JPS6037627B2 - CO↓2 laser device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a C02 laser device having a function of stopping emission of a C02 laser beam when the transmittance of the C02 laser beam in an optical fiber becomes abnormally low.

For laser scalpels and other laser equipment, C02
The number of optical fibers that use optical fibers to transmit the laser beam to the output end along with the He-Ne laser beam that serves as the guide light is increasing, but in order to use such fibers with effective transmittance, it is necessary to It is necessary to bend the fibers with ease and use them above a certain curvature, and it is also necessary to detect deterioration from a decrease in the transmittance of the fibers and take desired countermeasures quickly and accurately.

Taking these circumstances into consideration, the present invention captures the transmittance of a C02 laser beam in an optical fiber by the difference value between the input value and the output value of the He-Ne laser beam used as a guide light for the beam, and If the value exceeds a set value predetermined in accordance with the curvature based on the bending of the fiber, the CQ laser beam is shut off, and the situation where the amount of irradiation of the CQ laser beam on the irradiation surface is abnormally small is eliminated. Furthermore, it is an object of the present invention to provide a C02 laser device that can detect at an early stage the attenuation of the amount of transmission due to fiber deterioration and establish a desired countermeasure.

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

FIG. 1 is an explanatory diagram showing an embodiment of the apparatus of the present invention.

The beam emitted from the C02 laser beam source 1 enters the input end 4a of the optical fiber 4 via the semi-transmissive mirror 2 and the condenser lens 3, and after passing through the fiber, exits at the output end 4b.
The light is emitted from the irradiation surface to the irradiation surface.

In addition, He-N serves as a guide light for the C02 laser beam.
The e laser beam is emitted from the He-Ne laser beam source 20, is partially reflected by the semi-transparent mirror 2, and becomes C0.
2. Like the laser beam, it enters the fiber, passes through the fiber, and exits, but the other part passes through the mirror 2 and enters the photoelectric converter 5. The resulting electric signal is amplified by the amplifier 6. He-Ne laser beam input value 1
, is input to the comparator 7 as .

On the other hand, a detector 9 such as a photocell is placed in front of the condensing lens 8 installed in front of the output end 4b of the fiber 4, and picks up the output value 12 of the He-Ne laser beam of the emitted guide light. The output value is amplified by an amplifier 10 and input to the comparator 7 mentioned above.

The comparator 7 compares the input value 1 and the output value 12, and the difference value 1^ is input to the comparator 11.

An output meter 12 is inserted between the comparator 7 and the comparator 11 to read the difference value 1^. On the other hand, a predetermined optical fiber output setting value IB corresponding to the curvature based on the bending of the optical fiber 4 is inputted to the comparator 11 and compared with the difference value 1^. Next, the comparator 11 is directly connected to a beam shutter 13, and when the above-mentioned 1^ exceeds IB, the shutter is activated and cuts off the C02 laser beam 13'.
and is configured to stop entering the optical fiber. The He-Ne laser beam according to the present invention is usually 2 W
The degree of attenuation of the output due to the fiber transmission of the beam is experimentally well proportional to the degree of output attenuation due to the transmission of the C02 laser beam through the fiber. The difference value between the input and output values of the C02 laser beam can be determined substantially accurately from the difference value between the input and output values of the -Ne laser beam. Also,
The above output setting value is primarily provided to limit the curvature R of the fiber 4.

For example, even if the bending of the fiber shown in Fig. 1 does not cause any problem, in the conditions shown in Fig. 2 i and ii, the He-Ne laser beam will be spread out due to its curvature R. This is because the fiber transmittance of the C02 laser beam is significantly reduced, resulting in so-called unstable irradiation or abnormal irradiation. Furthermore, in the present invention, even if the curvature is large, if the transmittance is abnormally reduced, it is meaningful because it can be detected in advance that deterioration of the fiber itself has occurred. . The present invention is based on the above configuration, and when the difference value between the input and output values of the guide light transmitted through the optical fiber exceeds a set value, C
02 Since it is possible to stop the incidence of the laser beam, it can quickly detect a decrease in output value due to excessive bending or deterioration of the fiber, prevent abnormal heat generation of the optical fiber, etc., and improve the stability of fiber use. It has many advantages such as improved performance, and is extremely useful when applied to laser scalpels and other laser equipment.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory diagram showing one embodiment of the C02 laser device according to the present invention, and FIGS. 2 i and ii are explanatory diagrams showing the state of bending of the optical fiber.

1... CQ laser beam source, 2...
Semi-transparent Mihu, 3, 8...Condensing lens, 4...
...Optical fiber, 5...Photoelectric converter, 6,
10...Amplifier, 7,11...Comparator, 9
...Detector, 12...Output meter, 13...
...Beam shutter.

Figure 1 Figure 2 Figure 2

Claims (1)

[Claims] 1 In a CO_2 laser device having an optical fiber that transmits a He-Ne laser beam as a guide light for the irradiation surface along with the CO_2 laser beam, the He-Ne laser is detected by a detector installed at the front edge of the tip of the fiber. Beam output value I_2 and input value I of the same He-Ne laser beam to the fiber
_1 and the output setting value I of the beam determined in advance in accordance with the curvature based on the bending of the fiber.
A comparator is provided to compare the I_A with the I_B, and the comparator is directly connected to the comparator so that when the I_A exceeds the I_B, the CO_
A CO_2 laser device comprising a beam shutter that blocks two laser beams.