Solar heat collection system

The invention claimed is: 1. A solar heat collection system comprising: a low-temperature heat collection device which heats water by use of sunlight heat to thereby generate steam; a steam-water separation device which separates a water-steam two-phase fluid generated by the low-temperature heat collection device into water and steam; a high-temperature heat collection device which heats the steam separated by the steam-water separation device by use of heat of sunlight which is reflected by a plurality of heliostats to thereby generate superheated steam; and a heliostat control device which controls angles of the plurality of heliostats so that a metal temperature of the high-temperature heat collection device cannot be higher than a threshold temperature which is set in order to prevent overshoot of steam temperature at an outlet of the high-temperature heat collection device, wherein the low-temperature heat collection device includes a trough device to collect light and heat in which heat transfer pipes are disposed above inner circumferential curved surfaces of light collection mirrors each extending in a shape of a trough so that sunlight can be concentrated on the heat transfer pipes by the light collection mirrors to heat water circulating in the heat transfer pipes to thereby generate steam, or a Fresnel device to collect light and heat in which a large number of substantially planar light collection mirrors are arranged side by side and heat transfer pipes are disposed above a group of light collection mirrors so that sunlight can be concentrated on the heat transfer pipes by the group of light collection mirrors to heat water circulating in the heat transfer pipes to thereby generate steam; wherein the high-temperature heat collection device includes a tower device to collect light and heat in which a heat transfer pipe panel is installed on a tower having a predetermined height so that sunlight can be concentrated on the heat transfer pipe panel by the plurality of heliostats to heat water circulating in the heat transfer pipe panel to thereby generate steam, the plurality of heliostats comprising a first heliostat and a second heliostat, the first heliostat being closer to the high-temperature heat collection device than the second heliostat; and wherein the heliostat control device adjusts the angles of the heliostats such that an angle of the second heliostat is adjusted to concentrate the sunlight on the heat transfer pipe panel prior to adjusting an angle of the first heliostat. 2. A solar heat collection system according to claim 1 , further comprising: a metal temperature detector which detects the metal temperature of the high-temperature heat collection device; and a flow rate detector which detects a flow rate of the superheated steam generated by the high-temperature heat collection device; wherein: the heliostat control device controls the angles of the plurality of heliostats based on temperature data acquired by the metal temperature detector and flow rate data acquired by the flow rate detector. 3. A solar heat collection system according to claim 1 , further comprising: a first temperature detector which detects steam temperature at an inlet of the steam-water separation device; wherein: the heliostat control device controls the angles of the plurality of heliostats so that sunlight can be reflected toward the high-temperature heat collection device by the heliostats at any timing after a timing when the low-temperature heat collection device is started up and before the temperature detected by the first temperature detector reaches a saturated steam temperature. 4. A solar heat collection system according to claim 1 , further comprising: a second temperature detector which detects steam temperature at an outlet of the low-temperature heat collection device; wherein: the heliostat control device controls the angles of the plurality of heliostats so that sunlight can be reflected toward the high-temperature heat collection device by the heliostats at any timing after a timing when the low-temperature heat collection device is started up and before the temperature detected by the second temperature detector reaches a saturated steam temperature. 5. A solar heat collection system according to claim 1 , wherein: a spray valve is provided to spray water onto the superheated steam generated by the high-temperature heat collection device so as to make the temperature of the superheated steam stable.