Turbine housing

The invention claimed is: 1. A sheet-metal turbine housing in which a scroll part is formed by joining opposing scroll members made of sheet metal to form a spiral-shaped exhaust gas passage therein, the sheet-metal turbine housing comprising: a center core part which has approximately a cylindrical shape and which includes: a bearing housing portion in which a bearing for rotatably supporting a turbine rotor blade, of a turbine rotor, is arranged; a passage outlet portion configured to form an outer side of the turbine rotor blade in a direction of the turbine; and a plurality of support columns configured to connect the bearing housing portion with the passage outlet portion in an axial direction of the turbine and which are arranged at intervals on an outer circumferential side of the turbine rotor in a circumferential direction of the turbine rotor blade, wherein the center core part is formed from the bearing housing portion, the passage outlet portion, and the plurality of support columns as a single integral structure by cutting work, wherein each of the support columns has a cross-sectional shape of substantially quadrilateral formed by an inner arc, an outer arc, an upstream surface, and a downstream surface, wherein an upstream corner which is at a crossing of the outer arc and the upstream surface has an acute angle, wherein a downstream corner which is at a crossing of the inner arc and the downstream surface has an acute angle, and wherein each of the upstream surface and the downstream surface of the support column is configured flat and inclines from an outer periphery side of the scroll part toward an inner periphery side of the scroll part along a downstream direction of a gas flow. 2. The sheet-metal turbine housing according to claim 1 , wherein each of the support columns has the cross-sectional shape which includes the upstream corner and the downstream corner each having an angle of 20° to 70°. 3. The sheet-metal turbine housing according to claim 1 , wherein a number of the support columns is configured to be set so that an exciting force produced due to pressure variation of an intake gas in the circumferential direction caused by the support columns is configured to resonate with a first-order mode of a natural vibration of the turbine rotor blade at a low rotation speed side of an operation range, and resonate with not lower than a second-order mode of the natural vibration of the turbine rotor blade at a rotation speed outside of the operating range. 4. The sheet-metal turbine housing according to claim 1 , wherein a number of the support columns is configured to be set 6 to 12. 5. The sheet-metal turbine housing according to claim 1 , wherein the support columns are arranged at irregular intervals in the circumferential direction. 6. The sheet-metal turbine housing according to claim 1 , wherein one of the support columns is arranged in an immediate downstream of a tongue part constituting an end of the scroll part. 7. A sheet-metal turbine housing in which a scroll part is formed by joining opposing scroll members made of sheet metal to form a spiral-shaped exhaust gas passage therein, the sheet-metal turbine housing comprising: a center core part which has approximately a cylindrical shape and which includes: a bearing housing portion in which a bearing for rotatably supporting a turbine rotor blade, of a turbine rotor, is arranged; a passage outlet portion configured to form an outer side of the turbine rotor blade in a direction of the turbine; and a plurality of support columns configured to connect the bearing housing portion with the passage outlet portion in an axial direction of the turbine and which are arranged at intervals on an outer circumferential side of the turbine rotor in a circumferential direction of the turbine rotor blade, wherein the center core part is formed from the bearing housing portion, the passage outlet portion, and the plurality of support columns as a single integral structure by cutting work, wherein each of the support columns has a cross-sectional shape of substantially triangular shape formed by an upstream surface a downstream surface, and an inner arc, wherein an upstream corner which is at a crossing of the upstream surface and the downstream surface has an acute angle, wherein a downstream corner which is at a crossing of the downstream surface and the inner arc has an acute angle, and wherein each of the upstream surface and the downstream surface of the support column is configured flat and inclines from an outer periphery side of the scroll part toward an inner periphery side of the scroll part along a downstream direction of a gas flow. 8. The sheet-metal turbine housing according to claim 7 , wherein each of the support columns has the cross-sectional shape which includes the upstream corner and the downstream corner each having an angle of 20° to 70°. 9. The sheet-metal turbine housing according to claim 7 , wherein a number of the support columns is configured to be set so that an exciting force produced due to pressure variation of an intake gas in the circumferential direction caused by the support columns is configured to resonate with a first-order mode of a natural vibration of the turbine rotor blade at a low rotation speed side of an operation range, and resonate with not lower than a second-order mode of the natural vibration of the turbine rotor blade at a rotation speed outside of the operating range. 10. The sheet-metal turbine housing according to claim 7 , wherein a number of the support columns is configured to be set 6 to 12. 11. The sheet-metal turbine housing according to claim 7 , wherein the support columns are arranged at irregular intervals in the circumferential direction. 12. The sheet-metal turbine housing according to claim 7 , wherein one of the support columns is arranged in an immediate downstream of a tongue part constituting an end of the scroll part. 13. A sheet-metal turbine housing in which a scroll part is formed by joining opposing scroll members made of sheet metal to form a spiral-shaped exhaust gas passage therein, the sheet-metal turbine housing comprising: a center core part which has approximately a cylindrical shape and which includes: a bearing housing portion in which a bearing for rotatably supporting a turbine rotor blade, of a turbine rotor, is arranged; a passage outlet portion configured to form an outer side of the turbine rotor blade in a direction of the turbine; and a plurality of support columns configured to connect the bearing housing portion with the passage outlet portion in an axial direction of the turbine and which are arranged at intervals on an outer circumferential side of the turbine rotor in a circumferential direction of the turbine rotor blade, wherein the center core part is formed from the bearing housing portion, the passage outlet portion, and the plurality of support columns as a single integral structure by cutting work, wherein each of the support columns has a cross-sectional shape of substantially triangular shape formed by an upstream surface a downstream surface, and an inner arc, wherein an upstream corner which is at a crossing of the upstream surface and the outer arc has an acute angle, wherein a downstream corner which is at a crossing of the downstream surface and the downstream surface has an acute angle, and wherein each of the upstream surface and the downstream surface of the support column is configured flat and inclines from an outer periphery side of the scroll part toward an inner periphery side of the scroll part along a downstream d