Resin laminate ridge filter for particle therapy system and manufacturing method thereof

The invention claimed is: 1. A manufacturing method of a ridge filter formed by laminating resin, the method comprising the steps of: (a) discharging the molten resin from a nozzle; (b) after the step (a), forming a second structure body by sequentially repeating scanning of the nozzle and by lamination molding of the resin such that an extending direction of the resin in one layer of the second structure body is formed to alternately intersect with that in another layer in the second structure body in the lamination direction of the resin; and (c) after the step (b), forming a first structure body including a plurality of extending parts, each formed to extend in a single layer and parallel to the other extending parts, the first structure body formed of the laminating resin and extending along a direction intersecting the lamination direction of the resin. 2. The manufacturing method of a ridge filter according to claim 1 , wherein the number of layers of laminated resins in the second structure body is an even number. 3. A ridge filter provided in a particle therapy system, the ridge filter comprising: a first structure body that includes a plurality of extending parts, each extending in a single layer and parallel to the other extending parts, the first structure body formed by laminating resin and extending along a direction intersecting a laminate direction of the resin; and a second structure body that is provided on one of a first face of the first structure body on the incident side of the proton beam and a second face opposite to the first face, wherein the first structure body and the second structure body are formed of laminates integrally formed by laminating molten resin, and the second structure body is directly attached to the plurality of extending parts, wherein the second structure body is formed of a laminate of resin, and an extending direction of the resin in one layer of the second structure body is formed to alternately intersect with that in another layer in the second structure body in the lamination direction of the resin. 4. The ridge filter according to claim 3 , wherein the number of layers of laminated resins in the second structure body is an even number. 5. The ridge filter according to claim 3 , wherein the elastic modulus of the second structure body is smaller than that of the first structure body. 6. The ridge filter according to claim 3 , wherein the thickness of the second structure body is 0.1 mm or larger and 1.2 mm or smaller. 7. The ridge filter according to claim 6 , wherein a frame is arranged around the first structure body. 8. The ridge filter according to claim 7 , wherein a third structure body having the same shape as that of, at least, a part of the first structure body is formed at a region on the outer side of the frame where no proton beam passes through. 9. The ridge filter according to claim 8 , wherein when the length of the first structure body in the incident direction of the proton beam is assumed as a thickness, the thickness of the third structure body formed at the region where no proton beam passes through is equal to or larger than that of the first structure body.