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A dry sprinkler is provided that includes a conduit with a fluid inlet and a fluid outlet, a valve positioned near the fluid inlet and a fire sprinkler head that is positioned near the fluid outlet. The fire sprinkler head is operably connected to the valve by a tie. When the fire sprinkler head rea

A dry sprinkler is provided that includes a conduit with a fluid inlet and a fluid outlet, a valve positioned near the fluid inlet and a fire sprinkler head that is positioned near the fluid outlet. The fire sprinkler head is operably connected to the valve by a tie. When the fire sprinkler head reacts to an elevated temperature condition, the tie is engaged and is operable to open the valve. In a normal state, before the fire sprinkler head reacts, the tie can be unbiased toward the fire sprinkler head. The tie can also be non-rigid and/or in a non-compressed state within the conduit. The conduit of the dry sprinkler can be flexible.

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1. A dry sprinkler comprising: a fluid conduit that is configured to couple to a fluid supply, the conduit having a first end and a second end;a valve that is positioned proximate to the first end of the conduit, the valve having (i) a closed state that prevents fluid from the fluid supply from flow

1. A dry sprinkler comprising: a fluid conduit that is configured to couple to a fluid supply, the conduit having a first end and a second end;a valve that is positioned proximate to the first end of the conduit, the valve having (i) a closed state that prevents fluid from the fluid supply from flowing through the conduit, and (ii) an open state that allows fluid from the fluid supply to flow through the conduit;a fire sprinkler head positioned proximate to the second end of the conduit, the fire sprinkler head having a thermally responsive element that reacts to an elevated temperature condition; andan unbiased tie positioned within the conduit and being operably coupled to the valve, the unbiased tie having at least an unengaged state and an engaged state, wherein (i) the unbiased tie is not biased towards the sprinkler head in the unengaged state, (ii) the reaction of the thermally responsive element to the elevated temperature condition causes the tie to change from the unengaged state to the engaged state, and (iii) changing the tie to the engaged state from the unengaged state allows the valve to change from the closed state to the open state; andan engagement action that is coupled to the unbiased tie, the engagement action (i) being triggered when the thermally responsive element reacts to the elevated temperature condition, (ii) causing the tie to change from the unengaged state to the engaged state, when triggered, thereby allowing the valve to change from the closed state to the open state, and (iii) including a tubular member that is located proximate to the second end of the fluid conduit and is supported by the thermally responsive element such that when the thermally responsive element reacts to the elevated temperature, the tubular member is no longer supported by the thermally responsive element and can move towards the sprinkler head;wherein one end of the unbiased tie operatively engages the tubular member such that the one end of the unbiased tie moves with the tubular member. 2. The dry sprinkler according to claim 1, further comprising: a first enlarged member attached to the one end of the unbiased tie, the enlarged member being in operative engagement with the tubular member. 3. The dry sprinkler according to claim 2, wherein: the first enlarged member is a first cylinder having its longitudinal axis parallel to the longitudinal axis of the second end of the fluid conduit. 4. The dry sprinkler according to claim 3, further comprising a first spring clip that fits around a portion of the first cylinder and operatively attaches the first cylinder to the tubular member. 5. The dry sprinkler according to claim 4, further comprising: a reducer that attaches the sprinkler head to the second end of the fluid conduit; wherein the unbiased tie is slidably encased in a sheath having a lower end, the lower end of the sheath being operatively retained by the reducer such that the lower end of the sheath does not move when the thermally responsive element reacts to the elevated temperature. 6. The dry sprinkler according to claim 5, wherein: the lower end of the sheath includes a second enlarged member that is operatively retained by the reducer. 7. The dry sprinkler according to claim 6, wherein: the second enlarged member is a second cylinder having its longitudinal axis parallel to the longitudinal axis of the second end of the fluid conduit. 8. The dry sprinkler according to claim 7, further comprising: a second spring clip that fits around a portion of the second cylinder and operatively attaches the second cylinder to the reducer. 9. The dry sprinkler according to claim 1, further comprising: a compression spring that is in compression between tubular member and a fixed member before the thermally responsive member reacts to the elevated temperature. 10. A dry sprinkler comprising: a flexible conduit that is configured to be coupled to a fluid supply, the flexible conduit having a first end that is a fluid inlet and a second end that is a fluid outlet;a valve positioned proximate to the first end, the valve having a sealing member that is urged to a closed position in which fluid from the fluid supply is prevented from flowing through the conduit, the sealing member being movable to an open position in which fluid from the fluid supply flows through the conduit;a fire sprinkler head positioned proximate to the second end of the conduit the fire sprinkler head having a thermally responsive element that is configured to react to an elevated temperature condition;an unbiased tie positioned within the flexible conduit and being present in the flexible conduit in a state such that the unbiased tie is not biased toward the fire sprinkler head, the unbiased tie having a first portion and a second portion, the first portion of the unbiased tie being operably coupled to the sealing member to urge it to the open position when the unbiased tie is engaged;an engagement action connected to the second portion of the unbiased tie, the engagement action being operably coupled to the thermally responsive element so that when the thermally responsive element reacts to the elevated temperature condition, the engagement action is triggered to apply tension to the unbiased tie thereby causing the tie to move the sealing member to the open position; anda reducer that attaches the fire sprinkler head to the second end of the flexible conduit;wherein:the engagement action includes a tubular member slidably received in the reducer, a compression spring and a tie connecting member;the tubular member being supported by the thermally responsive element such that when the thermally responsive element reacts to the elevated temperature, the tubular member is no longer supported by the thermally responsive elements and can move towards the sprinkler head;the compression spring exerts a force on the tubular member toward the fire sprinkler head;the tie connecting member is attached to the second portion of the tie; andthe tie connecting member operatively engages the tubular member such that the tie connecting member moves with the tubular member. 11. The dry sprinkler according to claim 10, wherein: the tie connecting member is a first cylinder having its longitudinal axis parallel to the longitudinal axis of the reducer. 12. The dry sprinkler according to claim 11, further comprising a first spring clip that fits around a portion of the first cylinder and operatively attaches the first cylinder to the tubular member. 13. The dry sprinkler according to claim 12, wherein: the unbiased tie is slidably encased in a sheath having a lower end, the lower end of the sheath being operatively retained by the reducer such that the lower end of the sheath does not move when the thermally responsive element reacts to the elevated temperature. 14. The dry sprinkler according to claim 13, wherein: the lower end of the sheath includes an enlarged member that is operatively retained by the reducer. 15. The dry sprinkler according to claim 14, wherein: the enlarged member is a second cylinder having its longitudinal axis parallel to the longitudinal axis of the reducer. 16. The dry sprinkler according to claim 15, further comprising: a second spring clip that fits around a portion of the second cylinder and operatively attaches the second cylinder to the reducer. 17. A dry sprinkler comprising: a fluid conduit that is configured to couple to a fluid supply, the conduit having a first end and a second end;a valve that is positioned proximate to the first end of the conduit, the valve having (i) a closed state that prevents fluid from the fluid supply from flowing through the conduit, and (ii) an open state that allows fluid from the fluid supply to flow through the conduit;a fire sprinkler head positioned proximate to the second end of the conduit, the fire sprinkler head having a thermally responsive element that reacts to an elevated temperature condition; andan unbiased tie positioned within the conduit and being operably coupled to the valve, the unbiased tie having at least an unengaged state and an engaged state, wherein (i) the unbiased tie is not biased towards the sprinkler head in the unengaged state, (ii) the reaction of the thermally responsive element to the elevated temperature condition causes the tie to change from the unengaged state to the engaged state, and (iii) changing the tie to the engaged state from the unengaged state allows the valve to change from the closed state to the open state; anda valve catch that is coupled to the tie, wherein changing the tie from the unengaged state to the engaged state causes the valve catch to allow the valve to move from the closed state to the open state;the valve catch comprises a fixed body member, a tie holding member configured to operatively retain the tie when the tie is in the unengaged state, and a valve supporting member;the fixed body member supports the tie holding member, the tie holding member supports the valve supporting member and the valve supporting member supports the valve in the closed state when the tie is in the unengaged state; andwhen the tie changes from the unengaged state to the engaged state, the tie holding member is configured to be dislodged such that the valve supporting member does not support the valve in the closed state, which allows the valve to move to the open state. 18. The dry sprinkler according to claim 17, further comprising: an end cap attached to the first end of the fluid conduit;wherein the fixed body member is retained by the end cap. 19. The dry sprinkler according to claim 18, wherein: the tie is slidably and partially encased in a sheath having a first end; andthe first end of the sheath is attached to the fixed body member. 20. The dry sprinkler according to claim 19, wherein: the tie holding member has first and second ends; andthe first end of the tie holding member operatively engages one end of the tie and the second end of the tie holding member is sandwiched between the fixed body member and the valve supporting member when the tie is in the unengaged state.