Method of manufacturing composite circuit board and composite circuit board

What is claimed is: 1 . A method of manufacturing a composite circuit board, the method comprising: providing a composite circuit board unit comprising a first adhesive material layer, a first circuit layer located on one side of the first adhesive material layer, and a second circuit layer located on another side of the first adhesive material layer, the first circuit layer comprising a first inner conductive circuit and a first outer conductive circuit located at both ends of the first inner conductive circuit, and the second circuit layer comprising a second inner conductive circuit and a second outer conductive circuit located at both ends of the second inner conductive circuit; forming a first metal protection layer on a surface of the first inner conductive circuit, and forming a second metal protection layer on a surface of the second inner conductive circuit; forming a first solder mask and a second solder mask respectively on a portion of a surface of the first metal protection layer and a portion of a surface of the second metal protection layer, the first solder mask defining a first opening revealing a portion of the first metal protective layer, the second solder mask defining a second opening revealing a portion of the second metal protective layer; providing two second adhesive material layers, each of the two second adhesive material layers defining a third opening, a size of the third opening being smaller than a size of the first solder mask layer or the second solder mask layer, the two second adhesive material layers respectively provided on a surface of the first inner conductive circuit and a surface of the second inner conductive circuit; folding back the first outer conductive circuit at two ends so that the first outer conductive circuit at the two ends faces the first inner conductive circuit and is laminated on the second adhesive material layer, the two ends spaced a predetermined distance apart to form a first window, wherein the first window, the third opening in one of the second adhesive material layers, and the first opening of the first solder mask communicate with each other; folding back the second outer conductive circuit at two ends so that the second outer conductive circuit at the two ends faces the second inner conductive circuit and is laminated on the second adhesive material layer, the two ends spaced a predetermined distance apart to form a second window, wherein the second window, the third opening in the other one of the second adhesive material layers, and the second opening of the second solder mask communicate with each other. 2 . The method of claim 1 , wherein: the composite circuit board unit further comprises a first insulating layer and a second insulating layer provided on opposite surfaces of the first adhesive material layer. 3 . The method of claim 1 , wherein: the composite circuit board unit further comprises a first conductive hole conducting the first circuit layer and the second circuit layer; and the first conductive hole is a conductive blind hole or a conductive through hole. 4 . The method of claim 2 , wherein the step of providing the composite circuit board unit comprises: providing a first copper-clad substrate in the form of a coil, a second copper-clad substrate in the form of a coil, and the first adhesive material layer in the form of a coil, wherein the first copper-clad substrate comprises the first insulation layer and a first copper-clad layer formed on a surface of the first insulating layer; the second copper-clad substrate comprises the second insulating layer and a second copper-clad layer formed on a surface of the second insulating layer; and the first insulating layer of the first copper-clad substrate and the second insulating layer of the second copper-clad substrate are respectively formed on opposite surfaces of the first adhesive material layer in a roll-to-roll manner to obtain a composite substrate comprising a plurality of composite substrate units coupled in sequence; etching the composite substrate to form the first circuit layer from the first copper-clad layer and form the second circuit layer from the second copper-clad layer; forming the first conductive hole in each composite substrate unit to obtain a composite circuit board intermediate structure; and cutting a boundary of each composite circuit board unit in the composite circuit board intermediate structure to obtain the plurality of composite circuit board units. 5 . The method of claim 4 , wherein: the first adhesive material layer is adhered on an entire surface of the first insulating layer and an entire surface of the second insulating layer. 6 . The method of claim 5 , wherein before the steps of folding back the first outer conductive circuit at two ends so that the first outer conductive circuit at the two ends faces the first inner conductive circuit and is laminated on the second adhesive material layer and folding back the second outer conductive circuit at two ends so that the second outer conductive circuit at the two ends faces the second inner conductive circuit and is laminated on the second adhesive material layer, the method further comprises: splitting the first adhesive material layer from opposite ends of the first adhesive material layer to a second predetermined position of the first adhesive material layer, thereby separating the first adhesive material layer into a first adhesive layer and a second adhesive layer. 7 . The method of claim 4 , wherein: the first adhesive material layer is adhered to a portion of the first insulating layer and a portion of the second insulating layer. 8 . The method of claim 7 , wherein: the first adhesive material layer is adhered to the portions of the first insulating layer and the second insulating layer corresponding in position to the first inner conductive circuit and the second inner conductive circuit, respectively. 9 . The method of claim 1 , wherein: the second adhesive material layer comprises a third insulating layer, and a third adhesive layer and a fourth adhesive layer respectively provided on opposite surfaces of the third insulating layer; when the first outer conductive circuit is laminated on one of the second adhesive material layers, the third adhesive layer fills in gaps of the first inner conductive circuit, and the fourth adhesive layer fills in gaps of the first outer conductive circuit; when the second outer conductive circuit is laminated on the other one of the second adhesive material layers, the third adhesive layer fills in gaps of the second inner conductive circuit, and the fourth adhesive layer fills in gaps of the second outer conductive circuit. 10 . The method of claim 1 , wherein after the steps of laminating the first outer conductive circuit and the second outer conductive circuit on the second adhesive material layers, the method further comprises: forming a second conductive hole and a third conductive hole; the second conductive hole is used for conducting the first inner conductive circuit and the first outer conductive circuit; and the third conductive hole is used for conducting the second inner conductive circuit and the second outer conductive circuit. 11 . A composite circuit board, comprising: a composite circuit board unit, the composite circuit board unit comprising a first adhesive material layer, a first circuit layer located on one side of the first adhesive material layer, and a second circuit layer located on another side of the first adhesive material layer, wherein the first circuit layer comprises a first inner conductive circuit and a first outer conductive circuit respectively locat