Flexible circuit board connector

What is claimed is: 1. A flexible circuit board connector adapted for inserting a flexible printed circuit board into the flexible circuit board connector, two opposite sides of a rear of the flexible printed circuit board opening two gaps, respectively, the flexible circuit board connector comprising: an insulating housing, a middle of a front surface of the insulating housing being recessed rearward to form an inserting groove, the insulating housing opening an opening penetrating through a middle of a top surface, a top of the front surface and a top of a rear surface of the insulating housing, two opposite sides of the insulating housing opening two receiving slots penetrated through the top surface of the insulating housing and communicated with the inserting groove, the two receiving slots being communicated with the inserting groove; a plurality of conductive terminals assembled to the insulating housing; an elastic module assembled in the opening, the elastic module including a pivoting rod, and at least one torsion spring pivotally mounted around the pivoting rod, the pivoting rod being assembled in the opening, a middle of the at least one torsion spring being pivotally mounted around the pivoting rod; and a locking board being accommodated in the opening of the insulating housing and covering a top of the elastic module, so the at least one torsion spring of the elastic module being clamped between the insulating housing and the locking board to make the at least one torsion spring generate a precompression, the locking board being pivotally mounted to the pivoting rod, the locking board having a base board, two opposite sides of the base board extending downward to form two side boards, bottom edges of the two side boards protruding downward to form two locking hooks, the two side boards being received in the two receiving slots and projecting downward into the inserting groove; wherein one end of the at least one torsion spring elastically abuts against a front of a bottom surface of the locking board, the other end of the at least one torsion spring is disposed under a rear of the bottom surface of the locking board, the flexible printed circuit board is inserted rearward into the inserting groove, with the flexible printed circuit board being inserted rearward into the inserting groove, the flexible printed circuit board abuts against the two locking hooks, the flexible printed circuit board pushes rearward against front surfaces of the two locking hooks to make the locking board rotate, after the flexible printed circuit board slips away from the two locking hooks, the two locking hooks project into the two gaps of the flexible printed circuit board, respectively, and when the flexible printed circuit board moves frontward, the two locking hooks are capable of abutting against rear inner walls of the two gaps of the flexible printed circuit board respectively for blocking the flexible printed circuit board from moving frontward, so that the flexible printed circuit board is locked in the inserting groove. 2. The flexible circuit board connector as claimed in claim 1 , wherein the insulating housing opens a plurality of terminal grooves communicated with the inserting groove, each of the terminal grooves penetrates rearward through the rear surface of the insulating housing and extends longitudinally along inner surfaces of a top wall and a bottom wall of the inserting groove, each of the plurality of the conductive terminals has a fastening portion, a top end and a bottom end of the fastening portion extend frontward to form an upper ridge and a lower ridge, the bottom end of the fastening portion extends downward to form a soldering portion, the plurality of the conductive terminals are assembled to the terminal grooves, the upper ridge and the lower ridge project into the inserting groove, the soldering portion projects beyond the rear surface of the insulating housing. 3. The flexible circuit board connector as claimed in claim 2 , wherein the flexible printed circuit board is inserted between the upper ridges and the lower ridges of the plurality of the conductive terminals. 4. The flexible circuit board connector as claimed in claim 2 , wherein a tail end of a top surface of the lower ridge protrudes upward towards the upper ridge to form a contact point, the contact point projects into the inserting groove. 5. The flexible circuit board connector as claimed in claim 2 , wherein root ends of a top surface of the upper ridge and a bottom surface of the lower ridge protrude oppositely to form two barbs, respectively, the two barbs of each of the plurality of the conductive terminals interfere with inner surfaces of a top wall and a bottom wall of one of the terminal grooves, so that each of the plurality of the conductive terminals is stably fastened in the one of the terminal grooves. 6. The flexible circuit board connector as claimed in claim 2 , further comprising two buckling elements, each of the two buckling elements having a base plate of a plate shape, the two opposite sides of the insulating housing defining two first fastening grooves extending longitudinally and penetrating through the front surface and the rear surface of the insulating housing, the two buckling elements being fastened in the two first fastening grooves, respectively, the two base plates of the two buckling elements being fastened in middles of the two first fastening grooves, respectively. 7. The flexible circuit board connector as claimed in claim 6 , wherein top edges of the two base plates of the two buckling elements are bent towards each other to form two first bending plates, bottom edges of the two base plates of the two buckling elements are bent towards each other to form two second bending plates, upper portions of fronts of the two first fastening grooves extend upward to two opposite sides of the top surface of the insulating housing, respectively, lower portions of the fronts of the two first fastening grooves extend downward to two opposite sides of a bottom surface of the insulating housing, respectively, the two first bending plates of the two buckling elements are assembled in the upper portions of the fronts of the two first fastening grooves, respectively, the two second bending plates of the two buckling elements are assembled in the lower portions of the fronts of the two first fastening grooves, respectively. 8. The flexible circuit board connector as claimed in claim 6 , wherein rear edges of the two base plates of the two buckling elements are bent outward and perpendicular to the two base plates of the two buckling elements to form two soldering plates, respectively, middles of rears of the two first fastening grooves extend outward to form two second fastening grooves penetrating through the rear surface and middles of two side surfaces of the insulating housing, and front surfaces of outer walls of the two first fastening grooves, the two soldering plates of the two buckling elements project beyond the rear surface of the insulating housing through the two second fastening grooves, respectively. 9. The flexible circuit board connector as claimed in claim 8 , wherein rear surfaces of the soldering portions of the plurality of the conductive terminals are flush with rear surfaces of the two soldering plates of the two buckling elements. 10. The flexible circuit board connector as claimed in claim 1 , wherein two opposite sides of a top surface of a bottom wall of the opening protrude upward to form two protruding blocks, middles of the two protruding blocks open two circular pivoting holes extending transversely, the locking board has a base board of a substantially rectangular board shape, two opposite sides of the