Fiber reinforced plastic member for vehicle and method of producing the same

What is claimed is: 1. A fiber-reinforced plastic member for a vehicle comprising: a continuous variation layer which comprises a synthetic resin constituting a base and a plurality of reinforcement fibers embedded in the synthetic resin, the plurality of reinforcement fibers being arranged so as to be inclined with respect to a longitudinal direction of the fiber-reinforced plastic member for a vehicle and angles of the reinforcement fibers with respect to the longitudinal direction of the fiber-reinforced plastic member progressively varying along the longitudinal direction; and a reinforcing layer which is attached to the continuous variation layer to constitute the fiber-reinforced plastic member for a vehicle and comprises a synthetic resin constituting the base and a plurality of reinforcement fibers, the plurality of reinforcement fibers being embedded in the synthetic resin and intersecting each other in a reticular pattern, wherein the continuous variation layer and the reinforcing layer constitute a pillar for a vehicle, and wherein the reinforcement fibers of the continuous variation layer are arranged in an anteroposterior direction of a vehicle at a lower end of the pillar and are arranged in a vertical direction of the vehicle at an upper end of the pillar. 2. The fiber-reinforced plastic member for a vehicle according to claim 1 , wherein the reinforcement fibers of the reinforcing layer comprises a first group of fibers and a second group of fibers, and wherein the first and second groups of fibers are arranged to intersect each other in a reticular pattern. 3. The fiber-reinforced plastic member for a vehicle according to claim 1 , wherein the reinforcement fibers of the reinforcing layer includes a first group of fibers and a second group of fibers, wherein the first group of fibers are arranged to intersect reinforcement fibers of the continuous variation layer at a lower end of the pillar, and the second group of fibers are arranged to intersect reinforcement fibers of the continuous variation layer at an upper end of the pillar, and wherein the first and second groups of fibers are arranged to intersect each other in a reticular pattern. 4. The fiber-reinforced plastic member for a vehicle according to claim 1 , further comprising a metal layer layered together with the continuous variation layer and the reinforcing layer, wherein the continuous variation layer, the reinforcing layer and the metal layer are layered to each other into a plate shape, and are subjected to a heat press process, thus forming the fiber-reinforced plastic member for a vehicle. 5. A method of producing a fiber-reinforced plastic member for a vehicle comprising: winding a plurality of reinforcement fibers that is impregnated with synthetic resin around a mandrel in such a way that an angle of the reinforcement fiber progressively varies along a length of the mandrel, thus forming a pipe-shaped continuous variation layer, wherein the pipe-shaped continuous variation layer comprises the synthetic resin and the plurality of reinforcement fibers embedded in the synthetic resin, the plurality of reinforcement fibers being arranged so as to be inclined with respect to a longitudinal direction of the fiber-reinforced plastic member for a vehicle and angles of the reinforcement fibers with respect to the longitudinal direction of the fiber-reinforced plastic member progressively varying along the longitudinal direction; flattening the pipe-shaped continuous variation layer into a flat plate; layering the flat plate-shaped continuous variation layer and a reinforcing layer comprising a synthetic resin and a plurality of reinforcement fibers embedded in the synthetic resin to intersect each other in a reticular pattern; and integrally pressing both layers into the fiber-reinforced plastic member through a heat press process, wherein the continuous variation layer and the reinforcing layer constitute a pillar for a vehicle, and wherein the reinforcement fibers of the continuous variation layer are arranged in an anteroposterior direction of a vehicle at a lower end of the pillar and are arranged in a vertical direction of the vehicle at an upper end of the pillar. 6. The method according to claim 5 , wherein, in winding the reinforcement fiber, the angle of the reinforcement fiber of the continuous variation layer varies by adjusting a rotational speed of the mandrel. 7. The method according to claim 5 , wherein, in winding the reinforcement fiber, the angle of the reinforcement fiber of the continuous variation layer varies by adjusting a moving speed of the mandrel in a longitudinal direction of the mandrel. 8. The method according to claim 5 , wherein, in winding the reinforcement fiber, the angle of the reinforcement fiber of the continuous variation layer varies by adjusting a moving speed of a fiber positioning device that is adapted to guide the fiber to the mandrel in a longitudinal direction of the mandrel. 9. The method according to claim 5 , wherein, in the layering and shaping, the flat plate-shaped continuous variation layer and the reinforcing layer comprising the synthetic resin and the plurality of reinforcement fibers embedded in the synthetic resin to intersect each other in a reticular pattern are layered to a metal layer, and the three layered layers are integrally pressed into the fiber-reinforced plastic member through the heat press process. 10. A vehicle comprising a fiber-reinforced plastic member of claim 1 .