Solar collector for solar heat boiler, and tower-type solar heat boiler equipped with same

The invention claimed is: 1. A solar collector for a solar heat boiler, comprising: a plurality of heat transfer pipes inside which a fluid to be heated flows; cylindrical headers which are disposed in opposite positions and connected to opposite end portions of the heat transfer pipes respectively; and a planar solar heat collection portion which is formed out of the heat transfer pipes and membrane bars fixing adjacent ones of the heat transfer pipes to each other; wherein: the cylindrical headers include an inlet header into which the fluid to be heated flows, an intermediate header which is disposed in a position opposed to the inlet header with interposition of the heat transfer pipes, and two outlet headers which are provided to extend on opposite end sides of the inlet header and through which the fluid introduced from the intermediate header through the heat transfer pipes can be discharged to the outside; and the planar solar heat collection portion includes a first heat collection subportion which is formed out of a group of the heat transfer pipes connected between the inlet header and the intermediate header and the membrane bars for the group of the heat transfer pipes so as to form a center region of the solar heat collection portion extending in an axis direction of each heat transfer pipe, and second heat collection subportions which are formed out of groups of the heat transfer pipes connected between the intermediate header and the two outlet headers and the membrane bars for the groups of the heat transfer pipes so as to be formed on opposite sides of the first heat collection subportion respectively. 2. A solar collector for a solar heat boiler according to claim 1 , wherein: a planar area ratio between the first heat collection subportion and the second heat collection subportions is set at about 1 to 2 so as to reduce a deviation between a temperature difference of the fluid between the intermediate header and the inlet header in the center portion of the first heat collection subportion and a temperature difference of the fluid between each of the outlet headers and the intermediate header in outermost portions of the second heat collection subportions. 3. A tower-type solar heat boiler comprising: a solar collector for a solar heat boiler having a plurality of heat transfer pipes inside which a fluid to be heated flows, cylindrical headers which are disposed in opposite positions and connected to opposite end portions of the heat transfer pipes respectively, and a planar solar heat collection portion which is formed out of the heat transfer pipes and membrane bars fixing adjacent ones of the heat transfer pipes to each other, wherein in the solar collector the cylindrical headers include an inlet header into which the fluid to be heated flows, an intermediate header which is disposed in a position opposed to the inlet header with interposition of the heat transfer pipes, and two outlet headers which are provided to extend on opposite end sides of the inlet header and through which the fluid introduced from the intermediate header through the heat transfer pipes can be discharged to the outside, and the planar solar heat collection portion includes a first heat collection subportion which is formed out of a group of the heat transfer pipes connected between the inlet header and the intermediate header and the membrane bars for the group of the heat transfer pipes so as to form a center region of the solar heat collection portion extending in an axis direction of each heat transfer pipe, and second heat collection subportions which are formed out of groups of the heat transfer pipes connected between the intermediate header and the two outlet headers and the membrane bars for the groups of the heat transfer pipes so as to be formed on opposite sides of the first heat collection subportion respectively; an evaporator which heats water supplied thereto; a steam-water separator which separates a water-steam two-phase fluid generated in the evaporator into saturated steam and water; and heliostats which track light of the sun and concentrate the light on the solar heat collection portion of the solar collector for a solar heat boiler; wherein the saturated steam separated in the steam-water separator is made to flow into the inlet header as the fluid to be heated in the solar collector for a solar heat boiler, so that the saturated steam can be superheated. 4. The tower-type solar heat boiler according to claim 3 , wherein: the solar collector for the solar heat boiler is placed in an upper portion of a tower, and the evaporator and the steam-water separator are placed on or near a ground surface. 5. A tower-type solar heat boiler comprising: a solar collector for a solar heat boiler having a plurality of heat transfer pipes inside which a fluid to be heated flows, cylindrical headers which are disposed in opposite positions and connected to opposite end portions of the heat transfer pipes respectively, and a planar solar heat collection portion which is formed out of the heat transfer pipes and membrane bars fixing adjacent ones of the heat transfer pipes to each other, wherein in the solar collector the cylindrical headers include an inlet header into which the fluid to be heated flows, an intermediate header which is disposed in a position opposed to the inlet header with interposition of the heat transfer pipes, and two outlet headers which are provided to extend on opposite end sides of the inlet header and through which the fluid introduced from the intermediate header through the heat transfer pipes can be discharged to the outside, and the planar solar heat collection portion includes a first heat collection subportion which is formed out of a group of the heat transfer pipes connected between the inlet header and the intermediate header and the membrane bars for the group of the heat transfer pipes so as to form a center region of the solar heat collection portion extending in an axis direction of each heat transfer pipe, and second heat collection subportions which are formed out of groups of the heat transfer pipes connected between the intermediate header and the two outlet headers and the membrane bars for the groups of the heat transfer pipes so as to be formed on opposite sides of the first heat collection subportion respectively; an evaporator which heats water supplied thereto; a steam-water separator which separates a water-steam two-phase fluid generated in the evaporator into saturated steam and water; and heliostats which track light of the sun and concentrate the light on the solar heat collection portion of the solar collector for a solar heat boiler; wherein: the saturated steam separated in the steam-water separator is made to flow into the inlet header as the fluid to be heated in the solar collector for a solar heat boiler, so that the saturated steam can be superheated.