Mesh filter

The invention claimed is: 1. A mesh filter in which a mesh portion, a ring-shaped frame body, and a thick portion are integrally injection-molded, the mesh portion having a plurality of openings through which a fluid is passable, the ring-shaped frame body supporting an outer peripheral side of the mesh portion, the thick portion being positioned on an inner peripheral side of the mesh portion, wherein the frame body includes a gate detachment part for injection molding at one place in a circumferential direction, the mesh portion is integrally formed with an outer rib, the outer rib extending from the outer peripheral side to the inner peripheral side at a position away from the gate detachment part, the outer rib being symmetrical with respect to an imaginary straight line, the imaginary straight line passing through a center of the gate detachment part and bisecting a planar shape of the frame body, the thick portion is formed so as to be positioned at a final filled portion of a molten resin flowing from the frame body toward the inner peripheral side of the mesh portion at injection molding, and the outer rib reinforces the mesh portion, the outer rib accelerating the flow of the molten resin at the injection molding at the position away from the gate detachment part. 2. The mesh filter according to claim 1 , wherein the mesh portion has a circular plate shape in plan view, and the frame body has a circular ring shape in plan view. 3. The mesh filter according to claim 1 , wherein the one outer rib is formed on the imaginary straight line, the imaginary straight line being rotated by 180° from the gate detachment part with respect to a geometric center of the frame body. 4. The mesh filter according to claim 1 , wherein a plurality of the outer ribs are formed to be symmetrical with respect to the imaginary straight line, and the outer ribs are formed such that the outer ribs positioned far from the gate detachment part become longer than the outer ribs positioned close to the gate detachment part. 5. The mesh filter according to claim 4 , wherein the mesh portion includes four inner ribs at regular intervals in a peripheral area of a center axis of the thick portion, the four inner ribs extending from the thick portion toward the frame body side, the inner ribs are formed displaced from the imaginary straight line, the inner ribs being formed to be symmetrical with respect to the imaginary straight line, and the outer ribs are separately formed by a pair on both sides of extended lines of the inner ribs, the outer ribs being formed parallel to the inner ribs. 6. The mesh filter according to claim 5 , wherein the outer ribs and the inner ribs are formed on both front and back surfaces of the mesh portion. 7. The mesh filter according to claim 5 , wherein the outer ribs and the inner ribs are formed on any one of front and back surfaces of the mesh portion. 8. The mesh filter according to claim 5 , wherein the outer ribs have heights from the mesh portion formed so as to gradually decrease from an outer peripheral side of the mesh portion toward an inner peripheral side of the mesh portion, and the inner ribs have heights from the mesh portion formed so as to gradually decrease from the thick portion toward the frame body side. 9. The mesh filter according to claim 4 , wherein the outer ribs are coupled to an inner peripheral surface of the frame body, the outer ribs being formed such that cross-sectional areas of coupling portions with the frame body become large as the coupling portions are far from the gate detachment part. 10. The mesh filter according to claim 1 , wherein the outer ribs are formed on both front and back surfaces of the mesh portion. 11. The mesh filter according to claim 1 , wherein the outer rib is formed on any one of front and back surfaces of the mesh portion. 12. The mesh filter according to claim 1 , wherein the outer rib has a height from the mesh portion formed so as to gradually decrease from an outer peripheral side of the mesh portion toward an inner peripheral side of the mesh portion. 13. The mesh filter according to claim 1 , wherein the outer rib is coupled to an inner peripheral surface of the frame body. 14. The mesh filter according to claim 1 , wherein the outer rib is formed to be positioned away from an inner peripheral surface of the frame body. 15. The mesh filter according to claim 1 , wherein the thick portion is formed to be positioned at a geometric center of the frame body.