Single-casing steam turbine and combined cycle power plant of single-shaft type

The invention claimed is: 1. A single-casing steam turbine comprising: blade rows including at least high-pressure blade rows and low-pressure blade rows; a high-pressure chamber housing the high-pressure blade rows; a low-pressure chamber housing the low-pressure blade rows; an expansion joint connecting the high-pressure chamber and the low-pressure chamber to each other and sealing an interior space of the high-pressure chamber and the low-pressure chamber; a position-adjusting unit for adjusting a position of the high-pressure chamber in an axial direction of a rotor; a detection unit for detecting a thermal extension difference between the rotor and the high-pressure chamber; and a control unit for controlling the position-adjusting unit based on the thermal extension difference detected by the detection unit, wherein the detection unit includes a sensor for measuring a distance from the sensor to the rotor. 2. The single-casing steam turbine according to claim 1 , wherein the position-adjusting unit comprises: a pair of hydraulic cylinders for moving a casing support of the high-pressure chamber in opposite directions along the axial direction of the rotor, the pair of hydraulic cylinders being attached to the casing support of the high-pressure chamber; a hydraulic unit for supplying a hydraulic pressure to the pair of hydraulic cylinders; and a switching valve for switching a hydraulic cylinder to be supplied with the hydraulic pressure between the pair of hydraulic cylinders, the switching valve being provided between the pair of hydraulic cylinders and the hydraulic unit. 3. The single-casing steam turbine according to claim 1 , wherein the rotor has a taper surface outside a casing of the single-casing steam turbine, the rotor changing in diameter along the taper surface, and wherein the distance from the sensor to the rotor is a distance from the sensor to the taper surface of the rotor. 4. A single-shaft combined cycle power plant comprising a generator, which is coupled to the single-casing steam turbine of claim 1 , which is coupled to a gas turbine, wherein a thrust bearing is provided between the gas turbine and the single-casing steam turbine, wherein the high-pressure chamber is arranged closer to the thrust bearing than the low-pressure chamber in a casing of the single-casing steam turbine, and wherein the low-pressure chamber is fixed by an anchor. 5. A single-shaft combined cycle power plant comprising a generator, which is coupled to the single-casing steam turbine of claim 1 , which is coupled to a gas turbine, wherein a thrust bearing is provided between the gas turbine and the single-casing steam turbine, wherein the low-pressure chamber is arranged closer to the thrust bearing than the high-pressure chamber in a casing of the single-casing steam turbine, and wherein the low-pressure chamber is fixed by an anchor. 6. The single-casing steam turbine according to claim 1 , wherein the expansion joint is configured to deform in response to thermal extension of at least one of the high-pressure chamber or the low-pressure chamber so as to absorb the thermal extension.