Simplify journal take up core mechanism

What is claimed is: 1. A sheet winding mechanism comprising: a detachable winding core; a rotating body which is coupled to a first end portion of the winding core to rotate the winding core; and a non-rotating body against which a second end of the winding core is pressed as the winding core rotates with the rotating body, wherein the winding core includes: a winding core main body having an elongated shape, a first portion which is located at the first end portion in an axial direction of the winding core main body and is coupled to the rotating body, a second portion which is located at the second end portion in the axial direction of the winding core main body, is movable in the axial direction, and presses against the non-rotating body, a first elastic body which urges the second portion outward along the axial direction, and a sheet holding portion configured to hold an end portion of a sheet, and wherein, when the rotating body rotates the winding core while the sheet holding portion is holding the end portion of the sheet, the sheet is wound around the winding core. 2. The sheet winding mechanism according to claim 1 , wherein the first portion is also movable in the axial direction and the winding core further includes a second elastic body which urges the first portion outward along the axial direction. 3. The sheet winding mechanism according to claim 2 , wherein the first elastic body urges the second portion with a force greater than a force with which the second elastic body urges the first portion. 4. The sheet winding mechanism according to claim 2 , wherein each of the first and second elastic bodies comprise a spring, and wherein a spring constant of the first elastic body is greater than a spring constant of the second elastic body. 5. The sheet winding mechanism according to claim 1 , wherein the first portion rotates with and does not move relative to the winding core main body. 6. A printer comprising: a sheet winding mechanism including a detachable winding core, a rotating body which is coupled to a first end portion of the winding core to rotate the winding core, and a non-rotating body against which a second end of the winding core is pressed as the winding core rotates with the rotating body; and a printing unit configured to print information on the sheet, wherein the winding core includes: a winding core main body having an elongated shape, a first portion which is located at the first end portion in an axial direction of the winding core main body and is coupled to the rotating body, a second portion which is located at the second end portion in the axial direction of the winding core main body, is movable in the axial direction, and presses against the non-rotating body, a first elastic body which urges the second portion outward along the axial direction, and a sheet holding portion configured to hold an end portion of a sheet, and wherein, when the rotating body rotates the winding core while the sheet holding portion is holding the end portion of the sheet, the sheet having information printed thereon by the printing unit is wound around the winding core. 7. The printer according to claim 6 , wherein the first portion is also movable in the axial direction and the winding core further includes a second elastic body which urges the first portion outward along the axial direction. 8. The printer according to claim 7 , wherein the first elastic body urges the second portion with a force greater than a force with which the second elastic body urges the first portion. 9. The printer according to claim 7 , wherein each of the first and second elastic bodies comprise a spring, and wherein a spring constant of the first elastic body is greater than a spring constant of the second elastic body. 10. The printer according to claim 6 , wherein the first portion rotates with and does not move relative to the winding core main body. 11. The printer according to claim 6 , wherein the non-rotating body has a concave surface and the second portion has a convex-shaped end that is pressed against the concave surface. 12. The printer according to claim 6 , wherein the rotating body has one of a claw or a groove formed thereon at a position facing the first portion, and the first portion is one of a groove or a claw which engages one of the claw or the groove formed on the rotating body. 13. The printer according to claim 6 , wherein the sheet holding portion comprises a cut formed on the winding core in the axial direction of the winding core and an edge of the sheet is inserted into the cut when held by the sheet holding portion. 14. A sheet winding mechanism comprising: a rotating body; a non-rotating body; and a winding core coupled to the rotating body to rotate with the rotating body, the winding core having a first portion that engages with the rotating body, a second portion that is pressed against and rotatable with respect to the non-rotating body, a sheet holder configured to hold an end portion of a sheet, and a first spring that urges the second portion outward along the axial direction against the non-rotating body, wherein, when the rotating body rotates the winding core while the sheet holder is holding the end portion of the sheet, the sheet is wound around the winding core. 15. The sheet winding mechanism according to claim 14 , wherein the first portion is also movable in the axial direction and the winding core further includes a second spring which urges the first portion outward along the axial direction against the rotating body. 16. The sheet winding mechanism according to claim 15 , wherein a spring constant of the first spring is greater than a spring constant of the second spring. 17. The sheet winding mechanism according to claim 14 , wherein the first portion rotates with and does not move relative to the winding core main body. 18. The sheet winding mechanism according to claim 14 , wherein the non-rotating body has a concave surface and the second portion has a convex-shaped end that is pressed against the concave surface. 19. The sheet winding mechanism according to claim 14 , wherein the rotating body has one of a claw or a groove formed thereon at a position facing the first portion, and the first portion is one of a groove or a claw which engages one of the claw or the groove formed on the rotating body. 20. The sheet winding mechanism according to claim 14 , wherein the sheet holder comprises a cut formed on the winding core in the axial direction of the winding core and an edge of the sheet is inserted into the cut when held by the sheet holder.