Belleville seal for valve seat having a tear drop laminar flow feature

We claim: 1. A fire-protection system for delivering a fire-control fluid, the fire-protection system comprising: a valve having a body with a fluid aperture having an aperture axis, and a fluid-flow axis parallel to a direction of flow of fluid through the fluid aperture; a seal member supportable to close the fluid aperture, the seal member having a blocking position and orientation, the seal member preventing a fluid flow through the aperture in a pre-activation condition of the fire-protection system when in the blocking position and orientation, the seal member being movable from the blocking position and orientation to a fluid-flow position and orientation in an activated condition of the fire-protection system, the seal member comprising: a Belleville washer having an aperture and a washer axis passing through the center of the aperture, perpendicular to the Belleville washer; and a support body comprising: a leading portion having a forward surface with a leading point, the leading portion being oriented in an upstream direction with respect to the fluid flow when the seal member is in the fluid-flow position and orientation; a trailing portion having a rearward surface with a trailing point, the trailing portion being oriented in a downstream direction with respect to the fluid flow when the seal member is in the fluid-flow position and orientation; a transverse surface supporting the Belleville washer and oriented with the washer axis aligned with the aperture axis in the blocking position and orientation and with the washer axis at an angle to the fluid-flow axis when the seal member is in the fluid-flow position and orientation; and a support-body length measured perpendicular to the washer axis, wherein the support body has a thickness extending from the transverse surface to an opposite surface of the support body and a maximum thickness, and the thickness of the support body is tapered from a location of the maximum thickness toward the leading point of the support body, and a forward thickness taper distance from the point of maximum thickness to the leading point of the support body is less than 50 percent of the support-body length; and wherein the thickness of the support body is tapered from the location of maximum thickness toward the trailing point of the support body, and a rearward thickness taper distance from the point of maximum thickness to the trailing point of the support body is greater than the forward thickness taper distance. 2. The fire-protection system according to claim 1 , wherein the support body has a width extending perpendicular to both the support-body length and the washer axis; and wherein the support body has a maximum width, and the width of the support body is tapered from a location of the maximum width toward the leading point of the support body, and a forward width taper distance from the point of maximum width to the leading point of the support body is less than 50 percent of the support-body length; and wherein the width of the support body is tapered from the location of maximum width toward the trailing point of the support body, and a rearward width taper distance from the point of maximum width to the trailing point of the support body is greater than the forward width taper distance. 3. The fire-protection system of claim 2 , further comprising: a movable base, the movable base being axially movable in translation parallel to the fluid-flow axis with respect to the valve, and a transverse support member fixed to the movable base and pivotably supporting the support body with respect to the movable base. 4. The fire-protection system according to claim 2 , wherein the trailing portion of the support body comprises at least one of a frustoconical trailing portion, a parabolic trailing portion, and a curved trailing portion. 5. The fire-protection system according to claim 2 , wherein the leading portion of the support body comprises at least one of a frustoconical trailing portion, a parabolic trailing portion, and a curved trailing portion. 6. The fire-protection system according to claim 1 , further comprising: a movable base, the movable base being axially movable in translation parallel to the fluid-flow axis with respect to the valve, and a transverse support member fixed to the movable base and pivotably supporting the support body with respect to the movable base. 7. The fire-protection system according to claim 6 , wherein the transverse support member engages the support body for pivoting about a point located within a first 50 percent of the support-body length as measured parallel to the fluid-flow axis when the seal member is in the fluid-flow orientation. 8. The fire-protection system according to claim 6 , wherein the transverse support member engages the support body for pivoting about a point located within a first 25 percent of the support-body length as measured parallel to the fluid-flow axis when the seal member is in the fluid-flow orientation. 9. The fire-protection system according to claim 6 , further comprising: a biasing member configured for exerting a torque on the support body rotating the support body with respect to the movable base to orient the leading portion in the upstream direction with respect to the fluid flow and the trailing portion in the downstream direction with respect to fluid flow. 10. The fire-protection system according to claim 9 , wherein the transverse surface of the support body has a different shape or geometry than an opposite surface of the support body. 11. The fire-protection system according to claim 6 , wherein the movable base is tubular and aligned with the fluid-flow axis for fluid flow therethrough. 12. The fire-protection system according to claim 1 , wherein the trailing portion of the support body comprises at least one of a frustoconical trailing portion, a parabolic trailing portion, and a curved trailing portion. 13. The fire-protection system according to claim 12 , further comprising: a biasing member configured for exerting a torque on the support body to rotate the support body with respect to the movable base to orient the leading portion in the upstream direction with respect to the fluid flow and the trailing portion in the downstream direction with respect to fluid flow. 14. The fire-protection system according to claim 1 , wherein the leading portion of the support body comprises at least one of a frustoconical portion, a parabolic portion, and a curved portion. 15. The fire-protection system according to claim 14 , further comprising: a biasing member configured for exerting a torque on the support body to rotate the support body with respect to the movable base to orient the leading portion in the upstream direction with respect to the fluid flow and the trailing portion in the downstream direction with respect to fluid flow. 16. A fire-protection system for delivering a fire-control fluid, the fire-protection system comprising: a valve having a body with a fluid aperture having an aperture axis, and a fluid-flow axis parallel to a direction of flow of fluid through the fluid aperture; a seal member supportable to close the fluid aperture, the seal member having a blocking position and orientation, the seal member preventing a fluid flow through the aperture in a pre-activation condition of the fire-protection system when in the blocking position and orientation, the seal member being movable from the blocking position and orientation to a fluid-flow position and orientation in an activated condition of the fire-protection system, the seal