Fixing device for securing thin-walled component, and method of manufacturing elastic member for use in the fixing device

What is claimed is: 1. A fixing device for securing a thin-walled component, the fixing device comprising: a support; a pressing portion provided on the support, the pressing portion comprising: a pressure generator located at a center of the support; and a plurality of pressure transmitters arranged around the pressure generator and extending in a radial direction of the thin-walled component; and a plurality of elastic members connected to the plurality of pressure transmitters, wherein the plurality of pressure transmitters are configured to move the plurality of elastic members in the radial direction, wherein each of the plurality of elastic members comprises a connector coupled to an inner surface of each of the plurality of elastic members, and wherein the connector is coupled to a pressure transmitter from among the plurality of pressure transmitters. 2. The fixing device of claim 1 further comprising: an upper plate having a first ring shape and provided on a first surface of each of the plurality of elastic members; and a lower plate having a second ring shape and provided on a second surface opposite to the first surface of the plurality of elastic members, wherein the upper plate comprises a plurality of first guide grooves extending from an outer edge of the upper plate toward a center of the upper plate, and wherein the lower plate comprises a plurality of second guide grooves extending from an outer edge of the lower plate toward a center of the lower plate. 3. The fixing device of claim 2 , wherein each of the plurality of elastic members comprises: first guides coupled to the first surface of each of the plurality of elastic members; and second guides coupled to the second surface of each of the plurality of elastic members, and wherein the first guides and the second guides are provided in the plurality of first guide grooves and the plurality of second guide grooves, respectively. 4. The fixing device of claim 3 , wherein each of the plurality of elastic members comprises first nut plates coupled to the first and second guides and embedded in each of the plurality of elastic members. 5. The fixing device of claim 3 , wherein a length of each of the first guide grooves and each of the second guide grooves in the radial direction is greater than a length of each of the first and second guides in the radial direction, and wherein the first and second guides are configured to move along the first guide groove and the second guide groove in the radial direction. 6. The fixing device of claim 1 , wherein each of the plurality of elastic members comprises a second nut plate coupled to the connector and embedded in each of the plurality of elastic members. 7. The fixing device of claim 1 , wherein a gap exists between the plurality of elastic members, and wherein a size of the gap is increased or reduced as positions of the plurality of elastic members are changed. 8. A method of manufacturing an elastic member of the fixing device of claim 1 , the method comprising: placing a mold on a thin-walled component; filling a space between the mold and the thin-walled component with a melted resin comprising urethane; curing the melted resin between the mold and the thin-walled component thereby forming the elastic member of the fixing device; and separating the elastic member from the mold and the thin-walled component, wherein the mold comprises: a main body having a cylindrical shape; a first limiter formed along an edge of a first end of the main body and protruding in the radial direction from the main body; a second limiter formed along an edge of a second end of the main body and protruding in of the radial direction from the main body, wherein the second end of the main body is opposite to the first end of the main body in a longitudinal direction of the main body; and first nut plates coupled to the first limiter and the second limiter, and wherein in response to the elastic member being separated from the mold and the thin-walled component, the first nut plates are separated from the first limiter and the second limiter and are respectively embedded in the elastic member. 9. The method of claim 8 , wherein the first nut plates comprises: first top nut plates located on a surface of the first limiter facing the second limiter; and first bottom nut plates located on a surface of the second limiter facing the first limiter. 10. The method of claim 8 , further comprising coupling guides to the first nut plates of the elastic member. 11. The method of claim 8 , wherein the mold further comprises: a plurality of partition walls provided on an outer surface of the main body, connecting the first limiter and the second limiter, and arranged along a circumferential surface of the main body such that adjacent partition walls among the plurality of partition walls are spaced apart from each other by a predetermined interval along a circumferential direction of the main body; and second nut plates, each of second nut plates located between the adjacent partition walls from among the plurality of partition walls and coupled to the outer surface of the main body, wherein in response to the elastic member being separated from the mold and the thin-walled component, the second nut plates are separated from the main body and are embedded in the elastic member. 12. The method of claim 11 , further comprising coupling a connector to each of the second nut plates. 13. The method of claim 8 , wherein the mold further comprises a plurality of partition walls contacting the first limiter and the second limiter, located on an outer surface of the main body, and arranged along a circumferential surface of the main body such that adjacent partition walls among the plurality of partition walls are spaced apart from each other by a predetermined interval in a circumferential direction of the main body, wherein the plurality of partition walls contact an inner surface of the thin-walled component so as to divide a space between the mold and the thin-walled component into a plurality of spaces along the circumferential direction, and wherein a plurality of elastic members are formed so as to be separated from one another between the plurality of partition walls. 14. The method of claim 8 , wherein the thin-walled component comprises at least one hole, wherein the at least one hole is sealed by a pair of sealing plates respectively located on opposite side surfaces of the thin-walled component, and wherein the pair of sealing plates are respectively attached to the opposite side surfaces of the thin-walled component by a bolt passing through the pair of sealing plates and a nut engaged with the bolt to conform to shapes of the opposite side surfaces of the thin-walled component. 15. A fixing device for securing a thin-walled component in a machining process, the fixing device comprising: a lower plate; a pressing portion provided on the lower plate, the pressing portion comprising a plurality of pressure transmitters arranged along a circumferential direction of the thin-walled component; and an elastic member having a shape corresponding to an inner surface of the thin-walled component and attached to the plurality of pressure transmitters, wherein the plurality of pressure transmitters are configured to move in a radial direction of the thin-walled component to move a plurality of elastic members in the radial direction of the thin-walled component, wherein the elastic member comprises a plurality of connectors arranged along the circumferential direction and coupled to