Gasket and flow passage joint structure

The invention claimed is: 1. A gasket connecting flow passages formed in two fluid devices, respectively, the gasket comprising, on both axial sides thereof, a pair of annular primary sealing portions to be press-fitted into annular primary sealing grooves formed at connection end portions of the flow passages of both fluid devices, respectively, the gasket having a fluid flow passage formed on a radially inner side of an inner circumferential surface thereof, the gasket comprising, on both axial sides thereof, a pair of cylindrical secondary sealing portions to be press-fitted into cylindrical secondary sealing grooves respectively formed at the connection end portions of the flow passages of both fluid devices, the pair of cylindrical secondary sealing portions being formed radially outward of the primary sealing grooves, wherein an annular groove having an arc cross-sectional shape is formed between each of the primary sealing portions and a corresponding secondary sealing portion of the secondary sealing portions, a deformation starting point position being a starting point from which the inner circumferential surface is deformed because the primary sealing portion receiving external force from the fluid device when the primary sealing portion is press-fitted into the primary sealing groove is located at a point of intersection of the inner circumferential surface and a virtual tangent line which is tangent to the annular groove and extends in the radial direction of the inner circumferential surface, the gasket includes a tapered surface formed at each of axially outer end portions of the inner circumferential surface such that a diameter thereof gradually increases from an axially inner side toward an axially outer end thereof in a state before the primary sealing portion is press-fitted into the primary sealing groove, and a diameter increase starting point of the tapered surface is located in a range from the deformation starting point position to a center position in an axial direction of the inner circumferential surface. 2. The gasket according to claim 1 , wherein the diameter increase starting point of the tapered surface is located on the deformation starting point position.