Power inductor and manufacturing method thereof

What is claimed is: 1. A power inductor comprising: coil patterns formed on one surface or both surfaces of a core insulating layer and comprising an innermost pattern, one or more intermediate patterns, and an outermost pattern on each surface; one or more insulating patterns bonded to at least one side surface of at least one of the innermost pattern and the outermost pattern of the coil patterns, wherein the at least one side surface bonded to the insulating patterns is nonadjacent to any side surface of the intermediate patterns, which are not bonded to the insulating patterns; metal layers plated on surfaces of the coil patterns, including on one or both side surfaces of one or more of the intermediate patterns, wherein a thickness of plating on upper surfaces of the coil patterns is greater than that on side surfaces of the coil patterns; and an insulator covering the metal layers. 2. The power inductor according to claim 1 , wherein the insulating pattern bonded to the innermost pattern is formed on an inner surface of the innermost pattern; and the insulating pattern bonded to the outermost pattern is formed on an outer surface of the outermost pattern. 3. The power inductor according to claim 2 , wherein the insulating pattern bonded to the inner surface of the innermost pattern is extended to an upper surface of the innermost pattern. 4. The power inductor according to claim 2 , wherein the insulating pattern bonded to the outer surface of the outermost pattern is extended to an upper surface of the outermost pattern. 5. The power inductor according to claim 1 , wherein the metal layers are anisotropically plated through the plating process using the coil patterns as lead-in lines. 6. A power inductor comprising: coil patterns formed on one surface or both surfaces of a core insulating layer and comprising an innermost pattern, one or more intermediate patterns, and an outermost pattern on each surface; one or more first insulating patterns bonded to at least one side surface of at least one of the innermost pattern and the outermost pattern of the coil patterns, wherein the at least one side surface bonded to the first insulating patterns is nonadjacent to any side surface of the intermediate patterns, which are not bonded to the first insulating patterns; one or more first metal layers plated on surfaces of the coil patterns, including on one or both side surfaces of one or more of the intermediate patterns, wherein a thickness of plating on upper surfaces of the coil patterns is greater than that on side surfaces of the coil patterns; one or more second insulating patterns bonded to at least one side surface of at least one of an innermost and an outermost metal patterns of the first metal layers each plated on the innermost pattern and the outermost pattern, wherein the at least one side surface bonded to the second insulating patterns is nonadjacent to any side surface of an intermediate metal pattern of the first metal layers plated on the intermediate patterns; second metal layers plated on surfaces of the first metal layers; and an insulator covering the second metal layers. 7. The power inductor according to claim 6 , wherein the first insulating pattern bonded to the innermost pattern is formed on an inner side surface of the innermost pattern; and the second insulating pattern bonded to an innermost first metal layer plated on the surface of the innermost pattern is formed on an inner side surface of the innermost first metal layer. 8. The power inductor according to claim 6 , wherein the first insulating pattern bonded to the outermost pattern is formed on an outer side surface of the outermost pattern; and the second insulating pattern bonded to an outermost first metal layer plated on the surface of the outermost pattern is formed on an outer surface of the outermost first metal layer.