초록 ▼

A membrane actuator includes a magnetically actuatable membrane and a magnetic trigger. The membrane includes a shape memory alloy (SMA), and the magnetic trigger is configured to induce a martensitic transformation in the SMA, to produce a larger force than would be achievable with non-SMA-based ma

A membrane actuator includes a magnetically actuatable membrane and a magnetic trigger. The membrane includes a shape memory alloy (SMA), and the magnetic trigger is configured to induce a martensitic transformation in the SMA, to produce a larger force than would be achievable with non-SMA-based materials. Such a membrane actuator can be beneficially incorporated into a wide variety of devices, including fluid pumps, shock absorbing systems, and synthetic jet producing devices for use in an aircraft. The membrane/diaphragm can be formed from a ferromagnetic SMA, or a ferromagnetic material can be coupled with an SMA such that the SMA and the ferromagnetic material move together. A hybrid magnetic trigger, including a permanent magnet and an electromagnet, is preferably used for the magnetic trigger, as hybrid magnetic triggers are easy to control, and produce larger magnetic gradients than permanent magnets or electromagnets alone.

대표청구항 ▼

The invention in which an exclusive right is claimed is defined by the following: 1. A synthetic jet actuator comprising: (a) a housing including at least one opening in fluid communication with an ambient volume external to the housing; (b) a membrane configured to be magnetically actuated, actuat

The invention in which an exclusive right is claimed is defined by the following: 1. A synthetic jet actuator comprising: (a) a housing including at least one opening in fluid communication with an ambient volume external to the housing; (b) a membrane configured to be magnetically actuated, actuation of the membrane causing the membrane to move from a first position to a second position, the membrane comprising a shape memory alloy, the membrane being disposed in the housing, such that an operating volume is defined by the membrane and the housing, the membrane being disposed such that the membrane is in contact with a fluid contained within the operating volume, the at least one opening in the housing coupling the operating volume in fluid communication with the ambient volume, movement of the membrane from the first position to the second position causing a corresponding change in the operating volume and causing the membrane to push the fluid out of the working volume into the ambient volume via the at least one opening; and (c) a magnetic trigger configured to selectively actuate the membrane, wherein repeated actuation of the membrane forms a series of fluid vortices that are projected into the ambient volume via the at least one opening, the fluid vortices entraining a portion of the fluid in the ambient volume, thereby generating a synthetic jet, each fluid vortex being projected into the ambient volume when movement of the membrane causes the membrane to push the fluid out of the working volume into the ambient volume via the at least one opening. 2. The synthetic jet actuator of claim 1, wherein the membrane comprises a ferromagnetic mass coupled to the shape memory alloy, such that the ferromagnetic mass and the shape memory alloy move together. 3. The synthetic jet actuator of claim 1, further comprising a second membrane similarly configured to be magnetically actuated, such that the membrane and the second membrane can each be actuated by the magnetic trigger. 4. The synthetic jet actuator of claim 3, wherein the housing comprises a cylinder, the membrane sealing a first end of the cylinder, and the second membrane sealing a second end of the open-ended cylinder. 5. The synthetic jet actuator of claim 1, wherein the magnetic trigger is of sufficient magnetic field strength to induce a stress induced martensitic transformation in the shape memory alloy when the membrane is actuated. 6. The synthetic jet actuator of claim 1, further comprising an additional magnetic trigger, the membrane being disposed between the magnetic trigger and the additional magnetic trigger, such that synchronized activation of the magnetic trigger and the additional magnetic trigger results in the membrane reciprocating back-and-forth in the housing. 7. A method for generating a synthetic jet, comprising the steps of: (a) providing a housing including at least one opening in fluid communication with an ambient volume external to the housing; and (b) using a magnetic force to cyclically actuate a membrane disposed within the housing, the membrane displacing a fluid disposed within the housing, wherein repeated actuation of the membrane forms a series of fluid vortices that are projected into the ambient volume via the at least one opening, the fluid vortices entraining a portion of the fluid in the ambient volume, thereby generating a synthetic jet, the membrane comprising at least one of: (i) a ferromagnetic shape memory alloy; and (ii) a ferromagnetic mass coupled to a shape memory alloy, such that the ferromagnetic mass and the shape memory alloy move together. 8. The method of claim 7, wherein the step of using the magnetic force to displace the membrane comprises the step of using sufficient magnetic force to induce a martensitic transformation in the shape memory alloy. 9. The method of claim 7, wherein each actuation cycle of the membrane comprises the steps of: (a) energizing an electromagnet to displace the membrane to a first position; and (b) de-energizing the electromagnet, enabling the membrane to return to a second position. 10. A synthetic jet actuator comprising: (a) a housing including at least one opening in fluid communication with an ambient volume external to the housing, the housing comprising a cylinder; (b) a first membrane configured to be magnetically actuated, actuation of the first membrane causing the membrane to move from a first position to a second position, the first membrane comprising a shape memory alloy, the first membrane sealing a first end of the cylinder, such that an operating volume is defined by the first membrane and the housing, the at least one opening in the housing coupling the operating volume in fluid communication with the ambient volume, movement of the first membrane from the first position to the second position causing a corresponding change in the operating volume; (c) a second membrane configured to be magnetically actuated, the second membrane comprising a shape memory alloy, the second membrane sealing a second end of the cylinder; and (d) a magnetic trigger configured to selectively actuate the first and second membranes, wherein repeated actuation of the first and second membranes forms a series of fluid vortices that are projected into the ambient volume via the at least one opening, the fluid vortices entraining a portion of the fluid in the ambient volume, thereby generating a synthetic jet. 11. A synthetic jet actuator comprising: (a) a housing including at least one opening in fluid communication with an ambient volume external to the housing; (b) a membrane configured to be magnetically actuated, actuation of the membrane causing the membrane to move from a first position to a second position, the membrane comprising a shape memory alloy, the membrane being disposed in the housing, such that an operating volume is defined by the membrane and the housing, the at least one opening in the housing coupling the operating volume in fluid communication with the ambient volume, movement of the membrane from the first position to the second position causing a corresponding change in the operating volume; and (c) a magnetic trigger configured to selectively actuate the membrane, wherein repeated actuation of the membrane forms a series of fluid vortices that are projected into the ambient volume via the at least one opening, the fluid vortices entraining a portion of the fluid in the ambient volume, thereby generating a synthetic jet, wherein the magnetic trigger is of sufficient magnetic field strength to induce a stress induced martensitic transformation in the shape memory alloy when the membrane is actuated. 12. A synthetic jet actuator comprising: (a) a housing including at least one opening in fluid communication with an ambient volume external to the housing; (b) a membrane configured to be magnetically actuated, actuation of the membrane causing the membrane to move from a first position to a second position, the membrane comprising a shape memory alloy, the membrane being disposed in the housing, such that an operating volume is defined by the membrane and the housing, the at least one opening in the housing coupling the operating volume in fluid communication with the ambient volume, movement of the membrane from the first position to the second position causing a corresponding change in the operating volume; (c) a magnetic trigger configured to selectively actuate the membrane, wherein repeated actuation of the membrane forms a series of fluid vortices that are projected into the ambient volume via the at least one opening, the fluid vortices entraining a portion of the fluid in the ambient volume, thereby generating a synthetic jet; and (d) an additional magnetic trigger, the membrane being disposed between the magnetic trigger and the additional magnetic trigger, such that synchronized activation of the magnetic trigger and the additional magnetic trigger results in the membrane reciprocating back-and-forth in the housing. 13. A synthetic jet actuator comprising: (a) a housing defining an internal volume and including at least one opening coupling the internal volume in fluid communication with an ambient volume external to the housing; (b) a magnetically actuatable membrane that when actuated moves from a first position to a second position, the membrane comprising a shape memory alloy, the membrane being disposed in the housing such that a portion of the membrane is in contact with a fluid contained in the internal volume, movement of the membrane from the first position to the second position causing the membrane to apply a force to the fluid; and (c) a magnetic trigger for selectively actuating the membrane, wherein repeated actuation of the membrane forms a series of fluid vortices that are projected into the ambient volume via the at least one opening, the fluid vortices entraining a portion of the fluid in the ambient volume, thereby generating a synthetic jet, each fluid vortex being projected into the ambient volume when movement of the membrane causes the membrane to apply the force to the fluid, to push at least a portion of the fluid out of the housing into the ambient volume via the at least one opening.