Flow control device

The invention claimed is: 1. A flow control device comprising: a laminate structure, the laminate structure comprising an electroactive material layer and a non-actuatable layer, wherein the electroactive material layer has a rest state and an actuated state wherein the electroactive material layer comprises comprising a planar layer when in one of the actuated state and rest state with opposing parallel surfaces wherein the non-actuatable layer is disposed being provided on one of the opposing parallel surfaces; wherein the electroactive material layer comprises an array of orifices wherein the orifices are open in one of the rest state and actuated state and the orifices are closed in the other of the rest state and actuated state; an electrode arrangement, wherein the electrode arrangement comprises two solid state electrodes in contact with the electroactive material layer, wherein each of the two solid state electrodes are disposed on each of the opposing parallel surfaces, wherein the two solid state electrodes are arranged to drive the electroactive material layer between the rest state and the actuated state a controller circuit arranged to control actuation of the electroactive material layer, wherein the non-actuatable layer comprises an array of stiffening elements, and wherein the array of stiffening elements is disposed over the electroactive material layer at locations between the orifices. 2. The device as claimed in claim 1 , wherein the orifices are closed in the rest state. 3. The device as claimed in claim 1 , further comprising a sealing layer, wherein the sealing layer is disposed at least around the internal openings of the orifices. 4. The device as claimed in claim 1 , further comprising a breakable outer protection layer, wherein the breakable outer protection layer which is arranged to be broken by first actuation of the device. 5. The device as claimed in claim 1 , wherein the electroactive material layer is arranged to expand in plane. 6. A medicine delivery system comprising: a reservoir of medicine; a flow control device as claimed in claim 1 ; a fluid connection between the reservoir of medicine and the flow control device. 7. The system as claimed in claim 6 , wherein the flow control device comprises a chamber, wherein the chamber has having a first face formed by the flow control device and a second face formed by a second electroactive material actuator, wherein the second electroactive material actuator provides a pumping function. 8. The system as claimed in claim 6 , wherein the flow control device comprises a chamber, wherein the chamber has having a first face formed by the flow control device, wherein the electroactive material layer is arranged to bend when actuated, wherein the bend provides a pumping function. 9. A fluid reaction or mixing system comprising: a set of reservoirs of different fluids; a respective flow control device as claimed in claim 1 at a fluid output of each reservoir; and a shared mixing reservoir at the output of the flow control devices. 10. The system as claimed in claim 9 , further comprising flow control valves at an inlet and an outlet of the shared mixing chamber. 11. A fluid analysis system comprising: a sensing chamber a fluid sensor mounted in the chamber; and a flow control device as claimed in claim 1 , wherein the flow control device is arranged to control the flow of fluid into the sensing chamber. 12. A fluid filtering system, comprising: a flow control device as claimed in claim 1 , wherein the controller circuit is arranged to control the orifice size, wherein the controlled orifice size provides a tunable particle filtering function. 13. The device as claimed in claim 1 , wherein the electroactive material layer is arranged to bend when actuated. 14. A flow control device comprising: a laminate structure, the laminate structure comprising an electroactive material layer and a non-actuatable layer, wherein the electroactive material layer has a rest state and an actuated state, wherein the electroactive material layer comprises a planar layer when in one of the actuated state and rest state with opposing parallel surfaces, wherein the non-actuatable layer is disposed on one of the opposing parallel surfaces; wherein the non-actuatable layer comprises an array of orifices, wherein the orifices are open in one of the rest state and actuated state and the orifices are closed in the other of the rest state and actuated state; an electrode arrangement, wherein the electrode arrangement comprises two solid state electrodes in contact with the electroactive material layer, wherein each of the two solid state electrodes are disposed on each of the opposing parallel surfaces, wherein the two solid state electrodes are arranged to drive the electroactive material layer between the rest state and the actuated state; and a controller circuit arranged to control actuation of the electroactive material layer, wherein the non-actuatable layer comprises an array of stiffening elements, and wherein the array of stiffening elements is disposed over the electroactive material layer at locations between the orifices. 15. The device as claimed in claim 1 , wherein the array of orifices comprises a grid of segments, the orifices comprising spaces between the segments of the grid. 16. The device as claimed in claim 15 , further comprising channels or openings in the electroactive material layer.