in the forward direction by a rear compression spring 74 so that its inner peripheral surface can slide on the outer peripheral surface of the cylindrical distal end portion 32. The pair of valve holes 73 and 73 ′ are provided in the annular valve body 7.
Is pushed rearward, the pair of air holes 5
3, 53 '.

Further, the air chamber 40 is provided with a cylindrical closed portion 31.
Is connected to an air supply pipe 55 provided to penetrate the air.

The outer peripheral surface of the connector front part 3a is formed in the hollow receiving hole 2 formed in the axial direction inside the socket part 2 of FIG.
It is fitted so as to be in contact with the inner peripheral surface of 3, 24, 25,
The connector section 3 is connected to the socket section 2. A step portion 71 is provided on the inner peripheral surface of the socket portion 2, and the end portion 72 of the annular valve element 7 of the other connector portion 3 is arranged so as to contact the step portion 71.

Then, the connector front part 3a is inserted into the hollow receiving holes 23, 24, 25 of the socket part 2 and connected. At the time of the connection, the stepped surface 27 provided on the inner periphery between the receiving holes 24 and 25 of the socket portion 2 and the stepped surface 39 (FIG. 4) provided on the outer periphery of the connector portion 3 are brought into contact with each other. The cap nut 38 is screwed into the outer edge screw portion 26 of the socket portion 2 and positioned and fixed. The outer peripheral surface of the cylindrical tip fixing bracket 33 of the connector portion 3 is slidably fitted on the inner peripheral surface of the receiving hole 23 of the socket portion 2 so that the optical axis of the laser light of the laser oscillator 11 is The laser light, which coincides with the central axis of the portion 41, passes through the translucent separator 4 and is accurately focused and incident on the incident end face 60 of the light-guiding laser fiber 6. The incident laser light is transmitted through the light-guiding laser fiber 6, supplied to the laser handpiece 9, and emitted from the tip of the probe 91.

At the time of connection of the connector portion 3, the stepped portion 71 on the inner peripheral surface of the socket portion 2 causes the annular valve element 7 fitted on the outer periphery of the connector portion 3 to resist the elastic force of the compression spring 74. Then, it is pushed back and the valve holes 73, 73 of the annular valve body 7 are pushed back.
′ Communicates with the vent holes 53 and 53 ′ opened in the cylindrical distal end portion 32 and the inner cylindrical portion 34. In this state, the pressurized air from the air source 50 passes through the gap between the inner peripheral surface of the receiving hole 24 of the socket portion 2 and the outer periphery of the annular valve element 7 from the air supply line 51,
Passing through the valve holes 73, 73 'and the vent holes 53, 53',
The air reaches the air chamber 40 and is discharged from the nozzle portion 42 to the incident end face 60 of the light-guiding laser fiber 6 to cool the incident end face 60. Thereafter, the air is sent to the above-described laser handpiece 9 via the air supply line 55 and the flexible air supply tube 56.

The supply pipe 56 allows the laser handpiece 9
The air guided by being connected to an air chamber (not shown) on the emission end face side of the light guide laser fiber 6 cools the emission end face of the light guide laser fiber. In order to return the air having cooled the exit end face, the space inside the outer tube 92 is used as the exhaust pipe 76, and the connector front part 3 is used.
Through the check valve 77 provided at a, the exhaust gas is discharged from the exhaust pipe 78 opened from the inner periphery to the outer periphery of the thick portion of the socket portion 2 to the outside air.

In particular, since the light-guiding laser fiber 6 is made of a fluoride glass fiber, the air source 50 is provided with a dehumidifying and drying device, and dry air having a reduced dew point is used. . As the material of the fluoride glass fiber, AlF ₃ —ZrF ₄ fluoride fiber is optimal, but ZBLAN, ABL
A, it may be a ZrF ₄ -BaF ₂ type fluoride fibers such ZBANY.

Air supply lines 51 and 55, air chamber 40, vent holes 53 and 53 ', valve holes 73 and 73', exhaust lines 76 and 78.
The air passage is properly sealed by an O-ring or other sealing member to prevent the intrusion of outside air, so that the outside end may cause the incident end face 60 of the light-guiding laser fiber 6 to deteriorate due to moisture absorption during use. Absent.

FIG. 5 shows that the annular valve element 7 has the ventilation holes 53, 53 '.
FIG. 2 is a partial cross-sectional external view showing the connector unit 3 in a state where the connector unit 3 is closed. In this state, the air chamber 40 is shut off from the outside air,
Prevents intrusion of outside air.

In the embodiment shown in FIG. 2, an air supply line 51 ′ for sending out air from another air source 50 ′ and a flexible air supply tube 57 are provided. ,
Water is supplied from the water supply source 80 to the water supply line 81 and the flexible water supply line 8.
2 are connected to the laser handpiece 9, respectively, and the air supply pipe 57 is connected to the incident end face (not shown) of the fiber for the probe 91 on the tip side of the laser handpiece 9, and the water supply pipe 82 Is supplied along the inner wall of the outer tube 92 to the laser handpiece 9.

In FIG. 2, a soft outer tube 92 containing and bundling the above-described laser fiber 6 for light guide, two systems of air supply pipes 56 and 57 and a water supply pipe 82 is connected to the connector part 3 and the laser handpiece 9. Connected between.

[0040]

According to the present invention, the connection mechanism for connecting the connector portion of the light-guiding laser fiber for transmitting the laser beam to the laser handpiece to the socket portion of the laser generator, the light guide inside the connector portion when the connector portion is removed. Since the air chamber that desires the entrance end face of the laser fiber for use is closed by the valve body, there is no invasion of outside air, and the entrance end face is protected by the residual air in the air chamber, without being contaminated by dust or liquid matter. If necessary, washing and sterilization of the connector portion and replacement of the handpiece can be easily performed.

If the connector is connected to a socket fixed to the laser generator side, laser light from the laser oscillator can be incident on the incident end face of the light-guiding laser fiber and interlocked with insertion into the socket. Then, the pressurized air flows through the air chamber by opening the annular valve element, so that the heat generated by the laser incident on the incident end face of the light-guiding laser fiber is cooled, the damage of the incident end face is prevented, and the laser handpiece is Can be transmitted.

In particular, laser light is used for treatment of tooth formation Er:
In a laser treatment device that uses a fiber made of a fluoride glass such as a YAG laser or an HF laser, by using dry air as the air source, moisture absorption at the incident end face of the light guide laser fiber can be effectively prevented. In addition, since damage to the incident end face can be prevented, the durability and life of the laser fiber can be easily increased.

Further, the incident end face of the light guiding laser fiber in the connector portion and the emitting end face of the same laser fiber in the laser handpiece can be implemented with a simple structure using a single air system to achieve moisture proof and dust proof.

[Brief description of the drawings]

FIG. 1 is an external view of a laser treatment apparatus provided with a laser fiber connection mechanism of the present invention.

FIG. 2 is a cross-sectional view of the connection mechanism in a state where the socket and the connector are connected.

FIG. 3 is a sectional view at the time of removing a socket part forming a connection mechanism.

FIG. 4 is a cross-sectional view when a connector part forming a connection mechanism is removed.

FIG. 5 is a side view at the time of removing a connector part forming a connection mechanism.

[Description of Signs] 10 Laser generator 2 Socket section 3 Connector section 4 Translucent separator 6 Laser fiber for light guide 7 Annular valve 9 Laser handpiece 25 Receiving hole 30 Cylindrical body 31 Cylindrical closing part 32 Cylindrical Tip section 40 Air chamber 41 Connector hollow section 50, 50 'Air source 51, 51' Air supply line 53, 53 'Vent hole 55 Air supply line 57 Flexible air supply tube 6 Light guide laser fiber 60 Light guide laser Fiber incident end face 7 Annular valve 73, 73 ′ Valve hole 74 Compression spring 76 Exhaust line 77 Check valve 78 Exhaust line 80 Water supply source 81 Water supply line 82 Flexible water supply line 9 Laser handpiece 91 Probe 92 Exterior tube

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Sadahiro Nakajima 2-7-5 Nakaochiai, Shinjuku-ku, Tokyo Inside of Hoya Co., Ltd. (72) Inventor Takashi Endo 2-7-7 Nakaochiai, Shinjuku-ku, Tokyo No. 5 Inside of Haiya Co., Ltd. (56) References JP-A-60-207111 (JP, A) JP-A-58-89232 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) ) A61M 17/36 A61N 5/06 A61B 1/00-1/32 A61C 3/02

Claims (4)

(57) [Claims] 1. A laser treatment apparatus comprising: a laser fiber connection mechanism for optically connecting a light guide laser fiber connected to a laser handpiece for laser treatment to a laser generator; A connector portion into which the incident side end of the optical laser fiber is inserted and fixed, and a socket portion fixed to the laser generator, the receiving portion being opened along the optical axis of the laser light generated by the laser generator. And a socket part for detachably mounting the front part of the connector part.The connector part has a tubular closing part which is opened at the tip and has a concave hollow part formed therein, and the incident end face is formed in the hollow part. The protruding light-guiding laser fiber is fixed to the cylindrical closed part side, the hollow part is formed as a laser light guide path, the hollow part is partitioned by a light-transmitting separator, and In order to obtain a high density, the air supply pipe and the exhaust pipe having a shutoff valve so as to allow the gas to flow therethrough so as to communicate with the air chamber in the hollow portion on the inner side in the direction of the incident end face of the light guide laser fiber from the translucent separator. A laser treatment apparatus characterized by being connected. 2. A ring-shaped valve body for providing an air supply line through a gap between an inner periphery of a receiving portion of a socket portion and an outer periphery of a front portion of a connector portion and closing the air supply line communicating with an air chamber of the connector portion. The connector is fitted to the outer periphery of the front part of the connector part by elastic biasing, and the annular valve is used as the shut-off valve. By mounting the connector to the socket, the annular valve pushes back against the elastic bias. 2. The laser treatment apparatus according to claim 1, wherein the annular valve element opens an air supply line in the socket portion and an air supply line in the connector portion. 3. A laser treatment apparatus comprising a laser fiber connection mechanism for optically connecting a light guide laser fiber connected to a laser treatment laser handpiece to a laser generator, wherein the laser fiber connection mechanism comprises a light guide. The connector section includes a connector section through which the incident side end of the optical laser fiber is inserted and fixed, and a socket section fixed to the laser generator, the socket section detachably mounting the front section of the connector section. It has a tubular closing portion that opens to the tip and forms a concave hollow portion inside, and fixes the light-guiding laser fiber to the tubular closing portion side so that the hollow portion becomes a laser light guide path. The part is partitioned by a light-transmitting separator and is airtight, and communicates from the light-transmitting separator with the air chamber of the hollow part on the inner side in the direction of the incident end face of the light-guiding laser fiber. Thus, an air supply line having a shut-off valve for gas flow and an exhaust line having a check valve are connected, and the socket portion is opened to the air supply line of the connector portion with the connector portion mounted. A laser treatment device having a supply pipe line, and a laser fiber connection mechanism in which an air chamber of the connector section is cut off from outside air when the connector section is detached from the socket section. 4. The laser treatment apparatus according to claim 1, wherein the light-guiding laser fiber is a fluoride glass, and the gas flowing through the air chamber of the connector is dry air.