Combustion burner, combustor, and gas turbine

The invention claimed is: 1. A combustion burner, comprising: a nozzle; a swirl vane having a fuel injection hole for injecting a fuel, the swirl vane being disposed in an air flow passage of an annular shape extending along an axial direction of the nozzle around the nozzle and configured to swirl air which flows through the air flow passage; and a partition plate having an annular shape and partitioning at least a region of the air flow passage in a radial direction of the nozzle, the region being downstream of the swirl vane, so as to divide at least the region of the air flow passage into an inner flow passage facing an outer peripheral surface of the nozzle and an outer flow passage disposed on an outer side of the inner flow passage with respect to the radial direction, wherein the fuel injection hole is disposed in the outer flow passage of the air flow passage, wherein an end portion on an upstream side of the partition plate is disposed upstream of the fuel injection hole in the axial direction, wherein the nozzle comprises: a nozzle inner flow passage disposed inside the nozzle and in communication with the inner flow passage; and an air injection hole having an opening on a downstream end surface of the nozzle, and being configured to inject the air from the nozzle inner flow passage. 2. The combustion burner according to claim 1 , wherein a swirling direction of the air in the inner flow passage is the same as a swirling direction of the air in the outer flow passage. 3. The combustion burner according to claim 1 , wherein a flow of the air in the inner flow passage is a flow along the axial direction, or a flow having a swirl component in a direction opposite to a swirling direction of the air in the outer flow passage. 4. The combustion burner according to claim 1 , wherein the outer peripheral surface of the nozzle is along the axial direction at a downstream end portion of the nozzle, and wherein the partition plate extends along the axial direction so as to cover the outer peripheral surface at the downstream end portion of the nozzle. 5. The combustion burner according to claim 1 , wherein a downstream end portion of the partition plate is disposed upstream of a downstream end surface of the nozzle in the axial direction. 6. The combustion burner according to claim 1 , further comprising a plurality of support members disposed in a circumferential direction of the nozzle inside the inner flow passage, and configured to support the partition plate on the nozzle. 7. The combustion burner according to claim 6 , wherein the support members are configured to swirl the air passing through the inner flow passage. 8. The combustion burner according to claim 1 , wherein the swirl vane comprises a plurality of swirl vanes disposed in a circumferential direction of the nozzle, wherein each of the swirl vanes extends from the outer peripheral surface of the nozzle outward in the radial direction, wherein at least a part of the partition plate extends in the circumferential direction between a pressure surface of one of a pair of swirl vanes disposed adjacent to each other in the circumferential direction, and a suction surface of other one of the pair of swirl vanes, and wherein the inner flow passage includes an inter-blade flow passage surrounded by the partition plate, the outer peripheral surface of the nozzle, the pressure surface, and the suction surface. 9. A combustor, comprising: the combustion burner according to claim 1 ; and a combustion liner for forming a flow channel for guiding combustion gas from the combustion burner. 10. A gas turbine, comprising: a compressor for generating compressed air; the combustor according to claim 9 , configured to combust fuel with the compressed air from the compressor to generate combustion gas; and a turbine configured to be driven by the combustion gas from the combustor.