X-Ray Imaging Method, X-Ray Imaging System, and X-Ray Imaging Program

1 . An X-ray imaging method comprising: acquiring, in a mobile terminal storing an X-ray imaging program, a pre-captured X-ray image captured through X-rays with which a subject is irradiated from an X-ray irradiator and that pass through the subject and generated by an image processing apparatus provided separately from the mobile terminal; acquiring, in the mobile terminal, imaging assistance information for assistance in capturing a main captured X-ray image captured through X-rays with which the subject is irradiated from the X-ray irradiator based on the X-ray imaging program and the pre-captured X-ray image after capturing the pre-captured X-ray image; and displaying the imaging assistance information on a display of the mobile terminal before capturing the main captured X-ray image. 2 . The X-ray imaging method according to claim 1 , wherein the acquiring the imaging assistance information includes acquiring at least one of position correction information for a user to manually correct a relative position between the X-ray irradiator and the subject, dose correction information for manual correction of an dose of X-rays with which the subject is irradiated from the X-ray irradiator, and operation procedure information indicating an operation procedure for the user when capturing the main captured X-ray image as the imaging assistance information based on the pre-captured X-ray image. 3 . The X-ray imaging method according to claim 2 , wherein the imaging assistance information includes the position correction information; and the position correction information includes information on a movement direction in horizontal directions and a movement distance when the user manually moves the X-ray irradiator and the subject relative to each other. 4 . The X-ray imaging method according to claim 2 , wherein the imaging assistance information includes the position correction information; and the position correction information includes information on a pre-correction position for aligning a current position of the X-ray irradiator, and information on a corrected position of the X-ray irradiator to which the X-ray irradiator is moved for position correction from the pre-correction position. 5 . The X-ray imaging method according to claim 2 , wherein the imaging assistance information includes the position correction information; and the position correction information is information for correcting a positional deviation between outer edges in a direction perpendicular to an irradiation direction of the X-ray irradiator included in a bone(s) or an artificial joint of the subject in the pre-captured X-ray image based on the pre-captured X-ray image. 6 . An X-ray imaging method comprising: acquiring, in a mobile terminal, a pre-captured X-ray image captured through X-rays with which a subject is irradiated from an X-ray irradiator and that pass through the subject; acquiring, in the mobile terminal, imaging assistance information for assistance in capturing a main captured X-ray image captured through X-rays with which the subject is irradiated from the X-ray irradiator based on the pre-captured X-ray image after capturing the pre-captured X-ray image; and displaying the imaging assistance information on a display of the mobile terminal before capturing the main captured X-ray image, wherein the acquiring the imaging assistance information includes acquiring at least one of position correction information for a user to manually correct a relative position between the X-ray irradiator and the subject, dose correction information for manual correction of an dose of X-rays with which the subject is irradiated from the X-ray irradiator, and operation procedure information indicating an operation procedure for the user when capturing the main captured X-ray image as the imaging assistance information based on the pre-captured X-ray image, the imaging assistance information includes the position correction information and is information for correcting a positional deviation between outer edges in a direction perpendicular to an irradiation direction of the X-ray irradiator included in a bone(s) or an artificial joint of the subject in the pre-captured X-ray image based on the pre-captured X-ray image, and the acquiring the position correction information includes finding a part of the outer edge on the X-ray irradiator side and a part of the outer edge on a side opposite to the X-ray irradiator side in the irradiation direction included in the bone(s) or the artificial joint of the subject in the pre-captured X-ray image based on the pre-captured X-ray image to acquire the position correction information; displaying the pre-captured X-ray image on the display of the mobile terminal with an identification mark being indicated to find the part of the outer edge on the X-ray irradiator side and the part of the outer edge on the side opposite to the X-ray irradiator side; and receiving determination of the user on whether to perform position correction to align the part of the outer edge on the X-ray irradiator side and the part of the outer edge on the side opposite to the X-ray irradiator side with each other or position correction to correct a relative positional relation between the part of the outer edge on the X-ray irradiator side and the part of the outer edge on the side opposite to the X-ray irradiator side to bring the relative positional relation to a predetermined positional relation. 7 . The X-ray imaging method according to claim 1 , wherein, in the mobile terminal, the pre-captured X-ray image is acquired through network, the pre-captured X-ray image is acquired by capturing the pre-captured X-ray image displayed on a display apparatus through an image capturer provided in the mobile terminal, or the pre-captured X-ray image is acquired through a portable storage medium in the acquiring the pre-captured X-ray image. 8 . The X-ray imaging method according to claim 1 further comprising capturing the pre-captured X-ray image under an imaging condition in which a dose of X-rays when the pre-captured X-ray image is captured is smaller than a dose of X-rays when the main captured X-ray image is captured; and capturing the main captured X-ray image under an imaging condition in which the dose of X-rays when the main captured X-ray image is captured is higher than the dose of X-rays when the pre-captured X-ray image is captured after the pre-captured X-ray image is captured. 9 . An X-ray imaging system comprising: an X-ray imaging apparatus including an X-ray irradiator irradiating a subject with X-rays and a detector detecting X-rays with which the subject is irradiated from the X-ray irradiator and that pass through the subject; and a mobile terminal provided separately from the X-ray imaging apparatus and an image processing apparatus, wherein the mobile terminal includes a storage storing an X-ray imaging program, a controller acquiring imaging assistance information for assistance in capturing a main captured X-ray image captured through X-rays with which the subject is irradiated from the X-ray irradiator based on the X-ray imaging program and a pre-captured X-ray image captured through X-rays with which the subject is irradiated from the X-ray irradiator and that pass through the subject and generated by the image processing apparatus after capturing the pre-captured X-ray image, and a display configured to display the imaging assistance information acquired in the controller. 10 . A storage medium storing an X-ray imaging program to be executed in a mobile terminal, the program causing the mobile terminal to perform acquiring a pre-captured X-ray image captured through X-rays with which