Patent ID: 8585060
Filing Date: 2013-11-19
Classification: B29B,F16J

Abstract:
1. A tandem seal device arranged between a housing and a rotary shaft extending through said housing to prevent leaking of a sealing fluid from an internal side to an aerial space on an external side by an axial direction two stage mechanical seal device including a primary mechanical seal device of the internal side with higher pressure and a secondary mechanical seal device of an external side with lower pressure, wherein: said preliminary mechanical seal device comprises a rotary ring, which is arranged on the internal side and rotates with said rotary shaft, and a stationary ring, which is arranged on the external side and does not rotate, said rotary ring and said stationary ring contacting tightly at end faces which are facing each other by biasing force of a spring in an axial direction to form a sliding face, said secondary mechanical seal device comprises a rotary ring, which is arranged on said primary mechanical seal device side and rotates with said rotary shaft, and a stationary ring, which is arranged on the external side and does not rotate, said rotary ring and said stationary ring contacting tightly at end faces which are facing each other by biasing force of a spring in the axial direction to form a sliding face, an inner circumferential side of said sliding face of said secondary mechanical seal device is said aerial space on the external side, and an intermediate chamber, a pressure thereof is higher than said aerial space on the external side, is formed over a range from an inner circumferential space of said sliding face of said primary mechanical seal device to an outer circumferential space of said sliding face of said secondary mechanical seal device, first grooves and second grooves are formed respectively on said sliding face of said stationary ring of said secondary mechanical seal device, said first grooves, which do not have a through hole and do not communicate with other space including said intermediate chamber, being separately formed as concaves with each predetermined space in a circumferential direction, said second grooves, which have a through hole and communicate with said intermediate chamber and are available to introduce pressure from said intermediate chamber, being separately formed as concaves with each predetermined space in the circumferential direction, and when said rotary shaft rotates and said sliding faces relatively slide, a dynamic pressure caused by a fluid infiltrated into said first grooves acts to said sliding faces so as to reduce a contact load of said stationary ring and said rotary ring, and a pressure introduced from said intermediate chamber to the second grooves acts to said sliding faces so as to reduce a contact load of said stationary ring and said rotary ring.