RU96113587A - MULTI-CHANNEL LASER RADIATION GENERATION UNIT - Google Patents

Claims (4)

1. The multi-channel laser radiation generation unit, which includes a hollow body with two end flanges that are hermetically adjacent to the body and at the same time are plates of the optical resonator, pulled together by rods made of a material with a low coefficient of linear expansion, longitudinal discharge tubes with pumped gas working through them, located in the form of a package inside the housing and tightly inserted into the flange holes with the exit of the ends to the outside, separators, of electrically conductive material located inside the housing the whisker is perpendicular to its axis and having openings into which gas discharge tubes are inserted, and ring electrodes are inserted into the gaps between the walls of the separator openings and the surface of the gas discharge pipes, to which high voltage is supplied through the separators, a sealed cavity above the surface of the gas discharge pipes for pumping coolant, while separators have windows for the flow of coolant, placed diametrically opposite in adjacent separators, covers sealed to external surfaces m of end flanges and having inputs for pumping and inlet of the working gas, as well as mirrors of the optical resonator mounted inside the covers on the end flanges, characterized in that the body has a cylindrical shape and is made of electrical insulating material, gas discharge tubes in a bag are arranged in a row in a diagonal the plane of the housing at the same distance from each other, round separators are fastened by longitudinal mounting pipes made of the same material as gas discharge pipes and forming on both sides the packs of gas discharge tubes are two symmetrical closed circuits, the external branches of which form a cylindrical surface, concentric to the housing, and the internal branches are located in planes parallel to the plane of the gas discharge tubes package, windows in the separators for coolant flow are located inside one of the circuits formed by the pipes, inside the fasteners two longitudinal tires for high voltage supply are inserted, connected by separators and brought out of the housing, pulling rods of optical fiber zoning are located outside the housing, and a sealed cavity for pumping coolant is formed by the inner walls of the housing and the outer walls of the pipes. 2. The multi-channel laser radiation generation unit according to claim 1, characterized in that the optical resonator consists of a front output mirror located at the output end of the central gas discharge pipe in a packet, perpendicular to its axis, two rotary prisms, the mirrors of which are located at the ends of the remaining gas discharge pipes at an angle of 45 ^o to their axes and at an angle of 90 ^{o to} each other, and the plane of the bisector of the angle of the prism from the front output mirror is aligned with the plane of symmetry of the location of the discharge tubes in the package, and the bisector bone of the angle of the opposite prism is parallelly shifted by a distance equal to half the distance between the gas discharge tubes, of a rear deaf mirror located near the displaced rotary prism from the side of its displacement parallel to the axis of the packet and supplying radiation to the opposite extreme gas discharge tube through the rotary prism, which ensures sequential bypass of laser radiation for all gas discharge pipes from the extreme to the central, and after the front output mirror there is a telescopic system MA to increase the radiation aperture.  3. The multi-channel laser radiation generation unit according to claims 1, 2, characterized in that the extreme separators in the bag are located directly at the end flanges, they are connected to the flanges by fixing fingers and have four windows for the flow of coolant to the surface of the flanges.  4. The multi-channel laser radiation generation unit according to claims 1, 2, 3, characterized in that the seal between the surfaces of each of the gas discharge pipes and the surface of the flanges is achieved by an elastic ring located in the cylindrical recess of the flanges, a concentric gas discharge pipe, the ring elastic the gasket is pressed through the intermediate washer with a cylindrical nut with an opening for the gas discharge pipe.