A sliding component is characterized in that: with respect to a pair of sliding parts that slide relative to each other, one sealing face has a fluid circulation groove including an inlet through which fluid enters from the high-pressure fluid side, an outlet through which fluid is released to the h
A sliding component is characterized in that: with respect to a pair of sliding parts that slide relative to each other, one sealing face has a fluid circulation groove including an inlet through which fluid enters from the high-pressure fluid side, an outlet through which fluid is released to the high-pressure fluid side, and a communicating part through which the inlet and outlet communicate with each other; wherein the fluid circulation groove is isolated from the low-pressure fluid side by a land, a positive-pressure generation mechanism is provided in the area surrounded by the fluid circulation groove and high-pressure fluid side, and the positive-pressure generation mechanism communicates with the inlet and is isolated from the outlet and high-pressure fluid side by a land.
대표청구항▼
1. A sliding component characterized in that: with respect to a pair of sliding parts that slide relative to each other, one sealing face has a fluid circulation groove comprising an inlet through which fluid enters from a high-pressure fluid side, an outlet through which fluid is released to the hi
1. A sliding component characterized in that: with respect to a pair of sliding parts that slide relative to each other, one sealing face has a fluid circulation groove comprising an inlet through which fluid enters from a high-pressure fluid side, an outlet through which fluid is released to the high-pressure fluid side, and a communicating part through which the inlet and outlet communicate with each other; wherein the fluid circulation groove is isolated from a low-pressure fluid side by a land, a positive-pressure generation mechanism is provided in an area surrounded by the fluid circulation groove and high-pressure fluid side, and the positive-pressure generation mechanism communicates with the inlet and is isolated from the outlet and high-pressure fluid side by a land. 2. A sliding component according to claim 1, characterized in that the fluid circulation groove is provided at multiple locations, each isolated by a land, in a circumferential direction on the sealing face. 3. A sliding component according to claim 2, characterized in that the positive-pressure generation mechanism is constituted by a Rayleigh step mechanism. 4. A sliding component according to claim 2, characterized in that a spiral groove that discharges fluid to the high-pressure fluid side by means of relative sliding of the sliding parts is provided on an outside of an area of the one sealing face surrounded by the fluid circulation groove and high-pressure fluid side, and in that the spiral groove communicates with the high-pressure fluid side and is isolated from the low-pressure fluid side by the land. 5. A sliding component according to claim 2, characterized in that a spiral groove that discharges fluid to the high-pressure fluid side by means of relative sliding of the sliding parts is provided on an outside of an area of the one sealing face surrounded by the fluid circulation groove and high-pressure fluid side, and in that the spiral groove communicates with the high-pressure fluid side and low-pressure fluid side. 6. A sliding component according to claim 2, characterized in that a negative-pressure generation mechanism constituted by a negative-pressure generation groove shallower than the fluid circulation groove is provided on an outside of an area of the one sealing face surrounded by the fluid circulation groove and high-pressure fluid side, and in that the negative-pressure generation groove communicates with the inlet and is isolated from the outlet and low-pressure fluid side by the land. 7. A sliding component according to claim 2, characterized in that a spiral groove that discharges fluid to the high-pressure fluid side by means of relative sliding of the sliding parts is provided on the other sealing face of the pair of sliding parts that slide relative to each other, and in that the spiral groove communicates with the high-pressure fluid side and is isolated from the low-pressure fluid side by the land. 8. A sliding component according to claim 2, characterized in that a spiral groove that discharges fluid to the high-pressure fluid side by means of relative sliding of the sliding parts is provided on the other sealing face of the pair of sliding parts that slide relative to each other, and in that the spiral groove communicates with the high-pressure fluid side and low-pressure fluid side. 9. A sliding component according to claim 1, characterized in that the positive-pressure generation mechanism is constituted by a Rayleigh step mechanism. 10. A sliding component according to claim 9, characterized in that a spiral groove that discharges fluid to the high-pressure fluid side by means of relative sliding of the sliding parts is provided on an outside of an area of the one sealing face surrounded by the fluid circulation groove and high-pressure fluid side, and in that the spiral groove communicates with the high-pressure fluid side and is isolated from the low-pressure fluid side by the land. 11. A sliding component according to claim 9, characterized in that a spiral groove that discharges fluid to the high-pressure fluid side by means of relative sliding of the sliding parts is provided on an outside of an area of the one sealing face surrounded by the fluid circulation groove and high-pressure fluid side, and in that the spiral groove communicates with the high-pressure fluid side and low-pressure fluid side. 12. A sliding component according to claim 9, characterized in that a negative-pressure generation mechanism constituted by a negative-pressure generation groove shallower than the fluid circulation groove is provided on an outside of an area of the one sealing face surrounded by the fluid circulation groove and high-pressure fluid side, and in that the negative-pressure generation groove communicates with the inlet and is isolated from the outlet and low-pressure fluid side by the land. 13. A sliding component according to claim 9, characterized in that a spiral groove that discharges fluid to the high-pressure fluid side by means of relative sliding of the sliding parts is provided on the other sealing face of the pair of sliding parts that slide relative to each other, and in that the spiral groove communicates with the high-pressure fluid side and is isolated from the low-pressure fluid side by the land. 14. A sliding component according to claim 1, characterized in that a spiral groove that discharges fluid to the high-pressure fluid side by means of relative sliding of the sliding parts is provided on an outside of an area of the one sealing face surrounded by the fluid circulation groove and high-pressure fluid side, and in that the spiral groove communicates with the high-pressure fluid side and is isolated from the low-pressure fluid side by the land. 15. A sliding component according to claim 1, characterized in that a spiral groove that discharges fluid to the high-pressure fluid side by means of relative sliding of the sliding parts is provided on an outside of an area of the one sealing face surrounded by the fluid circulation groove and high-pressure fluid side, and in that the spiral groove communicates with the high-pressure fluid side and low-pressure fluid side. 16. A sliding component according to claim 1, characterized in that a negative-pressure generation mechanism constituted by a negative-pressure generation groove shallower than the fluid circulation groove is provided on an outside of an area of the one sealing face surrounded by the fluid circulation groove and high-pressure fluid side, and in that the negative-pressure generation groove communicates with the inlet and is isolated from the outlet and low-pressure fluid side by the land. 17. A sliding component according to claim 6, characterized in that the negative-pressure generation mechanism is constituted by a reversed Rayleigh step mechanism. 18. A sliding component according to claim 1, characterized in that a spiral groove that discharges fluid to the high-pressure fluid side by means of relative sliding of the sliding parts is provided on the other sealing face of the pair of sliding parts that slide relative to each other, and in that the spiral groove communicates with the high-pressure fluid side and is isolated from the low-pressure fluid side by the land. 19. A sliding component according to claim 1, characterized in that a spiral groove that discharges fluid to the high-pressure fluid side by means of relative sliding of the sliding parts is provided on the other sealing face of the pair of sliding parts that slide relative to each other, and in that the spiral groove communicates with the high-pressure fluid side and low-pressure fluid side. 20. A sliding component characterized in that: with respect to a pair of sliding parts that slide relative to each other, one sealing face has a fluid circulation groove comprising an inlet through which fluid enters from a high-pressure fluid side, an outlet through which fluid is released to the high-pressure fluid side, and a communicating part through which the inlet and outlet communicate with each other; wherein the fluid circulation groove is isolated from a low-pressure fluid side by a land, a positive-pressure generation mechanism is provided in an area surrounded by the fluid circulation groove and high-pressure fluid side, the positive-pressure generation mechanism communicates with the inlet, a spiral groove that discharges fluid to the high-pressure fluid side by means of relative sliding of the sliding parts is provided on an outside of an area surrounded by the fluid circulation groove and high-pressure fluid side and between the positive-pressure generation mechanism and the outlet and high-pressure fluid side, the spiral groove is isolated from the low-pressure fluid side by a land, and a surface on which the spiral groove is provided is set lower than the land and higher than the positive-pressure generation mechanism.
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이 특허에 인용된 특허 (3)
Kulkarni Sunil B. (Portage MI) Dingman Randy R. (Schoolcraft MI), Double gas barrier seal.
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