Low flow-restriction shut-off valve with excess flow closure functionality

The invention claimed is: 1. A shut-off valve for use in a fluid transport or storage system, comprising: a body defining an inlet port, an outlet port, and a fluid flow passageway extending between the inlet and the outlet; a seat arranged in the body adjacent the outlet port; a shaft at least partially disposed in the body; and a control assembly disposed in the body and operatively coupled to the shaft, the control assembly including a driving element and a valve member, the valve member including a bleed port, and the control assembly movable between a closed position, in which the valve member sealingly engages the seat to seal the outlet port and the driving element engages the valve member and covers the bleed port, an open position, in which the valve member is spaced away from the outlet port and substantially outside of the fluid flow passageway, such that the valve member provides minimal flow-restriction to fluid flowing through the fluid flow passageway, and a limited bleed position, in which the valve member sealingly engages the seat to seal the outlet port while the driving element is spaced from the valve member and substantially outside of the fluid flow passageway, thereby exposing the bleed port and allowing limited bleeding therethrough. 2. The shut-off valve of claim 1 , wherein the control assembly automatically moves to the closed position responsive to fluid flow through the fluid flow passageway greater than a predetermined limit. 3. The shut-off valve of claim 2 , wherein the bleed port is configured to facilitate bleeding through the fluid flow passageway when the fluid flow through the fluid flow passageway is greater than the predetermined limit. 4. The shut-off valve of claim 1 , wherein the driving element is disposed between an interior wall of the valve body and the valve member. 5. The shut-off valve of claim 1 , further comprising a first biasing element disposed between the driving element and the valve body, the first biasing element configured to bias the driving element to a closed position. 6. The shut-off valve of claim 5 , further comprising a second biasing element arranged to bias the driving element and the valve member toward one another. 7. The shut-off valve of claim 1 , wherein the shaft protrudes outward of the body and is adapted to be coupled to an external actuator for controlling the shaft. 8. The shut-off valve of claim 7 , wherein the shaft is movable about an axis substantially perpendicular to the fluid flow passageway. 9. The shut-off valve of claim 8 , wherein the shaft is rotatable about the axis, and wherein the valve member comprises a swinging valve member. 10. The shut-off valve of claim 8 , wherein the shaft is slidable along the axis. 11. The shut-off valve of claim 1 , further comprising an adjuster for adjusting excess flow capacity of the shut-off valve, the adjuster configured to engage the driving element to change a position of the driving element in the closed position. 12. A shut-off valve for use in a fluid transport or storage system, comprising: a body defining an inlet port, an outlet port, and a fluid flow passageway extending between the inlet port and the outlet port; a seat arranged in the body adjacent the outlet port; a shaft at least partially disposed in the body; and a control assembly disposed in the body and operatively coupled to the shaft, the control assembly comprising a driving element and a valve member, the valve member comprising a bleed port, the control assembly movable between a closed position, in which the control assembly is disposed within the fluid flow passageway and a portion of the control assembly sealingly engages the seat to seal the outlet port, an open position, in which the control assembly is spaced away from the outlet port and substantially outside of the fluid flow passageway, such that the control assembly provides minimal flow-restriction to fluid flowing through the fluid flow passageway, and a limited bleed position, in which the valve member sealingly engages the seat to seal the outlet port while the driving element is spaced from the valve member and substantially outside of the fluid flow passageway, thereby exposing the bleed port and allowing limited bleeding therethrough. 13. The shut-off valve of claim 12 , wherein the driving element is configured to move the valve member, responsive to actuation of the shaft, between a closed position, in which the valve member sealingly engages the seat to seal the outlet port, and an open position, in which the valve member is spaced away from the outlet port. 14. The shut-off valve of claim 12 , wherein the valve member automatically moves to the closed position responsive to fluid flow through the fluid flow passageway greater than an excess flow capacity of the shut-off valve. 15. The shut-off valve of claim 12 , further comprising a first biasing element disposed between the driving element and the valve body, the first biasing element configured to bias the driving element to a closed position. 16. The shut-off valve of claim 15 , further comprising a second biasing element arranged to bias the driving element and the valve member toward one another. 17. The shut-off valve of claim 12 , wherein the shaft is rotatable about an axis substantially perpendicular to the fluid flow passageway. 18. The shut-off valve of claim 12 , wherein the shaft is slidable along an axis substantially perpendicular to the fluid flow passageway. 19. The shut-off valve of claim 18 , further comprising a ramp arranged in the valve body, the ramp defining a guide path oriented at an angle relative to the axis, wherein the shaft is coupled to the control assembly via a linkage element guided by the ramp. 20. A shut-off valve for use in a fluid transport or storage system, comprising: a body defining an inlet port, an outlet port, and a fluid flow passageway extending between the inlet and the outlet; a seat arranged in the body adjacent the outlet port; a shaft at least partially disposed in the body; a control assembly disposed in the body and operatively coupled to the shaft, the control assembly comprising a driving element and a valve member, the valve member including a bleed port, and the control assembly movable between a closed position, in which the valve member sealingly engages the seat to seal the outlet port and the driving element engages the valve member and covers the bleed port, an open position, in which the valve member is spaced away from the outlet port and substantially outside of the fluid flow passageway, such that the valve member provides minimal flow-restriction to fluid flowing through the fluid flow passageway, and a limited bleed position, in which the valve member sealingly engages the seat to seal the outlet port while the driving element is spaced from the valve member and substantially outside of the fluid flow passageway, thereby exposing the bleed port and allowing limited bleeding therethrough; and a break-away safety mechanism comprising a circumferential channel formed in the valve body between the outlet port and the seat.