Preaction sprinkler valve assemblies, related dry sprinkler devices and fire protection sprinkler systems

The invention claimed is: 1. A combination for a fire protection system connected to a piping of a building, the combination comprising: a valve having a body, an open state, and a closed state; an annular seal; and a support assembly configured to maintain the valve in the closed state, the support assembly comprising a lever supporting the annular seal; an activation component including a base, a movable member movable with respect to the base, a bias member providing a biasing force to the movable member to bias the movable member from a preactivation position to an activated position, and a thermally responsive element providing a retaining force to retain the movable member in the preactivation position only until a first predetermined thermodynamic condition is reached, the thermally responsive element being configured to lose structural integrity under the first predetermined thermodynamic condition, permitting the movable member to move from the preactivation position to the activated position; a flexible connector including a flexible hollow outer cable housing with a first end configured to be stationarily connected with respect to the valve and a second end, configured to be stationarily connected with respect to the base, and a flexible inner member slidably located inside the flexible hollow outer cable housing for only sliding movement within the outer cable housing and having a first end and a second end, the first end being configured for mechanical connection with the support assembly, and the second end being configured to be stationarily connected with the movable member so as to be moved with respect to the flexible hollow outer cable housing by movement of the movable member with loss of structural integrity by the thermally responsive element at the first predetermined thermodynamic condition; wherein the first end of the flexible inner member is operatively connected to the support assembly such that motion of the flexible inner member in response to movement of the movable member acts on the support assembly to move the lever such that the valve changes from the closed state to the open state. 2. The combination of claim 1 , further comprising: a second activation component including a second base, a second movable member movable with respect to the second base, a second bias member providing a second biasing force to the second movable member to bias the second movable member from a preactivation position to an activated position of the second movable member, and a second thermally responsive element providing a retaining force to retain the second movable member in the preactivation position only until a second predetermined thermodynamic condition is reached, the second predetermined thermodynamic condition being the same as or different from the first predetermined thermodynamic condition, the second thermally responsive element being configured to lose structural integrity under the second predetermined thermodynamic condition, permitting the second movable member to move from the preactivation position to the activated position of the second movable member; a second flexible connector including a second flexible hollow outer cable housing with a first end configured to be stationarily connected with respect to the valve and a second end, configured to be stationarily connected with respect to the second base, and a second flexible inner member slidably located inside the second flexible hollow outer cable housing for only sliding movement within the second outer cable housing and having a first end and a second end, the first end being configured for mechanical connection with the support assembly, and the second end being configured to be stationarily connected with the second movable member so as to be moved with respect to the second flexible hollow outer cable housing by movement of the second movable member with loss of structural integrity by the second thermally responsive element at the second predetermined thermodynamic condition; wherein the first end of the second flexible inner member is operatively connected to the support assembly such that motion of the second flexible inner member in response to movement of the second movable member acts on the support assembly to move the lever such that the valve changes from the closed state to the open state. 3. The combination of claim 2 , wherein the first end of the first flexible inner member and the first end of the second flexible inner member are operatively connected to an activation manifold, the activation manifold being operatively connected to the support assembly, such that in response to motion of either the first movable member, the second movable member, or both the first movable member and the second movable member, the manifold acts on the support assembly to move the lever such that the valve changes from the closed state to the open state. 4. The combination of claim 3 wherein the activation manifold comprises a first spacer block and a second spacer block engaged with the first spacer block; the first end of the first flexible inner member is operatively connected to the first spacer block, and the first end of the second flexible inner member is operatively connected to the second spacer block, so that upon movement of either the first end of the first flexible inner member, or the first end of the second flexible inner member, or the first ends of both the first flexible inner member and the second flexible inner member, at least one of the first spacer block and the second spacer block disengages from at least the other of the first spacer block and the second spacer block, so that the activation manifold acts on the support assembly to move the lever such that the valve changes from the closed state to the open state. 5. The combination of claim 4 wherein the activation manifold comprises a plunger operatively connected to the first spacer block and the second spacer block, the plunger being biased to act on the support assembly so that upon disengagement of at least one of the first spacer block or the second spacer block from the other of the first spacer block and the second spacer block, the plunger moves the lever such that the valve changes from the open state to the closed state. 6. The combination of claim 1 wherein the thermally responsive element is one of an alcohol filled glass bulb and a fusible link. 7. The combination of claim 1 wherein the activation component further comprises a switch mounted so as to change states with movement of the movable member. 8. The combination of claim 1 wherein the valve is either a poppet valve or a clapper valve. 9. A combination for a fire protection system connected to a piping of a building, the combination comprising: a valve having a body, an open state, and a closed state; and a support assembly configured to maintain the valve in the closed state; an activation component including a base, a securement member having a bore and gripping teeth, the securement member being movable with respect to the base, a bias member providing a biasing force to the securement member urging the securement member from a preactivation position to an activated position, a thermally responsive element providing a retaining force to retain the securement member in the preactivation position only until a predetermined thermodynamic condition is reached, the thermally responsive element being configured to lose structural integrity under the predetermined thermodynamic condition, a flexible member having a first end and an opposite second end, the first end being configured for mechanical connection with the support assembly of the valve, w