Dust cover, suspension device, and method for manufacturing dust cover

What is claimed is: 1. A dust cover that is formed of a thermoplastic resin, that is configured to cover an outer side of a damper extending in a predetermined direction, and that is substantially cylindrical, the dust cover comprising: bellows portions that are formed in a predetermined section in an axial direction in the dust cover, that are inclined alternately toward a radially outer side and a radially inner side in the axial direction, that each has a radially outer end thinner than a radially inner end, and that are configured to expand and contract in the axial direction; a flange portion that is formed at a predetermined position in the axial direction of the dust cover and extends radially outward from a cylindrical portion of the dust cover; and a protrusion that forms one end of the dust cover in the axial direction and protrudes from the flange portion to one side in the axial direction, wherein the flange portion protrudes radially outward from the cylindrical portion of the dust cover by a dimension larger than a height dimension in a radial direction between the radially inner end and the radially outer end of each of the bellows portions, wherein a thickness of the flange portion is larger than a thickness of the radially outer end of each of the bellows portions, and wherein the flange portion is disposed at one end side of the dust cover in the axial direction. 2. The dust cover according to claim 1 , wherein the thickness of the flange portion is twice or more the thickness of the radially outer end of each of the bellows portions. 3. A suspension device comprising: the dust cover according to claim 1 that is disposed such that the axial direction is an upper-lower direction; a damper whose radially outer side is covered by the dust cover; a coil spring disposed at a radially outer side of the dust cover; a mount portion to which an upper end side of the damper is connected and that is attached to a vehicle body; and an upper seat that is disposed at a lower side of the mount portion and receives an upper end of the coil spring, wherein the flange portion of the dust cover is interposed between the mount portion and the upper seat. 4. A suspension device comprising: the dust cover according to claim 1 that is disposed such that the axial direction is an upper-lower direction; a damper whose radially outer side is covered by the dust cover; a coil spring disposed at a radially outer side of the dust cover; a mount portion to which an upper end side of the damper is connected and that is attached to a vehicle body; and an upper seat that is disposed at a lower side of the mount portion and receives an upper end of the coil spring, wherein the flange portion of the dust cover is interposed between the mount portion and the upper seat, and wherein the mount portion includes a recessed portion that is formed on a lower surface of the mount portion and receives the protrusion of the dust cover. 5. A method for manufacturing a dust cover including bellows portions that are configured to expand and contract in an axial direction and a flange portion that extends radially outward, the method comprising: preparing a first mold and a second mold; forming a recess corresponding to the flange portion by the first mold and the second mold; preparing a variable device that changes an axial dimension of the recess between a primary molding distance and a final molding distance, the final molding distance corresponding to a thickness of the flange portion, and the primary molding distance being larger than the final molding distance; placing a molten thermoplastic resin having a tubular shape inside the first mold and the second mold in a state where an axial dimension of the recess of an inner wall surface is set to the primary molding distance; blowing air into the thermoplastic resin placed inside the first mold and the second mold to deform the thermoplastic resin along the inner wall surface of the first mold and the second mold; and compressing, in the axial direction, a portion of the thermoplastic resin that enters the recess, by moving the second mold with respect to the first mold and changing the axial dimension of the recess of the inner wall surface to the final molding distance, wherein the dust cover includes a protrusion that forms one end of the dust cover in the axial direction and protrudes from the flange portion to one side in the axial direction, wherein the flange portion protrudes radially outward from a cylindrical portion of the dust cover by a dimension larger than a height dimension in a radial direction between the radially inner end and the radially outer end of each of the bellows portions, and wherein the flange portion is disposed at one end side of the dust cover in the axial direction. 6. A method for manufacturing a substantially cylindrical dust cover configured to cover an outer side of a damper extending in a predetermined direction and including bellows portions that are configured to expand and contract in an axial direction and a flange portion that extends radially outward, wherein an inner wall surface of a mold has a recess corresponding to the flange portion, and wherein the mold has a variable device configured to change an axial dimension of the recess between a primary molding distance and a final molding distance, the final molding distance corresponding to a thickness of the flange portion, and the primary molding distance being larger than the final molding distance, the method comprising: placing a molten thermoplastic resin having a tubular shape inside the mold in a state where an axial dimension of the recess of the inner wall surface is set to the primary molding distance; blowing air into the thermoplastic resin placed inside the mold to deform the thermoplastic resin along the inner wall surface of the mold; and compressing, in the axial direction, a portion of the thermoplastic resin that enters the recess by changing the axial dimension of the recess of the inner wall surface to the final molding distance, wherein the mold includes a first mold corresponding to one side in the axial direction of the flange portion in the dust cover, and a second mold corresponding to the other side in the axial direction of the flange portion in the dust cover and configured to move relative to the first mold in the axial direction, wherein the recess of the inner wall surface is formed by combining inner wall surfaces of the first mold and the second mold, and the axial dimension of the recess is changed by a movement of the second mold relative to the first mold in the axial direction, wherein the dust cover includes a protrusion that forms one end of the dust cover in the axial direction and protrudes from the flange portion to one side in the axial direction, wherein the flange portion protrudes radially outward from a cylindrical portion of the dust cover by a dimension larger than a height dimension in a radial direction between the radially inner end and the radially outer end of each of the bellows portions, and wherein the flange portion is disposed at one end side of the dust cover in the axial direction.