Omni-directional shear-horizontal wave magnetostrictive patch transducer and method of winding coil

What is claimed is: 1. A transducer comprising: a permanent magnet that generates a magnetostatic field; a patch disposed below the permanent magnet and formed of a material that deforms according to a magnetic field; an insulator disposed on a top surface of the patch; and a coil wound around the patch and the insulator in a certain form and allowing a magnetomotive field to be induced on the patch according to an applied current, wherein the wound coil has a form in which directions of the magnetostatic field generated by the permanent magnet and the magnetomotive field generated by winding the coil are orthogonal to each other. 2. The transducer of claim 1 , wherein the patch comprises nickel. 3. The transducer of claim 1 , wherein the patch is formed in a circular ring shape having a hole formed in the center thereof. 4. The transducer of claim 3 , wherein the permanent magnet is disposed on a central portion of the patch in such a way that the magnetostatic field generated by the permanent magnet has a radial shape with the center of the patch as the center, and wherein the coil is wound to radially surround the patch in such a way that the magnetomotive field generated by the coil is formed in a circumferential direction along the patch. 5. The transducer of claim 4 , wherein the coil is wound around the patch to be equally spaced in a circumferential direction of the patch. 6. The transducer of claim 4 , wherein the hole of the patch has a radius that is ⅓ of the outer radius of the patch. 7. The transducer of claim 4 , wherein the insulator is formed in a circular ring shape having a hole in the center thereof and comprises outer grooves formed equally spaced on an outer circumferential part and inner grooves formed equally spaced on an inner circumferential part, and wherein the outer grooves and the inner grooves are formed in the same number and are arranged in locations corresponding to one another in a diametrical direction. 8. The transducer of claim 7 , wherein the insulator is disposed on the top surface of the patch. 9. The transducer of claim 7 , wherein the coil is wound to surround the insulator while being disposed in and supported by the outer grooves and the inner grooves. 10. A coil-winding method of forming an equally-spaced coil by winding a wire around a patch type structure formed as a discus shape having a hole in the center thereof and comprising outer grooves formed equally spaced in an outer circumferential part and inner grooves formed equally spaced in an inner circumferential part, the outer grooves and the inner grooves being formed in the same number and being arranged in locations corresponding to one another in a diametrical direction, the method comprising: transferring the wire from the outside of the patch type structure along a top surface in a diametrical direction; winding the wire by transferring the wire to a bottom surface of the patch type structure through a first inner groove while transferring the wire to a first outer groove; transferring the wire exposed to the top surface through the first outer groove to a bottom surface through a top surface of a first guide and a second outer groove; and exposing the wire to the top surface through a bottom surface of a second guide and a third outer groove. 11. The method of claim 10 , further comprising, when forming an equally-spaced coil by winding a wire around a patch type structure having 2n (n≧1) number of outer grooves and inner grooves, respectively: winding the coil around the entire circumference once; allowing the coil to pass through a 2n th outer groove and to be exposed to a bottom surface; allowing the wire to pass bottom surfaces of a 2n th outer guide and a first outer guide; exposing the wire to a top surface through the second outer groove N 2 ; and transferring the wire exposed to the top surface through the second outer groove N 2 to a second inner groove M 2 . 12. A transducer comprising an insulator and a patch around which a coil is wound by using a method according to claim 10 , wherein the patch is formed of a magnetostrictive material, and wherein the patch is disposed below the insulator. 13. A transducer comprising an insulator and a patch around which a coil is wound by using a method according to claim 11 , wherein the patch is formed of a magnetostrictive material, and wherein the patch is disposed below the insulator.