TH72861B - Burner cooling panel Transition parts And the burners that include the panel And gas turbine Including the burners - Google Patents

Claims (1)

Disclaimer (all) which will not appear on the advertisement page. : ------ 16/01/2019 ------ (OCR) Page 1 of 4 pages Disclaimer 1. Burner cooling panel, which defines the circumference of the gas passageway. Burns for combustion gases To flow from the current source to the current end in the axial direction where the combustion core protrudes. Which the combustion cooler cooling panel is included Inner surface that can come into contact with combustion gases The outer surface facing the opposite side from the inner surface and the first and second channels through which the cooling medium passes. In which the first and second channels extend between the inner and outer surfaces in the directional direction of the inner and outer surfaces. With a constant distance from the inner surface in the thickness direction, which is the direction from the inner surface to the outer surface where relative to the end zone of the first cavity, including one end of that cavity, in the direction Longitudinal The second box contains Overlapping zones overlapping the end zone in the protrusion direction of the distal zone by protrusion in the direction of the protrusion component. While being separated from the distal zone in the intersection direction that intersects with the protrusion direction. And the non-overlapping zone that does not overlap the end zone in the protrusion direction. The bent part, which has been bent to the distal zone in the direction of the intersection. It is formed in the second compartment, and the non-overlay zone extends on the opposite side from the overlay zone across the bend. Clause 1 is made up of two sheets where only the first of the two plates has a groove which forms the first and second, and the second of the two is welded to the plate. The first 3. Burner cooling panels according to claim 1 or 2 where the first and second channels each have a single inlet which opens in Outer surface And a single outlet, which opens in the inner surface. 4. The combustion chamber cooling panel according to claim 3, which consists of page 2 of the number 4, a number of pages of the first compartment. And a certain number of the second box Where the side where the outlet of the first vent is aligned is relative to the inlet of the same deflection for a certain number of one vent and the side where the exit of the ventricle is Two are positioned relative to the inlet of the second channel, the same for a certain number of that second channel. And it is the same with the side where the outlet of the first vent is located relative to the inlet of the first 5. The combustion heater cooling panel according to claim 3 or 4, where one outlet Of the inlet and outlet channels are formed in the end zone of the first channel and the other of the inlet and outlet channels are formed in the overlay zone of the channel. Second 6. Burner cooling panel according to one of the claims 1 to 5 Where the cross-sectional area of the first compartment is fixed and the cross-sectional area of the second compartment remains constant 7. the combustion cooling panel according to one of the claims 1 to 6 Where the bend is formed in a zone that does not have an overlap of the second compartment. 8. Burner cooling panel according to claims 1 to 7. Where the second cavity has a second bend, which is formed in the inner zone, the zone that does not have an overlap on the opposite side. From the zone of superposition, cross-sectional, first-bend, and bend to the opposite side from the first bend of the bend.9. Burner cooling according to claim 8, where the inner zone does not have an overlap of the second compartment on the opposite side from the overlay zone by crossing the second bend. It extends in the protrusion direction 1 0. Burner cooling panel according to claim 9, where the inner zone, the non-overlapping zone of the second compartment, on the opposite side from the overlay zone. The second cross-section is arranged in the bounded protrusion zone by the end-zone protrusion of the first cavity in the direction of the protrusion, page 3 of the number 4, page 1. 1. Burner cooling panel according to any of Clause 1 to 10. Where the first cavity has an overlap-free zone that is contiguous to the end zone and does not overlap the zone with an overlap of the second cavity in the protrusion direction. And the bent part, which has been bent to the zone where there is an overlap of the second vent in the direction of intersection. It has been formed in the first cavity 1 2. Burner cooling panel according to claim 11, where the first cavity has a second bend, molded in the zone. Inside the first non-overlap zone on the opposite side from the distal zone, across the first bend that is bent and bent to the opposite side from the The bend of the first ventricle of the first ventricle and the inner zone, a zone without an overlap of the first cavity on the opposite side from the distal zone, across the second bend of the The first compartment extends in the protrusion direction. 1. 3. Burner cooling panel according to Claims 1 to 12. That consists of a certain number of cells that are arranged in an intersection direction. A certain number of second boxes arranged in a contrasting direction. And the third hole overlapping the second in the protrusion direction. Where the zone that has at least one overlap of the second slot And the zone with the overlap of the third compartment, which overlaps the zone with the overlap of the second compartment in the protrusion direction. Are arranged between a pair of adjacent compartments in the direction of intersection among a number of Channel One 1 4. Burner cooling panel according to Clause 1 to 13, any one Where a zone without an overlap of a second channel is formed on the end of the current relative to the overlap zone of the second channel 1 5. Combustion cooling panels according to the Hold any one of the rights 1 to 14 Where direction Extending into the axial direction. 1. 6. Burner cooling panel according to Clause 1 to 15, any one It consists of a welded part that extends in the direction of the protrusion, where page 4 of the number 4, the zone with the overlap of the second compartment is arranged on the opposite side from the resulting section. Get welded across the end zone of the first slot. And the second channel bend has been bent to the part that has been welded. 1 7. Burner cooling panel according to claim 16, consisting of an end slot. Side through which the cooling medium flows The side end slots are positioned between the first and second slots on one side and the welded portion on the other in the intersection direction and protruding in the protrusion direction. Cooling the combustion chamber according to claim 17, where the cross-sectional area of the lateral compartment is larger than the cross-sectional area of the first compartment and the cross-sectional area of the second vent. Transition part consisting of a combustion burner cooling panel in accordance with Clause 1 to 18 of Clause 2 0. Combustion burner consisting of a combustion burner cooling panel in accordance with claim 1. To any of 18 and the combustion apparatus which sprayed fuel on the side of the inner surface of the burner heat sink. From the stream side to the stream end of the combustion chamber cooling 2 1.Gas turbines incorporating a combustion burner according to claim 20 and a turbine driven by the combustion gas from the combustion burner ------------