JPS6116169B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention is a fiber for a laser scalpel, which is formed into a long solid with a rectangular cross section and is attached to the input and output ends of a fiber for a laser scalpel, which propagates a linearly polarized laser beam. This invention relates to an input/output end device for a laser scalpel fiber for transmission.

Traditionally, optical fibers with a circular cross section have been somewhat common, but this is relatively flexible and easy to manufacture using extrusion methods.
Furthermore, the light transmittance was said to be relatively good.

However, when transmitting a laser beam through the fiber, unlike the case of a beam used in ordinary optical communication, the transmission loss must be specially reduced, and a higher transmittance is required. In other words, since the laser beam is more like a heat ray than a light ray, the loss when passing through the fiber immediately melts and burns the fiber itself, causing the fiber to quickly attenuate its function and become unpractical. There were many things that were possible. As a countermeasure to this problem, various studies have been conducted to use materials with a high degree of heat resistance, but a sufficient material has not yet been obtained.

However, according to recent research conducted by the present inventors, when a linearly polarized laser beam is transmitted through a flat band-shaped solid fiber with a rectangular cross section, the transmittance is lower than that of a circular solid fiber. It has been found that the cost is much higher than that of any other shape of fiber, including fibers.

The present invention is attached to a flat solid fiber for propagating such a linearly formed laser beam, thereby further increasing the propagation efficiency of the laser beam, and restoring the beam shape to the same shape as when entering the fiber after exiting the fiber. The purpose is to provide a device that can

The present invention will be described in detail below based on embodiments with reference to the drawings.

The accompanying drawings are explanatory diagrams showing a fiber for a laser scalpel according to the present invention and an input/output end device attached to the fiber. In the figure, reference numeral 1 indicates a laser scalpel fiber, which has a rectangular cross section and is formed of a solid having a long string-like structure. This fiber shows particularly good transmission through the use of a linearly polarized laser beam, for example 8 mm wide and 0.6 mm thick.
A fiber molded to a length of 1.0 m has a high transmittance of 70%.

The present invention provides an input/output end device applied to the input end 1a and the output end 1b of the fiber 1. First, the input end device A flattens the linearly polarized laser beam 2 in the horizontal direction. A cylindrical lens 3 focuses the light into an elliptical beam 2'.
and has an entrance end 4a attached to the entrance end 1a of the fiber and having a shape similar to the entrance end of the fiber, and from the entrance end to the entrance end 1a of the fiber.
It consists of a rectangular base connector 4 that is gradually contracted towards the end of the connector. Based on this configuration, a linearly polarized laser beam 2 incident on the cylindrical lens 3 is focused by the lens into a horizontally flat elliptical beam 2', and this beam 2' is transmitted from the entrance end 4a to the connector 4. The condensed light 2" in this case is the optimum beam shape for propagation of the fiber for laser scalpel according to the present invention. It is becoming. Further, the output end device B includes an aspherical lens 5 having an aspherical curvature that corrects the flat elliptical laser beam 2 emitted from the output end 1b of the fiber into a circular shape with an oblateness of 1; It is composed of a spherical condenser lens 6 that focuses the laser beam 2, whose circular shape has been corrected, onto a minute circular spot 2. Based on this configuration,
The beam focused on the circular spot that produces the highest energy as a laser scalpel is irradiated onto the surgical field, but if necessary, if the output end device is removed and used, it can be used horizontally from the output end of the fiber. It is also possible to obtain a flat beam and directly irradiate the surgical field for special surgery.

Since the present invention is based on the above configuration,
The fiber has a solid shape with a rectangular cross section, which is the most efficient way to propagate a laser beam, and the input end of the fiber can guide a beam with a shape similar to that of the input end. The energy can be fully utilized without dissipating, and the energy of the beam to be irradiated can be focused into a spot at the output end, making it possible to further improve the cutting power of the laser scalpel. , is extremely useful in application to this type of fiber.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional explanatory diagram showing the state in which the entrance/exit end device according to the present invention is attached to an optical fiber, FIG. 2 is an enlarged perspective view of the entrance end device, and FIG. 3 is an enlarged perspective view of the exit end device. shows. 1...Fiber for laser scalpel, 2', 2'',
2, 2〓, 2〓...Laser beam, A...Incidence end device, 3...Cylindrical lens, 4...
Connector, B... Output end device, 5... Aspherical lens, 6... Spherical condensing lens, 1a... Fiber input end, 1b... Fiber output end.

Claims (1)

[Claims] 1 A device attached to the input end and output end of a laser scalpel fiber formed into a long solid with a rectangular cross section, the input end device converting a linearly polarized laser beam into a horizontally flat elliptical shape. A cylindrical lens for condensing light, and a connector having an entrance end having a shape similar to the entrance end of the fiber and gradually contracting so as to condense the laser beam incident on the entrance end onto the entrance end of the fiber. The output end device includes an aspherical lens having an aspherical curvature for modifying the laser beam transmitted through the fiber and emitted in a flat elliptical shape into a circular shape, and An input/output end device for a fiber for a laser scalpel, characterized by comprising a spherical condenser lens that condenses light onto a minute spot.