Process for cutting a material by means of a laser beam

Electric heating – Metal heating – By arc

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21912172, 21912184, B23K 2600

Patent

active

049527711

DESCRIPTION:

BRIEF SUMMARY
The invention relates to a process for cutting a material by means of a laser beam which exits from a light guide and is directed in a non-contacting manner at the material to be cut.
Laser radiation is used in multiple ways for cutting a material for example, in plastic working or in biological and surgical procedures for separating tissue. In surgical procedures, in addition to the separation, coagulation is simultaneously achieved in the region of the cut.
In all these procedures, there is the danger of injury by the laser beam emerging from the laser head. Also, damage may occur to the material to be cut in the region of the cut. Such exposure to danger may, for example, occur with the laser known from U.S. Pat. No. 3,843,865 which is held at a distance from the surface to be worked.
A laser is known from Japanese Offenlegungsschrift (laid-open paper) 61 185 260 (=U.S. Pat. No. 4,676,242) wherein the radiation is not emitted directly from a glass fiber but rather from a conically tapering tip which rests against the material to be cut and into which the radiation is coupled from a light guide. Water circulates around the conical tip in order to remove tissue particles adhering thereto Since the light radiation emerges at a very large angle from a conical tip, the major part of the radiation at the pointed end of the known device is emitted through the layer of water on the surface, and so in the vicinity of the tip there is considerable danger of injury due to radiation exiting at an angle.
The object of the invention is to so improve a generic process that accidental injury by the laser radiation and undesired damage to the material in the region of the cut are avoided.
This object is accomplished in accordance with the invention in a process of the kind described at the beginning in that the laser beam is allowed to exit from an end face extending perpendicularly to the longitudinal axis of a cylindrical light guide core, the light guide core is surrounded on all sides in the region of the exit by a laser-radiation-transmissive liquid, this liquid is united adjacent to the end face to form a compact jet of liquid abutting on the end face and this compact jet of liquid is directed at the material to be cut, the distance between the end face and the material to be cut being so selected that the jet of liquid remains compact as far as into the region of impingement on the material.
It has transpired that the laser radiation enters the jet of liquid directly adjoining the exit end of the light guide and is guided therein in the fashion of a light guide substantially without losses. Owing to the difference in the refractive index of the liquid in relation to the surrounding air, total reflection also occurs here at the boundary so the jet of liquid guides the laser radiation as far as into the region of impingement of the jet of liquid on the material to be worked. There the laser radiation can become fully effective. The liquid flows around the working point and thereby rinses and cools it. In addition to this cooling and rinsing effect, it is particularly advantageous that the liquid can absorb vapors and odors occurring during the material working.
In this process, the laser radiation is either guided by the jet of liquid, partially absorbed and, if the latter breaks up into drops, scattered to a high degree by the drops or absorbed in the tissue. In no case does a free, focussed laser beam exit unintentionally and cause injuries.
It is advantageous for the quantity of liquid to be so selected that the cross-section of the jet of liquid downstream from the waveguide corresponds approximately to the cross-section of the waveguide. This process is particularly easy to perform if water is used as liquid. The extinction lengths in water with a wavelength of 1.06 .mu.m are 90 mm and are substantially greater in the visible range.
By suitable guidance of the flow, a laminar, compact jet of liquid can be generated which up to a length of approximately 30 mm does not break up into drops. A liquid light guide w

REFERENCES:
patent: 3843865 (1974-10-01), Nath
patent: 4550240 (1985-10-01), Toida et al.
patent: 4676242 (1987-06-01), Doi
Patent Abstracts of Japan 1983, vol. 7, No. 41, M-194.

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