JPS63127748A - Laser probe - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a laser probe used when performing acupuncture treatment using laser light.

[Conventional technology]

As this Yuzu laser probe, for example, a laser probe for an endoscope is known (for example, Utility Model Application No. 58-17
(See Publication No. 1116). This endoscopic laser probe consists of a flexible, elongated insertion section that is introduced endoscopically into a body cavity, and a connector that is attached to a connector receiver of a laser generator.

Further, a light guide made of a light guide fiber is inserted and installed inside the insertion portion and the connector. Further, the proximal end portion of the light guide and the lens that focuses the laser beam on the incident end surface of the light guide are attached to the same member in the central part of the connector (for example, Japanese Patent Laid-Open No. 61-203952 (see official bulletin)
.

[Problem that the invention seeks to solve]

However, in the conventional laser guide described above, the proximal end of the light guide and the lens that focuses the laser beam are inserted and fixed into the same member of the connector, so precision adjustments such as alignment of the optical axis and focusing are required. Requires adjustment. but.

Laser guides are prone to damage at the output end or breakage in the middle of the laser guide.

If this damage occurs, the optical axis and focus of the laser guide and lens must be aligned when replacing the laser guide, but this adjustment is extremely troublesome and must be done by the interrogation service center. I couldn't do it.

On the other hand, laser probes with different spread angles of emitted light are prepared and used selectively depending on the purpose of use, but with this method, various laser probes must be prepared in advance. It was extremely uneconomical.

On the other hand, when used in combination with an endoscope, it is necessary to select a device that can be inserted into the insertion channel, but since the outer diameter and length of the insertion section correspond to the diameter of the laser guide, this In this case, it was necessary to prepare a large number of various laser probes.

The present invention has been made by focusing on the above-mentioned problems.

The purpose of this is to make it easy to repair the laser guide if it is damaged, and to prepare complete laser probes with different insertion lengths, outer diameters, and nine angles of emitted light spread. An object of the present invention is to provide an inexpensive laser probe that can eliminate uneconomical problems.

[Means and effects for solving the problems] In order to solve the above problems, the laser glove of the present invention includes a tenth holding member that has a built-in lens system that focuses the incident laser beam, and a guide that holds and fixes the guide. A second C+ holding member is provided separately, and the first holding member and the second holding member are configured to be detachable.

Therefore, if the laser guide is damaged, the second holding member that holds and fixes the laser guide can be removed from the first holding member that houses the lens system, and the laser guide can be replaced with a new one.

Therefore, repairs can be easily performed.

In addition, if you want to change the spread angle of the emitted light from the laser probe, you can replace it with another first holding member equipped with a lens system with a different focal length, and use the laser guide as is. If you replace the system side, there is no need to prepare the entire laser probe separately.

Furthermore, when inserting sections with different lengths and outer diameters are not used, the lens system can be shared and the laser guide side can be replaced with another one. In other words, there is no need to replace the entire laser probe, making the equipment cheaper.

〔Example〕

1 to 5 show a first embodiment of the present invention.

FIG. 1 shows a state in which a connector 3 of a laser glove 2 is attached to an output connection port 1 of a laser generator.

The laser probe 2 is composed of a connector 3 that is detachably attached to the emission connection port 1 and a flexible elongated insertion section 4.

The connector 3 includes a cylindrical first holding member 6 that holds a condenser lens 5 constituting a lens system that converges an incident laser beam from a laser generator, and a cylindrical first holding member 6 that holds a condenser lens 5 that configures a lens system that condenses an incident laser beam from a laser generator. and a cylindrical second holding member 8 that holds a laser guide 7 made of a transmitting self-focusing fiber.

The first holding member 6 is removably fitted into the cylindrical output connection port 1. That is, the first holding member 6
The outer periphery for zero-fitting is formed to have a small diameter, and only this small-diameter portion constitutes the fitting portion 9 into which the fitting is inserted. Also.

At the end of the fitting part 9, an abutment step part 1 is formed to position the fitting part 9 at the tip of the output connection port 1. Further, the output connection port 1 is provided with a first fixing screw 12, and the fitting portion 9 of the first holding member 6 is tightened and fixed by the first fixing screw 12. Note that the tip end 13 of the fixing screw 12 is pointed in a conical shape.
3 is fitted into the conical hole 14 formed on the outer periphery of the fitting part 9.

For this reason, the abutting step portion 11 closely contacts the tip of the output connecting portion 1, so that it is positioned at a predetermined position.

The second holding member 8 is detachably attached to a fitting hole 15 formed in a large diameter in the outer end of the tenth holding member 6, and is secured by a second fixing screw 16 provided on the first holding member 6. Fixed. The fitting end of the second holding member 8 is positioned in abutment υ against an abutting part 17 formed at the inner end of the fitting hole 15 and consisting of a step.

And the second fixing screw 16 companies above-mentioned first fixing screw 12
Similarly, the tip 18 has a conical shape and is fitted into the conical hole 21 formed on the outer periphery of the fitting part 19 of the second holding member 8.

During this tightening, the second holding member 8 is sometimes pushed toward the first holding member 6, and the tip of the fitting side comes into close contact with the abutting portion 17, so that the second holding member 8 is correctly positioned.

Furthermore, the base end portion of the laser guide 7 is fitted into the second Q holding member 8 and is held and fixed therein. and.

The laser guide 7 is assembled so that the entrance end surface 22 is flush with the entrance end surface of the second holding member 8 .

When the second holding member 8 is attached to the first holding member 6, the incident end face 22 of the laser guide 7 is located at the abutting portion 17 thereof.

Further, an air/liquid feeding port 24 communicating with an air/liquid feeding passage 23 described later is provided on the side wall of the second holding member 8. An air/liquid feeding tube 25 can be detachably connected to the air/liquid feeding port 24. That is, the second holding member 8 has an air/liquid feeding passage 23 and an air/liquid feeding port 24.
A cavity 26 is provided that communicates with the two.

On the other hand, the insertion section 4 consists of a sheath 27 into which the laser guide 7 is inserted, and the inner surface of the sheath 27 and the laser guide 7
The air and liquid supply passage 2 is connected to the outer periphery of the air supply passage 2 along its entire length.
3 is formed. moreover.

As shown in FIG. 2, a cylindrical tip 28 made of metal is press-fitted into the tip of the sheath 27 and fixed thereto.

Further, a female thread 29 is formed on the inner periphery of the rear end of the tip 28, and the jacket 31 of the laser guide 7 is inserted into this female thread 29 and fixed. For this reason,
The laser guide 7 can be securely fixed with a simple structure. Further, the jacket 31 and silicone resin 32 are removed from the tip of the laser guide 2, and the glass cladding 33 is exposed. Then, this exposed portion 34 and the distal tip 28
A gap 35 is formed between the inner circumference and the inner periphery. Further, a slit 36 is formed at the rear end of the distal tip 28, as shown in FIGS. 2 and 3, and the slit 36 allows the air/liquid feeding passage 23 to communicate with the gap 35.

By the way, the first holding member 6 in the laser probe 2
A variety of condensing lenses 5 with different focal lengths are available. For example, the one shown in Figure 4 can be eaten.

In addition, insertion sections 4 of various sizes with different outer diameters of the laser guide 7 and corresponding outer diameters of the sheath 27 and second holding members 8 connected thereto are prepared, or the lengths of the insertion sections 4 are different. The insertion portion 4 and the second holding member 8 connected thereto are very ready. For example, there is one shown in FIG.

Next, how to use this laser probe 2 will be explained.

The connector 3 of the laser probe 2 combined according to the applicable case site is attached to the output connection port 1 of the laser generator, and the insertion part 4 is introduced into the body cavity through the insertion channel of the endoscope. In the case shown in FIG. 1, the laser beam incident from the output connection port 1 side is focused by the condenser lens 5 and enters the input end face 22 of the laser guide 10 at the minimum spot position. Then, the light is emitted from the output end through the laser guide 7 and irradiated onto the object to be irradiated. Further, at this time, the fluid sent from the air/liquid feeding pipe 25 passes through the air/liquid feeding passage 23 and is ejected from the gap 35 at the tip of the distal tip 28 .

Although it is used in this way, if the multi-laser guide 7 breaks in the middle due to dirt etc. attached to the tip of the laser guide 7 and gets burnt by the laser beam, or the tip of the laser guide 7 is thermally damaged, Replace the laser guide 7 with the That is,
Loosen the second fixing screw 16 and remove the second holding member 8 together with the sheath 27 of the insertion section 4 and the light guide 7 from the first holding member 6. Then, the insertion section 4. The light guide 7 and the second holding member 8 are replaced with new ones, and the second holding member 8 is fitted into the first holding member 6 and fixed by tightening with the second fixing screw 16. This completes the repair. Note that the laser guide 7 is originally assembled so that its incident end surface 22 is in a fixed position with respect to the second holding member 8, and the second holding member 8 is attached to the protrusion of the first holding member 6. Abutting against the abutting portion 17 p
Since the condenser lens 5 is positioned, there is no need for special optical position adjustment for the condenser lens 5.

In this way, the first holding member 6 side containing the condensing lens 5 can be reused as is without the need to replace it with a new one, so it is economical because fewer members need to be replaced.

On the other hand, considering that there are various cases and locations, it may be desirable to use a device with nine different angles at which the laser beam is emitted. If the focal length of the condensing lens 5 is long, the angle of incidence with respect to the incident end face 22 of the laser guide 70 is small, so the spread of the laser light emitted from the output end is also small, making it possible to irradiate a more minute range. . Furthermore, if the focal length of the condensing lens 5 is short, the angle of incidence is wide, so the angle at which the light exits is also widened. Tip 9: A wide range of irradiation is possible.

Therefore, in the configuration of the present invention, several first holding members 6 are prepared including condenser lenses 5 having different focal lengths, and the one suitable for the patient site is selected and used. Replace and use. For example, the focal length in FIG. 4 is shorter than that shown in FIG. Therefore, irradiation can be performed over a wide irradiation range. Therefore, the insertion portion 4% laser guide 7 and the second holding member 8 can be used as they are and the condenser lens 5
If only the first holding member 6 with the ?

We also have a variety of insertion sections 4 with light guides 7 with different diameters and lengths (the diameter and length of the sheath 27 change accordingly), and a variety of second holding members 8 attached to the insertion sections 4. Therefore, when used in combination with an endoscope, you can select one that can be inserted into the insertion channel and use it by replacing it. (1-1#), the first holding member 6 side containing the condensing lens 5 is shared by each. FIG. 5 shows an example in which a thin light guide 7 is used. This eliminates the need to prepare the entire laser probe 2 in advance for each case.

Therefore, it can be applied to various cases easily and inexpensively.

6 to 8 show a second embodiment of the invention. In this embodiment, the attachment of the entrance side end of the laser guide 7 to the second holding member 8 is related to the structure. The laser guide 7 has a quartz core 38° at the center and a glass cladding 33 fused to the outside.

Furthermore, there is a silicone resin 32 on the outside to improve flexibility, and a jacket 31 is provided on the outermost layer.

The jacket 3 and silicone resin 32 are removed near the incident side end of the laser guide 70, and the exposed outer periphery of the glass cladding 33 and the second holding member 8 are removed.
An adhesive 39 is filled between the inner periphery and the inner periphery of the inner periphery to be adhesively fixed. This fixes the υ laser guide 7 to the second holding member 8. Since the glass cladding 33 and the second holding member 8 are directly fixed in this way, there is no displacement between them. Therefore, it is possible to prevent the laser beam from being incident on the incident end face due to one positional deviation, thereby preventing the laser beam from being damaged. Note that when fixing to the second holding member 8 via the jacket 31, the incident end is likely to shift.

9 and 10 show a third embodiment of the present invention, in which a nonlinear optical crystal 40 for generating a second harmonic wave is inserted in the first holding member 6 coaxially with the condenser lens 5. shows. As this nonlinear optical crystal 40, for example, barium sodium niobate (B'tN'NbsO+s) is used.

If this is selected and used, the second harmonic of the laser beam can be obtained by using the insertion portion 4 and the light guide 7 side as they are. Therefore, the laser probe 2 for obtaining the second harmonic can be easily obtained at low cost.

〔Effect of the invention〕

As explained above, according to the present invention, if the laser guide is damaged, it can be repaired easily and inexpensively, and laser probes with various lengths, outer diameters, and spread angles of the emitted light can be used. In this case, it can be provided easily and inexpensively depending on the case and site of use.

[Brief explanation of the drawing]

Fig. 1 is a side sectional view of the vicinity of the connector in the first embodiment, Fig. 2 is a side sectional view of the vicinity of the tip of the insertion portion of the first embodiment, and Fig. 3 is Fig. 2 Chunin-A Green. 4 is a side sectional view of the vicinity of another connector in the first embodiment, and FIG. 5 is a side sectional view of the vicinity of another connector in the first embodiment. FIG. 6 is a side sectional view of the vicinity of the connector in the second embodiment, FIG. 7 is a side view of the base end on the incident side of the laser guide in the second embodiment, and FIG. 8 is a side view of the base end on the incident side of the laser guide in the second embodiment. FIG. 7 is a front view showing the base end of the laser guide 7. FIG. FIG. 9 is a side sectional view of the vicinity of the connector in the third embodiment, and FIG. 10 is a sectional view taken along line B-BM in FIG. 1... Output connection port, 2... Laser probe, 13
... connector, 4 ... insertion part, 5 ... condensing lens, 6 ... first holding member, 7 ... laser guide, 8
. . . second holding member, 11 . . . abutment step portion, 12.
...First fixing screw. 16...Second fixing screw. Figure 2 Figure 3 Figure 4 ￥5 Figure 7 Figure 8 Foil 9 Figure 10

Claims (1)

[Claims] In a laser probe that is used in connection with a laser generator and includes a lens system that focuses incident laser light from the laser generator and a laser guide that guides the laser light that is focused and incident by this lens system. , a first holding member incorporating the lens system and a second holding member holding and fixing the laser guide are separately provided, and the first holding member and the second holding member are detachably attached. A laser probe characterized by comprising: