Current shield

The invention claimed is: 1. A water current shield, comprising: a) frame, comprising: i) a post; ii) a set of upper louver attachment arms, a first member of the set of upper louver attachment arms connected to the post at a first predetermined offset angle and a second member of the set of upper louver attachment arms connected to the post at a second predetermined offset angle; iii) a set of lower louver attachment arms, a first member of the set of lower louver attachment arms connected to the post at the first predetermined offset angle and a second member of the set of lower louver attachment arms connected to the post at the second predetermined offset angle; and iv) a stationer connected to the post; b) a predetermined set of louver assemblies operatively connected to the frame intermediate the upper louver attachment arms and the lower louver attachment arms, each louver assembly comprising a selectably movable louver; and c) a louver mover operatively connected to each selectably movable louver and operative to allow the louver assemblies to be placed and secured into an open, partially open, and/or closed position. 2. The water current shield of claim 1 , wherein the set of louver assemblies are hingedly connected to the frame. 3. The water current shield of claim 1 , wherein the stationer comprises a predetermined set of suction pads and/or eductors, a first subset of the predetermined set of suction pads and/or eductors configured to operate independently of a second subset of the predetermined set of suction pads and/or eductors by use of check valves and assorted plumbing. 4. The water current shield of claim 1 , further comprising a safety strap connected to a securing point on the frame, the safety strap adapted to be connected to a structure subsea. 5. The water current shield of claim 1 , wherein the predetermined set of louver assemblies are connected to the post in a manner that defines a space sufficient to protect a diver from water currents. 6. The water current shield of claim 1 , wherein the predetermined set of louver assemblies are connected to the post in a manner to define a space sufficient to protect a remotely operated vehicle from water currents. 7. The water current shield of claim 1 , wherein the louver mover comprises a mover closure bar operatively connected to a louver assembly. 8. The water current shield of claim 7 , wherein: a) the mover closure bar comprises a first closure bar operatively connected to a first louver assembly; and b) a second closure bar operatively connected to a second louver assembly. 9. The water current shield of claim 7 , further comprising a handle operatively connected to the mover closure bar. 10. The water current shield of claim 7 , further comprising a pin configured to secure the louver assembly into an open, partially open, and/or closed position. 11. A system, comprising: a) a water current shield, comprising: i) a frame, comprising: 1) a post; 2) a set of upper louver attachment arms, a first member of the set of upper louver attachment arms connected to the post at a first predetermined offset angle and a second member of the set of upper louver attachment arms connected to the post at a second predetermined offset angle; 3) a set of lower louver attachment arms, a first member of the set of lower louver attachment arms connected to the post at the first predetermined offset angle and a second member of the set of lower louver attachment arms connected to the post at the second predetermined offset angle; and 4) a stationer connected to the post; ii) a predetermined set of louver assemblies operatively connected to the frame intermediate the upper louver attachment arms and the lower louver attachment arms, each louver assembly comprising a selectably movable and securable louver; and iii) a louver mover operatively connected to each selectably movable louver and operative to allow the louver assemblies to be placed into an open, partially open, and/or closed position; b) a crane adapted to attached and lower the water current shield into water; c) hold-back rigging attached to the water current shield from an up-current side; and d) a remotely operated vehicle comprising a hydraulic hot stab adapted to power hydraulic suction pumps which will pull a vacuum in the stationer. 12. A method of providing an object with protection from a water current at a subsea work site using a water current shield comprising a frame, the frame comprising a post, a set of upper louver attachment arms where a first member of the set of upper louver attachment arms is connected to the post at a first predetermined offset angle and a second member of the set of upper louver attachment arms is connected to the post at a second predetermined offset angle, a set of lower louver attachment arms where a first member of the set of lower louver attachment arms is connected to the post at the first predetermined offset angle and a second member of the set of lower louver attachment arms is connected to the post at the second predetermined offset angle and a stationer connected to the post, a predetermined set of louver assemblies operatively connected to the frame intermediate the upper louver attachment arms and the lower louver attachment arms where each louver assembly comprises a selectably movable louver and a louver mover operatively connected to each selectably movable louver and operative to allow the louver assemblies to be placed into an open, partially open, and/or closed position, the method comprising: a) lowering the water current shield with a crane, the louvers initially in a first position to allow water current to flow through the louvers; b) positioning the water current shield with hold-back rigging from an up-current side of the subsea work site; c) adjusting an open or closed characteristic of the louvers if drag from the water current needs to be reduced around the subsea work site; and d) closing the louvers to protect an object proximate the water current shield from the water current. 13. The method of claim 12 , further comprising using a hydraulic hot stab from a remotely operated vehicle to power hydraulic suction pumps and pull a vacuum in the stationer. 14. The method of claim 12 , further comprising: a) using a gauge to confirm proper suction being maintained on the stationer; and b) once confirmed, closing the louvers and blocking the water current at the subsea work site. 15. The method of claim 12 , further comprising using the hold-back rigging to pull the water current shield into position as directed by a remotely operated vehicle positioned just up current of the subsea work site. 16. The method of claim 12 , wherein the object comprises a human diver or a remotely operated vehicle (“ROV”).