초록 ▼

Magnetic field manipulation devices and magnetic actuators are disclosed. In one embodiment, a magnetic field manipulation device includes an iron base substrate having a surface, and at least four electrically conductive loops embedded in the surface of the iron substrate. The at least four electri

Magnetic field manipulation devices and magnetic actuators are disclosed. In one embodiment, a magnetic field manipulation device includes an iron base substrate having a surface, and at least four electrically conductive loops embedded in the surface of the iron substrate. The at least four electrically conductive loops are electrically coupled to one another, and are arranged in the surface of the iron substrate such that the magnetic field manipulation device diverges magnetic flux lines of a magnetic field generated by a magnetic field source positioned proximate the magnetic field manipulation device. In another embodiment, the at least four electrically conductive loops are electrically isolated such that the magnetic field manipulation device converges magnetic flux lines of a magnetic field generated by a magnetic field source positioned proximate the magnetic field manipulation device.

대표청구항 ▼

1. An actuator comprising: a magnet body comprising a magnet end portion;a magnetic field manipulation device coupled to the magnet end portion, comprising: an iron substrate assembly having a surface; andat least four adjacent electrically conductive loops embedded in the surface of the iron substr

1. An actuator comprising: a magnet body comprising a magnet end portion;a magnetic field manipulation device coupled to the magnet end portion, comprising: an iron substrate assembly having a surface; andat least four adjacent electrically conductive loops embedded in the surface of the iron substrate assembly; anda plunger comprising a plunger end portion, wherein: the plunger is moveable relative to the magnet end portion;a gap is present between the magnet end portion and the plunger end portion;the magnet body produces a magnetic force on the plunger induced by magnetic flux extending through the gap between the magnet end portion and the plunger end portion; andthe magnetic field manipulation device alters the magnetic force at the plunger end portion. 2. The actuator of claim 1, further comprising grooves within the surface of the iron substrate assembly, wherein the at least four adjacent electrically conductive loops are located within the grooves. 3. The actuator of claim 1, wherein the at least four adjacent electrically conductive loops are rectangular in shape. 4. The actuator of claim 1, wherein the at least four adjacent electrically conductive loops have a width of about 0.8 mm. 5. The actuator of claim 1, wherein the magnetic field manipulation device increases magnetic flux density within a region of the plunger end portion, so as to increase the magnetic force on the plunger. 6. The actuator of claim 5, wherein the magnetic field manipulation device converges magnetic flux lines produced by the magnet body such that the plunger end portion receives a focused magnetic force that is greater than a non-focused magnetic force received by the plunger end portion in an absence of the magnetic field manipulation device. 7. The actuator of claim 5, wherein the at least four-adjacent electrically conductive loops are electrically isolated with respect to one another. 8. The actuator of claim 5, wherein the iron substrate assembly comprises an array of segments, each segment comprising an iron substrate, and a single electrically conductive loop of the at least four adjacent electrically conductive loops embedded in the surface of the iron substrate, wherein: segments of the array of segments are coupled together by a dielectric bonding agent such that an electrically conductive loop of each segment is electrically isolated from electrically conductive loops of adjacent segments in the array of segments. 9. The actuator of claim 1, wherein the magnetic field manipulation device decreases magnetic flux density at the plunger end portion, so as to decrease the magnetic force on the plunger. 10. The actuator of claim 9, wherein the magnetic field manipulation device diverges magnetic flux lines produced by the magnet body such that the plunger end portion receives a shielded magnetic force that is less than a non-shielded magnetic force received by the plunger end portion in an absence of the magnetic field manipulation device. 11. The actuator of claim 1, wherein the magnetic field manipulation device covers a majority of a surface of the magnet end portion. 12. The actuator of claim 1, wherein the magnetic field manipulation device covers an entire surface of the magnet end portion. 13. An actuator comprising: a magnet body comprising a magnet end portion;a magnetic field manipulation device coupled to the magnet end portion, comprising: an iron substrate assembly having a surface, wherein the iron substrate assembly covers a majority of a surface of the magnet end portion; andat least four adjacent electrically conductive loops embedded in the surface of the iron substrate assembly; anda plunger comprising a plunger end portion, wherein: the plunger is moveable relative to the magnet end portion;a gap is present between the magnet end portion and the plunger end portion; andthe magnet body produces a magnetic force on the plunger induced by magnetic flux extending through the gap between the magnet end portion and the plunger end portion. 14. The actuator of claim 13, wherein magnetic field manipulation device is configured to alter the magnetic force at the plunger end portion. 15. The actuator of claim 13, wherein the at least four adjacent electrically conductive loops are electrically isolated with respect to one another. 16. The actuator of claim 13, wherein the iron substrate assembly comprises an array of segments, each segment comprising an iron substrate, and a single electrically conductive loop of the at least four adjacent electrically conductive loops embedded in the surface of the iron substrate, wherein: segments of the array of segments are coupled together by a dielectric bonding agent such that an electrically conductive loop of each segment is electrically isolated from electrically conductive loops of adjacent segments in the array of segments. 17. The actuator of claim 13, wherein the at least four adjacent electrically conductive loops are electrically coupled to one another. 18. The actuator of claim 13, wherein the magnetic field manipulation device diverges magnetic flux lines produced by the magnet body such that the plunger end portion receives a shielded magnetic force that is less than a non-shielded magnetic force received by the plunger end portion in an absence of the magnetic field manipulation device. 19. The actuator of claim 13, wherein the magnetic field manipulation device is configured to increase magnetic flux density within a region of the plunger end portion, so as to increase the magnetic force on the plunger. 20. The actuator of claim 13, wherein the iron substrate assembly covers an entirety of the surface of the magnet end portion.