Gas circulation type laser oscillator

The invention claimed is: 1. A laser oscillator comprising: an electric discharge excitation part which has a discharge tube extending in one direction, and generates laser by excitation discharge of a laser gas flow through the inside of said discharge tube, an optical resonance part which has optical components attached to outsides of end walls in the extension direction of said discharge tube, and resonates laser which is generated in said discharge tube, and blower piping which connects an intake port and exhaust port of said discharge tube to form a circulation path of laser gas, wherein said end walls of said discharge tube are provided with through holes which connect the inside of said discharge tube and said optical components, and blocking members are arranged in said through holes and provided for reducing the cross-sectional areas of the through holes, so as to block the laser gas flow through said through holes toward said optical components, and an inner diameter of each blocking member is equal to or larger than a diameter of a reflective area of resonator mirrors which are attached to the optical components, and at least one blocking member is mounted to the laser oscillator by a single rib that is positioned through a hole disposed in the end wall. 2. The laser oscillator according to claim 1 , wherein said blocking members have hollow tubular forms, and gaps are provided between the outer circumferential surfaces of said blocking members and inner circumferential surfaces of said through holes, and said blocking members are provided for reducing the cross-sectional area of the through holes. 3. The laser oscillator according to claim 1 , wherein said through holes have columnar forms and said blocking members have cylindrical forms, and inside diameters of said blocking members are within ranges of 65% to 80% of the diameters of said through holes. 4. The laser oscillator according to claim 3 , wherein inside diameters of said blocking members are smaller than an inside diameter of said blower piping. 5. The laser oscillator according to claim 4 , wherein both of a feed source which feeds laser gas to said circulation path and an exhaust pump which exhausts laser gas from said circulation path are connected to the middle of said blower piping, and neither said feed source nor said exhaust pump is connected to a space which is located in front of said optical components. 6. The laser oscillator according to claim 1 , wherein said blocking members are formed from a heat conducting material. 7. The laser oscillator according to claim 1 , wherein said through holes, said optical components, and said blocking members are provided on both sides in the extension direction of said discharge tube.