X-ray device and method for controlling X-ray irradiation area using the same

What is claimed is: 1. An X-ray device comprising: a camera configured to image an object and output the image of the object; a display member configured to display the image of the object and an image of an X-ray irradiation region of the object; an X-ray irradiation region controller configured to control the X-ray irradiation region of the object to which X-rays are irradiated; and a control member configured to enable the X-ray irradiation region controller to control the X-ray irradiation region, based on the image of the X-ray irradiation region displayed in the display member, wherein the display member displays the image of the X-ray irradiation region as a first image in the image of the object output from the camera such that the first image of the X-ray irradiation region overlaps the image of the object, and wherein the display member further displays a second image of the X-ray irradiation region, in addition to the first image of the X-ray irradiation region to be overlapped with the image of the object, such that the first image of the X-ray irradiation region overlapped with the image of the object is changed according to a change of the second image of the X-ray irradiation region. 2. The X-ray device according to claim 1 , wherein the X-ray irradiation region is determined based on the image of the X-ray irradiation region displayed in the display member in response to a user instruction. 3. The X-ray device according to claim 2 , wherein the user instruction comprises an instruction input through a touch of the image of the X-ray irradiation region displayed in the display member. 4. The X-ray device according to claim 2 , wherein the user instruction comprises an instruction input through at least one of a remote controller, a mouse, an input device, an audio recognition unit and a motion recognition unit. 5. The X-ray device according to claim 1 , wherein the display member includes a touchscreen and displays a plurality of information for guiding an X-ray imaging of the object in a plurality of regions on the touchscreen, respectively. 6. The X-ray device according to claim 1 , wherein the display member displays a previously input list of X-ray imaging parts of the object in order to allow a user to select one of the X-ray imaging parts of the object. 7. The X-ray device according to claim 1 , wherein the display member displays a value representing an estimated amount of irradiated X-rays determined according to a size of the X-ray irradiation region. 8. The X-ray device according to claim 1 , wherein the camera directly images the object in a region larger than the X-ray irradiation region. 9. The X-ray device according to claim 1 , wherein the display member is further configured to display the image of the object and an image of the X-ray irradiation region of the object before the X-rays are irradiated to the object. 10. The X-ray device according to claim 1 , wherein when an user instruction to adjust a size and position of the image of the X-ray irradiation region is received by the control member, the control member is further configured to control the size and position of the image of the X-ray irradiation region in accordance with the user instruction, to enable the display member to display the image of the X-ray irradiation region that has the controlled size and position and to enable the X-ray irradiation region controller to control the X-ray irradiation region of the object to which the X-rays will be irradiated based on the controlled size and position of the image of the X-ray irradiation region. 11. The X-ray device according to claim 1 , wherein the camera is mounted to an outside of an aperture of the X-ray irradiation region controller. 12. A method for controlling an X-ray irradiation region comprising: displaying an image of an object obtained by a camera of an X-ray device in a display member of the X-ray device; displaying an image of an X-ray irradiation region in the display member displaying the obtained image of the object; and controlling a region of the object to which X-rays are irradiated, based on the image of the X-ray irradiation region displayed in the display member, wherein the displaying the image of the X-ray irradiation region comprises: displaying the image of the X-ray irradiation region as a first image in the image of the object output from the camera such that the first image of the X-ray irradiation region overlaps the image of the object; and displaying a second image of the X-ray irradiation region, in addition to the first image of the X-ray irradiation region to be overlapped with the image of the object, such that the first image of the X-ray irradiation region overlapped with the image of the object is changed according to a change of the second image of the X-ray irradiation region. 13. The method according to claim 12 , wherein the controlling of the region of the object to which X-rays are irradiated, based on the image of the X-ray irradiation region displayed in the display member, is carried out by controlling the image in response to a user instruction. 14. The method according to claim 13 , wherein the user instruction comprises an instruction input through a touch of the image of the X-ray irradiation region displayed in the display member. 15. The method according to claim 13 , wherein the user instruction comprises an instruction input through at least one of a remote controller, a mouse, an input device, an audio recognition unit and a motion recognition unit. 16. The method according to claim 12 , wherein a value representing an estimated amount of irradiated X-rays is displayed according to a size of the X-ray irradiation region, when the X-ray irradiation region is displayed. 17. The X-ray device according to claim 12 , wherein the display member includes a touchscreen and display a plurality of information guiding X-ray imaging of the object in a plurality of regions on the touchscreen, respectively. 18. The method according to claim 12 , wherein the controlling of the region of the object to which an X-ray is irradiated, based on the image of the X-ray irradiation region displayed in the display member, is carried out by displaying the image of the X-ray irradiation region controlled by a user instruction on the object image displayed in the display member such that the image of the X-ray irradiation region overlaps the object image and then by controlling the region of the object to which X-rays are irradiated. 19. The method according to claim 18 , wherein the X-ray irradiation region is controlled to be in a different area from an initially set area to control the irradiation region by displaying the image of the X-ray irradiation region controlled by the user instruction on the object image displayed in the display member such that the image of the X-ray irradiation region overlaps the object image. 20. The method according to claim 12 , wherein, when the image of the object obtained by the camera of the X-ray device is displayed in the display member of the X-ray device, the image of the X-ray irradiation region to guide control of the X-ray irradiation region is separately displayed. 21. The method according to claim 12 , wherein the camera directly images the object in a region larger than the X-ray irradiation region.