Burner device for high-temperature air combustion

The invention claimed is: 1. A burner device for high-temperature air combustion, the burner device comprising: a thermal insulation portion provided facing a furnace and comprising a throat; a burner nozzle provided at the axial center of the throat and configured to inject a pulverized coal mixed flow into the furnace through the throat; a windbox positioned and configured to house the burner nozzle; an air register provided at a distal end of the burner nozzle so as to surround the burner nozzle and configured to inject secondary air for steady combustion from the windbox to the throat; a high-temperature air nozzle having a non-concentric cylindrical shape when viewed from a furnace side, one end of the high-temperature air nozzle opens into the furnace through the thermal insulation portion while the other end of the high-temperature air nozzle opens into the windbox, and the high-temperature air nozzle is positioned and configured to inject secondary air for high-temperature air combustion having a higher temperature than that of the secondary air for steady combustion; and a combustion air switching member comprising the air register and a damper positioned at the high-temperature air nozzle, and the combustion air switching member configured to switch between injecting the secondary air for steady combustion to the throat through the air register and injecting the secondary air for high-temperature air combustion to the furnace interior through the high-temperature air nozzle, wherein in steady combustion, the secondary air for steady combustion is injected to the throat through the air register by the combustion air switching member and a pulverized coal mixed flow is injected from the burner nozzle, and in high-temperature air combustion, the secondary air for high-temperature air combustion is injected to the furnace interior through the high-temperature air nozzle by the combustion air switching member and a pulverized coal mixed flow is injected from the burner nozzle; and a secondary air temperature adjusting member comprising an exhaust gas extraction line and a flow regulating valve positioned in the exhaust gas extraction line, and the secondary air temperature adjusting member configured to extract exhaust gas and to mix the extracted exhaust gas with secondary air flowing into the windbox in order to raise the temperature of the secondary air, wherein in a first state of the secondary air temperature adjusting member, the secondary air temperature adjusting member does not mix exhaust gas with the secondary air, the combustion air switching member closes the high-temperature air nozzle, and injects the secondary air via the air register, in a second state of the secondary air temperature adjusting member, the secondary air temperature adjusting member having mixed exhaust gas with the secondary air, the combustion air switching member closes the air register, and injects the secondary air via the high-temperature air nozzle, and wherein the air register comprises a swirl vane configured to swirl the secondary air that flows into the air register, wherein the damper positioned at the high-temperature air nozzle is configured to rotate around a rotation shaft; and an opening degree setting lever attached to the rotation shaft is fixable at a predetermined angle to an opening degree setting plate having a fan shape that is centered on the rotation shaft, wherein during transition from the steady combustion to the high-temperature air combustion, the combustion air switching member incrementally opens the high-temperature air nozzle by selecting a fixing position of the opening degree setting lever to the opening degree setting plate, and incrementally closes the air register corresponding to the opening of the high-temperature air nozzle. 2. The burner device for high-temperature air combustion according to claim 1 , wherein the secondary air for steady combustion is air that is blown from a blower and heat exchanged with exhaust gas via a heat exchanger, and the secondary air for high-temperature air combustion is air that is raised in temperature by exhaust gas being mixed with the secondary air for steady combustion. 3. The burner device for high-temperature air combustion according to claim 1 , wherein the burner nozzle comprises: a pulverized coal burner nozzle, and an oil burner nozzle positioned inside of this pulverized coal burner nozzle to be concentric with the pulverized coal burner nozzle. 4. The burner device for high-temperature air combustion according to claim 1 , wherein the secondary air for high-temperature air combustion is injected from the high-temperature nozzle toward the furnace interior parallel with the pulverized coal mixed flow. 5. The burner device for high-temperature air combustion according to claim 1 , wherein a pair of high-temperature air nozzles are positioned symmetrical about the burner nozzle.