초록 ▼

Holes 38 and 39 have upstream opening portions 38b and 39b and downstream opening portions 38a and 39a which have a larger cross-sectional area than upstream opening portions 38b and 39b, and are formed at top portion TP of each moving blade. Holes 38 and 39 have tapered shapes T1 and T2 or step po

Holes 38 and 39 have upstream opening portions 38b and 39b and downstream opening portions 38a and 39a which have a larger cross-sectional area than upstream opening portions 38b and 39b, and are formed at top portion TP of each moving blade. Holes 38 and 39 have tapered shapes T1 and T2 or step portions, and preferably, downstream opening portions 38 a and 39a are eccentrically formed toward the moving direction. When tip squealer 37 is formed, hole 38 is formed so that its opening portion is provided at the side surface of tip squealer 37. Without covering the holes for cooling which are formed at the top portion of the turbine blade due to rubbing or the like, the turbine blade is accurately cooled and stably driven.

대표청구항 ▼

What is claimed is: 1. A turbine blade arranged in a flow path, comprising: a top portion of the turbine blade having a plurality of holes for blowing out a cooling medium to an outside surface, wherein said plurality of holes have a cross-sectional area provided at a downstream opening portion tha

What is claimed is: 1. A turbine blade arranged in a flow path, comprising: a top portion of the turbine blade having a plurality of holes for blowing out a cooling medium to an outside surface, wherein said plurality of holes have a cross-sectional area provided at a downstream opening portion that is larger than a cross-sectional area provided at an upstream opening portion, and wherein a center of the downstream portion of all of the plurality of holes is eccentrically provided to flare in a direction opposite to the relative moving direction of a wall surface facing the top portion. 2. A turbine blade according to claim 1, wherein each hole has a tapered shape. 3. A turbine blade according to claim 1, further comprising: a protrusion portion provided on at least one shoulder, wherein an outside surface of the protrusion portion extends along an outside surface of the turbine blade and an inside wall of the protrusion portion protrudes from the top portion, and the holes are provided along the inside wall of the protrusion portion. 4. A turbine blade arranged in a flow path, comprising: a plurality of holes provided on a top portion of the turbine blade for blowing out cooling medium to an outside surface, wherein a hole has a cross-sectional area provided at a downstream opening portion that is larger than a cross-sectional area provided at an upstream opening portion, and the downstream opening portion of each of said plurality of holes is formed to flare in a direction opposite to the relative moving direction of a wall surface facing the top portion, and each of said plurality of holes has a step portion having two or more steps which have different cross-sectional areas. 5. A gas turbine comprising: a compressor for compressing air; a combustor for generating a high-temperature and high-pressure fluid; and a turbine for generating engine torque by converting energy of the fluid into mechanical work, wherein the turbine blade according to any one of claims 1-4 and 3 is provided in the turbine. 6. A turbine blade adapted to move in a direction of blade movement, said turbine blade comprising: a top portion including a plurality of channels provided therein, each of said plurality of channels including: a first channel portion including a first cross-sectional area provided at a downstream opening portion; and a second channel portion in communication with said first channel portion, said second channel portion including a second cross-sectional area provided at an upstream opening portion smaller than said first cross-sectional area, wherein said first channel portion further includes: a first inner wall portion inclined away from an axis of said channel in the direction of blade movement and forming a first angle with respect to said axis, and a second inner wall portion inclined away from said axis in a direction opposite to the direction of blade movement and forming a second angle with respect to said axis, wherein a magnitude of the first angle is greater than a magnitude of the second angle. 7. A turbine blade according to claim 6, wherein each of said plurality of channels has a tapered shape. 8. A turbine blade adapted to move in a direction of blade movement, said turbine blade comprising: a top portion including a plurality of channels provided therein, each of said plurality of channels comprising: a first channel portion including a first cross-sectional area provided at a downstream opening portion; and a second channel portion in communication with said first channel portion, said second channel portion including a second cross-sectional area provided at an upstream opening portion smaller than said first cross-sectional area, wherein each of said plurality of channels includes a step portion including two or more steps having different cross-sectional areas. 9. A turbine blade according to claim 6, further comprising: a protrusion portion provided on at least one shoulder, wherein an outside surface of the protrusion portion extends along an outside surface of the turbine blade and an inside wall of the protrusion portion protrudes from the top portion, and the plurality of channels are provided along the inside wall of the protrusion portion. 10. A gas turbine comprising: a compressor for compressing air; a combustor for generating a high-temperature and high-pressure fluid; and a turbine for generating engine torque by converting energy of the fluid into mechanical work, wherein the turbine blade according to claim 6 is provided in the turbine. 11. A gas turbine comprising: a compressor for compressing air; a combustor for generating a high-temperature and high-pressure fluid; and a turbine for generating engine torque by converting energy of the fluid into mechanical work, wherein the turbine blade according to claim 7 is provided in the turbine. 12. A gas turbine comprising: a compressor for compressing air; a combustor for generating a high-temperature and high-pressure fluid; and a turbine for generating engine torque by converting energy of the fluid into mechanical work, wherein the turbine blade according to claim 8 is provided in the turbine. 13. A gas turbine comprising: a compressor for compressing air; a combustor for generating a high-temperature and high-pressure fluid; and a turbine for generating engine torque by converting energy of the fluid into mechanical work, wherein the turbine blade according to claim 9 is provided in the turbine.