Mesh filter

The invention claimed is: 1. A mesh filter used for filtering out foreign substances in fluid, said mesh filter comprising: an inner cylinder having a hollow interior space; an outer cylinder surrounding the inner cylinder; and a filter unit completely surrounding the inner cylinder and having a uniform thickness, the filter unit being integrally-molded to the inner cylinder and the outer cylinder to connect an outer peripheral surface of the inner cylinder and an inner peripheral surface of the outer cylinder along a radial direction of the inner cylinder, wherein, assuming a virtual plane orthogonal to a center axis of the inner cylinder to be an X-Y plane, the filter unit is formed along the X-Y plane, wherein the filter unit has a plurality of square-shaped openings between the inner cylinder and the outer cylinder, the openings being formed by a plurality of vertical ribs formed equidistantly so as to be orthogonal to an X-axis and parallel to a Y-axis, and a plurality of lateral ribs formed equidistantly so as to be orthogonal to the vertical ribs and parallel with the X-axis, wherein rib widths are defined as dimensions between adjacent openings of the vertical ribs and the lateral ribs, and the rib widths fall within a range from 0.07 mm to 0.1 mm, wherein thicknesses are defined as dimensions in a direction along the center axis of the inner cylinder, and the thicknesses of the filter unit fall within a range from 0.2 mm to 0.4 mm, wherein the inner cylinder, the outer cylinder, and the filter unit form an integral, molded unit formed of an identical type of thermoplastic resin so as to have a one-piece construction; and wherein the inner cylinder and the outer cylinder have an identical axial length in a direction along a center axis of the inner cylinder. 2. The mesh filter according to claim 1 , further comprising a center-side filter unit extending from a center axis of the inner cylinder to an inner peripheral surface of the inner cylinder, wherein, assuming a virtual plane orthogonal to the center axis of the inner cylinder to be an X-Y plane, the center-side filter unit is formed along the X-Y plane, wherein a portion of the center-side filter unit with respect to the inner cylinder is provided with a plurality of square-shaped openings formed by a plurality of vertical ribs formed equidistantly so as to be orthogonal to an X-axis and parallel to a Y-axis, and a plurality of lateral ribs formed equidistantly so as to be orthogonal to the vertical ribs and parallel with the X-axis, wherein center-side rib widths are defined as dimensions between adjacent openings of the vertical ribs and the lateral ribs, and the center-side rib widths fall within a range from 0.07 mm to 0.1 mm, wherein thicknesses are defined as dimensions in a direction along the center axis of the inner cylinder, and the thicknesses of the center-side filter unit fall within a range from 0.2 mm to 0.4 mm, and wherein the inner cylinder, the outer cylinder, the filter unit, and the center-side filter unit form an integral, molded unit formed of an identical type of thermoplastic resin so as to have a one-piece construction. 3. The mesh filter according to claim 2 , wherein the center-side filter unit is connected to the inner peripheral surface of the inner cylinder at an axial center position of the inner cylinder relative to the center axis of the inner cylinder. 4. The mesh filter according to claim 1 , wherein each of the inner cylinder and the outer cylinder has a first axial end having a first-axial-end surface, the first-axial-end surface of the inner cylinder and the first-axial-end surface of the outer cylinder both being located within a first plane orthogonal to the center axis of the inner cylinder; and wherein each of the inner cylinder and the outer cylinder has a second axial end opposite the first axial end and having a second-axial-end surface, the second-axial-end surface of the inner cylinder and the second-axial-end surface of the outer cylinder both being located within a second plane orthogonal to the center axis of the inner cylinder. 5. The mesh filter according to claim 4 , wherein the filter unit is connected to the outer peripheral surface of the inner cylinder at an axial center position of the inner cylinder relative to the center axis of the inner cylinder, and the filter unit is connected to the inner peripheral surface of the outer cylinder at an axial center position of the outer cylinder relative to a center axis of the outer cylinder. 6. The mesh filter according to claim 1 , wherein the filter unit is connected to the outer peripheral surface of the inner cylinder at an axial center position of the inner cylinder relative to the center axis of the inner cylinder, and the filter unit is connected to the inner peripheral surface of the outer cylinder at an axial center position of the outer cylinder relative to a center axis of the outer cylinder. 7. A mesh filter used for filtering out foreign substances in fluid, said mesh filter comprising: a cylindrical inner cylinder having a hollow interior space; a cylindrical outer cylinder concentric with the inner cylinder; and a filter unit completely surrounding the inner cylinder and having a uniform thickness, the filter unit being integrally-molded to the inner cylinder and the outer cylinder to connect an outer peripheral surface of the inner cylinder and an inner peripheral surface of the outer cylinder along a radial direction of the inner cylinder, wherein, assuming a virtual plane orthogonal to a center axis of the inner cylinder to be an X-Y plane, the filter unit is formed along the X-Y plane, wherein the filter unit has a plurality of square-shaped openings between the inner cylinder and the outer cylinder, the openings being formed by a plurality of vertical ribs formed equidistantly so as to be orthogonal to an X-axis and parallel to a Y-axis, and a plurality of lateral ribs formed equidistantly so as to be orthogonal to the vertical ribs and parallel with the X-axis, wherein each of the openings has a regular tetragon shape, with a length of 0.1 mm on each side, wherein rib widths are defined as dimensions between adjacent openings of the vertical ribs and the lateral ribs and are 0.1 mm, wherein thicknesses are defined as dimensions in a direction along the center axis of the inner cylinder, and the thicknesses of the filter unit are 0.3 mm, wherein the inner cylinder, the outer cylinder, and the filter unit form an integral, molded unit formed of 66 nylon material so as to have a one-piece construction; and wherein the inner cylinder and the outer cylinder have an identical axial length in the direction along the center axis of the inner cylinder. 8. The mesh filter according to claim 7 , wherein each of the inner cylinder and the outer cylinder has a first axial end having a first-axial-end surface, the first-axial-end surface of the inner cylinder and the first-axial-end surface of the outer ring cylinder both being located within a first plane orthogonal to the center axis of the inner cylinder; and wherein each of the inner cylinder and the outer cylinder has a second axial end opposite the first axial end and having a second-axial-end surface, the second-axial-end surface of the inner cylinder and the second-axial-end surface of the outer cylinder both being located within a second plane orthogonal to the center axis of the inner cylinder. 9. The mesh filter according to claim 8 , wherein the filter unit is connected to the outer peripheral surface of the inner cylinder at an axial center position of the inner cylinder relative to the center axis of the inner cylinder, and the filter unit is connected to the inner peripheral surface