Magnetic integrated device and power conversion circuit

What is claimed is: 1 . A magnetic integrated device, comprising: a first magnetic core base and a second magnetic core base that are parallel; a first magnetic core column, a second magnetic core column, and a third magnetic core column that are located between the first magnetic core base and the second magnetic core base; and a first winding, a second winding, and a third winding wound on the first magnetic core column, the second magnetic core column, and the third magnetic core column, respectively, in a same manner to form a closed magnetic flux loop, wherein the first winding, the second winding, and the third winding are separately used for connecting to a branch of a three-phase parallel circuit, and in all branches of the three-phase parallel circuit, values of currents are the same, and a difference between each two current phases is 120 degrees. 2 . The magnetic integrated device according to claim 1 , further comprising: two side columns provided between the two magnetic core bases, and wherein the first magnetic core column, the second magnetic core column, and the third magnetic core column are located between the two side columns. 3 . The magnetic integrated device according to claim 1 , wherein an air gap is provided on each of the first magnetic core column, the second magnetic core column, and the third magnetic core column. 4 . The magnetic integrated device according to claim 3 , wherein the air gap is located in the middle or at one end of a magnetic core column where the air gap is provided. 5 . The magnetic integrated device according to claim 1 , wherein: the three-phase parallel circuit comprises a three-phase parallel LLC power supply conversion circuit; and each of the first winding, the second winding, and the third winding respectively serves as a resonant inductor in a corresponding branch of the three-phase parallel LLC power supply conversion circuit. 6 . The magnetic integrated device according to claim 1 , further comprising: a fourth winding, a fifth winding, and a sixth winding superposed and wound on the first winding, the second winding, and the third winding, respectively, in a same manner; and a pair of windings on each magnetic core column of the first magnetic core column, the second magnetic core column, and the third magnetic core column which form a primary side and a secondary side of a transformer in a branch of the three-phase parallel circuit. 7 . The magnetic integrated device according to claim 6 , wherein: the three-phase parallel circuit comprises a three-phase parallel LLC power supply conversion circuit; each of the fourth winding, the fifth winding, and the sixth winding serves as a primary side of a transformer in a branch of the three-phase parallel LLC power supply conversion circuit; and each of the first winding, the second winding, and the third winding respectively serves as a secondary side of the transformer corresponding to a magnetic core column where the first winding, the second winding, or the third winding is provided. 8 . The magnetic integrated device according to claim 1 , further comprising: a third magnetic core base parallel to the first magnetic core base; a fourth magnetic core column, a fifth magnetic core column, and a sixth magnetic core column located between the first magnetic core base and the third magnetic core base; a seventh winding, an eighth winding, and a ninth winding wound on the fourth magnetic core column, the fifth magnetic core column, and the sixth magnetic core column, respectively, in a same manner; a tenth winding, an eleventh winding, and a twelfth winding superposed and wound on the seventh winding, the eighth winding, and the ninth winding, respectively, in a same manner; and a pair of windings on each magnetic core column of the fourth magnetic core column, the fifth magnetic core column, and the sixth magnetic core column which form a primary side and a secondary side of a transformer in a branch of the three-phase parallel circuit. 9 . The magnetic integrated device according to claim 8 , wherein: the three-phase parallel circuit comprises a three-phase parallel LLC power supply conversion circuit; each of the first winding, the second winding, and the third winding serves as a resonant inductor in a branch of the three-phase parallel LLC power supply conversion circuit; each of the tenth winding, the eleventh winding, and the twelfth winding serves as a primary side of a transformer in a branch of the three-phase parallel LLC power supply conversion circuit; and each of the seventh winding, the eighth winding, and the ninth winding serves as a secondary side of the transformer corresponding to a magnetic core column where the first winding, the second winding, or the third winding is provided. 10 . The magnetic integrated device according to claim 8 , wherein: an air gap is provided on each of the first magnetic core column, the second magnetic core column, and the third magnetic core column; and/or an air gap is provided on each of the fourth magnetic core column, the fifth magnetic core column, and the sixth magnetic core column. 11 . A power conversion circuit, comprising: a switching conversion circuit, a three-phase resonant circuit, a three-phase transformer, a rectifier circuit, and a filter circuit, wherein a magnetic integrated device forms the three-phase resonant circuit, and wherein the magnetic integrated device comprises: a first magnetic core base and a second magnetic core base that are parallel; a first magnetic core column, a second magnetic core column, and a third magnetic core column that are located between the first magnetic core base and the second magnetic core base; and a first winding, a second winding, and a third winding are wound on the first magnetic core column, the second magnetic core column, and the third magnetic core column, respectively, in a same manner to form a closed magnetic flux loop, wherein the first winding, the second winding, and the third winding are separately used for connecting to a branch of a three-phase parallel circuit, and in all branches of the three-phase parallel circuit, values of currents are the same, and a difference between each two current phases is 120 degrees. 12 . The power conversion circuit according to claim 11 , wherein the magnetic integrated device further comprises: two side columns provided between the two magnetic core bases, and wherein the first magnetic core column, the second magnetic core column, and the third magnetic core column are located between the two side columns. 13 . The power conversion circuit according to claim 11 , wherein an air gap is provided on each of the first magnetic core column, the second magnetic core column, and the third magnetic core column. 14 . The power conversion circuit according to claim 13 , wherein the air gap is located in the middle or at one end of a magnetic core column where the air gap is provided. 15 . The power conversion circuit according to claim 11 , wherein: the three-phase parallel circuit comprises a three-phase parallel LLC power supply conversion circuit; and each of the first winding, the second winding, and the third winding respectively serves as a resonant inductor in a corresponding branch of the three-phase parallel LLC power supply conversion circuit.